Omron Network Card CJ1W ETN11 User Manual

Cat. No. W343-E1-07

SYSMAC

CS/CJ Series

CS1W-ETN01 (10Base-5)

CS1W-ETN11 (10Base-T)

CJ1W-ETN11 (10Base-T)

Ethernet Units

OPERATION MANUAL

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CS1W-ETN01 (10Base-5)

CS1W-ETN11 (10Base-T)

CJ1W-ETN11 (10Base-T)

Ethernet Units

Operation Manual

Revised January 2008

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Notice:

OMRON products are manufactured for use according to proper procedures by a qualified operator

and only for the purposes described in this manual.

The following conventions are used to indicate and classify precautions in this manual. Always heed

the information provided with them. Failure to heed precautions can result in injury to people or dam-

age to property.

!DANGER

Indicates an imminently hazardous situation which, if not avoided, will result in death or

serious injury. Additionally, there may be severe property damage.

!WARNING

!Caution

Indicates a potentially hazardous situation which, if not avoided, could result in death or

serious injury. Additionally, there may be severe property damage.

Indicates a potentially hazardous situation which, if not avoided, may result in minor or

moderate injury, or property damage.

OMRON Product References

All OMRON products are capitalized in this manual. The word “Unit” is also capitalized when it refers to

an OMRON product, regardless of whether or not it appears in the proper name of the product.

The abbreviation “Ch,” which appears in some displays and on some OMRON products, often means

“word” and is abbreviated “Wd” in documentation in this sense.

The abbreviation “PC” means Programmable Controller and is not used as an abbreviation for anything

else.

Visual Aids

The following headings appear in the left column of the manual to help you locate different types of

information.

Note Indicates information of particular interest for efficient and convenient opera-

tion of the product.

1,2,3...

1. Indicates lists of one sort or another, such as procedures, checklists, etc.

 OMRON, 2000

by any means, mechanical, electronic, photocopying, recording, or otherwise, without the prior written permission of

OMRON.

No patent liability is assumed with respect to the use of the information contained herein. Moreover, because OMRON is con-

stantly striving to improve its high-quality products, the information contained in this manual is subject to change without

notice. Every precaution has been taken in the preparation of this manual. Nevertheless, OMRON assumes no responsibility

for errors or omissions. Neither is any liability assumed for damages resulting from the use of the information contained in

this publication.

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TABLE OF CONTENTS

PRECAUTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . xvii

Intended Audience . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

General Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Safety Precautions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Operating Environment Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Application Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Conformance to EC Directives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

xviii

xix

xxi

SECTION 1

Features and System Configuration . . . . . . . . . . . . . . . .

1-1 Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-2 System Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-3 Devices Required in a Network . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-4 Related Programming Devices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-5 Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-6 Software Configuration. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-7 IP Addresses . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-8 Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

SECTION 2

Communications Functions . . . . . . . . . . . . . . . . . . . . . . .

2-1 Communications Functions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

2-2 FINS Communications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

2-3 Socket Services . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

2-4 FTP Server . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

2-5 Mail . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

SECTION 3

Installation and Initial Setup . . . . . . . . . . . . . . . . . . . . . .

3-1 Before Operation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-2 Overview of Startup Procedure. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-3 Unit Components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-4 Switch Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-5 Mounting to a PC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-6 Connecting to the Network . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-7 Creating an I/O Table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-8 Creating Routing Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-9 System Setup. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-10 Creating an IP Address Table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-11 Creating an IP Router Table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-12 Checking Communications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

vii

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TABLE OF CONTENTS

SECTION 4

System Setup and Memory Allocations. . . . . . . . . . . . . .

4-1 Allocated Words . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-2 CPU Bus Unit System Setup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-3 CIO Area Allocations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-4 DM Area Allocations. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

SECTION 5

FINS Communications . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-1 Overview of FINS Communications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-2 Procedure Before Using FINS Communications. . . . . . . . . . . . . . . . . . . . . . . . . .

5-3 Sending Commands From a PC. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-4 Sending Commands From a Host Computer. . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-5 FINS Server . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

102

SECTION 6

Socket Services. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 103

6-1 Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-2 Using Socket Services with Socket Service Request Switches. . . . . . . . . . . . . . .

6-3 Using Socket Services with CMND(490) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

104

112

139

SECTION 7

FTP Server . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 161

7-1 Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7-2 Setting Login Names and Passwords. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7-3 Using File Memory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7-4 FTP Server Application Example . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7-5 Using FTP Commands. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7-6 UNIX Application Example . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

162

163

167

168

174

SECTION 8

Mai l . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 77

8-1 Overview of Mail Function . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

8-2 Sending Mail . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

8-3 Mail Example. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

178

182

SECTION 9

Testing Communications . . . . . . . . . . . . . . . . . . . . . . . . . 185

9-1 Communications Testing Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

9-2 PING Command . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

9-3 Internode Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

186

187

viii

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TABLE OF CONTENTS

SECTION 10

Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 191

10-1 Troubleshooting with Indicators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

10-2 Error Status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

10-3 Error Log. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

10-4 Error Log Error Codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

10-5 Troubleshooting Procedures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

10-6 Troubleshooting with Response Codes. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

10-7 Results Storage Area Response Codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

192

194

195

197

207

210

SECTION 11

FINS Commands Addressed to Ethernet Units . . . . . . . 213

11-1 Command Codes and Response Codes. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-2 Socket Applications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3 Command/Response Reference . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

214

215

217

Appendices

Network Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

251

261

263

265

267

269

277

279

283

285

Ethernet Network Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Buffer Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

TCP Status Transitions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Auxiliary Area Data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

CPU Bus Unit Allocations in the CPU Unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

ASCII Characters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Dimensions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Maintenance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Inspections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Index. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 287

Revision History . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 293

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About this Manual:

This manual describes the installation and operation of the SYSMAC CS-series CS1W-ETN01

(10Base-5) and CS1W-ETN11 (10Base-T) Ethernet Units and the CJ-series CJ1W-ETN11 (10Base-T)

Ethernet Unit, and includes the sections described on the next page.

An Ethernet Unit is classified and treated as a CPU Bus Unit in PC processing.

This manual is based on Ethernet* networks comprised of Ethernet Unit nodes and UNIX* host com-

puter nodes. Although details can vary, theoretically any device supporting the same Ethernet proto-

cols as the Ethernet Unit can form nodes on the network.

Note *Ethernet is a trademark of the Xerox Corporation. UNIX is a registered trademark of USL.

Please read this manual and all related manuals listed in the following table carefully and be sure you

understand the information provided before attempting to install and operate an Ethernet Unit.

Name

Cat. No.

Contents

SYSMAC CS/CJ-series

CS1W-ETN01/ETN11

CJ1W-ETN11

W343-E1-@

Describes the installation and operation of the CS1W-ETN01 (10Base-

5), CS1W-ETN11 (10Base-T), and CJ1W-ETN11 Ethernet Units.

Refer to the CX-Programmer User’s Manual for information on setting

the CPU Bus Unit Setup for the Ethernet Unit.

Ethernet Units

Operation Manual

(this manual)

Refer to the Communications Commands Reference Manual (W342) for

information on FINS commands that can be addressed to CS/CJ-series

CPU Units.

SYSMAC CS/CJ-series

CS1W-ETN21

CJ1W-ETN21

Ethernet Units

Operation Manual

(Construction of Networks)

W420-E1-@

Describes the basic settings and FINS communications for the CS1W-

ETN21 (100Base-TX) and CJ1W-ETN21 (100Base-TX) Ethernet Units.

Refer to the Communications Commands Reference Manual (W342) for

information on FINS commands that can be addressed to CS/CJ-series

CPU Units.

SYSMAC CS/CJ-series

CS1W-ETN21

CJ1W-ETN21

W421-E1-@

Provides information for the CS1W-ETN21 (100Base-TX) and CJ1W-

ETN21 (100Base-TX) Ethernet Units on functions such as mail trans-

mission, socket services, automatic clock adjustment, FTP server, and

creating host applications with FINS communications.

Ethernet Units

Operation Manual

(Construction of Applications)

SYSMAC CS-series

W339-E1-@

W393-E1-@

W394-E1-@

Provides an outline of and describes the design, installation, mainte-

nance, and other basic operations for the CS-series PCs.

CS1G/H-CPU@@-EV1, CS1G/H-CPU@@H

Programmable Controllers

Operation Manual

SYSMAC CJ-series

CJ1G-CPU@@

Programmable Controllers

Operation Manual

Provides an outline of and describes the design, installation, mainte-

nance, and other basic operations for the CJ-series PCs.

SYSMAC CS/CJ-series

This manual describes programming and other methods to use the func-

tions of the CS/CJ-series PCs.

CS1G/H-CPU@@-EV1,CS1G/H-CPU@@H,

CJ1G/H-CPU@@H, CJ1M-CPU@@,

CJ1G-CPU@@

Programmable Controllers

Programming Manual

SYSMAC CS/CJ-series

W340-E1-@

Describes the ladder diagram programming instructions supported by

CS-series and CJ-series PCs.

CS1G/H-CPU@@-EV1,CS1G/H-CPU@@H,

CJ1G/H-CPU@@H, CJ1M-CPU@@,

CJ1G-CPU@@

Programmable Controllers

Instructions Reference Manual

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About this Manual, Continued

Name

Cat. No.

Contents

SYSMAC CS/CJ-series

C200H-PRO27-E, CQM1H-PRO01-E

CQM1-PRO01-E

W341-E1-@

Provides information on how to program and operate CS/CJ-series PCs

using a Programming Console.

Programming Consoles

Operation Manual

SYSMAC CS/CJ-series

W342-E1-@

Describes the C-series (Host Link) and FINS communications com-

mands used with CS/CJ-series PCs.

CS1G/H-CPU@@-EV1, CJ1G-CPU@@,

CS1W-SCB21-V1/41-V1, CS1W-SCU21,

CJ1W-SCU41

Communications Commands

Reference Manual

SYSMAC WS02-CXPC1-EV3

CX-Programmer Ver. 3.1

Operation Manual

W414-E1-@

Provide information on how to use the CX-Programmer, a programming

device that supports the CS/CJ-series PCs, and the CX-Net contained

within CX-Programmer.

SYSMAC CS/CJ-series

CS1W-SCB21-V1/41-V1, CS1W-SCU21

CJ1W-CSU41

W336-E1-@

Describes the use of Serial Communications Units and Boards to per-

form serial communications with external devices, including the usage

of standard system protocols for OMRON products.

Serial Communications Boards and Serial

Communications Units

Operation Manual

This manual contains the following sections.

Section 1 introduces the overall structure of an Ethernet network, outlines the features of the Ethernet

Unit, describes the communications protocols used by an Ethernet network, and provides basic pre-

cautions for use of an Ethernet network.

Section 2 provides an overview of the communications functions that can be used with the Ethernet

Unit.

Section 3 explains how to install the Ethernet Unit and make the initial settings required for operation.

Section 4 explains the system setup and the words allocated in the CIO Area and the DM Area for

Ethernet Unit operations.

Section 5 provides information on communicating on Ethernet networks and interconnected networks

using FINS commands. The information provided in the section deals only with FINS communications

in reference to Ethernet Units. FINS commands issued from a PC are sent via the SEND(090),

RECV(098), and CMND(490) instructions programmed into the user ladder-diagram program. Refer to

the CS/CJ-series CS1G/H-CPU@@-E, CJ1G-CPU@@ Programmable Controllers Instruction Refer-

ence Manual (W340) for further details on programming these instructions.

Section 6 describes the functionality provided by the Ethernet Unit via the socket services.

Section 7 describes the functions provided by the FTP server.

Section 8 explains the Ethernet Unit’s mail function.

Section 9 describes functions that allow you to test communications.

Section 10 describes information and procedures that can be used to troubleshoot problems that

sometimes occur with Ethernet Unit and Ethernet communications.

Section 11 describes the FINS commands that can be sent to an Ethernet Unit and the responses that

are returned by the Ethernet Unit.

Various Appendices are provided for reference. Refer to the table of contents for a list of the appendi-

ces.

!WARNING Failure to read and understand the information provided in this manual may result in per-

sonal injury or death, damage to the product, or product failure. Please read each section

in its entirety and be sure you understand the information provided in the section and

related sections before attempting any of the procedures or operations given.

xii

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Read and Understand this Manual

Please read and understand this manual before using the product. Please consult your OMRON

representative if you have any questions or comments.

Warranty and Limitations of Liability

WARRANTY

OMRON's exclusive warranty is that the products are free from defects in materials and workmanship for a

period of one year (or other period if specified) from date of sale by OMRON.

OMRON MAKES NO WARRANTY OR REPRESENTATION, EXPRESS OR IMPLIED, REGARDING NON-

INFRINGEMENT, MERCHANTABILITY, OR FITNESS FOR PARTICULAR PURPOSE OF THE

PRODUCTS. ANY BUYER OR USER ACKNOWLEDGES THAT THE BUYER OR USER ALONE HAS

DETERMINED THAT THE PRODUCTS WILL SUITABLY MEET THE REQUIREMENTS OF THEIR

INTENDED USE. OMRON DISCLAIMS ALL OTHER WARRANTIES, EXPRESS OR IMPLIED.

LIMITATIONS OF LIABILITY

OMRON SHALL NOT BE RESPONSIBLE FOR SPECIAL, INDIRECT, OR CONSEQUENTIAL DAMAGES,

LOSS OF PROFITS OR COMMERCIAL LOSS IN ANY WAY CONNECTED WITH THE PRODUCTS,

WHETHER SUCH CLAIM IS BASED ON CONTRACT, WARRANTY, NEGLIGENCE, OR STRICT

LIABILITY.

In no event shall the responsibility of OMRON for any act exceed the individual price of the product on which

liability is asserted.

IN NO EVENT SHALL OMRON BE RESPONSIBLE FOR WARRANTY, REPAIR, OR OTHER CLAIMS

REGARDING THE PRODUCTS UNLESS OMRON'S ANALYSIS CONFIRMS THAT THE PRODUCTS

WERE PROPERLY HANDLED, STORED, INSTALLED, AND MAINTAINED AND NOT SUBJECT TO

CONTAMINATION, ABUSE, MISUSE, OR INAPPROPRIATE MODIFICATION OR REPAIR.

xiii

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Application Considerations

SUITABILITY FOR USE

OMRON shall not be responsible for conformity with any standards, codes, or regulations that apply to the

combination of products in the customer's application or use of the products.

At the customer's request, OMRON will provide applicable third party certification documents identifying

ratings and limitations of use that apply to the products. This information by itself is not sufficient for a

complete determination of the suitability of the products in combination with the end product, machine,

system, or other application or use.

The following are some examples of applications for which particular attention must be given. This is not

intended to be an exhaustive list of all possible uses of the products, nor is it intended to imply that the uses

listed may be suitable for the products:

• Outdoor use, uses involving potential chemical contamination or electrical interference, or conditions or

uses not described in this manual.

• Nuclear energy control systems, combustion systems, railroad systems, aviation systems, medical

equipment, amusement machines, vehicles, safety equipment, and installations subject to separate

industry or government regulations.

• Systems, machines, and equipment that could present a risk to life or property.

Please know and observe all prohibitions of use applicable to the products.

NEVER USE THE PRODUCTS FOR AN APPLICATION INVOLVING SERIOUS RISK TO LIFE OR

PROPERTY WITHOUT ENSURING THAT THE SYSTEM AS A WHOLE HAS BEEN DESIGNED TO

ADDRESS THE RISKS, AND THAT THE OMRON PRODUCTS ARE PROPERLY RATED AND

INSTALLED FOR THE INTENDED USE WITHIN THE OVERALL EQUIPMENT OR SYSTEM.

PROGRAMMABLE PRODUCTS

OMRON shall not be responsible for the user's programming of a programmable product, or any

consequence thereof.

xiv

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Disclaimers

CHANGE IN SPECIFICATIONS

Product specifications and accessories may be changed at any time based on improvements and other

reasons.

It is our practice to change model numbers when published ratings or features are changed, or when

significant construction changes are made. However, some specifications of the products may be changed

without any notice. When in doubt, special model numbers may be assigned to fix or establish key

specifications for your application on your request. Please consult with your OMRON representative at any

time to confirm actual specifications of purchased products.

DIMENSIONS AND WEIGHTS

Dimensions and weights are nominal and are not to be used for manufacturing purposes, even when

tolerances are shown.

PERFORMANCE DATA

Performance data given in this manual is provided as a guide for the user in determining suitability and does

not constitute a warranty. It may represent the result of OMRON's test conditions, and the users must

correlate it to actual application requirements. Actual performance is subject to the OMRON Warranty and

Limitations of Liability.

ERRORS AND OMISSIONS

The information in this manual has been carefully checked and is believed to be accurate; however, no

responsibility is assumed for clerical, typographical, or proofreading errors, or omissions.

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xvi

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PRECAUTIONS

This section provides general precautions for using the CS/CJ-series Programmable Controllers (PCs) and related devices.

The information contained in this section is important for the safe and reliable application of Programmable

Controllers. You must read this section and understand the information contained before attempting to set up or

operate a PC system.

Intended Audience . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

General Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Safety Precautions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Operating Environment Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Application Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

Conformance to EC Directives . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

xviii

xix

xxi

xvii

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Intended Audience

This manual is intended for the following personnel, who must also have

knowledge of electrical systems (an electrical engineer or the equivalent).

• Personnel in charge of installing FA systems.

• Personnel in charge of designing FA systems.

• Personnel in charge of managing FA systems and facilities.

General Precautions

The user must operate the product according to the performance specifica-

tions described in the operation manuals.

Before using the product under conditions which are not described in the

manual or applying the product to nuclear control systems, railroad systems,

aviation systems, vehicles, combustion systems, medical equipment, amuse-

ment machines, safety equipment, and other systems, machines, and equip-

ment that may have a serious influence on lives and property if used

improperly, consult your OMRON representative.

Make sure that the ratings and performance characteristics of the product are

sufficient for the systems, machines, and equipment, and be sure to provide

the systems, machines, and equipment with double safety mechanisms.

This manual provides information for programming and operating the Unit. Be

sure to read this manual before attempting to use the Unit and keep this man-

ual close at hand for reference during operation.

!WARNING It is extremely important that a PC and all PC Units be used for the specified

purpose and under the specified conditions, especially in applications that can

directly or indirectly affect human life. You must consult with your OMRON

representative before applying a PC System to the above-mentioned applica-

tions.

Safety Precautions

!WARNING Do not attempt to take any Unit apart while the power is being supplied. Doing

so may result in electric shock.

!WARNING Do not touch any of the terminals or terminal blocks while the power is being

supplied. Doing so may result in electric shock.

!WARNING Do not attempt to disassemble, repair, or modify any Units. Any attempt to do

so may result in malfunction, fire, or electric shock.

!WARNING Do not touch the Power Supply Unit while power is being supplied or immedi-

ately after power has been turned OFF. Doing so may result in electric shock.

!Caution Tighten the screws on the terminal block of the AC Power Supply Unit to the

torque specified in the operation manual. The loose screws may result in

burning or malfunction.

xviii

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Operating Environment Precautions

!Caution Execute online edit only after confirming that no adverse effects will be

caused by extending the cycle time. Otherwise, the input signals may not be

readable.

Operating Environment Precautions

!Caution Do not operate the control system in the following places:

• Locations subject to direct sunlight.

• Locations subject to temperatures or humidity outside the range specified

in the specifications.

• Locations subject to condensation as the result of severe changes in tem-

perature.

• Locations subject to corrosive or flammable gases.

• Locations subject to dust (especially iron dust) or salts.

• Locations subject to exposure to water, oil, or chemicals.

• Locations subject to shock or vibration.

!Caution Take appropriate and sufficient countermeasures when installing systems in

the following locations:

• Locations subject to static electricity or other forms of noise.

• Locations subject to strong electromagnetic fields.

• Locations subject to possible exposure to radioactivity.

• Locations close to power supplies.

!Caution The operating environment of the PC System can have a large effect on the

longevity and reliability of the system. Improper operating environments can

lead to malfunction, failure, and other unforeseeable problems with the PC

System. Be sure that the operating environment is within the specified condi-

tions at installation and remains within the specified conditions during the life

of the system. Follow all installation instructions and precautions provided in

the operation manuals.

Application Precautions

Observe the following precautions when using the PC System.

!WARNING Always heed these precautions. Failure to abide by the following precautions

could lead to serious or possibly fatal injury.

• Always connect to a ground of 100 Ω or less when installing the Units. Not

connecting to a ground to a ground of 100 Ω or less may result in electric

shock.

• A ground of 100 Ω or less must be installed when shorting the GR and LG

terminals on the Power Supply Unit.

• Always turn OFF the power supply to the PC before attempting any of the

following. Not turning OFF the power supply may result in malfunction or

electric shock.

xix

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Application Precautions

• Mounting or dismounting I/O Units, CPU Units, Inner Boards, or any

other Units.

• Assembling the Units.

• Setting DIP switches or rotary switches.

• Connecting cables or wiring the system.

!Caution Failure to abide by the following precautions could lead to faulty operation of

the PC or the system, or could damage the PC or PC Units. Always heed

these precautions.

• Fail-safe measures must be taken by the customer to ensure safety in the

event of incorrect, missing, or abnormal signals caused by broken signal

lines, momentary power interruptions, or other causes.

• Interlock circuits, limit circuits, and similar safety measures in external cir-

cuits (i.e., not in the Programmable Controller) must be provided by the

customer.

• Always use the power supply voltages specified in the operation manuals.

An incorrect voltage may result in malfunction or burning.

• Take appropriate measures to ensure that the specified power with the

rated voltage and frequency is supplied. Be particularly careful in places

where the power supply is unstable. An incorrect power supply may result

in malfunction.

• Install external breakers and take other safety measures against short-cir-

cuiting in external wiring. Insufficient safety measures against short-cir-

cuiting may result in burning.

• Be sure that all the mounting screws, terminal screws, and cable connec-

tor screws are tightened to the torque specified in the relevant manuals.

Incorrect tightening torque may result in malfunction.

• Leave the label attached to the Unit when wiring. Removing the label may

result in malfunction if foreign matter enters the Unit.

• Remove the label after the completion of wiring to ensure proper heat dis-

sipation. Leaving the label attached may result in malfunction.

• Use crimp terminals for wiring. Do not connect bare stranded wires

directly to terminals. Connection of bare stranded wires may result in

burning.

• Wire all connections correctly.

• Double-check all wiring and switch settings before turning ON the power

supply. Incorrect wiring may result in burning.

• Mount Units only after checking terminal blocks and connectors com-

pletely.

• Be sure that the terminal blocks, Memory Units, expansion cables, and

other items with locking devices are properly locked into place. Improper

locking may result in malfunction.

• Check the user program for proper execution before actually running it on

the Unit. Not checking the program may result in an unexpected opera-

tion.

• Do not lay communications cables near power lines or high-voltage lines.

• Always lay communications cables in ducts.

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Conformance to EC Directives

• Do not pull on the communications cables or bend the communications

cables beyond their natural limit. Doing either of these may break the

cables.

• Do not place objects on top of the communications cables or other wiring

lines. Doing so may break the cables.

• Before touching a Unit, be sure to first touch a grounded metallic object in

order to discharge any static built-up. Not doing so may result in malfunc-

tion or damage.

• When transporting or storing Units, place them in special packing boxes

and do not allow them to be subject to excessive shock or vibration during

transportation.

• Confirm that no adverse effect will occur in the system before attempting

any of the following. Not doing so may result in an unexpected operation.

• Changing the operating mode of the PC.

• Force-setting/force-resetting any bit in memory.

• Changing the present value of any word or any set value in memory.

Conformance to EC Directives

6-1

Applicable Directives

• EMC Directives

• Low Voltage Directive

6-2

Concepts

EMC Directives

OMRON devices that comply with EC Directives also conform to the related

EMC standards so that they can be more easily built into other devices or the

overall machine. The actual products have been checked for conformity to

EMC standards (see the following note). Whether the products conform to the

standards in the system used by the customer, however, must be checked by

the customer.

EMC-related performance of the OMRON devices that comply with EC Direc-

tives will vary depending on the configuration, wiring, and other conditions of

the equipment or control panel on which the OMRON devices are installed.

The customer must, therefore, perform the final check to confirm that devices

and the overall machine conform to EMC standards.

Note Conformance with the EMC (Electromagnetic Compatibility) standards for

EMS (Electromagnetic Susceptibility) and EMI (Electromagnetic Interference)

vary with the model in the way shown below.

Ethernet Unit

CS1W-ETN01/11

CJ1W-ETN11

EMS

EMI

EN61131-2

EN61000-6-2

EN61000-6-4 (Radiated emis-

sion: 10-m regulations)

Low Voltage Directive

Always ensure that devices operating at voltages of 50 to 1,000 VAC and 75

to 1,500 VDC meet the required safety standards for the PC (EN61131-2).

xxi

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SECTION 1

Features and System Configuration

This section introduces the overall structure of an Ethernet network, outlines the features of the Ethernet Unit, describes

the communications protocols used by an Ethernet network, and provides basic precautions for use of an Ethernet network.

1-1 Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-2 System Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-2-1 Device Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-2-2 Node Connections. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-3 Devices Required in a Network . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-3-1 10Base-5 Ethernet Unit. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-3-2 10Base-T Ethernet Unit . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-4 Related Programming Devices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-5 Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-6 Software Configuration. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-7 IP Addresses . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-7-1 IP Address Configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-7-2 Allocating IP Addresses . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-7-3 IP Address Settings. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-7-4 Subnet Masks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-8 Precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-8-1 Installation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

1-8-2 Ethernet and IEEE802.3 Standards. . . . . . . . . . . . . . . . . . . . . . . . . .

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Features

Section 1-1

1-1 Features

Select from 10Base-5 or

10Base-T

Three models of Ethernet Unit are provided to support both 10Base-5

(CS1W-ETN01) and 10Base-T (CS1W-ETN11/CJ1W-ETN11) Ethernet trans-

mission media.

Wide-ranging Control

Capability Using Ethernet

The Ethernet Unit enables a Programmable Controller (PC) to support a wide

range of protocols via Ethernet, including data communications by TCP/IP

and UDP/IP socket services, FINS command execution (OMRON’s standard

protocol), FTP file transfers, and SMTP message communications.

Communications by UDP/

IP and TCP/IP

The Ethernet Unit supports the standard Ethernet protocols, UDP/IP and

TCP/IP, so it can communicate with other Ethernet devices, workstations, per-

sonal computers, and Ethernet Units produced by other manufacturers. It can

utilize up to eight socket ports for the various protocols, allowing it to be

employed in a wide range of applications.

Easy Use of Socket

Services

TCP or UDP socket services can be easily accessed either by executing the

CMND(490) instruction or by presetting parameters and then manipulating

dedicated control switches in memory. Presetting parameters eliminates the

need for ladder programs to monitor the completion timing of instructions and

socket service processing, and thereby reduces the work hours involved in

program development.

FINS Message

Communications

(FINS Communications

Service Using UDP/IP)

The Ethernet Unit also supports FINS message communications, OMRON’s

standard communications service, so other OMRON PCs can be accessed by

using SEND(090), RECV(098), and CMND(490) instructions in ladder pro-

grams. In addition, the FINS gateway function can be used to allow access to

other PCs on not only the same Ethernet network but also on other networks

such as Controller Link and SYSMAC Link.

File Transfers Between PC

and Host Computer

(FTP Server Function)

The Ethernet Unit has a built-in FTP server function, so any workstation or

personal computer with an FTP client function can be used for reading files

from or writing files to the PC. This enables large amounts of data to be trans-

ferred at one time without any need for writing a ladder program.

E-mail Capability

User-defined messages, Unit error information, status information, and so on,

can be sent from the PC to the mail server as e-mail. This function allows

information generated at the production site to be sent out as e-mail.

24-VDC Power Supply for

Transceiver

For the CS1W-ETN01 (10Base-5), a 24-VDC power supply can be used as

the power supply for the transceiver. The Ethernet Unit voltage output pro-

vides for a voltage drop in the transceiver cables, so there is no need to adjust

the power supply voltage.

Controller Link Network

Connection

Ethernet, the information-system network, can be connected to Controller

Link, the control-system network, using the FINS communications service.

This allows a PC on the Controller Link network to be monitored from a PC on

the Ethernet network, and, conversely, for data to be exchanged between a

PC on the Controller Link network and a PC on the Ethernet network.

Abundant

Troubleshooting

Functions

The Ethernet Unit is provided with a variety of troubleshooting functions for

prompt recovery in case of errors.

• Self-diagnostic function at startup

• PING command for checking remote nodes

• Inter-nodal tests for checking remote nodes

• Error log for recording error history data

• E-mail notification when errors occur

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System Configuration

Section 1-2

1-2 System Configuration

1-2-1 Device Configuration

Workstation or personal computer

CX-Programmer

Ethernet (10 Mbps)

500 m/segment max.

10Base-5 coaxial cable

(or 10Base-T twisted-pair cable)

Between nodes:

Terminator

Ground

Integral multiples of 2.5 m

Transceiver

50 m max.

CVM1/CV-series

CJ-series

CS-series PC

CS-series

Transceiver cable

CJ1W-ETN11

Ethernet Unit

(10Base-T)

CS1W-ETN11

Ethernet Unit

(10Base-T)

100 m max.

CS-series

CS1W-ETN01

Ethernet Unit

(10Base-5)

CS-series

CJ-series

CVM1/CV Ethernet Unit

(10Base-5)

CS-series Controller Link Unit

CS-series PC

Controller Link network

CX-Programmer

C200HX/HG/HE PC

FA computer

Note

1. Transmission distance (from Terminator to Terminator):

500 meters/segment max.

2. When segments are indirectly connected by a repeater: 2.5 km/network

3. Node interval (from transceiver to transceiver): Integral multiples of 2.5 m

4. Transceiver cable length: 50 m max.

1-2-2 Node Connections

Minimal Configuration: 1 Segment

10Base-5

10Base-T

Node

1 segment

Hub

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Devices Required in a Network

Section 1-3

Configuration With

Segment Extension

Use repeaters to extend the distance between nodes or to increase the num-

ber of connected nodes.

10Base-5

Repeater

Node

1-3 Devices Required in a Network

1-3-1 10Base-5 Ethernet Unit

The basic configuration of a 10Base-5 Ethernet System consists of a single

coaxial cable together with the transceivers, transceiver cables, nodes, and so

on, that are connected to it. In an Ethernet System, this basic configuration is

called a “segment.”

CS1W-ETN01 Ethernet Unit

24-VDC

power supply

Transceiver cable (AUI cable)

50 m max.

Terminator

(terminating resistance)

Coaxial cable (10Base-5, outer diameter approx. 10 mm)

Transceivers

Terminator (terminating resistance)

2.5 m min.

(multiple of 2.5 m)

Segment (500 m max.)

Number of branch points: 100

The devices shown in the following table must be obtained to configure a net-

work using a 10Base-5 Ethernet Unit, so prepare them in advance. Use only

devices in the network that conform to IEEE802.3 standards.

Network device

Contents

CS-series 10Base-5

Ethernet Unit

The 10Base-5 Ethernet Unit is a Communications Unit

that connects a CS-series PC to an Ethernet network.

(CS1W-ETN01)

24-VDC power supply

This is a external 24-VDC power supply for the

purpose of providing power to the transceivers via

transceiver cable. Use a power supply with an output

current of at least 0.3 A per node. The power is

converted within the Unit to the transceiver power

supply voltage, and is provided to the transceiver.

Transceiver

The transceiver is a device for interfacing between the

coaxial cable and the nodes.

Note: The Ethernet Unit can provide a maximum

current of 0.4 A to the transceiver, so use a

transceiver with a current consumption of not more

than 0.4 A. Check with the manufacturer for

information regarding transceiver current

consumption.

Transceiver cable (AUI

cable)

This is the cable for connecting between transceivers

and nodes.

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Devices Required in a Network

Section 1-3

Network device

Coaxial cable

Contents

The coaxial cable comprises the main line of the

Ethernet System.

Terminator for coaxial cable The Terminators connect to both ends of the coaxial

(terminating resistance) cable.

Note

1. It is also possible to use 10Base-T twisted-pair cable by connecting the

Ethernet Unit to a 10Base-T conversion adapter.

2. A 24-VDC power supply is required even if a 10Base-T conversion adapter

is used.

10Base-T conversion adapter

1-3-2 10Base-T Ethernet Unit

The basic configuration of a 10Base-T Ethernet System consists of one hub

to which nodes are attached in star form through twisted-pair cable.

CS1W-ETN11/CJ1W-ETN11 Ethernet Units

Twisted-pair cables

100 m max.

Hub

The devices shown in the following table must be obtained to configure a net-

work using a 10Base-T Ethernet Unit, so prepare them in advance.

Network device

Contents

CS-series 10Base-T

Ethernet Unit (CS1W-

ETN11) or CJ-series

10Base-T Ethernet Unit

(CJ1W-ETN11)

The 10Base-T Ethernet Units are Communications Units

that connect a CS-series or CJ-series PCs to Ethernet

networks.

Twisted-pair cable

A twisted-pair cable that connects the 10Base-T Ethernet

Unit to the hub. The twisted-pair cable must have an RJ45

Modular Connector attached to each end. Use a category

3, 4, or 5 UTP (unshielded twisted-pair) cable.

Hub

A relay devices that connect multiple nodes in as star LAN.

Recommended Hub

Manufacturer

Model number

MR820TLX

Specifications

Inquires

Allied Telesis

9-port hub with

10Base-5 back-

bone port

Allied Telesis

(0120) 86-0442

(in Japan only)

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Related Programming Devices

Section 1-4

1-4 Related Programming Devices

The Ethernet Unit functions as a node on the Ethernet network. The basic set-

tings for operation are made in the CPU Bus Unit System Setup in the CS/CJ-

series CPU Unit. Use the CX-Programmer to make the settings.

Personal computer running Windows

CX-Programmer

CPU Bus Unit

System Setup

Screen

Ethernet Unit

CS/CJ-series CPU Unit

The following items are included in the System Setup.

Screen

Item

Broadcast setting

Default

All 1 (4.3BSD specifications)

Automatic generation

9600

Setup Screen

Address conversion method

FINS UDP port number

Local IP address (CJ Series only) 0.0.0.0 (Set the IP address in the allocated

words in the DM Area.)

Subnetwork mask

0.0.0.0 (Uses value corresponding to IP

address class.)

FTP login name

CONFIDENTIAL

Not set.

FTP password

IP address table

Not set.

IP router table

Not set.

Mail Setup Screen

Mail settings

None set.

Not set.

User-created mail data address

Local node address

Destination address

SMTP server address

Not set.

0.0.0.0 (Not set.)

When using the default values that are already stored in the CS/CJ-series

CPU Unit, there is no need to make any settings with the CX-Programmer.

Refer to 4-2 CPU Bus Unit System Setup for details on the above settings.

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Specifications

Section 1-5

1-5 Specifications

CS-series Ethernet Units

Item

Specifications

Model number

Type

CS1W-ETN01

CS1W-ETN11

10Base-T

10Base-5

Applicable PCs

Unit classification

Mounting location

CS-series PCs

CS-series CPU Bus Unit

CPU Rack or Expansion Rack

Number of Units that can be

mounted

4 max. (including Expansion Racks)

Transfer Media access method CSMA/CD

specifi-

Modulation

Baseband

Bus

cations

Transmission paths

Baud rate

Star

10 Mbps

Coaxial cable

Transmission media

Unshielded twisted-pair (UTP)

cable

Trans-

Segment

500 m max.

100 m max.

mission length

distance

Distance

2,500 m max.

---

between

nodes

Number of connect-

able nodes

100/segment max.

Multiples of 2.5 m

50 m max.

---

Distance between

nodes

Transceiver cable

length

Current consumption (Unit)

External power supply

400 mA max. at 5 VDC

---

Capacity:

0.3 A min. at 24 VDC (per node)

2.5 A max.

Inrush current:

(24-VDC startup time of 5 ms)

Permissible voltage fluctuation range:

20.4 to 26.4 VDC (24 VDC –15% to +10%)

Recommended power supply: OMRON S82J-series

Power supply to transceiver

Vibration resistance

Capacity:

0.4 A at 12 V

---

Voltage fluctuation range: 13.05 to 14.48 VDC

Ripple:

2% p-p

Conforms to JIS 0040.

10 to 57 Hz, 0.075-mm amplitude, 57 to 150 Hz, acceleration: 9.8 m/s²in X, Y, and Z

directions for 80 minutes each

(Time coefficient; 8 minutes × coefficient factor 10 = total time 80 minutes)

Shock resistance

Conforms to JIS 0041.

147 m/s²three times each in X, Y, and Z directions

Ambient temperature

Operating: 0 to 55°C

Storage: –20 to 75°C

Humidity

10% to 90% (with no condensation)

Must be free from corrosive gas.

300 g max.

Atmosphere

Weight

Dimensions

35 x 130 x 101 mm (W x H x D)

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Specifications

Section 1-5

CJ-series Ethernet Units

Item

Model number

Specifications

CJ1W-ETN11

Type

10Base-T

Applicable PCs

CJ-series PCs

Unit classification

CJ-series CPU Bus Unit

CPU Rack or Expansion Rack

Mounting location

Number of Units that can be mounted

Transfer Media access method

4 max. (including Expansion Racks)

CSMA/CD

specifi-

cations

Modulation

Baseband

Transmission paths

Star

Baud rate

10 Mbps

Transmission media

Unshielded twisted-pair (UTP) cable

100 m max.

Transmission

distance

Segment

length

Current consumption (Unit)

Vibration resistance

380 mA max. at 5 VDC

Conforms to JIS 0040.

10 to 57 Hz, 0.075-mm amplitude, 57 to 150 Hz, acceleration: 9.8 m/s²in X, Y,

and Z directions for 80 minutes each

(Time coefficient; 8 minutes × coefficient factor 10 = total time 80 minutes)

Shock resistance

Conforms to JIS 0041.

147 m/s²three times each in X, Y, and Z directions

Ambient temperature

Operating: 0 to 55°C

Storage: –20 to 75°C

Humidity

10% to 90% (with no condensation)

Must be free from corrosive gas.

100 g max.

Atmosphere

Weight

Dimensions

31 x 90 x 65 mm (W x H x D)

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Specifications

Section 1-5

Dimensions

6.6

CS1W-ETN01

(16.5 including cover)

101

(Unit: mm)

CS1W-ETN11

101

(Unit: mm)

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Software Configuration

Section 1-6

CJ1W-ETN11

ETN11

RUN ERC SD RD

ERH TCP FTP TS

UNIT

No.

NODE

No.

x16¹

x16⁰

ETHERNET

(Unit: mm)

1-6 Software Configuration

The software supported by the Ethernet Unit runs in the layers shown in the

following diagram. The components that form the various layers are defined

below the diagram.

Memory Card/

EM File Memory

FTP

CS/CJ-series PC's CPU

CS/CJ-series PC's CPU Unit

Mail

FINS Communication

Service

transmissions

Socket

Services

FINS

SMTP

TCP

ARP

FTP server

UDP

Ethernet Unit

ICMP

Ethernet (V2.0)

Ethernet

The Version-2.0 Ethernet frame format is used for communications.

Internet Protocol: Transfers datagrams to target nodes using IP addresses.

ICMP

Internet Control Message Protocol: Supports IP communications by signalling

errors in data transfers.

ARP

UDP

Address Resolution Protocol: Determines the Ethernet address (i.e., physical

address) by broadcasting based on the target IP address.

User Datagram Protocol: Performs datagram communications. Data resends,

priority control, flow control, and other measures to ensure communications

reliability are not performed for UDP communications, i.e., there is no way of

guaranteeing normal communications without programming special measures

to do so into the user’s application program.

TCP

Transmission Control Protocol: Performs communications after establishing a

connection (i.e., a virtual circuit) with the target node to provide a highly reli-

able communications method.

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Software Configuration

Section 1-6

FINS

Factory Interface Network Service: A protocol that sends messages between

PCs on any of various OMRON FA networks. The user must provide mea-

sures such as retry processing to ensure that transmitted messages arrive at

the destination node.

SMTP

FTP

Simple Mail Transfer Protocol: A communications protocol for sending e-mail

by TCP/IP.

File Transfer Protocol: Transfers data files.

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IP Addresses

Section 1-7

1-7 IP Addresses

Ethernet networks use IP addresses for communications. IP addresses (Inter-

net addresses) identify both the Ethernet network and the node (host com-

puter, Ethernet Unit, etc.) on the Ethernet network. IP addresses must be set

and controlled so that they are not duplicated.

1-7-1 IP Address Configuration

IP addresses are made up of 32 bits of binary data divided into four 8-bit fields

called octets. These four octets provide the network number (net ID) and host

number (host ID). The network number identifies the network and the host

number identifies the node (or host) on the network.

The network numbers in an IP addresses are divided into three classes, A, B,

and C, so that the address system can be selected according to the scale of

the network. (Classes D and E are not used.) The configuration of the IP

address for each of these classes is shown in the following diagram.

Bit 31

Network number (7 bits)

Host number (24 bits)

Class A

Bit 31

Network number (14 bits)

Host number (16 bits)

Class B

Bit 31

Network number (21 bits)

Host number (8 bits)

Class C

Bit 31

Multicast address

(Cannot be used.)

Class D

Bit 31

Test address

Class E

The number of networks in each class and the number of nodes possible on

the network differ according to the class.

Class

Number of networks

Small

Number of hosts

²⁴– 2 max. (16,777,214 max.)

¹⁶– 2 max. (65.534 max.)

Class A

Class B

Class C

Medium

Large

2⁸– 2 max. (254 max.)

IP addresses are represented by the decimal equivalent of each of the four

octets in the 32-bit address, each separated by a period. For example, the

binary address 10000010 00111010 00010001 00100000would be rep-

resented as 130.58.17.32.

Note The same network number must be set for every node on the same Ethernet

network.

1-7-2 Allocating IP Addresses

IP (Internet Protocol) is a standard communications protocol used throughout

the world and is designed to enable communications between any Ethernet

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IP Addresses

Section 1-7

nodes regardless of the networks on which they exist. To achieve this, net-

work numbers are allocated by the Network Solutions, InterNIC Registration

Services, to ensure that all Ethernet networks have unique numbers regard-

less of where they exist. The local system administrator is left the responsibil-

ity of allocating unique host numbers locally. You therefore should obtain a

network number from the InterNIC Registration Services to ensure unique-

ness and allow for future network expansions if required.

1-7-3 IP Address Settings

An IP address must be set for the Ethernet Unit before Ethernet communica-

tions can proceed. The IP address is set for each CS-series Ethernet Unit

using the rotary switch on the back of the Unit. For more details, refer to Set-

ting the Local IP Address. The IP address for each CJ-series Ethernet Unit is

set in the DM Area words allocated to CPU Bus Units or the CPU Bus Unit

System Setup using a Programming Device. For more details, refer to 4-2

CPU Bus Unit System Setup or 4-4 DM Area Allocations.

1-7-4 Subnet Masks

Operation and management of a network may become very difficult if too

many nodes are connected on a single network or if a single organization has

to manage too many network numbers. It can therefore be convenient to

divide a single network up into several subnetworks by using part of the host

number as a subnet number. Internally the network can be treated as a num-

ber of subnetworks, but from the outside it acts as a single network and uses

only a single network number.

To establish subnetworks, the host number in the IP address is divided into a

subnet number and a host number by using a setting called the subnet mask.

The subnet mask indicates which part of the host number is to be used as the

subnet number. The user must first determine the number of bits of the host

number to be used as the subnet number and then set the subnet mask

accordingly. All bits in the subnet mask that correspond to the bits in the IP

address used either as the network number or subnet number are set to “1”

and the remaining bits, which will correspond to the bits in the IP address

actually used for the host number, are set to “0”.

The following example shows the subnet mask for an 8-bit subnet number

used in a class-B IP address. This subnet mask is structured as follows:

This would thus be a class-B IP address masked as a class-C IP address, i.e.,

externally it would be allocated a class-B IP address but internally it can be

addressed using class-C IP addresses.

Subnet mask: 11111111 11111111 11111111 00000000 (FFFFFF00)

It is only necessary to set subnet masks if subnetworks are used. If a subnet

mask is not set by the user, a default mask will be set automatically according

to the IP address class to indicate that the entire host number will be used as

the host number, i.e., no bits will be assigned for use as the subnet number.

All nodes on the network that are going to belong to the same subnetwork

must have the same subnet mask.

In this case, the following subnet mask values will be used depending on the

IP address class.

Class

Network mask value

Class A

Class B

Class C

255.0.0.0

255.255.0.0.0

255.255.255.0.0.0

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Precautions

Section 1-8

1-8 Precautions

Be sure to observe the following precautions when installing and using an

Ethernet Unit.

1-8-1 Installation

Observe the following precautions when installing an Ethernet System. (Refer

to Section 3 Installation and Initial Setup for details.)

1,2,3...

1. Use transceiver cable that meets IEEE802.3 standards to ensure high

noise resistance.

2. Use a transceiver with a current consumption of not more than 0.4 A per

port.

3. Always turn off the power supply to the PC before connecting or discon-

necting the transceiver cable.

4. Be sure not to exceed the current capacity of the Power Supply Unit on the

Rack to which the Ethernet Unit is mounted. The current consumption of

the CS-series Ethernet Units is 400 mA maximum and the current con-

sumption of the CJ-series Ethernet Unit is 380 mA maximum. This value

added to the current consumption of all other Units mounted to the same

Rack must not exceed the capacity of the Power Supply Unit.

5. Do not install the transceiver cables or coaxial cables of the Ethernet Sys-

tem near power supply lines. If installation near possible sources of noise

is unavoidable, install the cables in grounded metal ducts or take other

measure to eliminate noise interference.

1-8-2 Ethernet and IEEE802.3 Standards

The Ethernet Unit was designed based on version-2 Ethernet standards and

not on the international IEEE802.3 standards, which were developed based

on Version-2.0 Ethernet specifications. Although these two sets of standards

are similar, they are not necessarily the same. Particularly, different frame for-

mats are used, making direct communications impossible between systems

that do not support the same standards. Standards for equipment used to

configure networks are the same, allowing IEEE802.3-standard equipment to

be used with the Ethernet Unit. Particularly the transceiver cable for the

IEEE802.3 standards provides superior noise resistance and should be used

for the Ethernet Unit.

Terminology also differs between Version-2.0 Ethernet and IEEE802.3 stan-

dards. These differences are shown in the following table. Version-2.0 Ether-

net terminology is used in this manual.

Version-2 Ethernet

Transceiver

IEEE802.3

MAU

AUI

Transceiver cable

Ethernet address

Ethernet

MAC address

10Base-5/10Base-T

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SECTION 2

Communications Functions

This section provides an overview of the communications functions that can be used with the Ethernet Unit.

2-1 Communications Functions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

2-1-1 Ethernet Unit Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

2-1-2 Socket Ports Used By the Ethernet Unit. . . . . . . . . . . . . . . . . . . . . .

2-1-3 Selecting Communications Services. . . . . . . . . . . . . . . . . . . . . . . . .

2-2 FINS Communications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

2-3 Socket Services . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

2-4 FTP Server . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

2-5 Mail . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

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Communications Functions

Section 2-1

2-1 Communications Functions

The following table shows the communications service functions that are

available with the Ethernet Unit.

Function

FINS communications

Socket services

FTP server

Mail

Client PC to PC

server

---

By executing

SEND(090),

RECV(098),

or CMND(490)

By executing

CMND(490) or

manipulating dedicated

control switches in

memory.

FINS command

Any data

PC to host

computer

---

By executing

SEND(090),

RECV(098), or

CMND(490)

At PC: By executing

CMND(490) or

manipulating dedicated

control switches in

memory.

E-mail can be set to be

sent when specified

bits turn ON, when

errors occur, or at

fixed intervals.

Host computer (with

FINS Gateway function)

FINS command

Host computer (without

FINS Gateway function)

(Passive open)

Mail server

E-mail

Any data

(Active open)

Host com-

puter to

---

By sending FINS

messages from the

host computer.

At PC: By executing

CMND(490) or

manipulating dedicated

control switches in

memory.

FTP commands

executed by

host computer

Host computer

(with FINS Gate-

way function)

Host computer

File

Host computer (with-

out FINS Gateway

function)

FINS command

(Active open)

Any data

(Passive open)

Data type

FINS commands (vari- Any data (PC’s internal DOS files in File Mem- User-defined mes-

ous commands for I/O I/O memory)

memory communica-

ory (Memory Card or

EM File Memory)

sages, error log infor-

mation, status

tions in the PC, chang-

ing the operating mode,

reading and writing

information

files, and so on)

Maximum data size PC to PC: 1,980 bytes 1,984 bytes max.

max.

No particular limit.

User-defined mes-

sages: 1,024 bytes

max.

PC to host computer:

1,980 bytes max.

Host computer to PC:

2,000 bytes max.

Features

Enables control of PC

and host computer that standard TCP/IP and

Communications by

Files are read by

means of simple com- obtained by e-mail.

Ethernet Unit status is

support FINS com-

mands.

UDP/IP via Ethernet.

mands and applica-

tions from host

computers with FTP

client functions.

Notification of errors is

received by e-mail.

No need to set FINS

addresses.

Reference

Section 5 FINS Com-

munications

Section 6 Socket Ser-

vices

Section 7 FTP Server Section 8 Mail

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Communications Functions

Section 2-1

2-1-1 Ethernet Unit Functions

Function

Contents

FINS communications

• A SEND(090), RECV(098), or CMND(490) instruction from the PC’s lad-

der program is used to send a FINS command to a remote node, and a

response is received.

• A FINS command is received from a remote node. If the command is

addressed to the local Unit, it is processed internally. If it is addressed to

another Unit, a request is made to the CPU Unit and the result is sent

back to the remote node as a response.

• Following the FINS header information, the Ethernet Unit serves as a

gateway for FINS commands and responses between other Communi-

cations Units mounted to the same PC.

Socket services

The Ethernet Unit supports up to 16 ports (8 TCP ports and 8 UDP ports)

for socket interface with respect to the ladder program. When this function

is used, communications can be carried out by either TCP or UDP with var-

ious devices on the Ethernet network.

This function can be used by either manipulating dedicated control

switches in memory or by executing CMND(490).

1) Manipulating dedicated control switches in memory:

Socket services can be used by first setting the required parameters in

the Socket Service Parameter Area allocated in the DM Area (refer

to4-4 DM Area Allocations) and then turning ON dedicated control

switches in memory.

There is no need to monitor the completion timing for instructions or

socket services, so the work hours involved in developing ladder pro-

grams can be reduced.

Only eight socket ports (UDP and TCP combined) can be used with

this method. For any ports that exceed that number, use the

CMND(490) instruction.

2) Using CMND(490)

Socket services can be used by utilizing the CMND(490) instruction to

execute FINS commands. Up to 16 socket ports can be used with

CMND(490).

FTP server

Mail

The FTP server function allows data files to be transferred between a client

workstation or personal computer and the PC’s file system (Memory Card

or EM Area).

The types of data listed below can be sent as e-mail when a dedicated con-

trol switch in memory is turned ON, when an error occurs, or when a preset

time interval elapses. Any of the following types of data can be specified for

transmission with any of these timing methods. (Refer to Section 8 Mail.)

• User-created data (Data at PC: ASCII, 1,024 bytes max.)

• Error log information (64 records)

• Status information

A mail server must be provided separately in order to use the mail function.

2-1-2 Socket Ports Used By the Ethernet Unit

Port number

Application

UDP

TCP

9600

Used for FINS. (Can be changed by CPU Bus Unit System Setup.)

Used for FTP server function (for data transfer).

Used for FTP server function (for connection).

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FINS Communications

Section 2-2

2-1-3 Selecting Communications Services

Refer to the following guidelines to select the appropriate communications

service to use in a given situation.

To communicate with an

OMRON PC.

To communicate with a host

computer (with the FINS

gateway function enabled).

Refer to

FINS Communications

To perform operations with

an OMRON PC other than

sending or receiving data

(for example, reading or

writing files or changing the

operating mode).

Section 5 FINS Communications.

To perform operations

with a host computer (with

the FINS gateway func-

tion enabled) other than

sending or receiving data

(for example, reading or

writing files or changing

the operating mode).

To communicate with a

non-OMRON PC.

By manipulating a

Socket services

dedicated control

(control switch manipulation)

switch.

To communicate with an

OMRON PC within the

socket services system.

Refer to

Section 6 Socket Services.

By using CMND(490).

Socket services (CMND(490))

To communicate with a host

computer (with the FINS

gateway function disabled).

To designate from the host

computer a file transfer

between the PC and the

host computer.

Refer to

Section 7 FTP Server.

FTP server

Refer to Section 8 Mail.

To send e-mail from the PC

to the mail server by any of

the required conditions.

Mail Service

2-2 FINS Communications

FINS commands can be sent to or received from other PCs or computers on

the same Ethernet network by executing SEND(090), RECV(098), or

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Socket Services

Section 2-3

CMND(490) instructions in the ladder-diagram program. This enables control

operations such as the reading and writing of I/O memory between PCs,

mode changes, and file memory operations. (When a FINS message is sent

on an Ethernet network, a UDP/IP header is automatically added to the mes-

sage.)

The FINS gateway function allows access not only to PCs on the same Ether-

net network, but also to PCs on other networks such as SYSMAC LINK or

Controller Link.

Ethernet

CS/CJ-series

CPU Unit

Ethernet Unit

User program

SEND(090,

RECV(098), or

CMND(490)

Executing from the host computer FINS commands with UDP/IP headers

added enables various control operations such as the reading and writing of

I/O memory of PCs on the Ethernet network, mode changes, and file memory

operations.

Ethernet

CS/CJ-series

CPU Unit

Ethernet Unit

2-3 Socket Services

The socket services allow devices on the Ethernet to send and receive vari-

ous data using the UDP or TCP protocol. There are two ways to use socket

services, as explained below. (For details, refer to Section 6 Socket Services.)

By Manipulating

Dedicated Control

Switches

The first way to use socket services is to set the required parameters in the

parameter area allocated in the DM Area, and then to request particular UDP

or TCP socket services by turning ON dedicated control switches in memory.

The Ethernet Unit turns OFF the same bit when the requested process has

been completed. Data that is sent or received is automatically handled

according to the I/O memory locations specified in the parameter area.

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Socket Services

Section 2-3

There is no need to execute the CMND(490) instruction or to monitor the com-

pletion timing and actual processing of the instruction, so this helps to simplify

ladder programming.

A total of eight ports (UDP and TCP combined) can be used for socket ser-

vices.

UNIX computer, etc.

(node with socket services interface)

Ethernet

Ethernet Unit

TCP/UDP protocol

CS/CJ-series

CPU Unit

Socket Service Request Switches

Parameters

TCP/UDP

protocol

Ethernet Unit CS/CJ-series

CPU Unit

By Executing CMND(490)

The other way to use socket services is to request a UDP or TCP socket ser-

vice by sending a FINS command to the Ethernet Unit by executing

CMND(490) from the CPU Unit. When the Ethernet Unit receives the socket

service request, it returns a response to the CPU Unit to confirm that it

received the request and then begins the requested processing. When the

processing is completed, the results are stored in the Results Storage Area in

the CPU Unit.

Eight TCP ports and eight UDP ports can be used.

UNIX computer, etc.

(node with socket

services interface)

Ethernet

TCP/UDP protocol

Ethernet Unit

CS/CJ-series

CPU Unit

FINS command

FINS response

Processing results

TCP protocol

UDP protocol

Results Storage Area

Socket interface

CS/CJ-series

CPU Unit

Ethernet Unit

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FTP Server

Section 2-4

2-4 FTP Server

The Ethernet Unit has a built-in FTP server function, so other computers on

the Ethernet can read or write individual files in a Memory Card mounted to

the CPU Unit or in EM file memory. This allows files to be exchanged between

the host computer and the PC, with the host computer functioning as an FTP

client and the PC as an FTP server. For details, refer to Section 7 FTP Server.

Host computer (FTP client)

Ethernet

FTP command

Ethernet Unit

CS/CJ-series

CPU Unit

Memory Card or

EM file memory

(Host computer to PC)

(PC to host computer)

File data

Memory Card or

EM file memory

Memory Card or

EM file memory

2-5 Mail

Data such as user-created information (1,024 bytes max. in ASCII), Ethernet

Unit error log information (64 records max.), and status information can be

sent as e-mail to specified addresses.

The e-mail can be sent with any of the following three types of timing. (Simul-

taneous specification is also possible.)

• When the Mail Send Switch turns ON.

• When an error occurs (when an error log is recorded.)

• At regular intervals.

This enables periodic e-mail and error messages to be sent from the PC to

the mail server.

Mail server

Ethernet

Ethernet Unit

Mail

CS/CJ-series

CPU Unit

Note

1. A mail server is required in order to use the mail function.

2. Mail server settings require specialized knowledge, so they should always

be handled by the network administrator.

3. Be sure you have a clear understanding of the mail system before using

this function.

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Mail

Section 2-5

4. Mail delivery is not guaranteed. Depending on factors such as the condi-

tion of the network, mail that has been sent may not arrive at its destina-

tion.

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SECTION 3

Installation and Initial Setup

This section explains how to install the Ethernet Unit and make the initial settings required for operation.

3-1 Before Operation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-1-1 Automatic Address Generation. . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-1-2 IP Address Table. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-2 Overview of Startup Procedure. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-3 Unit Components . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-3-1 Nomenclature . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-3-2 Indicators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-4 Switch Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-4-1 CS-series Ethernet Units. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-4-2 CJ-series Ethernet Units . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-5 Mounting to a PC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-5-1 Mounting to a CS-series PC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-5-2 Mounting to a CJ-series PC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-6 Connecting to the Network . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-6-1 Ethernet Network Installation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-6-2 Ethernet Connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-6-3 Connecting the Cable . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-6-4 Connecting the Power Supply (CS1W-ETN01 Only) . . . . . . . . . . .

3-7 Creating an I/O Table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-7-1 I/O Table Overview. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-7-2 Connecting Programming Devices to the PC . . . . . . . . . . . . . . . . . .

3-7-3 Procedure for Creating an I/O Table. . . . . . . . . . . . . . . . . . . . . . . . .

3-8 Creating Routing Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-8-1 Routing Table Overview. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-8-2 Connecting and Using a Peripheral Device for the PC. . . . . . . . . . .

3-9 System Setup. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-9-1 When Settings are Required . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-9-2 Using a Programming Device. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-9-3 CPU Bus Unit System Setup Defaults . . . . . . . . . . . . . . . . . . . . . . .

3-10 Creating an IP Address Table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-11 Creating an IP Router Table . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-12 Checking Communications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-12-1 PING Command and Internode Testing . . . . . . . . . . . . . . . . . . . . . .

3-12-2 PING Command . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-12-3 Internode Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

3-12-4 Simple Startup Test Example . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

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Before Operation

Section 3-1

3-1 Before Operation

In order to connect the Ethernet Unit to an Ethernet network, it is necessary to

set the IP address. This section explains the process of address conversion,

which is required information for determining the Ethernet Unit’s IP address.

Address Conversion (for

FINS Communications

Only)

When using the FINS communication service, it is necessary to specify the

nodes according to the FINS address system. Even in this case, data must be

sent and received on the Ethernet network using IP addresses. Therefore, IP

addresses are converted from FINS addresses.

Ethernet Unit

User program

CS/CJ-series

CPU Unit

Network address: 5

Data

IP address: 153.211.32.114

Node number: 23

Address conversion

To 153.211.32.114

Data

To 153.211.32.114

There are three ways to convert addresses. For each method, there are

restrictions on the maximum number nodes at the same network level for

which communications is possible. The methods and the maximum number of

nodes are shown in the following table.

Address conversion method

Maximum number of nodes

(including local node)

Automatic generation (the default) 126

IP address table

Combined method

126

(using both automatic generation

and IP address table)

Use the CX-Programmer to select the address conversion method in the Sys-

tem Setup. For an explanation of how to make the setting, refer to 4-2 CPU

Bus Unit System Setup.

3-1-1 Automatic Address Generation

Automatic address generation converts addresses using the FINS node num-

ber as the host number of the IP address. The network ID of the local IP

address is used for the network ID. The IP address of a remote node is calcu-

lated from the local Ethernet Unit’s IP address, the subnet mask, and the

remote node number (Fins node number), as follows:

Remote IP address =

(local IP address AND subnet mask) OR remote FINS node number

Example

The remote IP address is calculated for the node using the following settings:

Local IP address:

Subnet mask:

130.25.36.8 (decimal)

255.255.255.0 (decimal)

Remote FINS node number:

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Before Operation

Section 3-1

130.25.36. 8

AND 255.255.255.0

Local IP address

Subnet mask

130.25.36.0

Remote FINS node number

Remote IP address

130.25.36.5

Note The rightmost byte of the host number becomes the FINS node number, and

set the rest of the host number to all zeroes.

Example 1: Class B

Local IP address:

130.25.0.8

255.255.0.0

Subnet mask:

Remote FINS node number:

Host number

130.25.0.5

Remote IP address

Example 2: Class A

Becomes 0.

Local IP address:

130.0.0.8

255.0.0.0

Subnet mask:

Remote FINS node number:

Host number

Remote IP address

130.0.0.5

Becomes 0.

Note With CS-series Ethernet Units, when using either the address conversion

method (the default) or the combined method, set the local IP address

switches 7 and 8 on the back of the Ethernet Unit and the node number to the

same values, and set the other host settings to 0. If the values are wrong, the

ERC indicator will flash.

With CJ-series Units, when using either the address conversion method (the

default) or the combined method, set the rightmost byte of the local IP

address and the node number to the same values, and set the other host set-

tings to 0. If the values are wrong, the ERH indicator will flash.

Characteristics of Automatic Generation Method

The automatic address generation method has the advantage of clarifying the

correspondence between the FINS address and the IP address, but it also

has the following restrictions.

1,2,3...

1. It cannot be applied outside of the range with the same network ID.

2. The remote host number must be within the range of FINS node numbers

(1 to 126).

3. The Ethernet Unit’s host number and the node number must be set to the

same value.

The automatic address generation method is the default setting, so there is no

need to set it with the CX-Programmer if the setting has not been changed.

3-1-2 IP Address Table

The IP address table method converts the FINS node number to an IP

address based on a preset correspondence table called an IP address table.

The IP address table is prepared in the System Setup, using the CX-Program-

mer. For details on the System Setup, refer to 4-2 CPU Bus Unit System

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Overview of Startup Procedure

Section 3-2

Setup. With different segments, nodes with different network IDs can also be

registered.

IP address

FINS node

IP address table

address

153.214.0.62

153.214.0.129

153.218.51.8

FINS node number

IP address

Characteristics of IP Address Table Method

The IP address table method provides a simple correspondence table, so it

has the advantage of allowing FINS node numbers and IP address to be

freely allocated. It does, however, have the following restrictions.

1,2,3...

1. Not more than 32 pairs of node number and IP addresses can be regis-

tered in the IP address table, so that limits the number of nodes, including

the local node, to 32.

2. The correspondences must be preset, or the remote FINS node numbers

will not be recognized.

Combined Method

The combined method incorporates both the automatic generation method

and the IP address table method. It first refers to the IP address table, and if

there is an applicable FINS address, it reads the corresponding IP address. If

there is no applicable FINS address, it uses the automatic generation method

to calculate an IP address.

FINS node number

IP address table

FINS node

IP address table

number

If found in

IP address table

153.214.0.62

153.214.0.129

153.218.51.8

IP address

If not found in

IP address table

Host number: XX.XX.00.00

FINS node number: XX

3-2 Overview of Startup Procedure

CS Series

1,2,3...

1. Determine the local IP address and the address conversion method.

Refer to 3-1 Before Operation.

2. Set the unit number of the Ethernet Unit as a CPU Bus Unit.

Refer to 3-4 Switch Settings.

3. Set the node address.

Refer to 3-4 Switch Settings.

4. Set the local IP address.

Refer to 3-4 Switch Settings.

5. Mount the Unit to the Backplane.

Refer to 3-5 Mounting to a PC.

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Overview of Startup Procedure

Section 3-2

6. Connect to the network. Connect the transceiver cable and external 24-

VDC power supply for 10Base-5 systems and the twisted-pair cable for

10Base-T systems.

Refer to 3-6 Connecting to the Network.

7. Turn ON the external 24-VDC power supply (for 10Base-5 systems) and

turn ON power to the CPU Unit. When turning ON the power supply, either

first turn ON the external power supply (i.e., the power to the transceiver),

and then turn ON the power to the CPU Unit afterwards, or else turn them

both ON at the same time. If the power is turned ON first to the CPU Unit,

a communications error will be generated.

8. Create the I/O tables using a Programming Device, such as CX-Program-

mer, CX-Net, or a Programming Console. (This step can be omitted if the

I/O table has already been created.)

Refer to 3-7 Creating an I/O Table.

9. Create the routing tables using the CX-Net. (This step is required only if

FINS communications are used, or if CMND(490) is used by a PC with mul-

tiple Communications Units mounted to it.)

Refer to 3-8 Creating Routing Tables.

10. Make the settings in the System Setup using the CX-Programmer. (Create

the IP address table and IP router table.)

Refer to 3-9 System Setup, 3-10 Creating an IP Address Table, and 3-11

Creating an IP Router Table.

This step is required only in the following cases:

• When using a method other than automatic generation for IP address

conversion. (Address conversion method, IP address table.)

• When using the mail notification function.

• When setting a subnet mask.

• When setting an FTP login name and password.

• When Ethernet is configured in multiple segments. (IP router table)

• When Ethernet 4.28 is used (broadcast settings)

• When the UDP port number for FINS is changed to something other

than the default setting (9600).

11. Check communications. (Use PING command and an internode test.)

CJ Series

1,2,3...

1. Determine the local IP address and the address conversion method.

Refer to 3-1 Before Operation.

2. Set the unit number of the Ethernet Unit as a CPU Bus Unit.

Refer to 3-4 Switch Settings.

3. Set the node address.

Refer to 3-4 Switch Settings.

4. Mount the Unit to the PC.

Refer to 3-5 Mounting to a PC.

5. Connect to the network. Connect the twisted-pair cable.

Refer to 3-6 Connecting to the Network.

6. Turn ON power to the CPU Unit.

7. Create the I/O tables using a Programming Device, such as CX-Program-

mer, CX-Net, or a Programming Console.

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Unit Components

Section 3-3

Refer to 3-7 Creating an I/O Table.

8. For simple operation where the IP address only (and no other System Set-

up settings) is set, or for operation using the Programming Console only,

set the IP address in the allocated words in the DM Area using the CX-Pro-

grammer or Programming Console. (This method is mainly used when set-

ting the IP address in the allocated words in the DM Area using the

Programming Console only. When using this method, be sure to set the lo-

cal IP address value in the CPU Bus Unit System Setup to 00.00.00.00

(default). If a different value is set, the IP address set in the allocated words

in the DM Area will be overwritten with this value.)

Refer to 4-4 DM Area Allocations.

For operation with the System Setup set as desired, set the IP address in

the CPU Bus Unit System Setup with the CX-Programmer. This method is

used when setting the local IP address with the CX-Programmer. Any set

value other than 00.00.00.00 will be enabled as the local IP address.)

Refer to 4-2 CPU Bus Unit System Setup.

9. Create the routing tables using the CX-Net. (This step is required only if

FINS communications are used, or if CMND(490) is used by a PC with mul-

tiple Communications Units mounted to it.)

Refer to 3-8 Creating Routing Tables.

10. Make the settings in the System Setup using the CX-Programmer. (Create

the IP address table and IP router table.)

Refer to 3-9 System Setup, 3-10 Creating an IP Address Table, and 3-11

Creating an IP Router Table.

This step is required only in the following cases:

• When using a method other than automatic generation for IP address

conversion. (Address conversion method, IP address table.)

• When using the mail notification function.

• When setting a subnet mask.

• When setting an FTP login name and password.

• When Ethernet is configured in multiple segments. (IP router table)

• When Ethernet 4.28 is used (broadcast settings)

• When the UDP port number for FINS is changed to something other

than the default setting (9600).

11. Check communications. (Use PING command and an internode test.)

3-3 Unit Components

This section explains the Ethernet Unit’s components, settings, and LED indi-

cators. For details regarding the settings, refer to the individual explanations

later in this section.

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Unit Components

Section 3-3

3-3-1 Nomenclature

CS-series Ethernet Units

CS1W-ETN01 (10Base-5)

Front

Indicators

Display the operating status

of the Unit.

Unit Number Switch

Used to set the Ethernet Unit's unit

number in one digit hexadecimal.

Node Number Switches

Used to set the Ethernet Unit's FINS node

number in two digits hexadecimal.

Ethernet Connector

Used to connect the Ethernet transceiver cable.

Power Supply Terminals

Used to connect an external 24-VDC

power supply for the transceiver.

CS1W-ETN11 (10Base-T)

Front

Indicators

Display the operating status

of the Unit.

Unit Number Switch

Used to set the Ethernet Unit's unit

number in one digit hexadecimal.

Node Number Switches

Used to set the Ethernet Unit's FINS node

number in two digits hexadecimal.

Ethernet Connector

Used to connect the Ethernet transceiver cable.

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Unit Components

Section 3-3

CS1W-ETN01 and CS1W-ETN11

Back

Local IP Address Switches

Used to set the Ethernet Unit's IP address

in eight digits hexadecimal.

Each communications device connected to the Ethernet network is allocated

a unique Ethernet address. For the Ethernet Unit, this Ethernet address is

shown on the right side of the Unit as a 12-digit hexadecimal number.

Ethernet address (12 digits)

Note The Ethernet address can also be checked using the FINS command, CON-

TROLLER DATA READ. (Refer to 11-3-2 CONTROLLER DATA READ.)

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Unit Components

Section 3-3

CJ-series Ethernet Units

CJ1W-ETN11 (10Base-T)

Front

Slider

Mount to other Units.

Indicators

Display the operating status of the Unit.

ETN11

RUN ERC SD RD

ERH TCP FTP TS

Unit Number Switch

Used to set the Ethernet Unit’s unit number in one

digit hexadecimal.

UNIT

No.

NODE

No.

x16¹

Node Number Switches

Used to set the Ethernet Unit’s FINS node number

in two digits hexadecimal.

x16⁰

ETHERNET

Ethernet Connector

Used to connect the Ethernet twisted-pair cable.

DIN Track Mounting Pin

Used when mounting the Unit to a DIN track.

Slider

Mount to other Units.

Note An IP address label is provided with the CJ1W-ETN11. Writing the IP address

and the subnet mask on this label and then attaching it to the front of the Unit

allows the IP address and subnet mask to be confirmed easily.

ETN11

Example

RUN ERC SD RD

ERH TCP FTP TS

IP ADDRESS

133.113. 0. 42

SUBNET MASK

UNIT

No.

NODE

No.

255.255.255.0

x16¹

Attach the label to the front

of the Ethernet Unit

x16⁰

between the node number

switches and the Ethernet

connector.

IP ADDRESS

133.113. 0. 42

SUBNET MASK

255.255.255.0

ETHERNET

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Unit Components

Section 3-3

Each communications device connected to the Ethernet network is allocated

a unique Ethernet address. For the Ethernet Unit, this Ethernet address is

shown on the right side of the Unit as a 12-digit hexadecimal number.

CJ1W-ETN11

ETHERNET UNIT

Lot No.

OMRON Corporation

MADE IN JAPAN

@@@@@@@@@@@@

Ethernet Address

Ethernet address (12 digits)

Note The Ethernet address can also be checked using the FINS command, CON-

TROLLER DATA READ. (Refer to 11-3-2 CONTROLLER DATA READ.)

3-3-2 Indicators

The status of the indicators show the operating status of the Unit.

CJ1W-ETN11 (10Base-T)

CS1W-ETN01 (10Base-5)

CS1W-ETN11 (10Base-T)

ETN11

RUN ERC SD RD

RUN

ERC

P/S

ERH TCP FTP TS

ERH

TCP

FTP

Indicator

Color

Status

Meaning

RUN

P/S

Green

Not lit

• Operation stopped.

• Hardware error.

Lit

Normal operation.

Green

Red

Not lit

Lit

Power is not being supplied to the transceiver.

Power is being supplied to the transceiver.

(Power Supply)

(CS1W-ETN01 only.)

ERC

Not lit

Lit

Unit normal.

(Ethernet Unit Error)

• Node number not between 1 and 126.

• A hardware (e.g., internal memory) error has occurred.

Flashing An illegal IP address has been set. With automatic address generation,

the rightmost two digits of the IP address do not match the node num-

ber. (Refer to Setting the Local IP Address.) This error is generated for

the CS Series only.

ERH

(PC Error)

Red

Not lit

Lit

PC normal.

• A PC error has occurred.

• An error exists in I/O table, unit number, system data, or routing table

settings.

Flashing An illegal IP address has been set. With automatic address generation,

the rightmost two digits of the IP address do not match the node num-

ber. (Refer to Section 4-2-1 Settings.) This error is generated for the CJ

Series only.

(Send Data)

Yellow

Not lit

Lit

Not sending data. (Ready to send.)

Sending data.

Not lit

Lit

Not receiving data. (Ready to receive.)

Receiving data.

(Receive Data)

TCP

Not lit

Lit

None of the eight TCP sockets provided for socket services is in use.

(TCP Socket in Use)

At least one of the eight TCP sockets provided for socket services is in

use.

FTP

Yellow

Not lit

Lit

FTP server on stand-by.

FTP server operating.

(File Server Service)

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Switch Settings

Section 3-4

Indicator

Color

Status

Not lit

Lit

Meaning

Yellow

Not running internode test.

Running internode test.

(Internode Testing)

3-4 Switch Settings

This section explains how to set the various switches on the Ethernet Unit.

3-4-1 CS-series Ethernet Units

Setting the Unit Number

The unit number is used to identify individual CPU Bus Units when more than

one CPU Bus Unit is mounted to the same PC. Use a small screwdriver to

make the setting, taking care not to damage the rotary switch. The unit num-

ber is factory-set to 0.

Setting range:

0 to F

Note

1. Turn OFF the power supply before setting the unit number.

2. If the unit number is being set for the first time or changed, then an I/O table

must be created for the PC.

Unit Number and CPU Bus

Unit Allocations

With CS-series PCs, words are automatically allocated in the CIO Area and

the DM Area. The Ethernet Unit uses these words for receiving control data

from the CPU Unit and for notifying the CPU Unit of Ethernet Unit and com-

munications status. The word addresses in the allocated areas for the CPU

Bus Unit are important in creating the user program for using the Ethernet

Unit, so be careful to take them into account when setting the unit number.

The following table shows the areas allocated for the CPU Bus Unit by unit

number. This table only shows the correspondences between unit numbers

and the areas allocated for the CPU Bus Unit. For more details, refer to Sec-

tion 4 System Setup and Memory Allocations.

CIO Area Allocations

Unit No.

(decimal)

Allocated words

Unit No.

(decimal)

Allocated words

0 (0)

CIO 1500 to CIO 1524

CIO 1525 to CIO 1549

CIO 1550 to CIO 1574

CIO 1575 to CIO 1599

CIO 1600 to CIO 1624

CIO 1625 to CIO 1649

CIO 1650 to CIO 1674

CIO 1675 to CIO 1699

8 (8)

CIO 1700 to CIO 1724

CIO 1725 to CIO 1749

CIO 1750 to CIO 1774

CIO 1775 to CIO 1799

CIO 1800 to CIO 1824

CIO 1825 to CIO 1849

CIO 1850 to CIO 1874

CIO 1875 to CIO 1899

1 (1)

2 (2)

3 (3)

4 (4)

5 (5)

6 (6)

7 (7)

9 (9)

A (10)

B (11)

C (12)

D (13)

E (14)

F (15)

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Switch Settings

Section 3-4

DM Area Allocations

Unit No.

(decimal)

Allocated words

Unit No.

(decimal)

Allocated words

0 (0)

D30000 to D30099

D30100 to D30199

D30200 to D30299

D30300 to D30399

D30400 to D30499

D30500 to D30599

D30600 to D30699

D30700 to D30799

8 (8)

D30800 to D30899

D30900 to D30999

D31000 to D31099

D31100 to D31199

D31200 to D31299

D31300 to D31399

D31400 to D31499

D31500 to D31599

1 (1)

2 (2)

3 (3)

4 (4)

5 (5)

6 (6)

7 (7)

9 (9)

A (10)

B (11)

C (12)

D (13)

E (14)

F (15)

Setting the Node Number

With the FINS communications service, when there are multiple Ethernet

Units connected to the Ethernet network, the Ethernet Units are identified by

node numbers. Use the node number switches to set the node number

between 01 and 7E hexadecimal (1 to 126 decimal). Do not set a number that

has already been set for another node on the same network.

Setting range:

01 to 7E (1 to 126 decimal)

The left switch sets the sixteens digit (most significant digit) and the right

switch sets the ones digit (least significant digit). The node number is factory-

set to 01.

When using the automatic generation method for address conversion, set the

node number to the same value as that of the local IP address switches. If this

is not possible, then either the IP address table method or the combined

method must be used for address conversion. For details, refer to 4-2 CPU

Bus Unit System Setup.

If the FINS communications service is not being used over the Ethernet net-

work, then there is no problem if the node number duplicates that of another

Ethernet Unit. The node number must still be set from 01 to 7E, however, or

the ERC indicator will light.

Note Turn OFF the power supply before setting the node number.

Setting the Local IP Address

The nodes on an Ethernet network are identified by IP addresses. Each IP

address is set with 32 bits of binary data. These 32 bits are divided into four 8-

bit fields called octets, and each octet is expressed as four decimal numbers.

At CS-series Ethernet Units, four bits are expressed as a hexadecimal digit,

and the eight hexadecimal rotary switches (the local IP address switches) on

the back of the Unit are used to set the local IP address. Set the eight

switches in hexadecimal as shown below, combining SW1 and SW2, SW3

and SW4, SW5 and SW6, and SW7 and SW8. Each switch can be set from 0

to F.

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Switch Settings

Section 3-4

Setting range:

0 to F

1 2 . 3 4 . 5 6 . 7 8 .

Local IP Address Switch No.

The switches are all factory-set to 0 (00.00.00.00). The Ethernet Unit cannot

be used with this setting; a proper IP address must be set. The following set-

tings cannot be made for the IP address, or the ERC indicator will flash.

All bits in the network number field set to 0 or 1.

All bits in the host number field set to 0 or 1.

All bits in the subnet number field set to 1.

The beginning of the IP address set to 127 (7F Hex)

Example: 127.35.21.16

Note

1. When using the automatic generation method for address conversion, set

switches 7 and 8 to the same values as the node number setting, and set

the rest of the host number to zeroes. For details regarding the host num-

ber, refer to 1-7 IP Addresses. The value for the host number field in the IP

address must match the value for the node number or the ERC indicator

will flash.

2. If a subnet mask is to be set, use the CX-Programmer to set it in the CPU

Bus Unit System Setup. For details, refer to 4-2 CPU Bus Unit System Set-

up.

3-4-2 CJ-series Ethernet Units

Note With CJ-series Ethernet Units, the l ocal IP address is set with the Program-

ming Device for the PC, such as CX-Programmer. For details, refer to 4-2

CPU Bus Unit System Setup and 4-4 DM Area Allocations.

Setting the Unit Number

The unit number is used to identify individual CPU Bus Units when more than

one CPU Bus Unit is mounted to the same PC. Use a small screwdriver to

make the setting, taking care not to damage the rotary switch. The unit num-

ber is factory-set to 0.

UNIT

No.

Setting range:

0 to F

Note

1. Turn OFF the power supply before setting the unit number.

2. If the unit number is being set for the first time or changed, then an I/O table

must be created for the PC.

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Switch Settings

Section 3-4

Unit Number and CPU Bus

Unit Allocations

With CJ-series PCs, words are automatically allocated in the CIO Area and

the DM Area. The Ethernet Unit uses these words for receiving control data

from the CPU Unit and for notifying the CPU Unit of Ethernet Unit and com-

munications status. The word addresses in the allocated areas for the CPU

Bus Unit are important in creating the user program for using the Ethernet

Unit, so be careful to take them into account when setting the unit number.

The following table shows the areas allocated for the CPU Bus Unit by unit

number. This table only shows the correspondences between unit numbers

and the areas allocated for the CPU Bus Unit. For more details, refer to Sec-

tion 4 System Setup and Memory Allocations.

CIO Area Allocations

Unit No.

(decimal)

Allocated words

Unit No.

(decimal)

Allocated words

0 (0)

CIO 1500 to CIO 1524

CIO 1525 to CIO 1549

CIO 1550 to CIO 1574

CIO 1575 to CIO 1599

CIO 1600 to CIO 1624

CIO 1625 to CIO 1649

CIO 1650 to CIO 1674

CIO 1675 to CIO 1699

8 (8)

CIO 1700 to CIO 1724

CIO 1725 to CIO 1749

CIO 1750 to CIO 1774

CIO 1775 to CIO 1799

CIO 1800 to CIO 1824

CIO 1825 to CIO 1849

CIO 1850 to CIO 1874

CIO 1875 to CIO 1899

1 (1)

2 (2)

3 (3)

4 (4)

5 (5)

6 (6)

7 (7)

9 (9)

A (10)

B (11)

C (12)

D (13)

E (14)

F (15)

DM Area Allocations

Unit No.

(decimal)

Allocated words

Unit No.

(decimal)

Allocated words

0 (0)

D30000 to D30099

D30100 to D30199

D30200 to D30299

D30300 to D30399

D30400 to D30499

D30500 to D30599

D30600 to D30699

D30700 to D30799

8 (8)

D30800 to D30899

D30900 to D30999

D31000 to D31099

D31100 to D31199

D31200 to D31299

D31300 to D31399

D31400 to D31499

D31500 to D31599

1 (1)

2 (2)

3 (3)

4 (4)

5 (5)

6 (6)

7 (7)

9 (9)

A (10)

B (11)

C (12)

D (13)

E (14)

F (15)

Setting the Node Number

With the FINS communications service, when there are multiple Ethernet

Units connected to the Ethernet network, the Ethernet Units are identified by

node numbers. Use the node number switches to set the node number

between 01 and 7E hexadecimal (1 to 126 decimal). Do not set a number that

has already been set for another node on the same network.

NODE

No.

Setting range:

x16¹

01 to 7E (1 to 126 decimal)

x16⁰

The top switch sets the sixteens digit (most significant digit) and the bottom

switch sets the ones digit (least significant digit). The node number is factory-

set to 01.

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Mounting to a PC

Section 3-5

When using the automatic generation method for address conversion, set the

node number to the same value as the rightmost byte of the local IP address.

If this is not possible, then either the IP address table method or the combined

method must be used for address conversion. For details, refer to 4-2 CPU

Bus Unit System Setup.

If the FINS communications service is not being used over the Ethernet net-

work, then there is no problem if the node number duplicates that of another

Ethernet Unit. The node number must still be set from 01 to 7E, however, or

the ERC indicator will light.

Note Turn OFF the power supply before setting the node number.

3-5 Mounting to a PC

3-5-1 Mounting to a CS-series PC

Ethernet Units can be mounted to any slots in either a CS-series CPU Rack or

a CS-series Expansion CPU Rack, but the number of slots to which they can

be mounted depends on the Backplane. Up to four Ethernet Units can be

mounted to a single PC. If it is mounted in combination with other CPU Bus

Units (e.g., Controller Link Units), the maximum total number of CPU Bus

Units that can be mounted is 16.

Note Tighten PC Backplane mounting screws to a torque of 1.2 N⋅m, and the Unit’s

screws to a torque of 0.8 N⋅m.

CS1W-BC023/BC033/BC053/BC083/BC103 CPU Backplane

CS-series CPU Rack

Can mount to any position,

with 2, 3, 5, 8, or 10 slots.

2, 3, 5, 8, or 10 slots

(Expansion Backplane not possible with 2-slot CPU Backplane.)

CS1W-BI033/BI053/BI083/BI103 CS-series Expansion Backplane

CS-series Expansion Rack

Up to four Units can be mounted

to the slots shown in the diagrams

on the left.

Can mount to any position,

with 3, 5, 8, or 10 slots.

3, 5, 8, or 10 slots

C200H Expansion I/O Backplane

C200H Expansion Rack

Ethernet Unit cannot be

mounted to any slots.

CPU: CPU Unit

PS: Power Supply Unit

Note The CS1W-ETN01/ETN11 Ethernet Unit’s maximum current consumption is

400 mA. (The power provided to the transceiver is not included because it

comes from a 24-VDC power supply connected to the Unit’s power supply ter-

minals.) Make sure that the total current consumption of all the Units con-

nected to the same CPU Backplane or Expansion Backplane does not exceed

the output capacity of the Power Supply Unit.

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Mounting to a PC

Section 3-5

3-5-2 Mounting to a CJ-series PC

Ethernet Units can be connected to either a CJ-series CPU Rack or a CJ-

series Expansion CPU Rack. Connect the Ethernet Unit in any of the posi-

tions shown below using the sliders on the top and bottom of the Unit. Up to

four Ethernet Units can be mounted to a single PC. If it is mounted in combi-

nation with other CPU Bus Units (e.g., Controller Link Units), the maximum

total number of CPU Bus Units that can be mounted is 16.

Note Tighten PC Backplane mounting screws to a torque of 1.2 N⋅m, and the Unit’s

screws to a torque of 0.8 N⋅m.

End cover

10 Units max.

CPU Rack

End cover

10 Units max.

Expansion Backplane

Up to four Ethernet

Units can be mounted.

End cover

10 Units max.

Expansion Backplane

End cover

10 Units max.

Expansion Backplane

PS: Power Supply Unit

CPU: CPU Unit

IC: I/O Control Unit

II: I/O Interface Unit

Note The CS1W-ETN01/ETN11 Ethernet Unit’s maximum current consumption is

380 mA. Make sure that the total current consumption of all the Units con-

nected to the same CPU Backplane or Expansion Backplane does not exceed

the output capacity of the Power Supply Unit.

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Connecting to the Network

Section 3-6

3-6 Connecting to the Network

3-6-1 Ethernet Network Installation

When installing an Ethernet network, be sure to take all appropriate safety

measures and to follow the applicable standards (ISO 8802-3). You must

obtain a copy of these specifications and be sure you understand them before

attempting to install an Ethernet System. Unless you are already experienced

in installing communications systems, we strongly recommend that you

employ a professional to install your system.

For information regarding basic installation precautions, equipment, recom-

mended products, and installation examples, refer to Appendix A Network

Installation.

3-6-2 Ethernet Connectors

CS1W-ETN01

The following standards and specifications apply to the connectors for the

Ethernet transceiver cable.

• Electrical specifications: Conforming to IEEE802.3 standards.

• Lock structure:

IEEE802.3 standards for slide latches

Signal name Abbr.

Connector

Signal

direction

Signal ground

GND

---

Collision detection signal +

Send data +

COL+

TX+

GND

RX+

Input

Output

---

Signal ground

Receive data +

Input

---

Power ground (common with signal ground)

Not used

---

Signal ground

GND

COL–

TX–

GND

RX–

+12 V

GND

---

Collision detection signal –

Send data –

Input

Output

---

Signal ground

Receive data –

Input

Output

---

Transceiver +12 VDC power supply

Signal ground

Not used

---

Connector Frame ground

hood

---

CS1W-ETN11 and CJ1W-

ETN11

The following standards and specifications apply to the connectors for the

Ethernet twisted-pair cable.

• Electrical specifications: Conforming to IEEE802.3 standards.

• Connector structure:

RJ45 8-pin Modular Connector

(conforming to ISO 8877)

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Connecting to the Network

Section 3-6

Connector

Signal name

Transmission data +

Abbr.

Signal

direction

TD+

TD–

RD+

---

Output

Input

---

Transmission data –

Reception data +

Not used.

---

Reception data –

Not used.

RD–

---

Input

---

Not used.

---

3-6-3 Connecting the Cable

Transceiver Cable (for CS1W-ETN01)

!Caution Turn OFF the PC’s power supply before connecting or disconnecting trans-

ceiver cable.

1,2,3...

1. Prepare a coaxial cable.

2. Connect the transceivers to the coaxial cable.

• Mark the coaxial cable at intervals of 2.5 meters. Then connect the

transceivers at those marks.

• The transceiver connection method depends on the type of transceiv-

er, so refer to the transceiver operation manual.

3. Prepare the transceiver cable, and then connect it to the transceivers.

For more details regarding these steps, refer to Appendix A Network Installa-

tion. The cable preparation should be performed by an experienced profes-

sional.

4. Connect the transceiver cable to the Ethernet Unit connector. The Ethernet

Unit connector has a slide latch conforming to IEEE802.3 specifications

that serves as a lock mechanism. To connect the transceiver cable, oper-

ate the slide latch as described below.

a) First push the slide latch upwards.

b) Insert the cable connector into the Ethernet Unit’s connector with the

two locking posts at the end of the cable connector aligned with the

holes in the slide latch.

c) Then push the slide latch down to lock the cable connector in place.

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Connecting to the Network

Section 3-6

Lock post

Slide latch

Lock post

CS1W-ETN01

Twisted-pair Cable (for CS1W-ETN11 and CJ1W-ETN11)

!Caution Turn OFF the PC’s power supply before connecting or disconnecting twisted-

pair cable.

!Caution Allow enough space for the bending radius of the twisted-pair cable as shown

in below.

35mm

1,2,3...

1. Lay the twisted-pair cable.

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Connecting to the Network

Section 3-6

2. Connect the cable to the hub. Be sure to press in the cable until it locks into

place.

Examples of the above two steps are provided in Appendix A. Request ca-

ble installation from a qualified professional.

3. Connect the cable to the connector on the Ethernet Unit. Be sure to press

in the cable until it locks into place.

Example: CS1W-ETN11

RJ45 Modular Connector

CS1W-ETN11

3-6-4 Connecting the Power Supply (CS1W-ETN01 Only)

Connect a 24-VDC power supply to the power supply terminals. The Ethernet

Unit converts this 24-VDC power supply to the power supply voltage for the

transceivers and provides it through the transceiver cable.

24-VDC input

24-VDC power supply

Crimp terminals must be used for the power supply cable. The applicable M3

crimp terminals and recommended products are shown below.

6.2 mm max.

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Connecting to the Network

Section 3-6

Maker

Model

Specifications

Applicable power line

range (stranded wire)

0.25 to 1.65 mm²

(AWG: #22 to #16)

J.S.T.MFG.CO., V1.25-N3A

LTD

Fork terminal with

vinyl insulation

V1.25-MS3

Ring terminal with

vinyl insulation

0.3 to 1.65 mm²

(AWG: #22 to #16)

MOLEX JAPAN VSY1.25-3.5L

CO.,LTD

Fork terminal with

vinyl insulation

RAV1.25-M3

Ring terminal with

vinyl insulation

!Caution Be sure to turn OFF the power supply to the PC before connecting to the

power supply terminal block.

Note

1. Do not connect a power supply with a voltage other than 24 VDC.

2. To reduce the effects of noise, wire the power supply cable separately from

power lines and high-voltage lines.

3. Crimp terminals must be used for wiring. Do not just twist loose wire

strands.

4. Use the recommended crimp terminals.

5. Use the proper tools and procedure for installing the crimp terminals. Con-

sult with the terminal manufacturers for instructions. If the proper tools and

procedure are not used, it may cause the cable to become disconnected.

6. When installing the crimp terminals, use a length of cable that will not need

to be bent too much when combined with the terminals. Also, cover the ter-

minal and the end of the cable with insulating tape and heat-absorbing tub-

ing.

7. Be careful not to mistake the plus and minus terminals when connecting

the power supply.

8. Tighten the terminal block screws to a torque of 0.5 N·m. If the screws are

too loose, it may result in short-circuiting, malfunctioning, or fire damage.

9. Check the wiring carefully before turning ON the power.

10. Use a dedicated power supply, and do not use the same power supply for

the I/O power supply, motor power lines, or control power lines.

11. Position the power supply as close as possible to the Unit, and separate

the power supply cable by at least 20 cm from other power lines in order to

avoid adverse effects from high-voltage lines.

12. Noise influence may be reduced by installing a noise filter near the primary

side of the power supply.

13. Carefully twist the power supply cable that is to be connected to the Unit.

14. Do not excessively bend or stretch the cable.

15. Do not place anything on top of cables or cords.

16. If errors occur due to noise related to an external power supply, it may be

possible to solve the problem by not grounding the communications power

supply. Normally the switching power supply is connected to the case and

capacitor, as shown in the following diagram, so along with isolating the FG

terminal it is necessary to insulate the power supply itself from the control

panel.

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Connecting to the Network

Section 3-6

General Switching Power Supply Configuration

Switching power supply

Power

supply

circuit

AC power supply

DC output

Case

AC input

Standard Switching Power Supply Circuit

Communications Power Supply Isolation Method

S8J2 Power Supply

DC power supply

Insulating material (bakeboard, acrylic board, etc.)

(2) When another power supply is used.

S82Y-@@N (Mounting Stand)

(1) When S82J is used.

17. If communications are adversely affected by noise from the Unit’s power

supply terminals, the problem may be solved by implementing the mea-

sures shown below.

a) Add to the communications retry processing at the application. In par-

ticular, noise resistance capacity can be improved by increasing the

number of retries for applications using UDP.

b) Insert a noise filter right next to the Unit’s power supply terminals.

24 VDC

24-VDC power supply

Noise filter

As close as possible

Recommended filter: MAS-1206-33 by Nemic-Rambda K.K.

Specifications

Rated voltage: 250 V (AC, DC)

Rated current: 6 A

105.5 x 52.5 x 40 mm (W x H x D)

(Not including connector.)

Dimensions

Power Supply

Specifications

The following table shows the power supply specifications. Make sure that

these specifications are met.

Item

Specifications

Power supply voltage

24 VDC

Allowable power supply voltage

fluctuation

20.4 VDC to 26.4 VDC (24 VDC –15% + 10 %)

Current consumption

Inrush current

300 mA max. at 24 VDC (per node)

2.5 A max. (24 VDC when rise time is 5 ms)

OMRON’s S82J Series is recommended for the power supply.

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Creating an I/O Table

Section 3-7

Note

1. Use a power supply that meets these specifications.

2. If the power supply is separate from a node, make sure that these specifi-

cations are met at the node’s terminal block.

3. Turn ON the Unit’s power supply either before or at the same time as the

CPU Unit’s power supply. If the CPU’s power is turned ON first, a commu-

nications error may be generated.

4. Use a power supply with double or reinforced insulation.

5. Confirm that the Power Status Bit is ON before starting communications.

(Refer to Power Status (Bit 15) in 4-3 CIO Area Allocations.)

6. In the IEEE802.3 standards, the transceiver power supply specifications

require a voltage of 11.28 V (12 V – 6%) to 15.75 V (15 V + 5%) at the

transceiver inputs. The voltage output by the Ethernet Unit takes into ac-

count a voltage drop at the transceiver cable.

3-7 Creating an I/O Table

After the hardware settings and connections have been completed, turn ON

the power supply to the PC and create an I/O table.

3-7-1 I/O Table Overview

An I/O table is used to identify Units connected to the PC and to allocate I/O

to them. If any change is made to the Unit configuration of a CS/CJ-series PC,

an I/O table must be created to register the Units to the CPU Unit.

3-7-2 Connecting Programming Devices to the PC

To create the I/O table, connect a Programming Device (such as a Program-

ming Console or CX-Programmer) to the PC.

Applicable Programming

Devices

The following Programming Devices can be used with CS/CJ-series PCs.

Programming Console

Model number

Key Sheet (required)

Recommended cable (required)

C200H-PRO27-E

CS1W-KS001-E

CS1W-CN224 (cable length: 2.0 m)

CS1W-CN624 (cable length: 6.0 m)

CQM1-PRO01-E

CS1W-CN114 (cable length: 0.1 m)

CX-Programmer and CX-Net

Model number: WS02-CXP@@-EV2

The operations are explained here using a Programming Console. For details

regarding the CX-Programmer and the CX-Net, refer to the CX-Programmer

User’s Manual.

CX-Net is software that comes with CX-Programmer and is automatically

installed when CX-Programmer is installed.

Connecting Programming

Devices

To connect a Programming Console, attach a CS/CJ-series Key Sheet and

then connect the Console to the CPU Unit’s peripheral port. (It cannot be con-

nected to the RS-232C port.)

3-7-3 Procedure for Creating an I/O Table

The procedure for creating an I/O table is shown here, taking as an example

an I/O table that is generated automatically for a PC connected online. In this

example, a Programming Console is used for creating the I/O table. For an

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Creating Routing Tables

Section 3-8

explanation of how to create an I/O table using a CX-Programmer, refer to the

CX-Programmer User’s Manual.

Use the following procedure to create the I/O table.

Note With the CJ Series, it is necessary to create an I/O table only when I/O alloca-

tion is performed by the user. With the CS Series, it is always necessary to

create an I/O table.

Initial screen

*DM

SHIFT

000000 I/O TBL ?

CHG

000000 I/O TBL

WRIT

????

WRITE

Password

000000CPU BU ST?

0:CLR 1:KEEP

(Save or clear the CPU Bus Unit System Setup.)

000000 I/O TBL

WRIT OK

3-8 Creating Routing Tables

When the FINS communications service is used, routing tables must be cre-

ated in advance. Routing tables are required in the following circumstances.

• When the FINS communications service is used on an Ethernet network

(including when communications are only carried out between FA net-

works via an Ethernet network).

• When there are multiple Communications Units mounted to the PC, and

socket services are requested by executing the CMND(490) instruction.

If neither of these circumstances apply, then a routing table is not required. In

that case, proceed to 3-9 System Setup.

The routing table is required not only for nodes communicating via the FINS

communications service but for all relay nodes on the network.

3-8-1 Routing Table Overview

The routing tables describe the transmission path for FINS messages when

the FINS communications are used. It consists of two tables: A local network

table and a relay network table.

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Creating Routing Tables

Section 3-8

Local Network Table

The local network table is a table describing the correspondences among unit

numbers of the Communications Units and Boards mounted to each node

(PC or FA Computer).

Unit #04

Example

Unit #05

Local Network Table

Unit #06

Unit #07

Local network

Unit number

address

Network #1

Network #2

Network #3

Network #4

Note

1. The unit number is set (from 0 to F: 1 to 15) by the rotary switch on the front

of the Ethernet Unit.

2. The network address is the number of the network (from 1 to 127) to which

the Communications Unit or Board is connected. It is set when the local

network table is created.

Relay Network Table

A relay table is a table that shows the nodes to which data should be sent first

in order to send data to a network that is not connected to the local node. It

shows the correspondence between the address of the final destination net-

work, and the network address and node number of the first relay point of the

path to reach there. When internetwork communications are carried out, the

end network can be reached by following the relay points.

The following example shows a routing table for sending data from PC #1 (the

local node: network address 1, node number 1) to PC #4 (the destination

node: network address 3, node number 2).

Node #2

PC #3

Unit #0

Node #1

Unit #1

PC #4 (destination node)

Node #2

(relay node)

PC #2 (relay node)

PC #1 (local node)

Node #3

Node #1

Node #2

Network #2

Network #3

Network #1

End network

PC #2

relay network table

PC #1

relay network table

PC #3

relay network table

Local

network

address

End

Relay

End

Relay

Unit

number

network network node

To go to network #3,

first go to node #2 at

network #2.

(The network is the same,

so go to node #2 at network #3.)

To go to network #3,

first go to node #3 at

network #1.

(To go to network #3

according to the local

network table, go

through the unit

number of the local

CPU Rack.)

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Creating Routing Tables

Section 3-8

3-8-2 Connecting and Using a Peripheral Device for the PC

Routing tables must be created by a CX-Net connected to the PC. (They can-

not be created using a Programming Console.) For details on how to connect

and use a CX-Net, refer to the CX-Programmer User’s Manual. (CX-Net is

automatically installed when CX-Programmer is installed.)

Note

1. To transfer routing tables for multiple nodes to a PC in one batch, connect

the CX-Net to a PC with only one Communications Unit mounted. Routing

tables cannot be transferred to other nodes from a PC with multiple Com-

munications Units mounted.

2. Routing tables can only be transferred as a batch to multiple nodes within

the same network as the PC to which the CX-Net is connected.

Routing Table Setting Examples

Example 1: Local Network Table for a PC With Multiple Units Mounted

This example shows the local network table settings for a PC to which multiple

CPU Bus Units are mounted.

Ethernet network

(Network #A)

Controller Link network

(Network #B)

PS: Power Supply Unit

CPU: CPU Unit

ETN: Ethernet Unit

CLK: Controller Link Unit

Unit #a Unit #b

Local Network Table

Local

network

CPU Bus

Unit

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Creating Routing Tables

Section 3-8

Example 2: Three Interconnected Networks

This example shows the relay network table settings for three different inter-

connected networks.

Relay Network Table

End

network

Relay

network

No.

Node

PC #1

Node #a

Network #A

Network #B

PC #2

Node #b

Node #c

PC #3

Node #d

PC #4

Node #e

Node #f

Network #C

Node #g

In the table for PC #3, for example, if network #A is taken as the end network,

then network #B becomes the relay network and node #c becomes the relay

node. If network #C is taken as the end network, then network #B still

becomes the relay network and node #e becomes the relay node.

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Creating Routing Tables

Section 3-8

Example 3: All Nodes

This example uses the following configuration to show the routing tables for all

nodes.

Unit #5

Node #6

Network #10

Unit #4

Node #5

Unit #7

Unit #3

Node #4

Unit #2

Node #3

Node #15

Network #30

Network #20

Unit #0

Node #1

Unit #5

Node #5

Unit #6

Node #10

Unit #1

Node #2

PC #1 Routing Table

(Local network table)

(Relay network table)

Local

CPU Bus

End

network

Relay

network

Relay

node

network Unit No.

PC #2 Routing Table

(Local network table)

(Relay network table)

Local

CPU Bus

End

network

Relay

network

Relay

node

network Unit No.

PC #3 Routing Table

(Local network table)

(Relay network table)

Local

CPU Bus

End

network

Relay

network

Relay

node

network Unit No.

PC #4 Routing Table

(Local network table)

(Relay network table)

Local

CPU Bus

End

network

Relay

network

Relay

node

network Unit No.

PC #5 Routing Table

(Local network table)

(Relay network table)

Local

CPU Bus

End

network

Relay

network

Relay

node

network Unit No.

PC #6 Routing Table

(Local network table)

(Relay network table)

Local

CPU Bus

End

network

Relay

network

Relay

node

network Unit No.

PC #7 Routing Table

(Local network table)

(Relay network table)

Local

CPU Bus

End

Relay

network

Relay

node

network Unit No.

network

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System Setup

Section 3-9

3-9 System Setup

The settings for the Ethernet Unit’s basic and special functions are made in

the CPU Bus Unit System Setup. These settings, and the situations in which

the settings must be made, are shown in the following table. For details on

how to make the settings, refer to 4-2 CPU Bus Unit System Setup.

3-9-1 When Settings are Required

Settings

When settings are required

Broadcast setting

When Ethernet is used with UNIX 4.2BSD specifications.

Address conversion method

• When the FINS communications service is used on an Ethernet network.

• When it is necessary to set a value outside of the range of 1 to 126 for the least sig-

nificant byte of the local IP address.

UDP port number for FINS

When it is necessary to set a value other than the default (9600) for the FINS UDP

port number.

Local IP address (CJ Series only) When setting the local IP address with the CPU Bus Unit System Setup (i.e., when

not setting the local IP address with the allocated words in the DM Area).

Subnet mask

When it is necessary to set a subnet mask.

FTP login name

FTP password

When setting the login name and password at the FTP server.

IP address table

• When the FINS communications service is used on an Ethernet network.

• When it is necessary to set a value outside of the range of 1 to 126 for the least sig-

nificant byte of the local IP address.

IP router table

Mail function

• When the Ethernet network is configured with multiple segments.

When the mail function is used.

Refer to 4-2 CPU Bus Unit System Setup for details.

3-9-2 Using a Programming Device

The settings for the CPU Bus Unit System Setup must be made using the Unit

settings on a CX-Programmer connected to the PC. The settings cannot be

made using a Programming Console. For details on how to connect and use a

CX-Programmer, refer to the CX-Programmer User’s Manual.

3-9-3 CPU Bus Unit System Setup Defaults

The following table shows the items in the CPU Bus Unit System Setup, and

their default settings.

Item

Broadcast settings

Default

All 1 (4.3BSD specifications)

Automatic address generation

9600

Address conversion method

UDP port number for FINS

Local IP address (CJ Series only)

0.0.0.0 (The local IP address is set with

allocated words in the DM Area.)

Subnet mask

0.0.0.0 (A value corresponding to the IP

address is used.)

FTP login name

CONFIDENTIAL

Not set.

FTP password

IP address table

IP router table

Not set.

Mail settings

None set.

Not set.

User-created mail data address

Local mail address

Not set.

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Creating an IP Address Table

Section 3-10

Item

Destination mail address

SMTP server address

Default

Not set.

0.0.0.0 (Not set.)

For information on IP address table settings, refer to 3-10 Creating an IP

Address T a ble . For information on IP router table settings, refer to 3-11 Creat-

ing an IP Router Table. For information on IP mail transmission settings, refer

to Section 8 Mail.

3-10 Creating an IP Address Table

An IP address table is a table of correspondences between node numbers

and IP addresses, and it is used for finding IP addresses from FINS node

numbers. It is necessary to register an IP address table when using the IP

address table method as the method for address conversion. (For details

regarding preliminary procedures, refer to 3-1 Before Operation.)

An IP address table does not necessarily need to be registered in order to use

the combined method for address conversion. If none is registered, however,

the automatic address generation method will always be used.

If the automatic address generation method is to be used exclusively, then

there is no need to register an IP address table. In that case, proceed to 3-11

Creating an IP Router Table.

Connecting and Using a

Programming Device for

the PC

The IP address table must be created using the Unit settings on a CX-Pro-

grammer connected to the PC. It cannot be created using a Programming

Console. For details on how to connect and use a CX-Programmer, refer to

the CX-Programmer User’s Manual.

Note An IP address table can also be registered using the FINS command IP

ADDRESS TABLE WRITE. For details, refer to IP ADDRESS TABLE WRITE

on page 237.

3-11 Creating an IP Router Table

An IP router table is a table of correspondences between IP router IP

addresses and the network numbers of segments relayed by the IP router. If

the Ethernet network is configured of multiple segments, an IP router table

must be registered for communications between the segments. (For details on

segments and connecting nodes, refer to 1-2-2 Node Connections.)

If the Ethernet network has the minimal configuration of just one segment,

there is no need to create an IP router table. In that case, proceed to 3-12

Checking Communications.

Note

1. An IP router table needs to be created only when the IP address table

method or the combined method is used for address conversion.

2. With CJ-series Ethernet Units, it is possible to register one default IP router

(the IP router selected when the applicable network number is not regis-

tered).

Connecting and Using a

Programming Device for

the PC

The IP router table must be created using the Unit settings on a CX-Program-

mer connected to the PC. It cannot be created using a Programming Console.

For details on how to connect and use a CX-Programmer, refer to the CX-Pro-

grammer User’s Manual.

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Checking Communications

Section 3-12

3-12 Checking Communications

The Ethernet Unit supports the PING command, which is also widely sup-

ported by host computers. It also supports a function for internode testing in

the FINS communications service by simply manipulating bits with a Program-

ming Device.

After the settings and connections have been completed, use either the PING

command or the internode test function as required to check communications

with the remote nodes.

3-12-1 PING Command and Internode Testing

The following table outlines the points of difference between the PING com-

mand and internode testing.

Item

PING command

Internode testing

Main application

Testing communications as Checking settings such as

an Ethernet node.

FINS addresses for using

the FINS communications

service.

Test objects

Ethernet Units and Ether- OMRON Units and Boards

net devices that support

PING.

that support FINS commu-

nications service intern-

ode testing.

Network classification

Address system used

Within Ethernet networks

(including between seg-

ments).

Up to three levels of Ether-

net networks, and FA net-

works.

IP addresses

FINS address system (net-

work and node numbers)

Note: Requires routing

tables.

Transmission from Ether-

net Unit

PING command is issued Set required parameters in

to Ethernet Unit by DM from Programming

CMND(490) instruction in Device, and manipulate

user program.

start switch bit.

Reception at Ethernet Unit When PING command is

received, it is automati-

When internode test mes-

sage is received, it is auto-

matically returned.

cally returned.

3-12-2 PING Command

The PING command checks communications with another node by sending

an echo back request packet and receiving a response packet. Use the PING

command as required to check communications. Using the PING command

between nodes that support the PING command makes it possible to check

whether internode communications are normal.

For details on using the PING command, refer to 9-2 PING Command.

3-12-3 Internode Test

The internode test is a function for checking a network by sending data to and

from specified nodes and checking the responses. Use the internode test as

required to check the FINS communications service settings. Using it between

Communications Units and Boards that support it makes it possible to check

whether the FINS communications service settings are correct.

For details on using the internode test, refer to 9-3 Internode Test.

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Checking Communications

Section 3-12

Note

1. The internode test can be easily carried out by manipulating dedicated

control switches for the Ethernet Unit. For details, refer to 9-3 Internode

Test.

2. Internode testing of the FINS communications service can also be carried

out by means of the FINS commands INTERNODE ECHO TEST and

BROADCAST TEST RESULTS READ. For details, refer to 11-3-4 INTER-

NODE ECHO TEST and 11-3-5 BROADCAST TEST RESULTS READ.

3-12-4 Simple Startup Test Example

When performing FINS communications using UDP with the Ethernet Unit, it

is recommended that a startup test (a connections verification test) is per-

formed under simple conditions, according to the procedure detailed below.

Users starting up the system for the first time should perform the following set-

tings and operations and ensure correct operation. The actual application

conditions and setting methods for the CS1W-ETN01 are indicated below as

an example.

Application Conditions

• A 1-to-1 connection is made between the host computer (workstation or

personal computer) and the PC (Programmable Controller). There are no

communications beyond the network, i.e., there are no inter-network com-

munications.

• The MEMORY AREA READ command (a FINS command addressed to

the PC with command code 0101 hex) is sent to the PC from the host

computer via Ethernet.

• IP address conversion is set to automatic generation (default setting).

Setting Method

1,2,3...

1. Set the IP Address

Set the IP address of the Ethernet Unit using the 8 hexadecimal rotary

switches on the back of the Unit so that it does not coincide with the IP ad-

dress of the host computer. For example, if the IP address of the host com-

puter (workstation or personal computer) is 133.113.0.40

(85.71.00.28 Hex), set 133.113.00.42 (85.71.00.2A Hex) as the IP address

of the Ethernet Unit. When using the automatic generation method for ad-

dress conversion, set SW7 and SW8 to the same values as the node num-

ber setting. Set the rest of the host number setting (SW5 and SW6) to

zeroes.

Note If the IP address of the host computer is 133.113.102.40, set the IP

address of the Unit to 133.113.102.42. In this case, set the subnet

mask to the class-C subnet mask 255.255.255.0.

2. Set the Unit Number and the Node Address

• Set the unit number to 00.

• Set the node address to 2A.

3. Set the Routing Tables

The routing tables describe the transmission path for FINS messages

when the FINS communications are used. Connect CX-NET and make the

following settings.

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Checking Communications

Section 3-12

Local network table

Local network

Unit number

address

Set to the same value as the

unit number set with the rotary

switch on the front of the Unit.

When the above settings have been completed, reset the power supply.

4. Check Communications

In order to check that connection is established with Ethernet Unit at an IP

protocol level (i.e., whether communications are possible), send the follow-

ing PING command from the host computer to the Ethernet Unit.

PING 133.113.0.42

(For details, refer 9-2-2 Host Computer.)

If a normal response is not returned for the PING command, it is possible

that there is a problem with a connection cable or an IP address. If this is

the case, sending any FINS command will end in an error. Check the ca-

bles and other setup conditions and eliminate any possible factors prevent-

ing normal communications. Confirm that a normal response is received to

the PING command.

5. Send a FINS Command

Send the following kind of PC-addressed FINS command to the PC (MEM-

ORY AREA READ, command code 0101) from the host computer’s UDP

port 9600 (same port number as the Ethernet Unit’s default FINS UDP

port). If a normal response is received, this means that the startup test is

completed.

For details of FINS frames (ICF to SID below), refer to 5-4-2 FINS Frames.

For details of FINS commands, refer to the CS/CJ-series Programmable

Controllers Communications Commands Reference Manual (W342).

Command

ICF RSV GCT DNA DA1 DA2 SNA SA1 SA2 SID Command code

(READ)

I/O memory area

Number of

items to read

(150)

(DM Area)

Beginning address to

read

(Word 100, word units)

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Checking Communications

Section 3-12

Normal Response

ICF RSV GCT DNA DA1 DA2 SNA SA1 SA2 SID

Command code

(READ)

Data read

from D100

Data read

from D249

Completion code

(Normal completion)

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SECTION 4

System Setup and Memory Allocations

This section explains the System Setup and the words allocated in the CIO Area and the DM Area for Ethernet Units.

4-1 Allocated Words . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-2 CPU Bus Unit System Setup. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-2-1 Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-2-2 Mail Settings. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-3 CIO Area Allocations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

4-4 DM Area Allocations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

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Allocated Words

Section 4-1

4-1 Allocated Words

The Ethernet Unit is allocated words in the following three areas for reading

settings and status.

• System Setup for CPU Bus Units

Stores initial setup for the Ethernet node.

• Allocated Words in the CIO Area

Stores software switches and status information for functions.

• Allocated Words in the DM Area

Stores software switch and status information for functions.

CPU Unit

Ethernet Unit

CPU Bus Unit System Setup

(Set using CX-Programmer.)

Transferred

when power

supply is turned

ON or Unit is

restarted.

Allocated Words in CIO Area for

CPU Bus Units

n = CIO 1500 + 25 x unit number

I/O refresh

n + 1

n + 24

Allocated Words in DM Area for

CPU Bus Units

n = D30000 + 100 x unit number

I/O refresh

m + 1

m + 99

The words in the CIO Area and DM Area are allocated according to the unit

number as shown in the following tables. The 25 words are allocated per Unit

in the CIO Area and 100 word are allocated per Unit in the DM Area.

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CPU Bus Unit System Setup

Section 4-2

CIO Area Allocations

Unit No.

(decimal)

Allocated words

Unit No.

(decimal)

Allocated words

0 (0)

CIO 1500 to CIO 1524

CIO 1525 to CIO 1549

CIO 1550 to CIO 1574

CIO 1575 to CIO 1599

CIO 1600 to CIO 1624

CIO 1625 to CIO 1649

CIO 1650 to CIO 1674

CIO 1675 to CIO 1699

8 (8)

CIO 1700 to CIO 1724

CIO 1725 to CIO 1749

CIO 1750 to CIO 1774

CIO 1775 to CIO 1799

CIO 1800 to CIO 1824

CIO 1825 to CIO 1849

CIO 1850 to CIO 1874

CIO 1875 to CIO 1899

1 (1)

2 (2)

3 (3)

4 (4)

5 (5)

6 (6)

7 (7)

9 (9)

A (10)

B (11)

C (12)

D (13)

E (14)

F (15)

DM Area Allocations

Unit No.

(decimal)

Allocated words

Unit No.

(decimal)

Allocated words

0 (0)

D30000 to D30099

D30100 to D30199

D30200 to D30299

D30300 to D30399

D30400 to D30499

D30500 to D30599

D30600 to D30699

D30700 to D30799

8 (8)

D30800 to D30899

D30900 to D30999

D31000 to D31099

D31100 to D31199

D31200 to D31299

D31300 to D31399

D31400 to D31499

D31500 to D31599

1 (1)

2 (2)

3 (3)

4 (4)

5 (5)

6 (6)

7 (7)

9 (9)

A (10)

B (11)

C (12)

D (13)

E (14)

F (15)

4-2 CPU Bus Unit System Setup

To operate the Ethernet Unit as a node on an Ethernet network, the required

parameters must be set in the CPU Bus Unit System Setup, part of the CPU

Unit’s Parameter Areas. If any of the following items apply, then the system

parameters must be set.

• Either the IP address table or both the IP address table and automatic

address generation are used as the destination IP address conversion

method.

• Transmissions are broadcast using a host number set to all zeroes as the

broadcast address (when UNIX 4.2BSD specifications are used for the

broadcast address).

• The FINS UDP port number is set to a value other than 9600.

• With CJ-series Ethernet Units, the local IP address is set with the allo-

cated words in the DM Area.

• A subnet mask other than the one determined from the IP address is set.

• A login name other than CONFIDENTIAL is used for the FTP server func-

tion.

• Communications between segments are required.

• The mail function is used.

Newly set parameters go into effect after the Ethernet Unit has been restarted

or after the CPU Unit is started again.

The settings are made using the Unit settings on the CX-Programmer.

Note The CPU Bus Unit System Setup is located in the CPU Unit’s Parameter Area,

and not in I/O Memory; parameters cannot be written using instructions or by

editing I/O Memory. The settings can be made only using the CX-Program-

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CPU Bus Unit System Setup

Section 4-2

mer. With CJ-series Ethernet Units, however, it is possible to set the local IP

address and the subnet mask using the FINS command IP ADDRESS

WRITE. For details, refer to 11-3-20 IP ADDRESS WRITE.

4-2-1 Settings

Item

CX-Programmer default

All 1s (4.3BSD specifications)

Automatic address generation

9600

Broadcast setting

Address conversion method

FINS UDP port number

Local IP address (CJ Series only)

0.0.0.0 (The local IP address set in allo-

cated words m+98 and m+99 of the DM

Area is enabled.)

Subnet mask

0.0.0.0 (A value corresponding to the IP

address is used.)

FTP login name

FTP password

IP address table

IP router table

Not set. (CONFIDENTIAL)

Not set.

Broadcast Settings

Set the method for specifying the broadcast address.

Setting

Meaning

All 1s (4.3BSD) (Default) Broadcast with host number set to all ones. (4.3BSD

specifications)

All 0s (4.2BSD)

Broadcast with host number set to all zeroes. (4.2BSD

specifications)

Address Conversion Method

Set the method for converting the FINS node number to an IP address.

Setting

Meaning

Automatic generation

(Default)

Uses automatic address generation. The IP address is

automatically generated from the FINS node number

without using an IP address table.

IP address table

Combined

Uses an IP address table.

Uses both automatic address generation and an I/O

address table.

Automatic Address Generation

With the automatic generation, the FINS node number is regarded as the host

number of the IP address, just as it is.

Destination IP address = (Local IP address and subnet mask) + Destination

FINS node number

With the CS Series, the local IP address is set using the local IP address

switches (rotary switches) on the back of the Unit. With the CJ Series, the

local IP address is set using either the CPU Bus Unit System Setup or the

allocated words in the DM Area. The method used depends on whether or not

the local IP address setting in the CPU Bus Unit System Setup is 00.00.00.00.

For details, refer to Local IP Address (CJ Series Only).

Example

Local IP address:

Subnet mask:

130.25.36.8

255.255.0.0

Destination FINS node number:5

→Destination IP address = 130.25.0.5

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CPU Bus Unit System Setup

Section 4-2

Note When using automatic address generation (the default) for address conver-

sion, make the following settings.

With the CS Series, set local IP address DIP switches 7 and 8 on the back of

the Ethernet Unit to the same value as the node number setting on the front of

the Unit, and set all other host settings to 0.

With the CJ Series, set the rightmost byte of the local IP address and the

node number setting on the front of the Ethernet Unit to the same value, and

set all other host settings to 0.

If the IP address host number does not match the node number, the ERC indi-

cator (CS Series) or ERH indicator (CJ Series) will flash.

IP Address Table

With an IP address table, the address is converted according to a preset table

of correspondences (i.e., an IP address table) between FINS node numbers

and IP addresses.

The following is an example of an IP address table.

IP address

FINS node

number

Destination FINS address

Destination IP address

150.31.2.83

150.31.3.68

FINS messages addressed to FINS node number 23 are sent to the node with

IP address 150.31.3.68.

Automatic Address Generation and IP Address Table

With the combined method, first the IP address table is referenced. If the

applicable node is not registered, then the automatic address generation

method is used.

FINS UDP Port Number

Set the method for specifying the UDP port number for FINS communications.

Setting

9600 (Default)

User-defined

Meaning

Uses the default value of 9600.

Uses the input value (from 1 to 65535).

Local IP Address (CJ Series Only)

‘Set the IP address for CJ-series Ethernet Units. (The IP address can also be

set with the allocated words in the DM Area.) This setting is enabled (as the

local IP address) if it is set to any value other than 00.00.00.00. If it is set to

00.00.00.00, the value set in allocated words m+98 and m+99 in the DM Area

is enabled.

For details on the setting method, refer to the CX-Programmer user’s manual.

Note Choose the method used to set the local IP address as follows:

Set the local IP address in the CPU Bus Unit System Setup when making

other settings in the CPU Bus Unit System Setup (i.e., the default settings are

not used). The settings are made with CX-Programmer.

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CPU Bus Unit System Setup

Section 4-2

Set the local IP address in the allocated words in the DM Area when using the

CPU Bus Unit System Setup at its default settings (i.e., for simple operation).

The setting is usually made with a Programming Console.

Application

Setting device

Setting area

Remarks

Operation with the

CPU Unit Bus Sys-

tem Setup set as

desired (i.e., The

default settings are

not used.)

CX-Programmer

CPU Unit Bus System Setup The IP address set in the CPU

Unit Bus System Setup is

stored in the allocated words

in the DM Area.

Simple operation

(i.e., The CPU Unit

Bus System Setup is used.)

used at its default

settings. Only the IP

address is set.)

Programming Console (CX-

Programmer can also be

Allocated words in the DM

Area

The setting in the allocated

words in the DM Area is

enabled only when the IP

address in the CPU Unit Bus

System Setup is set to

00.00.00.00.

If the IP address in the CPU

Unit Bus System Setup is set

to a value other than

00.00.00.00, this value is

stored in the allocated words

in the DM Area.

Note

1. With CS-series Ethernet Units, set the local IP address using the 8 rotary

switches on the back of the Unit. For details, refer to Setting the Local IP

Address on page 34.

2. If no local IP address is set in either the CPU Bus Unit System Setup or the

allocated words in the DM Area (m+98 and m+99), the Ethernet Unit will

not be able to perform communications. Be sure to set the local IP address

in one of these areas. It is not possible, however, to set the following IP ad-

dresses. If any of these values are set, the ERH indicator will flash.

• IP addresses where all network number bits are 0.

• IP addresses where all host number bits are 0.

• IP addresses where all subnet number bits are 0.

• IP addresses starting with 127 (7F Hex), e.g., 127.35.21.16.

Subnet Mask

Set all bits in the subnet mask that correspond to the bits in the IP address

used for the network number and the bits used for the subnet number to “1,”

and set all bits in the subnet mask that correspond to the bits in the IP

address used for the host number to “0”. The subnet mask must be set only

when configuring a system which includes subnetworks.

If no subnet mask is set, the subnet mask will be automatically set to one of

the following values, depending on the local IP address setting:

Class

Class-A IP address

Subnet mask value

255.0.0.0

Class-B IP address

Class-C IP address

255.255.0.0

255.255.255.0

The default is 0.0.0.0. (A value corresponding to the IP address class is used.)

FTP Login Name

Enter the user’s FTP server login name using up to 12 characters. Alphanu-

meric characters, hyphens, commas, quotation marks, and underlines can be

used in login name. Once the login name has been set, a password must also

be set or both the FTP login name and FTP password will be invalid.

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CPU Bus Unit System Setup

Section 4-2

If the login name is incorrectly specified, or if no login name is specified at all,

the default login name of “CONFIDENTIAL” will be used and no FTP pass-

word will be required. The default is for no FTP login name to be set.

FTP Password

Enter the Unit’s FTP server password using up to eight characters. Alphanu-

meric characters, hyphens, commas, quotation marks, and underlines can be

used as password characters. If a login name has been set, then a password

must also be set or both the FTP login name and FTP password will be

invalid. The default is for no FTP password to be set.

IP Address Table

This table contains the conversion data used to generate IP addresses from

FINS node numbers when using FINS communications. This table is ignored

if the IP address conversion method is set to automatic generation only. The

IP address table cannot be edited. It is configured as follows by the CX-Pro-

grammer:

FINS node number

IP address

150.31.2.83

150.31.6.68

Setting range: 1 to 126

Setting range: 0.0.0.0 to 255.255.255.255.

Up to 32 records can be registered. The default is for nothing to be set.

For an explanation of how to make the settings, refer to the CX-Programmer

User’s Manual.

IP Router Table

The IP router table sets how the Ethernet Unit communicates via the IP router

with nodes on other IP network segments. This table cannot be edited when

the automatic generation method is used for address conversion.

(Network number)

130.25.36.253

130.26.2.254

Node A

Node B

IP router

The IP router table is configured by the CX-Programmer as shown below. For

the IP network number, set the network number of the other IP network seg-

ment that is to be communicated with. The length of the network number var-

ies depending on the IP address class. Four bytes are provided in the field for

setting the IP network number, so set the network from the beginning and

then set 00 in the remainder.

Note With the CJ Series, it is possible to set one default IP router. The default IP

router is selected if there is no network number for the communications desti-

nation in the IP router table. To specify the default IP router, specify 0.0.0.0 as

the IP network address (net ID), and set the IP address of the default IP

router.

Settings

The following settings are for node A when network No. 130.26.X.X is con-

nected by the IP router with IP address 130.25.36.253. (Refer to the preced-

ing diagram.)

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CPU Bus Unit System Setup

Section 4-2

IP network number

130.26.0.0

IP address of IP router

130.25.36.253

Setting range: 0.0.0.0 to 255.255.255.255

Setting range: 0.0.0.0 to 255.255.255.0

A maximum of eight records can be registered. The default is for nothing to be

set.

For an explanation of how to make the settings, refer to the CX-Programmer

User’s Manual.

4-2-2 Mail Settings

Item

CX-Programmer default

None set.

Mail settings

User-created mail data address

Local mail address

Not set.

Destination mail address

SMTP server address

Not set.

0.0.0.0 (Not set.)

Mail Settings

User Data in User Mail

Specify whether or not user data is to be added to mail contents when mail is

sent by turning ON the Mail Send Switch in the CPU Unit’s I/O Memory. (Refer

to page 68.) The user data is ASCII data stored with the CPU Unit’s I/O mem-

ory address set for the mail function’s user-created mail data address. When

user data is sent, 1,024 bytes or the data up to the null code (00 Hex) will be

sent.

Setting

Meaning

Not selected

(Default)

User data not included in user mail.

Selected

User data included in user mail.

Error Log in User Mail

Specify whether or not all error log information is to be added to mail contents

when mail is sent by turning ON the Mail Send Switch in the CPU Unit’s I/O

Memory. (Refer to Mail Send Switch in 4-3 CIO Area Allocations.)

Setting

Not selected (Default)

Selected

Meaning

Error log information not included in user mail.

Error log information included in user mail.

Status in User Mail

Specify whether or not status information is to be added to mail contents

when mail is sent by turning ON the Mail Send Switch in the CPU Unit’s I/O

Memory. (Refer to Mail Send Switch in 4-3 CIO Area Allocations.)

Setting

Not selected (Default)

Selected

Meaning

Status information not included in user mail.

Status information included in user mail.

Sending Mail for Errors

Specify whether or not mail is to be sent to a preset mail address whenever an

error is registered in the error log. The following types of data can be specified

to be sent as mail.

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CPU Bus Unit System Setup

Section 4-2

• User Data

(Refer to Sending User Data for Errors below.)

• Error Log Information

(Refer to Sending Error Log Information for Errors below.)

• Status Information

(Refer to Status Information for Errors below.)

If none of these types of data is selected, mail will not be sent even if the set-

ting is made for mail to be sent whenever an error is registered.

Setting

Not selected (Default)

Selected

Meaning

Mail not sent when error is registered in error log.

Sending User Data for Errors

Specify whether or not user data is to be added to mail contents when mail is

sent whenever an error is registered to the error log.

Setting

Meaning

Not selected (Default)

User data not included in mail when error is registered to

error log.

Selected

User data included in mail when error is registered to

error log.

Sending Error Log Information for Errors

Specify whether or not all error log information is to be added to mail contents

when mail is sent whenever an error is registered to the error log.

Setting

Meaning

Not selected (Default)

Error log information not included in mail when error is

registered to error log.

Selected

Error log information included in mail when error is regis-

tered to error log.

Sending Status Information for Errors

Specify whether or not status information is to be added to mail contents

when mail is sent whenever an error is registered to the error log.

Setting

Meaning

Not selected (Default)

Status information not included in mail when error is reg-

istered to error log.

Selected

Status information included in mail when error is regis-

tered to error log.

Periodic Mail

Specify whether or not mail is to be sent at the time intervals set for the mail

interval in the mail settings. The following types of data can be specified to be

sent as mail.

• User data

(Refer to Periodic Mail for User Data below.)

• Error log information

(Refer to Periodic Mail for Error Log Information below.)

• Status information

(Refer to Periodic Mail for Status Information.)

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CPU Bus Unit System Setup

Section 4-2

If none of these types of data is selected, mail will not be sent even if the set-

ting is made for mail to be sent whenever an error is registered.

Setting

Not selected (Default)

Selected

Meaning

Mail is not sent periodically.

Mail is sent periodically.

Mail Interval

When mail is sent periodically, it is sent at the time interval that is set here.

The setting range is 1 to 1,440, in units of 10 seconds, so the mail can be sent

at intervals of from once every 10 seconds to once every 10 days. This setting

is only enabled when the periodic mail setting (see above) is selected.

If the mail interval is set to 0, then mail will not be sent periodically. If it is set to

a value greater than 1,440, it will be processed as 1,440 (10 days).

The default setting is 0 (mail not sent periodically).

Periodic Mail for User Data

Specify whether or not user data is to be added to mail contents when mail is

sent periodically. The user data is ASCII data stored with the CPU Unit’s I/O

memory address set for the mail function’s “user-created mail data address”

at the beginning. (When user data is sent, 1,024 bytes or the data up to the

null code (00 Hex) is transmitted.)

Setting

Not selected (Default)

Selected

Meaning

User data not included in periodic mail.

User data included in periodic mail.

Periodic Mail for Error Log Information

Specify whether or not all error log information (64 records max.) is to be

added to mail contents when mail is sent periodically.

Setting

Not selected (Default)

Selected

Meaning

Error log information not included in periodic mail.

Error log information included in periodic mail.

Periodic Mail for Status Information

Specify whether or not status information is to be added to mail contents

when mail is sent periodically.

Setting

Not selected (Default)

Selected

Meaning

Status information not included in periodic mail.

Status information included in periodic mail.

User-created Mail Data

Address

Specify, by area classification and beginning word address, the CPU Unit’s

memory address for the data (user-created information) to be transmitted

when data is sent by user request. The default setting is for no address to be

set.

Local Mail Address

In 50 or fewer characters, specify the mail address to be entered in the “From”

field in the mail.

Destination Mail Address

SMTP Server Address

In 50 or fewer characters, specify the address to which the mail is to be sent.

Specify the IP address of the mail server (i.e., the SMTP server address). The

setting range is 0.0.0.0 to 255.255.255.255. The default is 0.0.0.0 (nothing

set).

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CIO Area Allocations

Section 4-3

4-3 CIO Area Allocations

The various kinds of data are stored in the offset positions shown in the fol-

lowing diagram, from the beginning word in the area for each Unit.

The beginning word n is calculated by the following equation:

Beginning word n = CIO 1500 + (25 x unit number)

Offset

Bit

Related communications services

Data direction

CPU Unit to Ethernet Unit

Unit Control Switch

UDP Socket No. 1 Status

UDP Socket No. 2 Status

UDP Socket No. 3 Status

UDP Socket No. 4 Status

UDP Socket No. 5 Status

UDP Socket No. 6 Status

Socket Services

(Refer to Section 6

Socket Services .)

n+1

n+2

n+3

n+4

n+5

n+6

Ethernet Unit to CPU Unit

Mail Function

(Refer to Section 8 Mail.)

n+7

UDP Socket No. 7 Status

UDP Socket No. 8 Status

TCP Socket No. 1 Status

n+8

nn+9

Socket Services

(Refer to Section 6

Socket Services.)

n+10

n+11

n+12

TCP Socket No. 2 Status

TCP Socket No. 3 Status

TCP Socket No. 4 Status

n+13

n+14

n+15

n+16

n+17

n+18

TCP Socket No. 5 Status

TCP Socket No. 6 Status

TCP Socket No. 7 Status

TCP Socket No. 8 Status

Service Status

FTP Service, etc.

All error conditions

Error Status

Socket Services

(Refer to Section 6

Socket Services.)

n+19

Socket Service Re-

quest Switches 2

Socket Service Re-

quest Switches 1

CPU Unit to Ethernet Unit

n+20

Socket Service Re-

quest Switches 4

Socket Service Re-

quest Switches 3

n+21

n+22

Socket Service Re-

quest Switches 6

Socket Service Re-

quest Switches 5

Socket Service Re-

quest Switches 8

Socket Service Re-

quest Switches 7

(Not used.)

n+23

n+24+

The following items in the diagram can also be checked using software switch

settings on the CX-Programmer.

• The status of UDP/TCP sockets 1 to 8 (Opening Flag, Receiving Flag,

Sending Flag, Closing Flag, Results Storage Error Flag, Socket Open

Flag)

• Service status (FTP status)

For explanations of how to use the related communications services listed in

the above diagram, refer to the indicated sections.

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CIO Area Allocations

Section 4-3

Unit Control Switches (CPU Unit to Ethernet Unit)

15 14 13 12 11 10

Internode Test Start Switch

Socket Force-close Switch

Mail Send Switch

Bit

Switch

Status Manipulated

Unit operation

Reference

(Not used.)

---

Internode Test Start Switch ON

OFF

User

Executes internode test while ON.

Stops internode test.

9-3 Intern-

ode Test

Socket Force-close Switch

All sockets are forcibly closed when this

bit turns ON.

Page 129

OFF

Unit

Turned OFF by Unit after sockets are

closed.

Mail Send Switch

User

Unit

User mail is sent when this bit turns ON. 8-1-3 Send-

ing Mail

OFF

Turned OFF by Unit after user mail has

been sent.

4 to 15 (Not used.)

---

Internode Test Start Switch (Bit 1)

Internode testing is executed and stopped by turning ON and OFF this switch.

The parameters for designating the remote node for testing, and so on, are

set in the allocated words in the DM Area. For details, refer to 9-3 Internode

Test. The software switch settings on the CX-Programmer can also be used to

set parameters and control internode tests.

Socket Force-close Switch (Bit 2)

All UDP and TCP sockets used for socket services can be force-closed by

turning ON this switch. This can be used for operations such as error process-

ing.

Be careful not to force-close sockets during communications, or an error will

occur. After all sockets have been force-closed, the Ethernet Unit will turn the

switch OFF again. Do not attempt to forcibly manipulate this switch before it is

automatically turned OFF by the Unit.

Ports used exclusively by the Ethernet Unit will not be closed.

Mail Send Switch (Bit 3)

User mail can be sent by turning ON this switch. The contents of the user mail

are set in the CPU Bus Unit System Setup.

After the user mail has been sent, the Ethernet Unit will turn this switch OFF

again. Do not attempt to forcibly manipulate this switch before it is automati-

cally turned OFF by the Unit.

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CIO Area Allocations

Section 4-3

Status of UDP/TCP Sockets 1 to 8 (Ethernet Unit to CPU Unit)

15 14 13 12 11 10

n+1 to n+16

Opening Flag

Receiving Flag

Results Storage Error Flag

TCP/UDP Open Flag

Sending Flag

Closing Flag

Bit

Flag

Status Manipulated

Unit operation

Reference

Opening Flag

Unit

ON during open processing. (Turns ON when

open request is received.)

Section 6

Socket Ser-

vices

OFF

Turns OFF when open processing has been

completed.

Receiving Flag

Sending Flag

Closing Flag

ON during receive processing. (Turns ON when

receive request is received.)

OFF

Turns OFF when receive processing has been

completed.

ON during send processing. (Turns ON when

send request is received.)

OFF

Turns OFF when send processing has been

completed.

ON during close processing. (Turns ON when

close request is received.)

OFF

Turns OFF when close processing has been

completed.

4 to 13 (Not used.)

---

Results Storage Error ON

Flag

Unit

Turns ON if there is an error in storing the results Section 6

when socket services are used by means of the Socket Ser-

CMND(490) instruction.

vices

OFF

Unit

Turns OFF when the next request is received.

(Connected by TCP.)

TCP/UDP Open Flag ON

OFF

Turns ON when open processing has been com-

pleted.

Turns OFF when close processing has been

completed. (Stays OFF for abnormal open pro-

cessing completion.)

Note The status of these flags can also be checked using the software switch set-

tings on the CX-Programmer.

Opening Flag (Bit 0)

Turns ON when an open request is received either by control switch manipula-

tion or the CMND(490) instruction, and turns OFF again when the open pro-

cessing has been completed. When CMND(490) is used, the Results Storage

Error Flag (bit 14) will turn ON at the same time as the Opening Flag turns

OFF if there is an error in the Results Storage Area designation.

Receiving Flag (Bit 1)

Turns ON when a receive request is received either by control switch manipu-

lation or the CMND(490) instruction, and turns OFF again when the receive

processing has been completed. When CMND(490) is used, the Results Stor-

age Error Flag (bit 14) will turn ON at the same time as the Receiving Flag

turns OFF if there is an error in the Results Storage Area designation.

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CIO Area Allocations

Section 4-3

Sending Flag (Bit 2)

Turns ON when a send request is received either by control switch manipula-

tion or the CMND(490) instruction, and turns OFF again when the send pro-

cessing has been completed. When CMND(490) is used, the Results Storage

Error Flag (bit 14) will turn ON at the same time as the Sending Flag turns

OFF if there is an error in the Results Storage Area designation.

Closing Flag (Bit 3)

Turns ON when a close request is received either by control switch manipula-

tion or the CMND(490) instruction, and turns OFF again when the close pro-

cessing has been completed. When CMND(490) is used, the Results Storage

Error Flag (bit 14) will turn ON at the same time as the Closing Flag turns OFF

if there is an error in the Results Storage Area designation.

Results Storage Error Flag (Bit 14)

Turns ON if there is an error in the Results Storage Area for a socket service

request (open, receive, send, close) made using CMND(490). This flag turns

ON at the same time as the services request processing flags (bits 0 to 3) turn

OFF. It remains ON until the next services request is received, and then it

turns OFF again. When this flag turns ON, check the set values in the Results

Storage Area.

The Results Storage Error Flag does not operate when socket services are

requested by control switch manipulation.

TCP/UDP Open Flag (Bit 15)

Remains ON while a socket is open by means of control switch manipulation

or the CMND(490) instruction. In the case of TCP, it indicates a connection.

When the socket is closed, this flag turns OFF again. (If the socket did not

close properly, the flag remains ON.)

Check to be sure that this flag is ON before executing a send or receive

request.

Service Status (Ethernet Unit to CPU Unit)

15 14 13 12 11 10

n+17

FTP status

Power status (CS1W-ETN01 only)

Bit

Name

Status Manipulated

Unit operation

Reference

FTP Status Flag

Unit

---

FTP server operating. (FTP client connected.)

Page 173

OFF

---

FTP server on standby. (FTP client not connect.

---

2 to 14 (Not used.)

---

Power status

(CS1W-ETN01 only)

Unit

Power is being supplied CS1W-ETN11: Always Page 42

to transceiver.

OFF

CJ1W-ETN11: Always

OFF

Unit

Power is not being

supplied to transceiver.

FTP Status (Bit 0)

Turns ON while connected to an FTP client, and OFF while not connected.

With the FTP server function only one FTP client can be connected at a time,

so while this bit is ON no other clients can connect to the server.

The FTP status is also shown by the Ethernet Unit’s FTP indicator, as follows:

Not lit: FTP server on standby. (FTP status: OFF)

Lit:

FTP server operating. (FTP status: ON)

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CIO Area Allocations

Section 4-3

Power Status (Bit 15)

Turns ON while power is being supplied from the Ethernet Unit to the trans-

ceiver, and OFF when power is not being supplied. Check to be sure that this

bit is ON before beginning communications.

Error Status (Ethernet Unit

to CPU Unit)

The status of errors that occur at the Ethernet Unit is reflected as shown in the

following diagram.

15 14 13 12 11 10

n+18

Bit 01: Transceiver echo test error (CS1W-ETN01 only)

Bit 02: IP address error

Bit 03: IP address table error

Bit 04: IP router table error

Bit 06: Routing table error

Bit 07: Transceiver error (CS1W-ETN01 only)

Bit 08: Internode test flag (OFF: Test stopped, ON: Test running)

Bit 14: Address mismatch

Bit 15: EEPROM error

Bit

Error

(Not used.)

Status Manipulated by

Unit operation

---

Transceiver echo test error ON

(CS1W-ETN01 only) (See

note.)

Unit

ON if an error occurred during the self diagnostic testing

after the Unit was turned ON or reset.

OFF

Unit

OFF if the self diagnostic testing after the Unit was

turned ON or reset was normal.

IP address setting error

ON if any of the following conditions apply to the IP

address.

• All bits in the host ID are 0 or 1.

• All bits in the network ID are 0 or 1.

• All bits in the subnet ID are 1.

• The IP address begins with 127 (0x7F)

OFF

Unit

---

OFF when the IP address is normal.

On if the IP address table information is incorrect.

OFF when the IP address table is normal.

ON if the IP router table information is incorrect.

OFF when the IP address table is normal.

---

IP address table error

IP router table error

OFF

---

(Not used.)

Routing table error

Unit

ON if the routing table information is incorrect.

OFF when the routing table is normal.

OFF

Transceiver error (CS1W- ON

ETN01 only) (See note.)

ON when the transceiver cable is disconnected, the

transceiver is not receiving power, or the transceiver is

defective. Returns to OFF when the transceiver status

returns to normal.

OFF

Unit

---

OFF when the transceiver is normal.

ON during internode testing.

OFF while internode testing is stopped.

---

Internode Test Flag

OFF

---

9 to 13 (Not used.)

Address mismatch

Unit

ON if the remote IP address is set to automatic genera-

tion but the local IP address host number and FINS

node number do not agree.

OFF

Unit

OFF under all other circumstances.

EEPROM error

ON if an error has occurred in the EEPROM memory.

OFF when the EEPROM memory is normal.

OFF

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CIO Area Allocations

Section 4-3

Note A transceiver is built into the CS1W-ETN11 and CJ1W-ETN11. If this bit turns

ON, the Ethernet Unit has malfunctioned.

Socket Service Request

When a socket service request is executed by control switch manipulation, it

Switches 1 to 8 (CPU Unit

to Ethernet Unit)

is the following bits that are manipulated. For details, refer to 6-2 Using Socket

Services with Socket Service Request Switches.

15 14 13 12 11 10

n+19 to n+22

UDP Open Request Switch

TCP Passive Open Request Switch

TCP Active Open Request Switch

Send Request Switch

Receive Request Switch

Close Request Switch

Bit

Switch

Status Manipulated

Unit operation

Page

UDP Open Request ON

Switch

User

Unit

UDP socket opened when switch is turned ON.

117 to

122

OFF

Unit turns OFF switch when open processing has been

completed (i.e., when a connection has been made).

TCP Passive Open ON

Request Switch

User

Unit

Passive TCP socket opened when switch is turned ON.

OFF

Unit turns OFF switch when open processing has been

completed (i.e., when a connection has been made).

TCP Active Open

Request Switch

User

Unit

Active TCP socket opened when switch is turned ON.

OFF

Unit turns OFF switch when open processing has been

completed (i.e., when a connection has been made)

Send Request

Switch

User

Send processing executed when switch is turned ON.

(The protocol (TCP/UDP) is determined when the

socket is opened.)

OFF

Unit

Unit turns OFF switch when send processing has been

completed.

Receive Request

Switch

User

Receive processing executed when switch is turned

ON.

(The protocol (TCP/UDP) is determined when the

socket is opened.)

OFF

Unit

Unit turns OFF switch when receive processing has

been completed.

Close Request

Switch

User

Close processing executed when switch is turned ON.

(The protocol (TCP/UDP) is determined when the

socket is opened.)

OFF

Unit

Unit turns OFF switch when close processing has

been completed.

(Not used.)

---

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DM Area Allocations

Section 4-4

4-4 DM Area Allocations

The various kinds of data are stored in the offset positions shown in the fol-

lowing diagram, from the beginning word in the area for each Unit.

The beginning word m is calculated by the following equation:

Beginning word m = D30000 + (100 x unit number)

Offset

Bit

Related communications services

Data direction

Internode test remote network address and node number

Internode test number of send bytes

Internode test response monitoring time

Internode test status

Internode Test Function

CPU Unit to Ethernet Unit

(Refer to 9-3 Internode Test.)

m+1

m+2

m+3

m+4

m+5

m+6

m+7

m+8

m+9

Ethernet Unit to CPU Unit

Number of internode test runs

Number of internode test timeout errors

Number of internode test response errors

Number of internode test send errors

Number of times internode test data did not match

TCP socket No. 1 connection status

Socket Services

(Refer to Section 6

Socket Services.)

m+16 TCP socket No. 8 connection status

m+17

Mail function

(Refer to Section 8 Mail.)

Mail status

m+18 Socket Services Parameter Area 1

m+28 Socket Services Parameter Area 2

CPU Unit to Ethernet Unit

Socket Services

(Refer to Section 6

Socket Services.)

m+88 Socket Services Parameter Area 8

m+98

Ethernet Unit to CPU Unit or

CPU Unit to Ethernet Unit

IP Address Display/Setting Area (See note.)

m+99

Note For CS-series Ethernet Units, this area is the IP Address Display Area and

data in this area can be transferred from the Ethernet Unit to the CPU Unit

only. For CJ-series Ethernet Units, this area is the IP Address Display/Setting

Area and data in this area can be transferred in either direction.

The meanings of the items shown in the above diagram are explained on the

following pages. For details regarding the related communications services

shown in the diagram, refer to the indicated sections.

Internode Test Remote Network Address and Node Number (CPU Unit to Ethernet Unit)

15 14 13 12 11 10

Remote network address

Remote node number

Specify the remote network address and node number in hexadecimal within

the following ranges:

Remote network address: 00 to 7F Hex (0 to 127 decimal)

Remote node number: 01 to 7E Hex (0 to 126 decimal)

If a remote network address is set to 00, it will specify the local network (i.e.,

the network to which the Ethernet Unit is connected.)

Internode Test Number of Send Bytes (CPU Unit to Ethernet Unit)

15 14 13 12 11 10

m+1

Number of send bytes (0000 to 07CC Hex)

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DM Area Allocations

Section 4-4

Specify, in hexadecimal, the number of bytes of test data to be sent between

nodes.

0000 (Hex): 1,996 bytes

0001 to 07CC (Hex): 1 to 1,996 bytes

Internode Test Response Monitoring Time (CPU Unit to Ethernet Unit)

15 14 13 12 11 10

m+2

Response monitoring time (0000 to FFFF Hex)

Specify, in hexadecimal, the amount of time to wait for the internode test

response.

0000 (Hex): 2 seconds

0001 to FFFF (Hex): 0.01 to 655.35 seconds

Internode Test Status (Ethernet Unit to CPU Unit)

15 14 13 12 11 10

m+3

Timeout

Error code

Response error

Send error

Data does not match

Routing table error

Send parameter error

Internode test results are reflected here. (The bits all turn back OFF when the

internode test is started.)

Bits 0 to 5 turn ON when their applicable error occurs.

The error code for the error that occurred is stored in bits 13 to 15. The mean-

ings of the error codes are shown in the following table.

Bit

Meaning

Normal

Timeout error

Response (response code) error

Send error

Data disagreement error

Routing table error (See note.)

Send parameter error (See note.)

Note When a routing table error or a sent parameter error occurs, the number of

internode test runs is not incremented.

Number of Internode Test Runs (Ethernet Unit to CPU Unit)

15 14 13 12 11 10

m+4

Number of test runs (0000 to FFFF Hex)

Internode tests are executed repeatedly as long as the Internode Test Start

Switch, one of the Unit Control Switches in the CIO area, remains ON.

In this word, specify in hexadecimal the number of times that the internode

test is actually to be executed.

0000 to FFFF (Hex): 0 to 65,535 times

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DM Area Allocations

Section 4-4

When the count reaches FFFF (Hex), it will start over again at 0. The count

value will be retained until the internode test is restarted.

Note When a routing table error or a transmission parameter error occurs, the num-

ber of internode tests is not incremented.

Number of Internode Test Timeout Errors (Ethernet Unit to CPU Unit)

15 14 13 12 11 10

m+5

Number of timeout errors (0000 to FFFF)

The number of timeout errors that have occurred in the internode test is

stored in this word in hexadecimal.

0000 to FFFF (Hex): 0 to 65,535 times

When the count reaches FFFF (Hex), it will not go any further. The count

value will be retained until the internode test is restarted.

Number of Internode Test Response Errors (Ethernet Unit to CPU Unit)

15 14 13 12 11 10

m+6

Number of response errors (0000 to FFFF)

The number of response errors that have occurred in the internode test is

stored in this word in hexadecimal.

0000 to FFFF (Hex): 0 to 65,535 times

When the count reaches FFFF (Hex), it will not go any further. The count

value will be retained until the internode test is restarted.

Number of Internode Test Transmission Errors (Ethernet Unit to CPU Unit)

15 14 13 12 11 10

m+7

Number of transmission errors (0000 to FFFFHex)

The number of transmission errors that have occurred in the internode test is

stored in this word in hexadecimal.

0000 to FFFF (Hex): 0 to 65,535 times

When the count reaches FFFF (Hex), it will not go any further. The count

value will be retained until the internode test is restarted.

Number of Times Internode Test Data Did Not Match (Ethernet Unit to CPU Unit)

15 14 13 12 11 10

m+8

Number of data disagreement errors (0000 to FFFF)

The number of data disagreement errors that have occurred in the internode

test is stored in this word in hexadecimal.

0000 to FFFF (Hex): 0 to 65,535 times

When the count reaches FFFF (Hex), it will not go any further. The count

value will be retained until the internode test is restarted.

TCP Socket No. (1 to 8) Connection Status (Ethernet Unit to CPU Unit)

15 14 13 12 11 10

m+9 to m+16

TCP connection status

The connection status for each TCP socket is stored by code in this word. For

details, refer to Appendix D TCP Status Transitions.

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DM Area Allocations

Section 4-4

Mail Status (Ethernet Unit to CPU Unit)

15 14 13 12 11 10

m+17

User mail status

Periodic mail status

Error log mail status

The transmission statuses of user mail, periodic mail, and error log mail are

stored in this word as shown in the following table.

Bits

Status

OFF OFF OFF Mail is either waiting to be sent or can be sent using

the Mail Send Switch. No mail is being sent.

OFF OFF ON

OFF ON

Mail is being sent.

OFF Mail is either waiting to be sent or can be sent using

the Mail Send Switch. The previous mail transmis-

sion was completed normally.

OFF Mail is either waiting to be sent or can be sent using

the Mail Send Switch. An error occurred in the previ-

ous mail transmission.

Mail cannot be sent (system setting error).

Socket Services Parameter Area 1 to 8 (Ethernet Unit to CPU Unit)

Offset

Socket

No. 1

Socket

No. 8

...

15 14 13 12 11 10

UDP/TCP socket number (1 to 8)

m+18

m+19

m+20

m+21

m+22

m+88

m+89

m+90

m+91

m+92

Local UDP/TCP port number (0000 to FFFF Hex)

Remote IP address (00000000 to FFFFFFFF Hex)

...

Remote UDP/TCP port number (0000 to FFFF Hex)

m+23

m+24

m+25

m+93

m+94

m+95

Number of send/receive bytes (0000 to 07C0 Hex (1984))

Send/receive data address

(Same as FINS variable area designation method.)

m+26

m+27

m+96

m+97

Timeout value (0000 to FFFF Hex)

Response code

When socket services are requested by control switch manipulation, the set-

tings must be made in advance in a Socket Service Parameter Area. The

parameters used will vary depending on the service requested. For details,

refer to 6-2 Using Socket Services with Socket Service Request Switches.

IP Address Display/Setting Area

CS-series Ethernet Units

15 14 13 12 11 10

SW1

SW2

SW3

SW4

m+98

m+99

SW5

SW6

SW7

SW8

The set values of the Local IP Address Switches (rotary switches 1 to 8) on

the back of the Ethernet Unit are read and stored here when the power is

turned ON or the Unit restarted. If an incorrect address is set, 0000 (Hex) will

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DM Area Allocations

Section 4-4

be stored here and the ERC indicator will flash. (Refer to Setting the Local IP

Address.)

CJ-series Ethernet Units

15 14 13 12 11 10

(1)

(2)

(3)

(4)

m+98

m+99

(5)

(6)

(7)

(8)

IP address: 12.34.56.78 (Hex)

If the local IP address in the CPU Bus Unit System Setup is set to a value

other than 00.00.00.00, this area (words m+98 and m+99) will act as an IP

Address Display Area and the local IP address set in the CPU Bus Unit Sys-

tem Setup will be read and stored here when the power is turned ON or the

Unit restarted. If the local IP address in the CPU Bus Unit System Setup is set

to 00.00.00.00 (the default setting), this value is read by the Ethernet Unit

when the power is turned ON or the Unit restarted and is used as the local IP

address.

Note Choose the method used to set the local IP address as follows:

Set the local IP address in the CPU Bus Unit System Setup when making

other settings in the CPU Bus Unit System Setup (i.e., the default settings are

not used). The settings are made with CX-Programmer.

Set the local IP address in the allocated words in the DM Area when using the

CPU Bus Unit System Setup at its default settings (i.e., for simple operation).

The setting is usually made with a Programming Console.

Application

Setting device

Setting area

Remarks

Operation with the

CPU Unit Bus Sys-

tem Setup set as

desired (i.e., The

default settings are

not used.)

CX-Programmer

CPU Unit Bus System Setup The IP address set in the CPU

Unit Bus System Setup is

stored in the allocated words

in the DM Area.

Simple operation

(i.e., The CPU Unit

Bus System Setup is used.)

used at its default

settings. Only the IP

address is set.)

Programming Console (CX-

Programmer can also be

Allocated words in the DM

Area

The setting in the allocated

words in the DM Area is

enabled only when the IP

address in the CPU Unit Bus

System Setup is set to

00.00.00.00.

If the IP address in the CPU

Unit Bus System Setup is set

to a value other than

00.00.00.00, this value is

stored in the allocated words

in the DM Area.

Note

1. If a value other than 00.00.00.00 is set as the local IP address in the CPU

Bus Unit System Setup, even if an IP address is set in the allocated words

in the DM Area, it will be overwritten with the setting in the CPU Bus Unit

System Setup.

2. If no local IP address is set in either the CPU Bus Unit System Setup or the

allocated words in the DM Area (m+98 and m+99), the Ethernet Unit will

not be able to perform communications. Be sure to set the local IP address

in one of these areas. It is not possible, however, to set the following IP ad-

dresses. If any of these values are set, the ERH indicator will flash.

• IP addresses where all network number bits are 0.

• IP addresses where all host number bits are 0.

• IP addresses where all subnet number bits are 0.

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SECTION 5

FINS Communications

This section provides information on communicating on Ethernet Systems and interconnected networks using FINS

commands. The information provided in the section deals only with FINS communications in reference to Ethernet Units.

FINS commands issued from a PC are sent via the SEND(090), RECV(098), and CMND(490) instructions programmed

into the user ladder-diagram program. Although an outline of these instructions is provided in this section, refer to the CS/

CJ-series Programmable Controllers Programming Manual (W340) for further details on programming these instructions.

5-1 Overview of FINS Communications. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-1-1 Communications On an Ethernet Network. . . . . . . . . . . . . . . . . . . .

5-1-2 FINS Communications Service Features . . . . . . . . . . . . . . . . . . . . .

5-2 Procedure Before Using FINS Communications . . . . . . . . . . . . . . . . . . . . . .

5-3 Sending Commands From a PC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-3-1 Communications Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-3-2 Program Example . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-3-3 Transmission Delays. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-4 Sending Commands From a Host Computer . . . . . . . . . . . . . . . . . . . . . . . . .

5-4-1 Designating Remote Addresses . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-4-2 FINS Frames. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-4-3 Sample Program . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

5-4-4 Delays for Accessing PC Memory . . . . . . . . . . . . . . . . . . . . . . . . . .

5-5 FINS Server. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

101

102

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Overview of FINS Communications

Section 5-1

5-1 Overview of FINS Communications

The FINS communications service enables client control of operations such

as reading or writing server PC memory area data without the need to pro-

gram these operations into the server PC user program. The Ethernet Unit

uses a dedicated UDP/IP port to execute the FINS communications service.

(Refer to FINS UDP Port Number under 4-2-1 Settings.)

5-1-1 Communications On an Ethernet Network

Data is sent and received as UDP packets on an Ethernet network. The FINS

port number (default value: 9600) set in the CPU Bus Unit System Setup is

used for FINS communications. (Refer to 4-2 CPU Bus Unit System Setup.)

Ethernet header

IP header

UDP (User Datagram Protocol) packet

UDP header

FINS frame

FCS

Ethernet Unit

or host computer

UDP packet (FINS command)

Ethernet

UDP packet (FINS response)

Ethernet Unit

When a FINS command is issued from the Ethernet Unit, the IP address is

found from the FINS address specified by CMND(490). For details, refer to 3-

1 Before Operation.

Note The UDP/IP protocol does not provide communications control to ensure

communications reliability. Consequently, the FINS communications services

using the UDP/IP protocols cannot guarantee that any message arrived safely

and unaltered at the destination. Methods to ensure reliability, such as retries

and appropriate processing of FINS responses, must be programmed into the

user application.

5-1-2 FINS Communications Service Features

The FINS communications service is a function for controlling operations such

as sending and receiving data, changing modes, and so on, between nodes

on OMRON factory automation networks. It provides the following features.

• Communications instructions are executed in the user program.

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Overview of FINS Communications

Section 5-1

• Writing data, changing modes, reading detailed information about Units,

and so on, can be executed without any particular knowledge of commu-

nications procedures or network classification.

• Units and Boards that support FINS commands return responses auto-

matically, so there is no need for a program at the receiving end.

• The FINS communications service is mainly used between OMRON CPU

Bus Units, CPU Units, and Support Boards for FA Computers. By cor-

rectly setting information such as headers, however, it can also be used

from ordinary Ethernet communications devices.

The FINS communications service can be used from a PC with either of the

following three instructions:

• SEND(090)/RECV(098)

SEND(090) and RECV(098) are used to send and receive data (area read-

ing and writing).

• CMND(490)

CMND(490) is used to send FINS commands. The particular FINS com-

mands that are supported vary depending of the type of Unit or Board. For

details on FINS commands addressed to Ethernet Units, refer to Section

11 FINS Commands Addressed to Ethernet Units. For details regarding

FINS commands addressed to CS/CJ-series CPU Units, refer to the CS/

CJ-series Programmable Controllers Communications Commands Refer-

ence Manual (W342).

The following table shows how the FINS communications service is used by

the communications source and destination, for PC to PC and host computer

to PC.

Local node to remote node

SEND(090)/RECV(098)

CMND(490) (FINS commands)

PC to PC

• When the PC executes SEND(090) or

RECV(098), a program is not required for

receiving a response.

• When the PC executes CMND(490), a

program is not required for receiving a re-

sponse.

• When the PC receives a SEND(090) or

RECV(098) instruction, a program is not

required for processing the instruction.

• When the PC receives a CMND(490) in-

struction, a program is not required for

processing the instruction.

Ethernet Unit

CPU Unit

User program

When addressed to

CPU Unit

User program

Host computer to PC

• The host computer issues the data for the SEND(090)/RECV(098) or CMND(490) in-

struction as a UDP datagram. Programs are required for sending data and for receiving

and processing responses.

•

If the PC receives a SEND(090) or RECV(098) instruction, a program is not required for

processing the instruction.

Ethernet Unit

Host computer

CPU Unit

When addressed to CPU Unit

Data

UDP packet issued by user program

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Procedure Before Using FINS Communications

Section 5-2

5-2 Procedure Before Using FINS Communications

Start

Determine the address conversion

method for the destination IP address.

IP Address Table

Automatic Generation

Automatically converted from

FINS node number.

Combined Method

Converted from table of corre-

spondences between FINS node

numbers and IP addresses.

IP address table is referenced;

if IP address is not registered,

then it is converted from FINS

node number.

Select the IP table address

method for the address conver-

sion method in the System Set-

up, and create an IP address

table.

Select the combined method for

the address conversion method

in the System Setup, and create

an IP address table.

Set the IP address (see note) so

that the host number's least

significant byte = the FINS node

number.

Determine the FINS UDP port number.

In the System Setup, select

"user-defined" as the method

for specifying the FINS UDP

port number.

Yes

Is the FINS UDP port number

other than 9600?

Set the FINS UDP port number

for all Ethernet Units on the

Ethernet network to the default

of 9600.

Set the FINS UDP port numbers

for all of the Ethernet Units on

the Ethernet network to the

same value.

Determine the network configuration.

Communications with PC on local network

Communications with PC on another

network (such as Controller Link)

The only Communications Units

mounted are Ethernet Units.

Communications Units other than

Ethernet Units are also mounted.

Use the CX-Programmer to set

the local network table and the

relay network table at the CPU

Unit.

Routing table settings are not

required.

Use the CX-Programmer to set

the local network table at the

CPU Unit.

Create a user program for issuing

FINS messages by SEND(090),

RECV(098), and CMND(490).

Note The location of the local IP address setting depends on the type of CPU Unit

in the following way.

CS Series: Rotary switches on back of Ethernet Unit.

CJ Series: CPU Bus Unit System Setup or allocated words in the DM Area.

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Sending Commands From a PC

Section 5-3

5-3 Sending Commands From a PC

FINS commands can be sent from the user’s ladder-diagram program in the

PC by using the SEND(090), RECV(098), and CMND(490) instructions.

SEND(090): Writes I/O data from the local node to another node.

RECV(098): Reads I/O data from another node to the local node.

CMND(490): Issues FINS commands for controlling operations such as send-

ing and receiving I/O memory data to and from other nodes, reading informa-

tion regarding other nodes, and so on.

5-3-1 Communications Specifications

The following table shows the specifications for PC communications using the

SEND(090), RECV(098), and CMND(490) instructions.

Item

Specifications

Destination

1:1

1:N

SEND(090), RECV(098), CMND(490) instructions

SEND(090), CMND(490) instructions (broadcasting)

Data length

SEND(090):

RECV(098):

CMND(490):

990 words (1,980 bytes) max.; broadcasting: 727 words (1,454 bytes)

990 words (1,980 bytes) max.

1,990 bytes max.; broadcasting: 1,462 bytes (after FINS command code)

Data contents

The following data is sent and received with the execution of each instruction.

SEND(090): Sends request for remote node to receive data, and receives response data.

RECV(098): Sends request for remote node to send data, and receives response data.

CMND(490): Sends any FINS command and receives response data.

Communications port num- Ports 0 to 7 (Eight transmissions can occur simultaneously.)

ber

Response monitor time

0000:

0001 to FFFF:

2 s (default)

0.1 to 6,553.5 s in 0.1-s increments (specified by user)

Number of retries

0 to 15 retries

Note

1. The maximum data length is limited to 512 bytes for data exchange be-

tween the PC and SYSMAC LINK Systems or the PC and SYSMAC BUS/

2 Remote I/O Systems.

2. When broadcasting, do not require a response.

PC Communications Data

Areas

The following table shows the I/O data areas involved when SEND(090) and

RECV(098) are used.

Area

Range

CIO 0000 to CIO 6143

W000 to W511

CIO Area

Work Area

Holding Area

Auxiliary Area

Timer Area

Counter Area

DM Area

H000 to H511

A000 to A959 (See note 1.)

TIM0000 to 4095

CNT0000 to 4095

D00000 to D32767

EM Area

E00000 to E32767 (See note 2.)

Note

1. Data cannot be written to words A000 to A447 in the Auxiliary Area.

2. A maximum of 13 banks in the EM Area can be used. For details regarding

the EM Area, refer to the operation manual for the PC that is used.

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Sending Commands From a PC

Section 5-3

Using SEND(090), RECV(098), and CMND(490)

Make the settings shown below when using the SEND(090), RECV(098), and

CMND(490) instructions in the user’s ladder-diagram program in the PC.

SEND(090)

The SEND(090) instruction sends the data in n number of words, starting from

the beginning word S at the local node, to the words starting from the begin-

ning word D at the remote destination node (node number N).

Destination node number N

Local node

Number

of words

(n)

S: Local node beginning word

D: Destination beginning word

C: First word of control data (below)

Number of retries

0 to F (Hex): 0 to 15 retries

Number of words (n)

0001 to 03DE (Hex): 1 to 990 words

Communications port number: 0 to 7

Response

0: Required.

1: Not required.

Destination network number

00 (Hex):

Local network

01 to 7F (Hex): 1 to 127

Response monitor time

Destination unit address

00 (Hex): CPU Unit

0000 (Hex): 2 s

0001 to FFFF (Hex): 0.1 to 6,553.5 s (in

units of 1 s)

10 to 1F: (Hex): Unit #0 to #15

E1 (Hex):

FE (Hex):

Unit connected to network

Destination node number N

00 to 7E (Hex); 0 to 126

The same data can be broadcast to all nodes on the network by

setting the destination node number to FF (Hex).

The range of node addresses is different for networks other than Ethernet.

Note The message service does not guarantee that a message will reach the desti-

nation node. A message may be lost during transmission due to factors such

as noise. To prevent this from occurring when using message services, it is

common to set up retry processing at the node from which instructions are

issued. With the SEND(090), RECV(098), and CMND(490) instructions, retry

processing is executed automatically by specifying the number of retries, so

specify a number other than 0.

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Sending Commands From a PC

Section 5-3

RECV(098)

With the RECV(098) instruction, the data in m number of words, starting from

the beginning word S at the remote node (node number M) is received at the

words starting from the beginning word D at the local node.

Local node

Remote node number N

Number

of words

(m)

S: Remote node beginning word

D: Local beginning word

C: First word of control data (below)

Number of retries

Number of reception words (m)

0001 to 03DE (Hex): 1 to 990 words

0 to F (Hex): 0 to 15 retries

Communications port number: 0 to 7

Response

0: Required.

1: Not required.

Destination network number

00 (Hex):

Local network

01 to 7F (Hex): 1 to 127

Response monitor time

Destination Unit address

0000 (Hex): 2 s

00 (Hex):

CPU Unit

0001 to FFFF (Hex): 0.1 to 6,553.5 s (in units of 1 s)

10 to 1F: (Hex): Unit #0 to #15

E1 (Hex):

FE (Hex):

Unit connected to network

Remote node number M (send source)

00 to 7E (Hex); 0 to 126

The range of node addresses is different for networks other than Ethernet.

Note The message services function does not guarantee that a message will reach

the destination node. A message may be lost during transmission due to fac-

tors such as noise. In order to prevent this from occurring when using mes-

sage services, it is common to set up retry processing at the node from which

instructions are issued. With the SEND(090), RECV(098), and CMND(490)

instructions, retry processing is executed automatically by specifying the num-

ber of retries, so specify a number other than 0.

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Sending Commands From a PC

Section 5-3

CMND(049)

The CMND(049) instruction sends n bytes of command data, starting from the

beginning word S at the local node, to the node at node number N. the data in

m number of words, starting from the beginning word S at the remote node

(node number M) is received at the words starting from the beginning word D

at the local node.

Local node

Destination node number N

Command

Com-

mand

data: n

bytes

Interpretation

Execution

Response

S: Beginning command storage word

D: Beginning response storage word

C: First word of control data (below)

Response

data: m bytes

Number of bytes of command data (n)

0000 to 07C6 (Hex): 1 to 1,990 bytes

Number of bytes of response data (m)

0000 to 07C6 (Hex): 1 to 1,990 bytes

Number of retries

0 to F (Hex): 0 to 15 retries

Destination network number

00 (Hex):

Local network

Communications port number: 0 to 7

01 to 7F (Hex): 1 to 127

Response

0: Required.

1: Not required.

Destination Unit address

00 (Hex):

CPU Unit

10 to 1F: (Hex): Unit #0 to #15

E1 (Hex):

FE (Hex):

Inner Board

Unit connected to network

Response monitor time

0000 (Hex): 2 s

0001 to FFFF (Hex): 0.1 to 6,553.5 s (in units of 1 s)

Destination node number N

00 to 7E (Hex);

0 to 126

The same data can be broadcast to all nodes on the network by

setting the destination node number to FF (Hex).

The range of node addresses is different for networks other than Ethernet.

Note The message services function does not guarantee that a message will reach

the destination node. A message may be lost during transmission due to fac-

tors such as noise. In order to prevent this from occurring when using mes-

sage services, it is common to set up retry processing at the node from which

instructions are issued. With the SEND(090), RECV(098), and CMND(490)

instructions, retry processing is executed automatically by specifying the num-

ber of retries, so specify a number other than 0.

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Sending Commands From a PC

Section 5-3

Commands Addressed to CS/CJ-series CPU Units

The following table provides a list of FINS commands that can be processed

by a CS/CJ-series CPU Unit. For details, refer to the CS/CJ-series Program-

mable Controllers Communications Commands Reference Manual (W342).

For details on FINS commands that can be processed by the Ethernet Unit,

refer to Section 11 FINS Commands Addressed to Ethernet Units.

Usage

Command

code

Name

Function

I/O memory area

access

MEMORY AREA READ

Reads the contents of consecutive I/O

memory area words.

MEMORY AREA WRITE

MEMORY AREA FILL

Writes the contents of consecutive I/O

memory area words.

Writes the same data to the specified

range of I/O memory area words.

MULTIPLE MEMORY AREA READ

MEMORY AREA TRANSFER

Reads the contents of specified non-

consecutive I/O memory area words.

Copies the contents of consecutive I/O

memory area words to another I/O

memory area.

Parameter area

access

PARAMETER AREA READ

Reads the contents of consecutive

parameter area words.

PARAMETER AREA WRITE

PARAMETER AREA FILL (CLEAR)

Writes the contents of consecutive

parameter area words.

Writes the same data to the specified

range of parameter area words.

Program area

access

PROGRAM AREA READ

PROGRAM AREA WRITE

PROGRAM AREA CLEAR

RUN

Reads the UM (User Memory) area.

Writes to the UM (User Memory) area.

Clears the UM (User Memory) area.

Operating mode

changes

Changes the CPU Unit’s operating

mode to RUN or MONITOR.

STOP

Changes the CPU Unit’s operating

mode to PROGRAM.

Machine configura- 05

CPU UNIT DATA READ

Reads CPU Unit data.

tion reading

CONNECTION DATA READ

Reads the model numbers of the device

corresponding to addresses.

Status reading

CPU UNIT STATUS READ

CYCLE TIME READ

Reads the status of the CPU Unit.

Reads the maximum, minimum, and

average cycle time.

Time data access 07

CLOCK READ

Reads the present year, month, date,

minute, second, and day of the week.

CLOCK WRITE

Changes the present year, month, date,

minute, second, or day of the week.

Message display

Access rights

MESSAGE READ/CLEAR

ACCESS RIGHT ACQUIRE

ACCESS RIGHT FORCED ACQUIRE

ACCESS RIGHT RELEASE

Reads and clears messages, and reads

FAL/FALS messages.

Acquires the access right as long as no

other device holds it.

Acquires the access right even if

another device already holds it.

Releases the access right that has been

acquired.

Error log

ERROR CLEAR

Clears errors or error messages.

Reads the error log.

ERROR LOG READ

ERROR LOG POINTER CLEAR

Clears the error log pointer.

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Sending Commands From a PC

Section 5-3

Usage

Command

code

Name

Function

File memory

FILE NAME READ

Reads file memory data.

SINGLE FILE READ

Reads a specified length of file data

from a specified position within a single

file.

SINGLE FILE WRITE

Writes a specified length of file data

from a specified position within a single

file.

FILE MEMORY FORMAT

FILE DELETE

Formats (initializes) the file memory.

Deletes specified files stored in the file

memory.

FILE COPY

Copies files from one file memory to

another file memory in the same sys-

tem.

FILE NAME CHANGE

Changes a file name.

MEMORY AREA–FILE TRANSFER

Transfers or compares data between the

I/O memory area and the file memory.

PARAMETER AREA–FILE TRANSFER Transfers or compares data between the

parameter area and the file memory.

PROGRAM AREA–FILE TRANSFER

Transfers or compares data between the

UM (User Memory) area and the file

memory.

CREATE/DELETE DIRECTORY

FORCED SET/RESET

Creates or deletes a directory.

Debugging

Force-sets or force-resets bits, or

releases force-set status.

FORCED SET/RESET CANCEL

Cancels all bits that have been force-set

or force-reset.

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Sending Commands From a PC

Section 5-3

Writing Programs

Programs incorporating the SEND(090), RECV(098), and CMND(490)

instructions are generally created using the Communications Port Enabled

Flag and the Communications Port Error Flag as input conditions. CS/CJ-

series CPU Units have eight communications ports. Only one instruction can

be executed at any given port at one time, however, so the program must not

overlap the use of any of the ports. A program example is provided below.

Communications port

Ethernet Unit

CPU Unit

Instruction 1

Instruction 2

Instruction 3

Instruction 4

Instruction 5

Instruction 6

Instruction 7

Instruction 8

There are eight communications ports, so up to eight communications instructions can be executed

at a time. The number of messages that can be sent or received with a single CPU Bus Unit ser-

vice, though, is not more than two each for the CPU Unit to the Ethernet Unit and for the Ethernet

Unit to the CPU Unit.

Communications

Port Enabled Flag

Execution

condition

Input A remains ON from start to completion of commu-

nications instruction.

KEEP(011) A

Reset B

Creates operand and control data in a given

area.

Operand,

control data

created with

@MOV and

@XFER.

Communications

instructions

@SEND

Executes communications instructions.

@RECV

@CMND

Communications

Port Enabled Flag

Creates reset input. (Turns reset B ON

after execution of communications in-

struction.)

DIFU(013) B

Communications

Port Error Flag

Send Error Flag display

(Retry can be executed.)

Execution

condition

Communications

Port Enabled Flag

Exclusive control so execution is not simultaneous.

Use exclusive control so that no other communica-

tions instructions are started before execution of the

above communications instruction is complete.

KEEP(011) C

Reset D

(Continued in same way.)

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Sending Commands From a PC

Section 5-3

Communications Flags

The execution status of the SEND(090), RECV(098), and CMND(490) instruc-

tions is always reflected by the communications flags (i.e., the Communica-

tions Port Enabled Flag and the Communications Port Error Flag). The CS/

CJ-series CPU Unit’s communications flags are allocated in the Auxiliary Area

as shown in the following table.

Flag name

Address

Bits

Contents

Word

Communications Port A202

Enabled Flag

Bit 7: Port 7

Bit 6: Port 6

Bit 5: Port 5

Bit 4: Port 4

Bit 3: Port 3

Bit 2: Port 2

Bit 1: Port 1

Bit 0: Port 0

OFF: Execution enabled

(being executed)

ON: Execution disabled

(not being executed)

Communications Port A219

Error Flag

Bit 7: Port 7

Bit 6: Port 6

Bit 5: Port 5

Bit 4: Port 4

Bit 3: Port 3

Bit 2: Port 2

Bit 1: Port 1

Bit 0: Port 0

OFF: Normal completion

ON: Abnormal completion

Note With CS/CJ-series PCs, communications ports 0 to 7 are also used for exe-

cuting the PCMR(260) (PROTOCOL MACRO) instruction, so these flags are

used in common for SEND(090), RECV(098), CMND(490), and PCMR(260).

While PCMR(260) is being executed, SEND(090), RECV(098), and

CMND(490) cannot be executed at the same communications port.

Communications Port

Completion Codes

The status of a SEND(090), RECV(098), and CMND(490) instruction after

execution is reflected as a communications port completion code, in one word

(two bytes) of data as shown in the following table. (The value is 0000 during

instruction execution.) The recorded status is saved until execution of the next

instruction.

Word

A203

Contents

Communications Port 0 Completion Code

Communications Port 1 Completion Code

Communications Port 2 Completion Code

Communications Port 3 Completion Code

Communications Port 4 Completion Code

Communications Port 5 Completion Code

Communications Port 6 Completion Code

Communications Port 7 Completion Code

A204

A205

A206

A207

A208

A209

A210

The meanings of the communications port completion codes are the same as

those for FINS commands and responses. When CMND(490) is used, how-

ever, even if a FINS command has an abnormal completion, it will not be

reflected in the communications port completion code. For details, refer to

Communications Port Error Flag and Completion Codes for CMND(490)

below.

Bits 08 to 15 in the communications port completion code correspond to the

first byte of the response code, and bits 00 to 07 correspond to the second

byte. For details, refer to 10-6 Troubleshooting with Response Codes.

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Sending Commands From a PC

Section 5-3

Communications Port Error Flag and Completion Codes CMND(490)

Errors that occur when CMND(490) is used generate a Communications Port

Error Flag and are recorded in a communications port completion code only in

the following cases:

• When a response timeout error has occurred.

• When the number of communications data bytes exceeds the maximum

value for the Unit (i.e., 2,000 bytes for the Ethernet Unit).

• When the actual number of response bytes is greater than the number of

reception bytes that has been set. (The response is not stored in this

case.)

Errors other than these are recorded in the response codes of the responses

stored from the beginning response storage word onwards. Be careful of

these, because there are no Communications Port Error Flags and they are

not recorded in a communications port completion code.

Timing of Communications Flag Changes

• The Communications Port Enabled Flag remains OFF during communica-

tions and turns ON when they are completed (regardless of whether or

not an error occurs).

• The Communications Port Error Flag retains its status until the next trans-

mission or reception.

• The Communications Port Error Flag turns OFF with the execution of the

next communications instruction even if there was an abnormal comple-

tion.

Example

Communications Port Enabled Flag

Instruction 2

being executed.

Instruction 1

being executed.

Instruction 3

being executed.

Communications instruction:

SEND(090), RECV(098), CMND(490)

Communications Port Error Flag

Communications Port Completion Code

Completion

0000 (Normal completion)

(Unit address setting error)

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Sending Commands From a PC

Section 5-3

5-3-2 Program Example

Execution

(See note.)

condition

000000 A20207 120002

When the Communications Port Enabled Flag for port 7

is ON, and RECV(098) is not being executed, the send

execution program will start when execution condition

CIO 000000 turns ON.

KEEP

120000

120001

120000

Input CIO 120000 remains ON from the start of

SEND(090) execution until completion.

@MOV(21)

#000A

D00000

Control Data Creation

Word Contents

Meaning

#0002

D0000 00 0A Number of send words = 10

D0001 00 02 Destination network number = 2

D00001

D0002 04 00 Destination node number = 4

Destination unit address = 0

#0400

D00002

07 05

D0003

Response required.

Communications port No. used = 7

Number of retries = 5

#0705

D00003

D0004 00 64 Response monitor time = 10 s

#0064

D00004

Send Data Creation

@XFER(70)

Ten words of data from word CIO 0000 is

stored from D00010 onwards.

#000A

0000

D00010

@SEND(90)

Ten words of data from D00010 at the local node is

sent to D00020 onwards at network number 2, node

number 4, unit address 0 (the PC).

D00010

D00020

D00000

(See note.)

120000 A20207

120000 A21907

DIFU(13)

Reset Input Creation

Send Error Display

120001

120000

(Continued on next page.)

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Sending Commands From a PC

Section 5-3

(Continued from previous page.)

Execution

condition

(See note.)

When the Communications Port Enabled Flag for port 7

is ON, and SEND(090) is not being executed, the trans-

mission execution program will start when execution

condition CIO 000001 turns ON.

000001 A20207 120000

KEEP

120002

120003

120002

Input CIO 120002 remains ON from the start of

RECV(098) execution until completion.

@MOV(21)

#0010

D00005

Control Data Creation

Word Contents

Meaning

D0005 00 10 Number of reception words = 16

D0006 00 03 Source network number = 3

#0003

D00006

D0007 20 00 Source node number = 32

Source unit address = 0

#2000

D00007

D0008 07 05 Response required.

Communications port No. used = 7

Number of retries = 5

#0705

D0009 00 00 Response monitor time = Default

D00008

#0000

D00009

A total of 16 words of data beginning from word A100

at network number 3, node number 32, unit address 0

(the PC) is received at word CIO 2000 onwards of the

local node.

@RECV(98)

A100

2000

D00005

120002 A20207 (See note.)

DIFU(13)

Reset Input Creation

120003

121001

120002 A21907

Reception Error Display

120003

120002

A21907

Reception Data Processing

@XFER(70)

If there is no reception processing completion error, the

16 words of data received from word CIO 2000 on-

wards is stored at D00040 onwards.

#0016

2000

D00040

Note With CS/CJ-series PCs, the Communications Port Enabled Flags at bits 0 to 7

in word A202 turn OFF even when the PCMR(260) instruction is being exe-

cuted using the ports corresponding to those flags.

5-3-3 Transmission Delays

The methods of computing the maximum time required from execution of the

SEND(090), RECV(098), and CMND(490) instructions until processing is

completed are described in this section. These times, however, do not take

transmission delay times on the network into account, so they may be

increased depending on the conditions under which the instructions are exe-

cuted.

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Sending Commands From a PC

Section 5-3

SEND(090)

The transmission delay for the SEND(090) instruction can be calculated using

the following equation, which is illustrated in the following diagram.

Max. delay = Local node service cycle + local node service processing time

+ transmission processing time + reception processing time +

remote node service cycle + remote node service processing

time + CPU data set processing time (remote node)

SEND(090) executed

in user program

CPU Bus Unit service cycle (local node)

CPU Bus Unit service processing time (local node)

Transmission processing time

Reception processing time

CPU Bus Unit service cycle (remote node)

CPU Bus Unit service processing time (remote node)

Maximum transmission delay

CPU data set processing time (remote node)

CPU Bus Unit Service

Cycle

The CPU Bus Unit service cycle is a single PC cycle.

CPU Bus Unit Service

Processing Time

This is the time required to process CPU Bus Units and is approximately 1 ms

for Ethernet Units.

Transmission Processing

Time

Number of words transferred x 0.011 + 3 ms

Number of words transferred x 0.02 + 20 ms

Reception Processing

Time

CPU Data Set Processing

Time

Note

1. The actual operating environment can cause transmission delays larger

than those calculated with the methods given here. Among the causes of

longer delays are the following: traffic on the network, window sizes at net-

work nodes, traffic through the Ethernet Unit (e.g., socket servicing, FTP

server communications, etc.), and the system configuration.

2. The CPU data set processing time is the standard when the peripheral ser-

vice time is set in the CPU Unit System Setup to the default of 4%. As this

value is increased, the processing time is shortened.

Example Calculations

The following example shows calculations for sending 256 words between two

PC nodes using SEND(090). The local node’s CPU cycle time is 10 ms, and

the remote node’s CPU cycle time is 5 ms. Calculations are shown in the fol-

lowing table.

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Sending Commands From a PC

Section 5-3

Item

Calculation

CPU Bus Unit service cycle (local node)

PC cycle time = 10 ms

1 ms

CPU Bus Unit service processing time (local

node)

Transmission processing time

256 x 0.011 + 3 = 5.816 ≅ 6 ms

5 ms

Reception processing time

CPU Bus Unit service cycle (remote node)

CPU Bus Unit service processing time (remote 1 ms

node)

CPU data set processing time (remote node)

256 x 0.02 + 20 = 25.12 ≅ 25 ms

10 + 1 +6 + 6 + 5 + 1 + 25= 54 ms

Total

RECV(098)

The transmission delay for the RECV(098) instruction can be calculated using

the following equation, which is illustrated in the following diagram.

Max. delay = Local node service cycle + local node service processing time

+ transmission processing time (command) + reception pro-

cessing time (command) + remote node service cycle + remote

node service processing time + CPU data read processing

time (remote node) + remote node service processing time +

transmission processing time (response) + reception process-

ing time (response) + local node service cycle + local node ser-

vice processing time + CPU data set processing time (local

node)

RECV(098) executed in user program

CPU data set processing time

Service processing

CPU Bus Unit service processing time (local node)

CPU Bus Unit service

processing time (local node)

Reception processing time (response)

Transmission processing time (response)

Transmission processing time (com-

mand)

Reception processing time

(command)

Service processing

CPU Bus Unit service cycle (remote node)

CPU Bus Unit service processing time (remote node)

Maximum transmission delay

CPU Bus Unit Service

Cycle

The CPU Bus Unit service cycle is a single PC cycle.

CPU Bus Unit Service

Processing Time

This is the time required to process CPU Bus Units and is approximately 1 ms

for Ethernet Units.

Transmission and

Reception Processing

Times

Command:

Response:

3 ms

Number of words transferred x 0.011 + 3 ms

CPU Data Read

Processing Time

The CPU data read processing time is the integer portion of the minimum

cycle time, which satisfies the following formula.

Number of words transferred x 0.02 + 20 ms ≤ Integer portion of remote node

cycle time

CPU Data Set Processing

Time

Number of words transferred x 0.02 + 20 ms

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Sending Commands From a Host Computer

Section 5-4

Example Calculations

The following example shows calculations for receiving 256 words between

two PC nodes using RECV(098). The local node’s CPU cycle time is 10 ms,

and the remote node’s CPU cycle time is 15 ms. Calculations are shown in the

following table.

Item

Calculation

CPU Bus Unit service cycle (local node) PC cycle time = 10 ms

CPU Bus Unit service processing time

(local node)

1 ms

Transmission processing time (command) 3 ms

Reception processing time (command) + 3 + 15 + 1 = 19 ms

Remote node service cycle + CPU Bus

Unit service processing time (remote

node)

CPU data read processing time (remote 256 x 0.02 + 20 = 25.12 → 30 ms

node)

Service processing

1 ms

Transmission processing time (response) 256 x 0.011 + 3 = 5.816 ≅ 6 ms

Reception processing time (response) + (256 x 0.011 + 3) + 10 + 1 = 16.816 ≅

Local node service cycle + CPU Bus Unit 17 ms

service processing time (local node)

CPU data set processing (local node)

256 x 0.02 + 20 = 25.12 ≅ 25 ms

Total

10 + 1 + 3 + 19 + 30 + 1 + 6 + 17 + 25 =

112 ms

5-4 Sending Commands From a Host Computer

Commands and responses sent from host computers must be in the formats

described in this section and must provide the proper FINS header informa-

tion. These formats can also be used to decode commands and responses

received from other network nodes.

5-4-1 Designating Remote Addresses

UDP sockets are used when sending FINS commands from a host computer

to a PC. This section provides examples of addressing remote PCs from the

host computer for communications.

Note

1. The FINS UDP port number at the Ethernet Unit is set to the default of

9600. It can be changed in the CPU Bus Unit System Setup, but the same

FINS UDP port number must be set for all of the Ethernet Units on the

same Ethernet network.

2. Even if the Ethernet network is comprised of multiple segments, set the

same value for the FINS network number.

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Sending Commands From a Host Computer

Section 5-4

Example 1: Intranetwork

Addressing

In this example, the host computer and the remote node (Ethernet Unit) are

on the same network. The communications parameters specified from the

host computer would be as follows:

Destination IP Address: 196.36.32.100 (Ethernet Unit of remote node)

UDP port number:

FINS UDP port No. (Ethernet Unit of remote node)

FINS addresses (Remote node CPU Unit):

Network number:

Node number:

Unit number:

100

FINS addresses (Host computer):

Network number:

Node number:

Unit number:

Host computer

Remote node

IP address: 196.36.32.100

FINS network/node/unit: 1/100/0 (Hex)

IP address: 196.36.32.50

FINS network/node/unit: 1/50/0 (Hex)

Ethernet

Example 2: Internetwork

Addressing

In this example, the host computer and the remote node (Ethernet Unit) are

on different networks, connected by a relay node. The communications

parameters specified from the host computer would be as follows:

Destination IP Address: 196.36.32.100 (Ethernet Unit of relay node)

UDP port number:

FINS UDP port number (Ethernet Unit of relay node)

FINS addresses (Remote node CPU Unit):

Network number:

Node number:

Unit number:

FINS addresses (Host computer):

Network number:

Node number:

Unit number:

Host computer

IP address: 196.36.32.50

FINS network/node/unit: 1/50/0 hex)

Relay node

Remote node

IP address: 196.36.32.100 FINS network/node/unit: 2/1/0 (Hex)

Ethernet Unit

Controller Link

Ethernet

Controller Link Unit

5-4-2 FINS Frames

The FINS communications service is carried out through the exchange of

FINS command frames and their corresponding response frames. (There are

also commands with no responses.)

Both command frames and response frames are comprised of a FINS header

for storing transfer control information, a FINS command field for storing a

command, and a FINS parameter/data field for storing command parameters

and transmission/response data.

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Sending Commands From a Host Computer

Section 5-4

FINS Command Frame Configuration

Size (bytes)

Contents

Displays frame information

Reserved by system.

ICF

RSV

GCT

DNA

DA1

Permissible number of gateways

Destination network address

Destination node address

Destination unit address

FINS header

DA2

SNA

Source network address

Source node address

Source unit address

SA1

SA2

SID

Service ID

MRC

Main request code

Sub-request code

FINS command

SRC

Command parameters and send data

Parameter/

data field

2000 max.

FINS parameter/data

The data length depends on the MRC and SRC.

FINS Response Frame

Configuration

The response code (one byte each for MRES and SRES) for the command is

added at the beginning of the FINS parameter/data field in the response

frame.

Size (bytes)

Contents

Same as in command frame.

FINS header

FINS command

Same as in command frame.

MRES

SRES

Main response code

Sub-response code

FINS

parameter/data field

1998 max.

Data

Response data

There are some frames in which

the data length is 0.

FINS Header Information

ICF (Information Control Field)

Bit

Response Request Bit

(0: Response required; 1: Response not required)

Kind of data (0: command; 1: response)

RSV (Reserved by system)

Set to 00 (Hex).

GCT (Permissible Number of Gateways)

Set to 02 (Hex).

DNA (Destination Network Address)

Specifies the number of the network where the destination node is located.

00 (Hex):

Local network

01 to 7F (Hex): Destination network number (1 to 127)

DA1 (Destination Node Address)

Specifies the number of the node where the command is being sent. This

node number is the address used for FINS, and is different from the IP ad-

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Sending Commands From a Host Computer

Section 5-4

dress used for Ethernet.

00 (Hex): Local PC Unit

01 to 7E (Hex): Destination node number (1 to 126)

FF (Hex): Broadcasting

When multiple Communications Units are mounted, DA1 specifies the

node number of the Unit connected to the network specified by DNA.

DA2 (Destination Unit Address)

Specifies the number of the Unit at the destination node.

00 (Hex):

PC (CPU Unit)

10 to 1F (Hex): CPU Bus Unit #0 to #15 (16 to 31)

E1 (Hex):

FE (Hex):

Inner Board

Unit connected to network.

SNA (Source Network Address)

Specifies the number of the network where the source node is located.

00 (Hex):

Local network

01 to 7F (Hex): Source network number (1 to 127)

SA1 (Source Node Address)

Specifies the local node number. The ranges of numbers that can be spec-

ified are the same as for DA1.

SA2 (Source Node Address)

Specifies the number of the Unit at the source node. The ranges of numbers

that can be specified are the same as for DA2.

SID (Service ID)

The SID is used to identify the process that data is sent from. Set any desired

number from 00 to FF for the SID. The same number will be returned in the

response, allowing you to match commands and responses in your applica-

tion.

5-4-3 Sample Program

Operation Overview

This program reads 150 words of the PC memory beginning at D00100 by

sending an FINS command (MEMORY AREA READ, command code 0101)

from a UNIX workstation to the PC on the Ethernet network. If no response is

received within two seconds of sending the FINS command, the command will

be resent.

Settings

The Ethernet Unit IP address is 196.36.32.100, and the FINS node number is

100. IP address conversion is set to automatic generation.

The workstation’s IP address is 196.36.32.50 and its FINS node number is 50.

The FINS UDP port number is 9600 (default).

Sample Program

1 #include <errno.h>

2 #include <stdio.h>

3 #include <sys/types.h>

4 #include <sys/socket.h>

5 #include <netinet/in.h>

6 #include <signal.h>

8 #define FINS_UDP_PORT 9600

9 #define SERV_IP_ADDR ”196.36.32.100”

/*Ethernet Unit IPADDRESS*/

10 #define MAX_MSG

2010

11 #define RESP_TIMEOUT 2

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Sending Commands From a Host Computer

Section 5-4

14 /*

15 * FINS COMMUNICATIONS SAMPLE PROGRAM

16 */

17 main(argc,argv)

18 int argc;

19 char *argv[];

20 {

int

sockfd;

struct sockaddr_in ws_addr,cs_addr;

char fins_cmnd[MAX_MSG],fins_resp[MAX_MSG];

int

char sid=0;

extern recv_fail();

sendlen,recvlen,addrlen;

/*GENERATE UDP SOCKET*/

if((sockfd=socket(AF_INET,SOCK_DGRAM,0))<<0)

err_exit(”can’t open datagram socket”);

/*ALLOCATE IPADDRESS AND PORT # TO SOCKET*/

bzero((char*)&ws_addr,sizeof(ws_addr));

ws_addr.sin_family=AF_INET;

ws_addr.sin_addr.s_addr=htonl(INADDR_ANY);

ws_addr.sin_port=htons(FINS_UDP_PORT);

if(bind(sockfd,(struct sockaddr*)&ws_addr,sizeof(ws_addr))<0)

err_exit(”can’t bind local address”);

*GENERATE MEMORYAREA READ COMMAND

*(READ 150 WORDS FROM D00100.)

fins_cmnd[0]=0x80; /*ICF*/

fins_cmnd[1]=0x00; /*RSV*/

fins_cmnd[2]=0x02; /*GCT*/

fins_cmnd[3]=0x01; /*DNA*/

fins_cmnd[4]=0x64; /*DA1*/

fins_cmnd[5]=0x00; /*DA2*/

fins_cmnd[6]=0x01; /*SNA*/

fins_cmnd[7]=0x32; /*SA1*/

fins_cmnd[8]=0x00; /*SA2*/

fins_cmnd[9]=++sid; /*SID*/

fins_cmnd[10]=0x01; /*MRC*/

fins_cmnd[11]=0x01; /*SRC*/

fins_cmnd[12]=0x82; /*VARIABLE TYPE: DM*/

fins_cmnd[13]=0x00; /*READ STARTADDRESS: 100*/

fins_cmnd[14]=0x64;

fins_cmnd[15]=0x00;

fins_cmnd[16]=0x00; /*WORDS READ: 150*/

fins_cmnd[17]=0x96;

/*Ethernet Unit FINS NODE NUMBER*/

/*WS FINS NODE NUMBER*/

/*SEND FINS COMMAND*/

bzero((char*)&cs_addr,sizeof(cs_addr));

cs_addr.sin_family=AF_INET;

cs_addr.sin_addr.s_addr=inet_addr(SERV_IP_ADDR);

cs_addr.sin_port=htons(FINS_UDP_PORT);

signal(SIGALRM,recv_fail);

72 CMND_SEND:

sendlen = 18;

if(sendto(sockfd,fins_cmnd,sendlen,0,&cs_addr,sizeof(cs_addr))

==sendlen){

alarm(RESP_TIMEOUT); /*START RESPONSE MONITOR TIMER*/

printf(”send length %d¥n”,sendlen);

100

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Sending Commands From a Host Computer

Section 5-4

{

else{

err_exit(”send error”);

}

/*RECEIVE FINS RESPONSE*/

addrlen = sizeof(cs_addr);

if((recvlen = recvfrom(sockfd,fins_resp,MAX_MSG,0,&cs_addr,&addrlen))

<0){

if(errno == EINTR)

goto CMND_SEND; /*RE-SEND FINS COMMAND*/

err_exit(”receive error”);

}

else{

alarm(0); /*STOP RESPONSE MONITOR TIMER*/

printf(”recv length %d¥n”,recvlen);

if(recvlen<14) /*ILLEGAL RESPONSE LENGTH CHECK*/

err_exit(”FINS length error”);

if((fins_cmnd[3]!=fins_resp[6])||(fins_cmnd[4]!=fins_resp[7])

||(fins_cmnd[5]!=fins_resp[8])){ /

*DESTINATION ADDRESS CHECK*/

err_exit(”illegal source address error”);

}

if(fins_cmnd[9]!=fins_resp[9]) /*SID CHECK*/

err_exit(”illegal SID error”);

100

101

102

103

104

105 }

106 /*

}

/*CLOSE SOCKET*/

close(sockfd);

107 *ERROR PROCESSING FUNCTIONS

108 */

109 err_exit(err_msg)

110 char *err_msg;

111 {

112

113

printf(”client: %s %x¥n”,err_msg,errno);

exit(1);

114 }

115

116 /*

117 *SIGNAL CAPTURE FUNCTIONS

118 */

119 recv_fail()

120 {

121

printf(”response timeout error ¥n”);

122 }

5-4-4 Delays for Accessing PC Memory

The time for the response to be received after a remote node on the Ethernet

network sends a memory area read or write command to a PC can be calcu-

lated using the following formula. This time does not take network transmis-

sion delays into account, so it may be extended under some operating

conditions.

Write command delay time (ms) =

Remote node communications processing time + 4 + (0.011 x number of

words written) + CPU cycle time + CPU data set processing time (Refer to

page 96)

Read command delay time (ms) =

Remote node communications processing time + 8 + (0.011 x number of

101

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FINS Server

Section 5-5

words read) + CPU cycle time + CPU data read processing time (Refer to

page 96)

Note

1. The transfer time may exceed the calculated value due to the actual oper-

ating environment. Factors affecting the transfer time are network traffic,

the window size of each node, Ethernet Unit traffic (e.g., socket services,

FTP server communications, etc.), and the system configuration.

2. The CPU data set processing time is the standard when the peripheral ser-

vice time is set in the CPU Unit System Setup to the default of 4%. As this

value is increased, the processing time is shortened.

Example

This example shows the calculations for a host computer sending a write

command for 256 words to the PC. The standard for the maximum transfer

delay time is as follows when the PC’s CPU cycle time is 10 ms.

Maximum transfer delay time

= Host computer communications processing time + 4 + (0.011 x 256) + 10

+ (256 x 0.02 + 20) = host computer communications processing time + 42 ms

5-5 FINS Server

The following table shows the FINS commands that can be addressed to the

Ethernet Units. The Ethernet Units automatically send responses for these

commands. For details, refer to Section 11 FINS Commands Addressed to

Ethernet Units.

MRC

SRC

Name

RESET

CONTROLLER DATA READ

CONTROLLER STATUS READ

INTERNODE ECHO TEST

BROADCAST TEST RESULTS READ

BROADCAST DATA SEND

ERROR LOG READ

ERROR LOG CLEAR

UDP OPEN REQUEST

UDP RECEIVE REQUEST

UDP SEND REQUEST

UDP CLOSE REQUEST

PASSIVE TCP OPEN REQUEST

ACTIVE TCP OPEN REQUEST

TCP RECEIVE REQUEST

TCP SEND REQUEST

TCP CLOSE REQUEST

PING

IP ADDRESS TABLE WRITE

IP ADDRESS WRITE (CJ Series only)

IP ADDRESS TABLE READ

IP ROUTER TABLE READ

PROTOCOL STATUS READ

MEMORY STATUS READ

SOCKET STATUS READ

ADDRESS INFORMATION READ

IP ADDRESS READ (CJ Series only)

102

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SECTION 6

Socket Services

This section describes the functionality provided by the Ethernet Unit via the socket services.

6-1 Overview. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-1-1 Socket Service Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-1-2 Sockets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-1-3 Using Sockets with the Ethernet Unit. . . . . . . . . . . . . . . . . . . . . . . .

6-1-4 Socket Port Numbers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-1-5 Differences between TCP and UDP . . . . . . . . . . . . . . . . . . . . . . . . .

6-1-6 Opening TCP Sockets. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-1-7 Fragmentation of Send Data. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-1-8 Maximum Transmission Delays . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-1-9 Precautions in Using Socket Services. . . . . . . . . . . . . . . . . . . . . . . .

6-2 Using Socket Services with Socket Service Request Switches . . . . . . . . . . .

6-2-1 Socket Service Parameters . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-2-2 Response Codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-2-3 Socket Service Request Switches . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-2-4 UDP/TCP Socket Status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-2-5 Application Procedure . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-2-6 Socket Services and Socket Status . . . . . . . . . . . . . . . . . . . . . . . . . .

6-2-7 Timing Charts . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-2-8 TCP/IP Communications Programming Example . . . . . . . . . . . . . .

6-2-9 UDP/IP Communications Programming Example. . . . . . . . . . . . . .

6-3 Using Socket Services with CMND(490). . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-3-1 UDP/TCP Socket Status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-3-2 Socket Services and Socket Status . . . . . . . . . . . . . . . . . . . . . . . . . .

6-3-3 Communications Timing Chart . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-3-4 Socket Service Timing Chart . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

6-3-5 TCP/IP Communications Programming Example . . . . . . . . . . . . . .

6-3-6 UDP/IP Communications Programming Example. . . . . . . . . . . . . .

104

105

106

107

108

110

111

112

114

117

122

125

126

127

128

130

134

139

140

143

144

146

153

103

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Overview

Section 6-1

6-1 Overview

6-1-1 Socket Service Functions

The socket services allow devices on the Ethernet to send and receive vari-

ous data using the UDP or TCP protocol. The socket services can be used by

CS/CJ-series PCs through the user program by manipulating dedicated bits

(called Socket Service Request Switches) or by executing the CMND(490)

instruction.

The two methods of using the socket services are as follows:

• Dedicated Bits (Socket Service Request Switches)

Requests can be made to a socket service by setting parameters and

then merely manipulating specific Socket Service Request Switches.

• CMND(490)

Requests can be made to a socket service by sending service request

commands to the Ethernet Unit.

Note One of the main differences between using Socket Service Request Switches

and using CMND(490) is in the number of sockets that can be connected

simultaneously, as shown in the following table.

Protocol

Socket Service Request

Switches

CMND(490)

UDP

TCP

Total of 8 sockets max.

8 sockets max.

Using Socket Service Request Switches

CS/CJ-series PC

Host computer

or other device

CPU Unit

Ethernet Unit

TCP data

transfers

User program

System

call

Socket Service

Request Switches

UDP data

transfers

Refreshed

(See note 1.)

Socket Service

Parameters

Refreshed

(See note 2.)

Note

1. Socket Service Request Switches in the CPU Bus Area in the CIO Area

are used to send a service request from the CPU Unit to the Ethernet Unit.

2. The Socket Service Parameters in the CPU Bus Unit Area in the DM Area

are used to specify the service being requested from the Ethernet Unit.

The CPU Bus Unit Area in the DM Area is also used to receive results of

processing from the Ethernet Unit to the CPU Unit.

Using CMND(490)

CS/CJ-series PC

Host computer or other device

CPU Unit

Ethernet Unit

FINS

command

TCP data

transfers

User program

System

call

FINS response

UDP data

transfers

Processing

results

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Overview

Section 6-1

Specific Socket Service Functions

The socket service functions listed in the following table can be executed

either using Socket Service Request Switches or using CMND(490).

Protocol

UDP

Socket service request

Open UDP socket

Receive via UDP socket

Send via UDP socket

Close UDP socket

TCP

Open TCP socket, passive

Open TCP socket, active

Receive via TCP socket

Send via TCP socket

Close TCP socket

6-1-2 Sockets

Sockets are interfaces that allow TCP and UDP protocols to be used directly

from the user program. With personal computers, socket are provided as C

language interface libraries, which allow TCP or UDP protocols to be pro-

gramming using library functions. With UNIX computers, socket interfaces are

supported in the form of system calls.

The CS/CJ-series PCs support the socket service from the user program. The

user program requests service functions either by manipulating Socket Ser-

vice Request Switches in the CPU Bus Unit Area in the CIO Area or by send-

ing FINS commands to the Ethernet Unit by executing CMND(490) instruction

in the ladder diagram.

Socket communications services can be used to transfer arbitrary data

between a PC and a host computer or between two PCs. The Ethernet sup-

ports two socket services: a UDP socket service and a TCP socket service.

Refer to 2-1-3 Selecting Communications Services for a comparison of the

socket services and the FINS communications service.

6-1-3 Using Sockets with the Ethernet Unit

The Ethernet Unit supports up to 16 simultaneous socket connections for the

socket services, 8 each for UDP and TCP sockets. Socket numbers 1 to 8 are

assigned to sockets for both UDP and TCP sockets. Sockets are managed

from the ladder-diagram program by assigning a socket port for each socket

number. The socket port number is assigned when the socket is opened.

Socket ports are

assigned to socket

numbers.

UDP socket

port 1

UDP socket 1

UDP open request

Socket

services

Sockets

TCP socket 8

TCP socket

port 65535

6-1-4 Socket Port Numbers

Port numbers up to 1023 on a UNIX workstation can be used by the supe-

ruser only. Port numbers 0 to 255 are reserved for well-known ports. Conse-

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Overview

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quently, port numbers 1024 and above should be used for socket services.

The Ethernet Unit does not support port #0.

Some port numbers over 1024 may be reserved on some workstations (for

example, the X-window server is port #6000). Do not use port numbers that

are already reserved for other processes.

The setting status of the UNIX workstation port numbers can be checked in /

etc/services.

6-1-5 Differences between TCP and UDP

There are differences in the socket services between TCP and UDP.

TCP Communications

The following procedure is followed each time data is transmitted to ensure

that the data arrives normally at the remote node:

1,2,3...

1. The remote node returns ACK when data is received normally.

2. The local node sends the next data after it receives ACK, or it resends the

same data if ACK is not returned within the specified time.

Transmitted data

Receive

Send

request

made.

request

ACK (acknowledge)

made.

Resent data

Local node

Remote node

With the TCP protocol, the remote IP address and remote TCP port number

are specified when an open request is made for a socket. When a send

request is made, the number of bytes to send and the send data are specified.

When a receive request is made, the number of bytes to receive is specified.

With the TCP protocol, communications with another remote device are not

possible until the socket that was opened has been closed.

UDP Communications

Data is simply sent to the remote. Unlike TCP, the reception of data is not

checked and data is not resent. To increase communication reliability, data

resends must be programmed by the user in user application.

Transmitted data

Receive

request

made.

Send

request

made.

ACK (acknowledge: only when

processed by application)

Local node

Remote node

With the UDP protocol, the remote IP address and remote TCP port number

are not specified when an open request is made for a socket. When a send

request is made, the remote IP address, the remote TCP port number, the

number of bytes to send, and the send data are specified. When a receive

request is made, the number of bytes to receive is specified. (In addition to the

received data, the source IP address and source UDP port number are stored

in the response data).

With the UDP protocol, communications with another remote device are pos-

sible even if the socket that was opened is not closed.

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Overview

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6-1-6 Opening TCP Sockets

To achieve highly reliable data communications, TCP establishes a virtual

communications circuit between the two nodes before starting data transmis-

sions. The virtual communications circuit is known as a “connection.”

Passive OPEN and Active

OPEN

An open command is executed for a node to establish a connection. The open

method differs depending on whether the node is a client or server. A passive

open method is used to open the node as a server and the active open

method is used to open the node as a client.

Active

open

Passive

open

Client

TCP

socket

Server

TCP

socket

Connection

Note

1. TCP sockets must be closed once a connection has been made before

communications are possible with other TCP sockets. This is true for other

server and client sockets. Up to eight TCP sockets can be open simulta-

neously.

2. With UDP sockets, communications are possible with more than one other

UDP socket even without closing the connection.

3. When a connection is made between two nodes, the process at the node

providing a service is called the server, and the process at the node re-

questing the service is called the client. The server is started first and waits

for a service request from a client. The client requests to the server that a

connection be opened and then transmits data. When the TCP protocol is

used, however, the client–server relationship does not need to be pro-

grammed in the application because it is automatically handled by the pro-

tocol.

TCP Communications

Procedure

The communications procedure is shown below for communications between

a host computer and Ethernet Unit using a TCP socket. In this example, the

host computer is the server and the Ethernet Unit is the client.

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Overview

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Host computer

(server)

Ethernet Unit

(client)

Passive open

Active open

Connection requested

Connection established

Data send request

Send next data

Send data

ACK (acknowledge)

Data receive request

Data send request

Send data

Data receive request

ACK (acknowledge)

Next data receive request

6-1-7 Fragmentation of Send Data

The Ethernet Unit fragments data for TCP transmission into units of 1,024

bytes and data for UDP transmission into units of 1,472 bytes. TCP requires

one reception request to receive each unit of data. UDP, however, restores the

original data before passing it to the user process, allowing all the data in a

single transmission to be received with one reception request.

Cautions when Using TCP

An example of the fragmentation and transmission of data using the TCP is

shown in the following illustration.

1,2,3...

1. The sending user program sends a request to send 1,984 bytes of data.

2. The Ethernet Unit fragments the send data into Data A with 1,024 bytes

and Data B with 960 bytes.

3. Data A and Data B are sent consecutively.

4. The receiving user program sends a request to receive 1,984 bytes of data.

However, only data A is sent in the first packet, and data B is not received.

5. Another receive request to receive data must be made before the remain-

ing data, Data B, is received.

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Sending User Program

Ethernet Unit

Receiving Node

Data A

Receiving Computer

4. First receive request

1,984bytes

1. Send request

1,984 bytes

1,024 bytes

Data A

Source data

Data A

Only first

1,024 bytes

Data B

960 bytes

5. Second receive request

1,984 bytes

2. Data separated

Data B

3. Data A and

Data B sent

consecutively.

Remaining

960 bytes

When using TCP protocol, the fragmented data is passed to the user pro-

gram. Therefore, the receiving user program must be able to evaluate the end

of the data transmission, and repeatedly send receive requests until all data

has been received. The receive request is sent twice in the example shown

above, but the data would be even more fragmented if a router was included

in the communications path, and the number of receive requests would need

to be increased accordingly.

When making the receive request, it is not necessary to specify the same data

length as the sent data length. For example, if the length setting is shorter

than the actual length of the data, all the data can be received by repeating

the receive requests.

Note If communications are with a different segment and data is sent via the TCP

protocol, data will be fragmented into units of 536 bytes.

Cautions when Using UDP

An example of fragmentation and transmission of data using the UDP is

shown in the following illustration.

1,2,3...

1. The transmission user program sends a request to send 1,984 bytes of da-

ta.

2. The Ethernet Unit fragments the send data into Data A with 1,472 bytes

and Data B with 512 bytes.

3. Data A and Data B are sent consecutively.

4. When the receiving user program sends a request to receive 1,984 bytes

of data, Data A and Data B are linked to restore the original data, which is

passed to the user program.

Sending User Program

Ethernet Unit

Receiving Node

Receiving User Program

1. Send request

1,984bytes

1,472 bytes

Data A

Source data

4. First receive request

1,984 bytes

Data B

Data A

Data B

512 bytes

As shown above, the UDP protocol handles data communications as data-

grams, so that the send data is restored to the original data before being

passed to the user program. Consequently, if the data length in the receive

request is set to the length of the send data, the entire data can be received

using a single receive data request. However, if the data length in the receive

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Section 6-1

data request is set smaller than the actual length of the data, all received data

exceeding the set data length will be discarded.

6-1-8 Maximum Transmission Delays

The transmission delays for socket service is calculated as the sum of the

communications processing times for both nodes.

Transmission delay = Remote node send processing time + Local node re-

ceive processing time + Local node send processing time + Remote node

receive processing time

Calculate the maximum Ethernet Unit transmission delays for sending and

receiving using the following formulas. These times are the same for both

UDP and TCP.

Note The delay times calculated here ignore delays that can occur on the Ethernet

network. Actual delays can be much longer depending on actual conditions on

the network.

Delay Time for Socket Service using Socket Service Request Switches =

Send processing time = receive processing time = PC cycle time x 5 + A x 2 +

B (ms)

Delay Time for Socket Service using CMND(490)= Send processing time =

receive processing time = PC cycle time x 14 + A (ms)

A is the lowest multiple of the PC cycle time that is greater than or equal to 20

ms.

B is the lowest multiple of the PC cycle time that is greater than or equal to 20

ms + 0.01 x number of send/receive bytes.

Note

1. The formulas above calculate guideline figures for the transfer delays when

the Ethernet Unit uses a single socket only. The user program execution

time is not included in these calculations.

2. The communications time for the remote node varies according to the

equipment used. If the remote node is not an Ethernet Unit, refer to the

documentation for the actual equipment to calculate the communications

time.

3. The delay times may exceed the calculated values due to the operating en-

vironment. Factors affecting the delay times are the network load ratio

(amount of network traffic), the window size of each node, the load on the

Ethernet Unit (including operating multiple socket services, FTP server,

etc.), and the system configuration.

4. The values for A and B given above are guideline values for when the pe-

ripheral service time in the PC Setup in the CPU Unit is set to the default

value of 4%. If the peripheral service time setting is increased, the values

of A and B will decrease.

Example

The following table shows calculation of the approximate maximum transfer

delay for sending 512 bytes of data between two PCs using CMND(490) for a

TCP socket.

Local PC cycle time: 5 ms

Remote PC cycle time: 10 ms

Item

Formula

5 x 5 + 20 x 2 + 30 = 95 ms

Local receive processing time

Local send processing time

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Item

Formula

10 x 5 + 20 x 2 + 30 = 120 ms

Remote send processing time

Remote receive processing time

Maximum transmission delay

95 + 95 + 120 + 120 = 430 ms

6-1-9 Precautions in Using Socket Services

UDP and TCP Socket

Services

• If a short response monitor time is specified in CMND(490) control data

and the Ethernet Unit is operating under a high load, a result may be

stored even if the response code indicates a time-out. If this occurs,

increase the monitor time specified with CMND(490).

• The socket status area in the CIO Area is zeroed when the PC’s operating

mode is changed (e.g., from PROGRAM to RUN). The actual Ethernet

Unit socket status, however, will remain unchanged after the socket status

area is zeroed. To avoid this problem, use the IOM Hold setting in the PC

Setup. Refer to the PC’s operation manuals for details on settings.

• The Results Storage Error Flag will turn ON in the socket status to indi-

cate that the specified Results Storage Area does not exist in the PC. Cor-

rect the user program.

• Communications time may increase if multiple Ethernet Unit functions are

used simultaneously or due to the contents of the user program.

• Communications efficiency may decrease due to high communications

loads on the network.

• All data is flushed from the socket’s communications buffer when a socket

is closed with the CLOSE REQUEST command. In some cases, the

transmit data for the SEND REQUEST command issued just before the

socket was closed may not be sent.

• When sockets are open, the Ethernet Unit provides a 4,096-byte buffer for

each TCP socket and 9,016-byte buffer for each UDP socket to allow data

to be received at any time. These buffers are shared by all open sockets.

Receive data will be discarded for a socket if the buffer becomes full. The

user application must therefore issue RECEIVE REQUEST commands

frequently enough to prevent the internal buffers from becoming full.

UDP Socket Service

TCP Socket Service

• The UDP socket sets a broadcast address for the remote node address to

broadcast data to all nodes of the network simultaneously. The maximum

length of broadcast data is 1,472 bytes. Data in multiple fragments (over

1,473 bytes for a UDP socket) cannot be broadcast.

• The UDP socket does not check the transmitted data to ensure communi-

cations reliability. To increase communication reliability, communications

checks and retries must be included in the user application program.

• If the TCP socket of the remote node closes (the connection is broken)

during communications, the TCP socket at the local node must also be

closed. The communications Results Storage Area can be used to check

if the connection has been broken. Close the local socket immediately

after detecting that the remote TCP socket has closed. The following situ-

ations indicate that the remote socket has closed.

TCP Receive Results Storage Area:

Response code = 004B (error at remote node)

TCP Send Results Storage Area:

Response code = 0020 (connection broken with remote socket during

transmission)

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Using Socket Services with Socket Service Request Switches

Section 6-2

• Data can remain in a buffer at the local node if the remote TCP socket

closes during communications. Any data remaining in the buffer will be

discarded when the TCP socket is closed. To avoid problems of this

nature, steps will have to be taken in the application program, such as

sending data to enable closing, and then only closing once reception of

this data has been confirmed.

• When closing a connection for a TCP socket, the first port to be closed

cannot be reopened for at least 60 seconds after the other port closes.

However, this restriction does not apply for a port opened using the TCP

ACTIVE OPEN REQUEST command with a local TCP port number of 0

(port number automatically assigned) which is closed from the side that

actively opened the socket.

• A connection is established for a passively opened socket by actively

opening it from another socket. You cannot actively open multiple connec-

tions to a socket passively opened at the Ethernet Unit.

• The Ethernet Unit TCP sockets have no KEEP ALIVE function to check

that the connection is normal if communications do not occur for a set

time period through a communications line for which a connection has

been established. The Ethernet Unit’s TCP sockets make no checks to

the socket at the other node. Checks made by the remote node, however,

are received as responses, so that it is not necessary for the user pro-

gram to consider the KEEP ALIVE function.

Precautions in Using

Socket Service Request

Switches

• Send and reception processing can not be performed at the same time

when Socket Service Request Switches are used for socket services

because there is only one Socket Service Parameter Area for each

socket. For example, if the Send Request Switch is turned ON when data

is being received, the response code will be 110C Hex, indicating that a

Request Switch was turned ON during communications processing. (The

response code for the reception will overwrite this code when processing

has been completed.)

• If more than one Request Switch is turned ON simultaneously, the

response code will be 110C Hex and all requested processing will end in

an error.

• Close processing can be performed, however, even during open, send, or

receive processing. This enables emergency close processing. Also, the

only parameter required for close processing is the socket number, so a

socket can be closed even when parameters are set for another process.

6-2 Using Socket Services with Socket Service Request

Switches

Socket services can be used by setting the parameters in a Socket Service

Parameter Area in the CPU Bus Unit Area and then turning ON a Socket Ser-

vice Request Switch.

When using Socket Service Request Switches, a maximum of 8 sockets can

be opened simultaneously for the UDP and TCP combined. Also, the same

socket number cannot be used simultaneously for both UDP and TCP. (There

is only one Socket Service Parameter Area for each socket, i.e., the same

area must be used for both UDP and TCP.)

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Using Socket Services with Socket Service Request Switches

Section 6-2

An illustration of using Socket Service Request Switches to execute socket

services is provided below.

CS/CJ-series PC

Host computer or other device

CPU Unit

Ethernet Unit

TCP data

transfers

User program

System

call

Socket Service

Request Switches

UDP data

transfers

Refreshed

(See note 1.)

Socket Service

Parameters

Refreshed

(See note 2.)

Note

1. Socket Service Request Switches in the CPU Bus Unit Area in the CIO

Area are used to send a service request from the CPU Unit to the Ethernet

Unit.

2. The Socket Service Parameters in the CPU Bus Unit Area in the DM Area

are used to specify the service being requested from the Ethernet Unit.

The CPU Bus Unit Area in the DM Area is also used to receive results of

processing from the Ethernet Unit to the CPU Unit.

After setting the required parameters in a Socket Service Parameter Area in

the CPU Bus Unit Area in the DM Area, the Socket Service Request Switches

can be used to request opening, sending, receiving, or closing for either the

UDP or TCP protocol. When requesting a send, send data at the send/receive

data addresses set in the parameter area is sent. When requesting a recep-

tion, data is received to the send/receive data addresses set in the parameter

area.

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Using Socket Services with Socket Service Request Switches

Section 6-2

6-2-1 Socket Service Parameters

The Socket Service Parameter Areas in which parameters are set to request

socket services is in the CPU Bus Unit Area in the DM Area of the CPU Unit.

The Socket Service Parameter Areas are allocated as shown in the following

diagrams. The first word of in the DM Area allocated to the Ethernet Unit as a

CPU Bus Unit is referred to as “m” and is computed as follows:

m = D30000 + (100 x unit number)

m+18

Socket Service Parameter Area 1

m+27

m+28

Socket Service Parameter Area 2

m+37

m+88

Socket Service Parameter Area 8

m+97

The configuration of each of the Socket Service Parameter Areas is shown in

the following diagram.

Offset

15 14 13 12 11 10

UDP/TCP socket number (0001 to 0008 Hex)

Local UDP/TCP port number (0000 to FFFF Hex)

Remote IP address (00000000 to FFFFFFFF Hex)

Remote UDP/TCP port number (0000 to FFFF Hex)

Number of bytes to send/receive (0000 to 07C0 Hex)

Send/receive data address

Timeout value (0000 to FFFF Hex)

Response code

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Using Socket Services with Socket Service Request Switches

Section 6-2

Parameter Settings

The following table shows the parameters that are required for each service

and the use of the parameters by the socket service.

UDP Socket Services

Parameter

No. of

words

Range

(decimal values in

parentheses)

Socket service

UDP

open

UDP

send

UDP

receive

UDP/TCP socket No.

0001 to 0008 Hex

(1 to 8)

Local UDP/TCP port No.

Remote IP address

0000 to FFFF Hex

(0 to 65,535)

---

00000000 to FFFFFFFF Hex ---

(0.0.0.0 to 255.255.255.255)

Remote UDP/TCP port No.

Number of bytes to send/receive

0000 to FFFF Hex

(0 to 65,535)

---

0000 to 07C0 Hex

(0 to 1,984 bytes)

---

Send/Receive data address

Time out time

Memory area address

---

0000 to FFFF Hex

(0 to 65,535)

(0: No limit, 0.1 to 6,553.5 s)

Response code

---

Note W:

RW: Written by user at execution and then read for results at completion

R: Read by user for results at completion

---: Not used.

Written by user.

TCP Socket Services

Parameter

No. of

words

Range

(decimal values in

parentheses)

Socket service

TCP

passive active receive

open open

TCP

send

TCP

UDP/TCP socket No.

Local UDP/TCP port No.

Remote IP address

0001 to 0008 Hex

(1 to 8)

0000 to FFFF Hex

(0 to 65,535)

---

00000000 to FFFFFFFF Hex RW

(0.0.0.0 to 255.255.255.255

Remote UDP/TCP port

No.

0000 to FFFF Hex

(0 to 65,535)

Number of bytes to send/

receive

0000 to 07C0 Hex

(0 to 1,984 bytes)

---

Send/Receive data

address

Memory area address

---

Time out time

0000 to FFFF Hex

(0 to 65,535)

---

(0: No limit, 0.1 to 6,553.5 s)

Response code

---

Note W:

Written by user.

RW: Written by user at execution and then read for results at completion

R: Read by user for results at completion

---: Not used.

UDP/TCP Socket No.

Specify the number of the UDP or TCP socket to open.

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Using Socket Services with Socket Service Request Switches

Section 6-2

Local UDP/TCP Port No.

Specify the number of the UDP or TCP port for the socket to use for communi-

cations.

• Do not specify the port being used as the FINS UDP port (default: 9600)

in an open request for a UDP socket.

• Do not specify FTP server TCP port numbers 20 and 21 in an open

request for a TCP port.

• Do not specify mail communications TCP port number 25.

• As a rule, use port numbers 1,024 and higher.

If port number 0 is specified when for an active TCP open, the TCP port num-

ber will be automatically allocated and the number of the port that was

opened will be stored in the local UDP/TCP port number in the Socket Service

Parameter Area (i.e., the actual port number will be overwritten on the value of

0 set by the user).

Remote IP Address

Specify the IP address of the remote device.

• Offset +2 in the Socket Service Parameter Area contains the upper bytes

of the Remote IP Address, and offset +3 contains the lower bytes.

Example: The contents of offsets +2 and +3 would be as shown below

when

the Remote IP Address is 196.36.32.55 (C4.24.20.37 Hex).

+2: C424

+3: 2037

• This parameter is not used when making a receive request for a UDP

socket. The remote IP address will be stored with the response data and

will be written as the Remote IP Address in the Socket Service Parameter

Area.

• When opening a passive TCP socket, the combination of the remote IP

address and the remote TCP port number can be used to affect process-

ing as shown in the following table.

Remote IP

Address

Remote TCP

Port No.

Processing

All connection requests accepted.

Not 0

Connection requests accepted only for the same

port number.

Not 0

Connection requests accepted only for the same IP

address.

Not 0

Connection requests accepted only for the same

port number and IP address.

If the Remote IP Address is set to 0, a connection can be made to any remote

node and the remote IP address of the node that is connected will be stored

as the Remote IP Address in the Socket Service Parameter Area. If a specific

remote I/O address is set, then a connection can be made only to the node

with the specified address.

If the Remote TCP Port No. is set to 0, a connection can be made to any

remote node regardless of the TCP port number it is using. If a specific

remote TCP port number is set, then a connection can be made only to a

node using the specified TCP port number.

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Using Socket Services with Socket Service Request Switches

Section 6-2

Remote UDP/TCP Port No.

Specify the UDP or TCP port number used by the remote device.

• This parameter is not used when making a receive request for a UDP

socket. The remote UDP/TCP port number will be stored with the

response data and will be written as the Remote UDP/TCP Port No. in the

Socket Service Parameter Area.

• When opening a passive TCP socket, the combination of the remote IP

address and the remote TCP port number can be used to affect process-

ing as shown in the table for the Remote IP Address, above. If the Remote

UDP/TCP Port No. is set to 0, the UDP/TCP port number of the remote

device will be written as the Remote UDP/TCP Port No. in the Socket Ser-

vice Parameter Area.

Time Out Time

Set the time limit in units of 0.1 s for completion of communications from the

time that the Receive Request Switch (TCP or UDP) or the TCP Passive

Open Request Switch is turned ON. A response code of 0080 Hex (timeout)

will be stored if communications time out. If 0 is set, the requested service will

not be timed.

Number of Bytes to Send/Receive

Send the number of bytes to be sent or the number of bytes to receive. When

the transfer has been completed, the actual number of bytes that have been

sent or received will be written here.

Send/Receive Data Address

Specify the address of the first word to send or the address of the first word

where data is to be received. Always set the bit number to 00 Hex.

Offset

Area

designation

Leftmost 2 digits

of word address

Rightmost 2 digits

of word address

Bit number

(always 00 Hex)

The following specifications can be used.

Area Word address

Area

designation

(Hex)

Word address

(Hex)

CIO, HR,

and AR

Areas

CIO

0000 to 6143

0000 to 17FF

0000 to 01FF

01C0 to 03BF

0000 to 7FFF

H000 to H511

A448 to A959

DM Area

EM Area

D00000 to D32767

Bank 0

E0_00000 to E0_32767 A0

Bank C

EC_00000 to EC_32767 AC

0000 to 7FFF

6-2-2 Response Codes

When processing of a request has been completed for socket services exe-

cuted using Socket Service Request Switches, a response code will be stored

in the Response Code word in the Socket Service Parameter Area. The fol-

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Using Socket Services with Socket Service Request Switches

Section 6-2

lowing response codes will be stored depending on the service that was

requested.

UDP Socket Open Request

Response

code

Meaning

0000

Normal end

0105

0302

1100

110C

220F

2211

2606

Local IP address setting error.

CPU Unit error; cannot execute.

UDP socket number is not 1 to 8 or local UDP port number is 0.

Request Switch turned ON during other processing.

Specified socket is already open.

Unit is busy; cannot execute.

Specified socket is already open as TCP socket; cannot open UDP

socket.

2607

003E

0049

0081

Specified Socket Service Parameter Area is already being used for

another socket.

Internal buffer cannot be obtained due to high reception traffic

(ENOBUFS).

The same UDP port number has been specified more than once

(EADDRINUSE).

The specified socket was closed during open processing.

UDP Socket Receive Request

Response

code

Meaning

0000

Normal end

0302

1100

1101

CPU Unit error; cannot execute.

Number of bytes to receive is not in allowable range.

The area designation of the Send/Receive Data Address is not in

allowable range.

1103

110C

220F

2210

2211

2607

The bit number in the Send/Receive Data Address is not 00.

Request Switch turned ON during other processing.

Specified socket is already processing a receive request.

The specified socket is not open.

Unit is busy; cannot execute.

Specified Socket Service Parameter Area is already being used for

another socket.

003E

Internal buffer cannot be obtained due to high reception traffic

(ENOBUFS).

0066

0080

0081

Internal memory cannot be obtained; cannot execute.

Reception request timeout

The specified socket was closed during receive processing.

UDP Socket Send Request

Response

code

Meaning

0000

Normal end

0302

1100

CPU Unit error; cannot execute.

Number of bytes to send is not in allowable range or the remote IP

address is 0.

1101

1103

The area designation of the Send/Receive Data Address is not in

allowable range.

The bit number in the Send/Receive Data Address is not 00.

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Using Socket Services with Socket Service Request Switches

Section 6-2

Response

code

Meaning

Request Switch turned ON during other processing.

110C

220F

2210

2211

2607

Specified socket is already processing a send request.

The specified socket is not open.

Unit is busy; cannot execute.

Specified Socket Service Parameter Area is already being used for

another socket.

003E

0042

004C

004E

0051

0081

Internal buffer cannot be obtained due to high reception traffic

(ENOBUFS).

The remote IP address is a broadcast address and the number of

bytes to send is greater than 1,472 bytes (EMSGSIZE).

The network ID is incorrect or the remote IP address is incorrect

(EADDRNOTAVAIL)

The network ID is not in the IP router table, router settings are incor-

rect, or the remote IP address is incorrect (ENETUNREACH).

The router settings are incorrect or the remote IP address is incor-

rect (EHOSTUNREACH).

The specified socket was closed during send processing.

UDP Socket Close Request

Response

code

Meaning

0000

Normal end

0302

2210

2211

2607

CPU Unit error; cannot execute.

The specified socket is not open.

Unit is busy; cannot execute.

Specified Socket Service Parameter Area is already being used for

another socket.

TCP Socket Passive Open Request

Response

Meaning

code

0000

Normal end

0105

0302

1100

110C

220F

Local IP address setting error.

CPU Unit error; cannot execute.

TCP socket number is not 1 to 8 or local TCP port number is 0.

Request Switch turned ON during other processing.

Specified socket is already open or already processing an open

request.

2211

2606

Unit is busy; cannot execute.

Specified socket is already open as UDP socket; cannot open TCP

socket.

2607

003E

Specified Socket Service Parameter Area is already being used for

another socket.

Internal buffer cannot be obtained due to high reception traffic

(ENOBUFS).

0042

(See note.)

The remote IP address is a broadcast address and the number of

bytes to send is greater than 1,472 bytes (EMSGSIZE).

0045

0049

Error in communications with remote node (ECONNABORTED).

The same TCP port number has been specified more than once

(EADDRINUSE).

004A

Error (ECONNREFUSED).

(See note.)

119

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Using Socket Services with Socket Service Request Switches

Section 6-2

Response

code

Meaning

004B

(See note.)

Error in communications with remote node (ECONNRESET).

Remote IP address parameter error (ENETUNREACH).

Remote IP address parameter error (EHOSTUNREACH).

004E

(See note.)

0051

(See note.)

0053

Error in communications with remote node (ETIMEDOUT) or remote

node does not exist.

0066

0080

0081

0082

Internal memory cannot be obtained; cannot execute.

Open request timed out.

The specified socket was closed during open processing.

Connection could not be established with specified remote node.

Note These response codes will be returned only on large, multilevel networks.

TCP Socket Active Open Request

Response

Meaning

code

0000

Normal end

0105

0302

1100

110C

220F

Local IP address setting error.

CPU Unit error; cannot execute.

TCP socket number is not 1 to 8 or local TCP port number is 0.

Request Switch turned ON during other processing.

Specified socket is already open or already processing an open

request.

2211

2606

Unit is busy; cannot execute.

Specified socket is already open as UDP socket; cannot open TCP

socket.

2607

Specified Socket Service Parameter Area is already being used for

another socket.

000D

003E

Remote IP address parameter error (EACCES).

Internal buffer cannot be obtained due to high reception traffic

(ENOBUFS).

0042

Error (EMSGSIZE).

(See note.)

0044

0045

0049

ICMP data received (ENOPROTOOPT).

Error in communications with remote node (ECONNABORTED).

The same port number has been specified more than once (EAD-

DRINUSE).

004A

Error (ECONNREFUSED) or the remote node has not been opened

as passive socket.

004B

Error in communications with remote node (ECONNRESET).

(See note.)

004C

Remote IP address parameter error (EADDRNOTAVAIL).

Wrong parameter designation.

An attempt was made to set the local TCP port of the local node to

Active Open.

004E

0051

Remote IP address parameter error (ENETUNREACH).

The network ID is not in the IP router table or router settings are

incorrect.

Remote IP address parameter error (EHOSTUNREACH).

The router settings are incorrect.

120

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Using Socket Services with Socket Service Request Switches

Section 6-2

Response

code

Meaning

0053

Communications error with remote node (ETIMEDOUT).

No remote node.

0081

The specified socket was closed during open processing.

Note These response codes will be returned only on large, multilevel networks.

TCP Socket Receive Request

Response

code

Meaning

0000

Normal end

0302

1100

1101

CPU Unit error; cannot execute.

Number of receive bytes not in allowable range.

The area designation of the Send/Receive Data Address is not in

allowable range.

1103

110C

2210

220F

2210

2211

2607

The bit number in the Send/Receive Data Address is not 00.

Request Switch turned ON during other processing.

The specified socket is not open.

Specified socket is already processing a receive request.

Specified socket has not been connected.

Unit is busy; cannot execute.

Specified Socket Service Parameter Area is already being used for

another socket.

003E

Internal buffer cannot be obtained due to high reception traffic

(ENOBUFS).

0042

ICMP data received (EMSGSIZE).

(See note.)

0044

ICMP data received (ENOPROTOOPT).

(See note.)

0045

Error in communications with remote node (ECONNABORTED).

(See note.)

004B

Error in communications with remote node (ECONNRESET).

ICMP data received (ENETUNREACH).

004E

(See note.)

004F

ICMP data received (EHOSTDOWN).

(See note.)

0051

ICMP data received (EHOSTUNREACH).

(See note.)

0053

0066

0080

0081

Error in communications with remote host (ETIMEDOUT).

Internal memory cannot be obtained; cannot execute.

Receive request timed out.

The specified socket was closed during receive processing.

Note These response codes will be returned only on large, multilevel networks.

TCP Socket Send Request

Response

code

Meaning

0000

Normal end

0302

1100

1101

CPU Unit error; cannot execute.

Number of bytes to send not in allowable range.

The area designation of the Send/Receive Data Address is not in

allowable range.

1103

The bit number in the Send/Receive Data Address is not 00.

121

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Using Socket Services with Socket Service Request Switches

Section 6-2

Response

code

Meaning

Request Switch turned ON during other processing.

110C

220F

2210

2211

2607

Specified socket is already processing a send request.

The specified socket is not open.

Unit is busy; cannot execute.

Specified Socket Service Parameter Area is already being used for

another socket.

0020

003E

Connection with remote socket broken during send (EPIPE).

Internal buffer cannot be obtained due to high reception traffic

(ENOBUFS).

0042

(See note.)

The remote IP address is a broadcast address and the number of

bytes to send is greater than 1,472 bytes (EMSGSIZE).

0044

ICMP data received (ENOPROTOOPT).

(See note.)

0045

(See note.)

Error in communications with remote node (ECONNABORTED).

Error in communications with remote node (ECONNREFUSED)

Remote IP address parameter error (ENETUNREACH).

ICMP data received (EHOSTDOWN).

004A

(See note.)

004B

(See note.)

004E

(See note.)

004F

(See note.)

0051

(See note.)

Remote IP address parameter error (EHOSTUNREACH).

Error in communications with remote node (ETIMEDOUT).

The specified socket was closed during send processing.

0053

(See note.)

0081

Note These response codes will be returned only on large, multilevel networks.

TCP Socket Close Request

Response

code

Meaning

0000

Normal end

2210

2211

2607

The specified socket is not open.

Unit is busy; cannot execute.

Specified Socket Service Parameter Area is already being used for

another socket.

0302

CPU Unit error; cannot execute.

6-2-3 Socket Service Request Switches

Socket Service Request Switches are manipulated to request socket ser-

vices. These bits are called Socket Service Request Switches, and are turned

ON in the CPU Unit to request socket services through the Ethernet Unit.

The Socket Service Request Switches are allocated in the CPU Bus Unit Area

in the CPU Area starting at the word n+ 19. The value of n can be calculated

from the unit number as follows:

n = 1500 + (25 x unit number)

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Using Socket Services with Socket Service Request Switches

Section 6-2

Offset

n+19 Socket Service

Request Switches 2

Socket Service

Request Switches 1

Socket Service

n+20

Socket Service

Request Switches 3

Request Switches 4

Socket Service

n+21

Socket Service

Request Switches 5

Request Switches 6

Socket Service

n+22

Socket Service

Request Switches 7

Request Switches 8

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Using Socket Services with Socket Service Request Switches

Section 6-2

The configuration of each set of Socket Service Request Switches is shown in

the following diagram.

15 14 13 12 11 10

UDP Open Request Switch

TCP Passive Open Request Switch

TCP Active Open Request Switch

Send Request Switch

Receive Request Switch

Close Request Switch

Bit

Switch

Status Manipulated

Unit operation

UDP Open Request ON

Switch

User

Unit

UDP socket opened when switch is turned ON.

OFF

Unit turns OFF switch when open processing has been com-

pleted (i.e., when a connection has been made).

TCP Passive Open ON

Request Switch

User

Unit

Passive TCP socket opened when switch is turned ON.

OFF

Unit turns OFF switch when open processing has been com-

pleted (i.e., when a connection has been made).

TCP Active Open

Request Switch

User

Unit

Active TCP socket opened when switch is turned ON.

OFF

Unit turns OFF switch when open processing has been com-

pleted (i.e., when a connection has been made)

Send Request

Switch

User

Send processing executed when switch is turned ON.

(The protocol (TCP/UDP) is determined when the socket is

opened.)

OFF

Unit

Unit turns OFF switch when send processing has been com-

pleted.

Receive Request

Switch

User

Receive processing executed when switch is turned ON.

(The protocol (TCP/UDP) is determined when the socket is

opened.)

OFF

Unit

Unit turns OFF switch when receive processing has been com-

pleted.

Close Request

Switch

User

Close processing executed when switch is turned ON.

(The protocol (TCP/UDP) is determined when the socket is

opened.)

OFF

Unit

Unit turns OFF switch when close processing has been com-

pleted.

As shown in the above table, the Request Switches are turned OFF by the

Ethernet Unit when the requested processes has been completed.

Note There is also a Socket Force-close Switch in bit 2 of the first word allocated to

the Ethernet Unit in the CPU Bus Unit Area in the CIO Area. When the Socket

Force-close Switch is turned ON, all sockets that are open will be force-

closed. Refer to page 68 for details.

When using socket services with the Socket Service Request Switches, the

ladder diagram should be programmed to check the response codes when

Socket Service Request Switches are turned OFF.

124

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Using Socket Services with Socket Service Request Switches

Section 6-2

6-2-4 UDP/TCP Socket Status

The status of the UDP and TCP sockets is provided in the Socket Status

Words shown in the following diagram. There is a status word for each socket

for both UDP and TCP. The Socket Status Words are allocated in the CPU

Bus Unit Area in the CPU Area starting at the word n+ 1. The value of n can

be calculated from the unit number as follows:

n = 1500 + (25 x unit number)

n+1

UDP Socket No. 1 Status

UDP Socket No. 2 Status

UDP Socket No. 3 Status

UDP Socket No. 4 Status

UDP Socket No. 5 Status

UDP Socket No. 6 Status

UDP Socket No. 7 Status

UDP Socket No. 8 Status

TCP Socket No. 1 Status

TCP Socket No. 2 Status

TCP Socket No. 3 Status

TCP Socket No. 4 Status

TCP Socket No. 5 Status

TCP Socket No. 6 Status

TCP Socket No. 7 Status

TCP Socket No. 8 Status

n+2

n+3

n+4

n+5

n+6

n+7

n+8

n+9

n+10

n+11

n+12

n+13

n+14

n+15

n+16

The flags shown in the following diagram are provided in the Socket Status

Words for socket service requests made with the Socket Service Request

Switches.

15 14 13 12 11 10

Opening Flag

Receiving Flag

Sending Flag

Closing Flag

TCP/UDP Open Flag

Bit

Switch

Status Manipulated

Unit operation

Turns ON when an open request is received.

Opening Flag

Unit

OFF

Turns OFF when open processing has been completed.

Turns ON when a receive request is received.

Receiving Flag

Sending Flag

Closing Flag

OFF

Turns OFF when receive processing has been completed.

Turns ON when a send request is received.

OFF

Turns OFF when send processing has been completed.

Turns ON when an close request is received.

OFF

Turns OFF when close processing has been completed.

15 Socket Open Flag

Turns ON when open processing has been completed (i.e., when a

connection is made).

OFF

Turns OFF when close processing has been completed. (Will

remain OFF when open processing ends in an error.)

125

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Using Socket Services with Socket Service Request Switches

Section 6-2

Note The TCP socket connection status is also provided as codes in the following

words of the words allocated to the Ethernet Unit in the CPU Bus Unit Area in

the DM Area: D30000 + (100 x unit number) +9 to +16. Refer to TCP Socket

Connection Status on page 75 and to Appendix D TCP Status Transitions for

details.

6-2-5 Application Procedure

Procedure

1,2,3...

1. Set the socket service parameters in the CPU Bus Unit Area in the DM Ar-

ea.

m = D30000 + (100 x unit number)

CPU Bus Unit Area in the DM Area

Parameters

UDP/TCP socket No.

Local UDP/TCP port No.

Remote IP address

m+18

m+28

Socket Service Parameter Area 1

Socket Service Parameter Area 2

Remote UDP/TCP port No.

Number of bytes to send/receive

Send/Receive data address

m+88

Time out time

Socket Service Parameter Area 8

Response code

2. Turn ON the Socket Service Request Bits in the CPU Bus Unit Area in the

CIO Area.

CPU Bus Unit Area in the CIO Area

Socket Service

Request Switches 2

Socket Service

Request Switches 1

Close Request

Switch

UDP Open Request Switch

TCP Passive Open Request Switch

Receive Request Switch

Socket Service

Request Switches 8

Socket Service

Request Switches 7

Send Request Switch

TCP Active Open Request Switch

3. When a send or receive request is made, the data will be automatically

sent or received according to the send/receive data address in the Socket

Service Parameter Area. When processing has been completed, a re-

sponse code will be automatically stored in the Socket Service Parame-

ters.

Number of bytes to send/receive

Send/receive data address

I/O memory

Send

Receive

Response code

Stored

126

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Using Socket Services with Socket Service Request Switches

Section 6-2

Precautions

A Socket Service Parameter Area cannot be used for other sockets once

open processing has been successfully completed for it. Check the socket

status before attempting to open a socket. TCP socket status is provided in

words m+9 to m+16 in the DM Area for sockets 1 to 8.

TCP Connection Status

The TCP connection status is provided for ports for which TCP sockets have

been opened. When a port is closed, the previous status will remain in the DM

Area until a socket is opened again. Writing data to the DM Area, however, is

not synced with writing to the Socket Status Areas, and timing may vary

somewhat.

15 14 13 12 11 10

–

m+9 to m+16

TCP connection status

Status in indicated in bits 0 to 3 using the 1-digit hexadecimal codes shown in

the following table.

Code

Status

CLOSED

Meaning

Connection closed.

LISTEN

Waiting for connection.

SYN SENT

Active and waiting for SYN.

SYN RECEIVED SYN sent and received.

ESTABLISHED

CLOSE WAIT

FIN WAIT1

Connection established.

FIN received and waiting for close.

Finished and FIN sent.

CLOSING

Finished and FIN exchanged. Waiting for acknowledge-

ment of FIN arrival.

LAST ACK

FIN received and finished. Waiting for acknowledgement

of FIN arrival.

FIN WAIT2

TIME WAIT

FIN arrival acknowledged. Waiting for FIN.

Finished and waiting for silence for twice the maximum

segment life (2MSL).

6-2-6 Socket Services and Socket Status

When using socket services, it is important to consider the timing of the status

changes in the Socket Status Area. The diagram below shows a flowchart for

opening UDP.

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Using Socket Services with Socket Service Request Switches

Section 6-2

The flow is similar for other socket services. Replace the names of the appro-

priate flags in the flowchart to adapt it to other socket services.

Start UDP Open

Program Flow

Error Evaluation

Check Socket Open Flag.

OFF?

YES

The specified UDP socket is

already open.

Is Bit 15 (Open Flag) in the socket status word for

the socket being used OFF?

(Checks to see if the socket is open before com-

munications and close processing.)

Turn ON UDP Open Request Switch.

This Socket Service Request Switch is used to request

opening of a UDP socket to the Ethernet Unit.

Confirm end of processing

ON/OFF?

OFF

This Socket Service Request Switch that was turned

ON will be turned OFF by the Ethernet Unit when

processing has been completed.

An error occurred. The specified

socket could not be opened.

Check response code.

0000?

YES

Is the response code 0000, indicating a normal end?

UDP socket opened

6-2-7 Timing Charts

The timing of flags for socket services (Opening, Receiving, Sending, or Clos-

ing Flag) when the Request Switches are used and the changes in the

response code are shown in the following chart.

Request

Switch

Response

Response code stored

code

Flag

Request Switch Request

Not synced with

turned ON.

accepted.

Request Switch.

Closing during Other

Processes

The Close Request Switch or Force-close Switch can be used to close a

socket even when open, receive, or send processing is being executed. Clos-

ing is the only other process that is possible during other processes.

Close Request Switch

The processing results are stored as the response code when the Close

Request Switch is used. There will always be one PC cycle time between

128

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Using Socket Services with Socket Service Request Switches

Section 6-2

turning OFF the Request Switch for the canceled process and turning of the

Close Request Switch, allowing time for the response code to be read.

At least one PC cycle time be

tween response codes

Open, Send, or Receive

Request Switch

Close Request Switch

Response Code

Response code stored.

Opening, Sending, or

Receiving Flag

Closing Flag

Open Flag

Request SwitchRequest

turned ON.

accepted.

Close request

accepted.

Not synced with

Request Switches.

Close Request

Switch turned ON.

Note The Open Flag will not turn ON at all if a close request is made during open

processing.

Force-close Switch

The requested processes are canceled and an response code is stored when

the Force-close Switch is used.

Open, Send, or Receive

Request Switch

Force-close Switch

Response code stored.

Response Code

Opening, Sending, or

Receiving Flag

Closing Flag

Open Flag

Request

accepted.

Request Switch

turned ON.

Close request

accepted.

Force-close

Switch turned ON.

Not synced with

Request Switches.

Note The Open Flag will not turn ON at all if a force-close request is made during

open processing.

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Using Socket Services with Socket Service Request Switches

Section 6-2

6-2-8 TCP/IP Communications Programming Example

The following programming example illustrates transferring 100 bytes of data

between an Ethernet Unit and a host computer using TCP/IP communica-

tions.

System Configuration

The programming example uses the following system configuration. For the

TCP connection, the Ethernet Unit uses a passive open and the host com-

puter uses an active open.

Host computer

Ethernet Unit

IP address:

196.36.32.55

IP address:

196.36.32.101

Port number: 4096

Data Flow

The data will flow between the CPU Unit, Ethernet Unit, and host computer as

shown in the following diagram.

Line

(Ethernet)

Ethernet

Unit

CPU Unit

Host computer

Request Switches and ex-

ecution bits turned ON

(See note.)

Sent to line.

Execution bits turned OFF

Processing in

host computer

Note Here, “execution bits” refer to CIO 000000 to CIO 000003, which are used in

the ladder diagram to control execution of communications.

Basic Operations

• CIO 000000 is turned ON to request opening a TCP socket from the

Ethernet Unit.

• CIO 000001 is turned ON to request closing the TCP socket from the

Ethernet Unit.

• CIO 000002 is turned ON to request sending data from the Ethernet Unit.

Data (100 bytes) is sent beginning at D00000.

• CIO 000003 is turned ON to request receiving data from the Ethernet

Unit. The data that is received (100 bytes) is stored beginning at D01000.

• One of the bits between CIO 000100 and CIO 000103 will turn ON if an

error occurs. Refer to 6-2-2 Response Codesfor information on errors.

130

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Using Socket Services with Socket Service Request Switches

Section 6-2

Program Memory Map

The send and receive data and bits (flags) used by the program are shown in

the following diagram.

DM Area

Send data, 100 bytes (100 = 0064 Hex)

Receive data, 100 bytes (100 = 0064 Hex)

CIO Area

The following bits and flags are used to control CMND(490) execution. The

bits in CIO 0000 are used to signal execution, the bits in CIO 0001 are used to

signal errors, and the bits in CIO 0002 are used to control the program so that

the instruction is executed only once.

15 to 8

TCP

Send

Bit

TCP

Bit

TCP

CIO 0000

CIO 0001

CIO 0002

Open

Bit

Receive

Bit

TCP

Send

Error

Flag

TCP

Error

Flag

TCP

Open

Error

Flag

TCP

Receive

Error

Flag

TCP

Opening

Flag

TCP

Receiving Sending Closing

Flag

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Using Socket Services with Socket Service Request Switches

Section 6-2

Programming Example

000000

TCP Passive Open

@RSET

@SET

When the TCP Open Bit (CIO 000000) turns ON, the TCP

Open Error Flag (CIO 000100) is turned OFF and the TCP

Opening Flag (CIO 000200) is turned ON to initialize pro-

cessing.

000100

000200

000000 000200

When the TCP Opening Flag (CIO 000200) turns ON, the

following parameters are written to the parameter area for

socket number 1.

D30018: 0001 Hex = UDP/TCP socket No. 1

D30019: 1000 Hex = Local UDP/TCP port No. 4096

D30020 and D30021:

C424 2037 Hex =

Remote IP address 196.36.32.55

D30022: 0000 Hex = Any remote UDP/TCP port No.

D30026: 0000 Hex = No timeout time

MOV(21)

#0001

D30018

MOV(21)

#1000

D30019

#C424

D30020

#2037

D30021

#0000

D30022

#0000

D30026

000000 000200

SET

After the parameters have been set, the TCP Passive

Open Request Switch (CIO 151901) is turned ON and

the TCP Opening Flag (CIO 000200) is turned OFF.

151901

000200

RSET

SET

If the TCP Passive Open Request Switch (CIO 151901)

turns OFF while the TCP Opening Flag (CIO 000200) is

OFF, the contents of the response code (D30027) in the

Socket Service Parameter Area is checked, and if it is not

0000 Hex (normal end), the TCP Open Error Flag (CIO

000100) is turned ON.

000000 000200 151901

<>(305)

000100

000000

D30027

#0000

000000 000200 151901

RSET

After the execution results have been checked, the TCP

Open Bit (CIO 000000) is turned OFF.

000001

TCP Close

@RSET

@SET

When the TCP Close Bit (CIO 000001) turns ON, the TCP

Close Error Flag (CIO 000101) is turned OFF and the TCP

Closing Flag (CIO 000201) is turned ON to initialize proces-

sing.

000101

000201

000001 000201

When the TCP Closing Flag (CIO 000201) turns ON, the

following parameter is written to the parameter area for

socket number 1.

MOV(21)

#0001

D30018: 0001 Hex = UDP/TCP socket No. 1

D30018

After the parameter has been set, the Close Request

Switch (CIO 151905) is turned ON and the TCP Closing

Flag (CIO 000201) is turned OFF.

SET

151905

000201

If the Close Request Switch (CIO 151905) turns OFF while

the TCP Opening Flag (CIO 000201) is OFF, the contents

of the response code (D30027) in the Socket Service Pa

rameter Area is checked, and if it is not 0000 Hex (normal

end), the TCP Close Error Flag (CIO 000101) is turned ON.

RSET

Continued on next page.

After the execution results have been checked, the TCP Close Bit (CIO 000001) is turned OFF.

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Using Socket Services with Socket Service Request Switches

Section 6-2

Continued from previous page.

000001 000201 151905

TCP Send

SET

<>(305)

When the TCP Send Bit (CIO 000002) turns ON, the TCP

Send Error Flag (CIO 000102) is turned OFF and the TCP

Sending Flag (CIO 000202) is turned ON to initialize pro-

cessing.

000101

000001

D30027

#0000

000001 000201 151905

RSET

000002

@RSET

@SET

000102

000202

000002 000202

MOV(21)

When the TCP Sending Flag (CIO 000202) turns ON, the

following parameters are written to the parameter area for

socket number 1.

#0001

D30018

D30018: 0001 Hex = UDP/TCP socket No. 1

D30023: 0064 Hex = No. of send/receive bytes is 100

D30024 and D30025:

MOV(21)

8200 0000 Hex =

Send/receive data address D00000

#0064

D30023

#8200

D30024

#0000

D30025

000002 000202

SET

151903

000202

After the parameters have been set, the Send Request

Switch (CIO 151903) is turned ON and the TCP Sending

Flag (CIO 000202) is turned OFF.

RSET

If the Send Request Switch (CIO 151903) turns OFF while

the TCP Sending Flag (CIO 000202) is OFF, the contents

of the response code (D30027) in the Socket Service Pa-

rameter Area is checked, and if it is not 0000 Hex (normal

end), the TCP Send Error Flag (CIO 000102) is turned ON.

000002 000202 151903

SET

<>(305)

000102

000002

030027

#0000

000002 000202 151903

000003

After the execution results have been checked, the TCP

Send Bit (CIO 000002) is turned OFF.

RSET

TCP Receive

@RSET

@SET

When the TCP Receive Bit (CIO 000003) turns ON, the

TCP Receive Error Flag (CIO 000103) is turned OFF and

the TCP Receiving Flag (CIO 000203) is turned ON to

initialize processing.

000103

000203

Continued on next page.

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Using Socket Services with Socket Service Request Switches

Section 6-2

Continued from previous page.

000003 000203

When the TCP Receiving Flag (CIO 000203) turns ON,

the following parameters are written to the parameter

area for socket number 1.

D30018: 0001 Hex = UDP/TCP socket No. 1

D30023: 0064 Hex = No. of send/receive bytes is 100

D30024 and D30025:

8203 E800 Hex =

Send/receive data address D01000

D30026: 0000 Hex = No timeout time.

MOV(21)

#0001

D30018

#0064

D30023

#8203

D30024

#E800

D30025

#0000

D30026

000003 000203

After the parameter has been set, the Receive Request

Switch (CIO 151904) is turned ON and the TCP Receiv-

ing Flag (CIO 000203) is turned OFF.

SET

151904

000203

RSET

000203 151904

000003

If the Receive Request Switch (CIO 151904) turns OFF

while the TCP Receiving Flag (CIO 000203) is OFF, the

contents of the response code (D30027) in the Socket

Service Parameter Area is checked, and if it is not 0000

Hex (normal end), the TCP Receive Error Flag (CIO

000103) is turned ON.

SET

<>(305)

000103

000003

D30027

#0000

000003 000203 151904

RSET

After the execution results have been checked, the TCP

Receive Bit (CIO 000003) is turned OFF.

END(01)

Note When using the above programming example, change the bit and word

addresses as necessary to avoid using the same areas used by other parts of

the user program or the CPU Bus Unit.

6-2-9 UDP/IP Communications Programming Example

The following programming example illustrates transferring 100 bytes of data

between an Ethernet Unit and a host computer using UDP/IP communica-

tions.

System Configuration

The programming example uses the following system configuration.

Host computer

Ethernet Unit

IP address: 196.36.32.55

Port number: 4096

IP address: 196.36.32.101

Port number: 4096

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Using Socket Services with Socket Service Request Switches

Section 6-2

Basic Operations

• CIO 000000 is turned ON to request opening a UDP socket from the

Ethernet Unit.

• CIO 000001 is turned ON to request closing the UDP socket from the

Ethernet Unit.

• CIO 000002 is turned ON to request sending data from the Ethernet Unit.

• CIO 000003 is turned ON to request receiving data from the Ethernet

Unit. The data that is received (100 bytes) is stored beginning at D01000.

• One of the bits between CIO 000100 and CIO 000103 will turn ON if an

error occurs. Refer to6-2-2 Response Codes for information on errors.

Program Memory Map

The send and receive data and bits (flags) used by the program are shown in

the following diagram.

DM Area

Send data, 100 bytes (100 = 0064 Hex)

Receive data, 100 bytes (100 = 0064 Hex)

CIO Area

The following bits and flags are used to control CMND(490) execution. The

bits in CIO 0000 are used to signal execution, the bits in CIO 0001 are used to

signal errors, and the bits in CIO 0002 are used to control the program so that

the instruction is executed only once.

15 to 8

TCP

Send

Bit

TCP

Bit

TCP

CIO 0000

CIO 0001

CIO 0002

Open

Bit

Receive

Bit

TCP

Send

Error

Flag

TCP

Error

Flag

TCP

Open

Error

Flag

TCP

Receive

Error

Flag

TCP

Opening

Flag

TCP

Receiving Sending Closing

Flag

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Using Socket Services with Socket Service Request Switches

Section 6-2

Programming Example

000000

UDP Open

@RSET

@SET

When the UDP Open Bit (CIO 000000) turns ON, the UDP

Open Error Flag (CIO 000100) is turned OFF and the UDP

Opening Flag (CIO 000200) is turned ON to initialize pro-

cessing.

000100

000200

000000 000200

When the UDP Opening Flag (CIO 000200) turns ON, the

following parameters are written to the parameter area for

socket number 1.

D30018: 0001 Hex = UDP/TCP socket No. 1

D30019: 1000 Hex = Local UDP/TCP port No. 4096

MOV(21)

#0001

D30018

MOV(21)

SET

#1000

D30019

000000 000200

After the parameters have been set, the UDP Open Re-

quest Switch (CIO 151900) is turned ON and the UDP

Opening Flag (CIO 000200) is turned OFF.

151900

If the UDP Open Request Switch (CIO 151900) turns

OFF while the UDP Opening Flag (CIO 000200) is OFF,

the contents of the response code (D30027) in the Socket

Service Parameter Area is checked, and if it is not 0000

Hex (normal end), the UDP Open Error Flag (CIO

000100) is turned ON.

RSET

SET

000200

000100

000000 000200 151900

<>(305)

030027

#0000

000000 000200 151900

000001

After the execution results have been checked, the UDP

Open Bit (CIO 000000) is turned OFF.

RSET

000000

UDP Close

@RSET

@SET

When the UDP Close Bit (CIO 000001) turns ON, the UDP

Close Error Flag (CIO 000101) is turned OFF and the

UDP Closing Flag (CIO 000201) is turned ON to initialize

processing.

000101

000201

When the UDP Closing Flag (CIO 000201) turns ON, the

following parameter is written to the parameter area for

socket number 1.

000001 000201

D30018: 0001 Hex = UDP/TCP socket No. 1

MOV(21)

#0001

After the parameter has been set, the Close Request

Switch (CIO 151905) is turned ON and the UDP Closing

Flag (CIO 000201) is turned OFF.

D30018

SET

If the Close Request Switch (CIO 151905) turns OFF

while the UDP Opening Flag (CIO 000201) is OFF, the

contents of the response code (D30027) in the Socket

Service Parameter Area is checked, and if it is not 0000

Hex (normal end), the UDP Close Error Flag (CIO

000101) is turned ON.

151905

000201

RSET

000001 000201 151905

After the execution results have been checked, the UDP

Close Bit (CIO 000001) is turned OFF.

SET

<>(305)

000101

000001

D30027

#0000

000001 000201 151905

000002

RSET

@RSET

@SET

UDP Send

When the UDP Send Bit (CIO 000002) turns ON, the UDP

Send Error Flag (CIO 000102) is turned OFF and the UDP

Sending Flag (CIO 000202) is turned ON to initialize pro-

cessing.

000102

000202

Continued on next page.

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Using Socket Services with Socket Service Request Switches

Section 6-2

Continued from previous page.

000002 000202

MOV(21)

#0001

When the UDP Sending Flag (CIO 000202) turns ON, the

following parameters are written to the parameter area for

D30018 socket number 1.

D30018: 0001 Hex = UDP/TCP socket No. 1

D30020 and D30021:

C424 2037 Hex =

Remote IP address 196.36.32.55

MOV(21)

#C424

D30020 D30022: 1000 Hex = Remote UDP/TCP port No. 4096

D30023: 0064 Hex = No. of send/receive bytes is 100

D30024 and D30025:

8200 0000 Hex =

Send/receive data address D00000

#2037

D30021

#1000

D30022

#0064

D30023

#8200

D30024

#0000

D30025

000002 000202

After the parameters have been set, the Send Request

SET

Switch (CIO 151903) is turned ON and the UDP Sending

Flag (CIO 000202) is turned OFF.

151903

000202

RSET

000002 000202 151903

If the Send Request Switch (CIO 151903) turns OFF while

the UDP Sending Flag (CIO 000200) is OFF, the contents

of the response code (D30027) in the Socket Service Pa-

rameter Area is checked, and if it is not 0000 Hex (normal

end), the UDP Send Error Flag (CIO 000102) is turned ON.

SET

<>(305)

000102

000002

D30027

#0000

000002 000202 151903

000003

RSET

After the execution results have been checked, the UDP

Send Bit (CIO 000002) is turned OFF.

UDP Receive

@RSET

@SET

When the UDP Receive Bit (CIO 000003) turns ON, the

UDP Receive Error Flag (CIO 000103) is turned OFF and

the UDP Receiving Flag (CIO 000203) is turned ON to

initialize processing.

000103

000203

Continued on next page.

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Using Socket Services with Socket Service Request Switches

Section 6-2

Continued from previous page.

000003 000203

When the UDP Receiving Flag (CIO 000203) turns ON,

the following parameters are written to the parameter area

for socket number 1.

D30018: 0001 Hex = UDP/TCP socket No. 1

D30023: 0064 Hex = No. of send/receive bytes is 100

D30024 and D30025:

8203 E800 Hex =

Send/receive data address D01000

D30026: 0000 Hex = No timeout time.

MOV(21)

#0001

D30018

MOV(21)

#0064

D30023

MOV(21)

#8203

D30024

MOV(21)

#E800

D30025

MOV(21)

#0000

D30026

000003 000203

SET

After the parameter has been set, the Receive Request

Switch (CIO 151904) is turned ON and the UDP Receiv-

ing Flag (CIO 000203) is turned OFF.

151904

RSET

000203

000203 151904

000003

If the Receive Request Switch (CIO 151904) turns OFF

while the UDP Receiving Flag (CIO 000203) is OFF, the

contents of the response code (D30027) in the Socket

Service Parameter Area is checked, and if it is not 0000

Hex (normal end), the UDP Receive Error Flag (CIO

000103) is turned ON.

SET

<>(305)

000103

000003

D30027

#0000

000003 000203 151904

RSET

After the execution results have been checked, the UDP

Receive Bit (CIO 000003) is turned OFF.

END(01)

Note When using the above programming example, change the bit and word

addresses as necessary to avoid using the same areas used by other parts of

the user program or the CPU Bus Unit.

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Using Socket Services with CMND(490)

Section 6-3

6-3 Using Socket Services with CMND(490)

Service request commands can be sent to the Ethernet Unit by executing the

CMND(490) instruction in the ladder diagram. CS/CJ Ethernet Units support

the same functionality as the CV-series Ethernet Unit, so heritage programs

can be easily corrected and reused.

Up to 16 sockets can be connected using CMND(490): 8 UDP sockets and

8 TCP sockets.

The socket service request commands that can be used are listed in the fol-

lowing table. Refer to Section 11 FINS Commands Addressed to Ethernet

Units for details on these commands.

Command code

MRC SRC

Name

UDP OPEN REQUEST

UDP RECEIVE REQUEST

UDP SEND REQUEST

UDP CLOSE REQUEST

TCP PASSIVE OPEN REQUEST

TCP ACTIVE OPEN REQUEST

TCP RECEIVE REQUEST

TCP SEND REQUEST

TCP CLOSE REQUEST

Requests sent to the Ethernet Unit by sending commands through execution

of CMND(40), and when the Unit receives a command, it will return a

response. The response does not, however, indicate that processing has

been completed, and the status of the flags in the Socket Status Words allo-

cated to the Unit must be used to determine when processing has been com-

pleted.

The results of processing will be stored in the words specified when

CMND(490) was executed once the requested processing has been com-

pleted.

Basic FINS Command

Format

The basic format for FINS commands used for socket services is shown in the

following diagram.

11 12

Byte order from

the beginning of

the frame

Command

code

Socket

number

Results storage area

Parameters

Command Code:

Specifies the process code requested from the socket.

Socket Number

Specifies the socket number for the process, between 1 and 8.

Results Storage Area

Specifies the area to store the results of the requested process.

Parameters

Specifies the parameters defined for the command code.

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Using Socket Services with CMND(490)

Section 6-3

Note If there is more than one Communications Unit mounted to the PC, the FINS

network address must be set as a parameter for CMND(490) and a local net-

work table must be created in the routing tables from the CX-Programmer.

6-3-1 UDP/TCP Socket Status

The status of the UDP and TCP sockets is provided in the Socket Status

Words shown in the following diagram. There is a status word for each socket

for both UDP and TCP. The Socket Status Words are allocated in the CPU

Bus Unit Area in the CPU Area starting at the word n+ 1. The value of n can

be calculated from the unit number as follows:

n = 1500 + (25 x unit number)

n+1

UDP Socket No. 1 Status

UDP Socket No. 2 Status

UDP Socket No. 3 Status

UDP Socket No. 4 Status

UDP Socket No. 5 Status

UDP Socket No. 6 Status

UDP Socket No. 7 Status

UDP Socket No. 8 Status

TCP Socket No. 1 Status

TCP Socket No. 2 Status

TCP Socket No. 3 Status

TCP Socket No. 4 Status

TCP Socket No. 5 Status

TCP Socket No. 6 Status

TCP Socket No. 7 Status

TCP Socket No. 8 Status

n+2

n+3

n+4

n+5

n+6

n+7

n+8

n+9

n+10

n+11

n+12

n+13

n+14

n+15

n+16

The flags shown in the following diagram are provided in the Socket Status

Words for socket service requests made with CMND(490).

15 14 13 12 11 10

Opening Flag

Receiving Flag

Results Storage Error Flag

Socket Open Flag

Sending Flag

Closing Flag

Bit

Flag

Status Manipulated

Unit operation

Turns ON when an open request is received.

Opening Flag

Unit

OFF

Turns OFF when open processing has been completed.

Turns ON when a receive request is received.

Receiving Flag

Sending Flag

Closing Flag

OFF

Turns OFF when receive processing has been completed.

Turns ON when a send request is received.

OFF

Turns OFF when send processing has been completed.

Turns ON when an close request is received.

OFF

Turns OFF when close processing has been completed.

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Using Socket Services with CMND(490)

Section 6-3

Bit

Flag

Status Manipulated

Unit operation

14 Results Storage Error ON

Flag

Unit

Turns ON when there is an error in the Results Storage Area speci-

fied for the service request command to the Ethernet Unit. This flag

will turn ON at the same timing as turning OFF bits 0 to 3 (i.e., at

completion of processing).

OFF

Turns OFF when the next request is received for processing.

15 Socket Open Flag

Unit

Turns ON when open processing has been completed (i.e., when a

connection is made).

OFF

Turns OFF when close processing has been completed. (Will

remain OFF when open processing ends in an error.)

Note The TCP socket connection status is also provided as codes in the following

words of the words allocated to the Ethernet Unit in the CPU Bus Unit Area in

the DM Area: D30000 + (100 x unit number) +9 to +16. Refer to TCP Socket

Connection Status on page 75 and to Appendix D TCP Status Transitions for

details.

Response Codes in the Command Response

A response code is returned in the command response as a 2-byte code that

indicates the results of command execution. The response code is returned

just after the command code in the response. The first byte of the response

code provides the overall result of command execution and is called the main

response code (MRES). The second byte provides details and is called the

sub-response code (SRES).

Response Codes in the Results Storage Areas

The response code stored in the Results Storage Area is a 2-byte code that

indicates the processing results of the socket service requested by the com-

mand. This response code is stored in the Results Storage Area when pro-

cessing has been completed.

Using Socket Service

Each Ethernet Unit has eight TCP sockets and eight UDP sockets. Open,

close, send, and receive processes are available for communications with

sockets.

Open

Enables communications on a specified socket. A socket must be opened

before it can be used for socket services. Opening a TCP socket establishes a

connection.

Ends use of the socket. Breaks the connection for a TCP socket.

Send

Sends data from a specified open socket.

Receive

Specifies an open socket and receives data from that socket.

These processes are carried out by sending FINS commands to the Ethernet

Unit. The process from sending a request for processing to completion is

shown in the following illustrations.

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Using Socket Services with CMND(490)

Section 6-3

1,2,3...

1. Execute a socket service request command (MRC: 27) for the Ethernet

Unit using CMND(490).

CPU

Ethernet Unit

User program

Socket service

CMND

Request

command

END

2. CMND(490) ends normally when the socket service request command is

received and a response is returned (response code: 0000).

CPU

Ethernet Unit

User program

Response

CMND

END

3. The Ethernet Unit starts the process requested by the parameters in the

socket service request command.

CPU

Ethernet Unit

Other node

Communications

4. When the process has been completed, the result is stored in the results

storage area defined in the socket service request command and the sock-

et status will indicate completion of processing.

CPU

Ethernet Unit

Socket status area

Process complete

notification

Results storage area

Results stored

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Using Socket Services with CMND(490)

Section 6-3

6-3-2 Socket Services and Socket Status

When using socket services, it is important to consider the timing of the status

changes in the socket status area. The diagram below shows a program flow-

chart for opening UDP.

Program flow is similar for other socket services. Replace the names of the

appropriate flags in the flowchart to adapt it to other socket services.

Start UDP Open

Program Flow

Error Evaluation

Check socket status.

OFF?

YES

The specified UDP socket is

already open.

Is Bit 15 (Open Flag) in the socket status word for

the socket being used OFF?

(Checks to see if the socket is open before com-

munications and close processing.)

Check the Port Enabled Flag.

ON?

YES

The specified port is running

network communications.

Is the Port Enabled Flag in A502 for communica-

tions port ON?

Execute FINS command (via CMND(490)) for Ethernet Unit.

Use the CMND(490) to send the UDP OPEN RE-

QUEST command (2701) to the Ethernet Unit.

An error occurred. The Ethernet

Unit did not receive the UDP

OPEN REQUEST command.

0000?

YES

Check response.

Is the response code = 0000 (normal) for the

UDP OPEN REQUEST command?

(Socket status bit 00)

Check Opening Flag status.

ON/OFF

Wait until bit 00 in the socket status turns OFF

(open complete).

An error occurred. The specified

socket could not be opened.

Check results storage area response code.

Is response code = 0000?

0000?

YES

UDP opened

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Using Socket Services with CMND(490)

Section 6-3

6-3-3 Communications Timing Chart

The timing of the status changes of the bits in the socket status area and the

Port Enabled Flag is shown in the following diagram.

Port Enabled Flag

Opening Flag

Receiving Flag

Sending Flag

Closing Flag

Open Flag

Open request

received

Receive request

received

Send request

received

Close request

received

Open complete

Receive complete

Send complete

Close complete

6-3-4 Socket Service Timing Chart

The timing of the socket service open, send, receive, and close request com-

mands are shown in the following diagrams.

OPEN REQUEST

Port Enabled Flag

Running

CMND(490) response code

Open Flag

Error response code

Normal response code

Opening Flag

Results storage area

Store normal response code

OPEN REQUEST Error OPEN REQUEST Normal Open complete

command received end

(normal end)

CLOSE REQUEST

Port Enabled Flag

Running

Error response code

Normal response code

CMND(490) response code

Close Flag

Closing Flag

Results storage area

Store normal response code

CLOSE REQUEST Error CLOSE REQUEST Normal Close complete

command received end command received end (normal end)

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Using Socket Services with CMND(490)

Section 6-3

SEND REQUEST

Port Enabled Flag

Running

Error response code

Normal response code

CMND(490) response code

Send Flag

Opening Flag

Results storage area

Store normal response code

SEND REQUEST

command received

Error

end

SEND REQUEST

command received

Send complete

(normal end)

RECEIVE REQUEST

Port Enabled Flag

Running

Error response code

Normal response code

CMND(490) response code

Receive Flag

Opening Flag

Results storage area

Store normal response code

RECEIVE REQUEST

command received

Error RECEIVE REQUEST

end command received

Receive complete

(normal end)

CLOSE REQUEST during RECEIVE REQUEST

RECEIVE REQUEST command received CLOSE REQUEST command received

Port Enabled Flag

Running

CMND(490) (RECEIVE

REQUEST) response command

Normal response code

CMND(490) (CLOSE

REQUEST) response command

Normal response code

Receive Flag

Close Flag

Opening Flag

Results storage area for

RECEIVE REQUEST

Store error response code

Store normal response code

Results storage area for

CLOSE REQUEST

Note The timing shown in the above diagram occurs if a CLOSE REQUEST com-

mand is executed during SEND REQUEST command execution. The timing

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Using Socket Services with CMND(490)

Section 6-3

shown in the diagram also applies if a CLOSE REQUEST command is exe-

cuted during OPEN REQUEST command execution, with the exception of the

status of the Opening Flag.

6-3-5 TCP/IP Communications Programming Example

The following programming example illustrates transferring 100 bytes of data

between an Ethernet Unit and a host computer using TCP/IP communica-

tions.

System Configuration

The system configuration for the program example and the Ethernet Unit sys-

tem setup are shown below. To establish a TCP connection, the Ethernet Unit

is passively opened and the host computer actively opened.

Host computer

Ethernet Unit

IP address:

196.36.32.55

IP address:

196.36.32.101

4096

Port number: 4096

Port number:

FINS network address: 01 Hex

Node address:

Unit number:

01 Hex

10 Hex

Data Flow

The data will flow between the CPU Unit, Ethernet Unit, and host computer as

shown in the following diagram.

Line

Ethernet

CPU Unit

Host computer

(Ethernet)

Unit

Request Switches and

execution bits turned ON

(See note.)

Sent to line.

CMND(490) response

Results stored in results

storage area

Processing in

host computer

Execution bits turned OFF

Note Here, “execution bits” refer to CIO 000000 to CIO 000003, which are used in

the ladder diagram to control execution of communications and are not sys-

tem flags, such as the Port Enabled Flags (A20200 to A20207).

Basic Operations

• CIO 000000 is turned ON to request opening a passive TCP socket from

the Ethernet Unit.

• CIO 000001 is turned ON to request closing the TCP socket from the

Ethernet Unit.

• CIO 000002 is turned ON to request sending data from the Ethernet Unit.

Data (100 bytes) is sent beginning at D02005.

• CIO 000003 is turned ON to request receiving data from the Ethernet

Unit. The data that is received (100 bytes) is stored beginning at D04022.

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Using Socket Services with CMND(490)

Section 6-3

• One of the bits between CIO 000100 and CIO 000103 will turn ON if an

error occurs. Refer to 6-2-2 Response Codes for information on errors.

The following areas can be used to access details about errors:

CMND(490) response codes

Response codes in results storage area

Network Communications Error Flags (A21900 to A21907)

Completion codes (A203 to A210)

Program Memory Maps

The send and receive data and bits (flags) used by the program are shown in

the following diagrams. The following example shows how the memory maps

are structured.

Legend

Describes the meaning of the data.

D0000

CMND(490) control data

0012H 0004H 0001H

Indicates the contents of D00001 is 0004 Hex.

Indicates the contents of D00000 is 0012 Hex.

15 to 8

CIO 0000

TCP

Bit

TCP

Open

Bit

Receive Send

Bit

Indicates that CIO 000001 is used as the TCP Close Bit.

Indicates that CIO 000000 is used as the TCP Open Bit.

DM Area

D00000 CMND(490) control data for TCP PASSIVE OPEN REQUEST

0012H 0004H 0001H 0110H 0000H 0032H

Response monitor time: 5 s

Port number: Port #0

Remote Ethernet Unit designation

Network address: 01^hex

Node number: 01hex

Unit address: 10hex

Number bytes to receive: 4 bytes

Number of bytes to send: 18 (0012^hex)

D00010

CMND(490) control data for TCP CLOSE REQUEST

0008H 0004H 0001H 0110H 0000H 0032H

Number bytes to receive: 4 bytes

Number of bytes to send: 8 bytes

147

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Using Socket Services with CMND(490)

Section 6-3

CMND(490) control data for TCP SEND REQUEST

006EH 0004H 0001H 0110H 0000H 0032H

Number bytes to receive: 4 bytes

D00020

D00030

D01000

Number of bytes to send: 110 (006E_hex) bytes

Command format = 10 bytes + 100 bytes send data

CMND(490) control data for TCP RECEIVE REQUEST

000CH 0004H 0001H 0110H 0000H 0032H

Number bytes to receive: 4 bytes

Number of bytes to send: 12 bytes (000C_hex

)

Number of bytes received specified in command data.

TCP PASSIVE OPEN REQUEST command data

2710H 0001H 8203H FC00H 1000H 0000H C424H 2037H 0000H

Remote node: Not specified

Host computer IP address: 196.36.32.55

(C4_hex.24_hex.20_hex.37_hex

Timeout value: Not set

Local port number: set to 4096 (1000_hex

)

Results storage area: set to D01020 (03FC_hex

)

(Refer to page for details on the results storage area.)

TCP socket number (Ethernet Unit socket number): set to 1

Command code

TCP PASSIVE OPEN REQUEST response

D01010

Re-

sponse

2710H

code

Stores the response after command execution.

TCP PASSIVE OPEN REQUEST results storage area

D01020

D1030

Re-

Remote IP

Remote

sponse

code

address

TCP

port No.

TCP CLOSE REQUEST command data

2714H 0001H 8204H 1A00H

Results storage area: set to D01050 (041A_hex

TCP socket number to close: set to 1 (0001_hex

Command code

)

148

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Using Socket Services with CMND(490)

Section 6-3

TCP CLOSE REQUEST response

Re-

D01040

D01050

sponse

2714H

code

TCP CLOSE REQUEST results storage area

Re-

sponse

code

D02000

TCP SEND REQUEST command data

2713H 0001H 820BH C200H 0064H

Send data: 100 bytes (0064_hex

)

No. of send bytes: 100 bytes (0064_hex

Results storage area: set to D03010 (0BC2_hex

TCP socket number

)

Command code

TCP SEND REQUEST response

D03000

Re-

sponse

code

2713H

TCP SEND REQUEST results storage area

D03010

Re-

No. of

sponse bytes

code

sent

D04000 TCP RECEIVE REQUEST command data

2712H 0001H 820FH B400H 0064H 0000H

Timeout value: Not set

No. of bytes to receive: 100 bytes (0064_hex

Results storage area: Set to D04020 (0FB4_hex

)

TCP socket number

Command code

TCP RECEIVE REQUEST response

D04010

D04020

Re-

sponse

code

2712H

TCP RECEIVE REQUEST results storage area

Re-

No. of

sponse bytes

Receive data: 100 bytes (0064_hex

)

code

received

149

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Using Socket Services with CMND(490)

Section 6-3

CIO Area

The following bits and flags are used to control CMND(490) execution. The

bits in CIO 0000 are used to signal execution, the bits in CIO 0001 are used to

signal errors, and the bits in CIO 0002 are used to control the program so that

the instruction is executed only once.

15 to 8

TCP

Send

Bit

TCP

Bit

TCP

CIO 0000

CIO 0001

CIO 0002

Open

Bit

Receive

Bit

TCP

Send

Error

Flag

TCP

Error

Flag

TCP

Open

Error

Flag

TCP

Receive

Error

Flag

TCP

Opening

Flag

TCP

Receiving Sending Closing

Flag

150

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Using Socket Services with CMND(490)

Section 6-3

Programming Example

000000

@RSET

@SET

TCP Passive Open

When the TCP Open Bit (CIO 000000) turns ON, the TCP

Open Error Flag (CIO 000100) is turned OFF and the TCP

Opening Flag (CIO 000200) is turned ON to initialize pro-

cessing.

000100

000200

000000

000200

A20200

CMND(490)

When the TCP Opening Flag (CIO 000200) turns ON, the

status of the Port Enabled Flag (A20200) is checked to be

sure it is ON and a PASSIVE TCP OPEN REQUEST com-

mand is sent using CMND(490).

D01000

D01010

D00000

D01000: First command word

D01010: First response word

D00000: First control data word

RSET

SET

The TCP Opening Flag (CIO 000200) is also turned OFF.

000200

000100

000000 000200 A20200 150900

150914

If the Port Enabled Flag (A20200) turns ON and the Open-

ing Flag (CIO 150900) turns OFF while the TCP Opening

Flag (CIO 000200) is OFF, checks are made and if any of

the following are true, the TCP Open Error Flag (CIO

000100) is turned ON.

<>(305)

D01020

#0000

The Results Storage Error Flag (CIO 150914) is ON.

The contents of the Response Storage Area set in the

command code (D01020) is not 0000 Hex (normal end).

A021900

The Network Communications Error Flag (A21900) is ON.

000000 000200 A20200 150900

After the execution results have been checked, the TCP

Open Bit (CIO 000000) is turned OFF.

RSET

000000

000101

000201

000001

TCP Close

@RSET

@SET

When the TCP Close Bit (CIO 000001) turns ON, the TCP

Close Error Flag (CIO 000101) is turned OFF and the TCP

Closing Flag (CIO 000201) is turned ON to initialize pro-

cessing.

000001 000201

A20200

CMND(490)

D01030

When the TCP Closing Flag (CIO 000201) turns ON, the

status of the Port Enabled Flag (A20200) is checked to be

sure it is ON and a TCP CLOSE REQUEST command is

sent using CMND(490).

D01040

D00010

D01030: First command word

D01040: First response word

D00010: First control data word

RSET

SET

The TCP Closing Flag (CIO 000201) is also turned OFF.

000201

000101

000001 000201 A20200 150903 150914

If the Port Enabled Flag (A20200) turns ON and the Clos-

ing Flag (CIO 150903) turns OFF while the TCP Closing

Flag (CIO 000201) is OFF, checks are made and if any of

the following are true, the TCP Close Error Flag (CIO

000101) is turned ON.

<>(305)

D01050

#0000

The Results Storage Error Flag (CIO 150914) is ON.

The contents of the Response Storage Area set in the

command code (D01050) is not 0000 Hex (normal end).

A021900

The Network Communications Error Flag (A21900) is ON.

000001 000201 A20200 150903

RSET

After the execution results have been checked, the TCP

Close Bit (CIO 000001) is turned OFF.

000000

Continued on next page.

151

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Using Socket Services with CMND(490)

Section 6-3

Continued from previous page.

000002

TCP Send

@RSET

@SET

When the TCP Send Bit (CIO 000002) turns ON, the

TCP Send Error Flag (CIO 000102) is turned OFF and

the TCP Sending Flag (CIO 000202) is turned ON to

initialize processing.

000102

000202

000002

000202

A020200

CMND(490)

When the TCP Sending Flag (CIO 000202) turns ON,

the status of the Port Enabled Flag (A20200) is checked

to be sure it is ON and a TCP SEND REQUEST com-

mand is sent using CMND(490).

D02000

D03000

D00020

D02000: First command word

D03000: First response word

D00020: First control data word

RSET

SET

The TCP Sending Flag (CIO 000202) is also turned

OFF.

000202

000102

000002 000202 A20200 150902

150914

If the Port Enabled Flag (A20200) turns ON and the

Sending Flag (CIO 150902) turns OFF while the TCP

Sending Flag (CIO 000202) is OFF, checks are made

and if any of the following are true, the TCP Send Error

Flag (CIO 000102) is turned ON.

<>(305)

D03010

#0000

The Results Storage Error Flag (CIO 150914) is ON.

The contents of the Response Storage Area set in the

command code (D03010) is not 0000 Hex (normal end).

A021900

000002 000202 A20200 150902

The Network Communications Error Flag (A21900) is

ON.

RSET

000002

000103

000203

After the execution results have been checked, the TCP

Send Bit (CIO 000002) is turned OFF.

000003

TCP Receive

@RSET

@SET

When the TCP Receive Bit (CIO 000003) turns ON, the

TCP Receive Error Flag (CIO 000103) is turned OFF

and the TCP Receiving Flag (CIO 000203) is turned ON

to initialize processing.

000003

000203

A020200

CMND(490)

D04000

When the TCP Receiving Flag (CIO 000203) turns ON,

the status of the Port Enabled Flag (A20200) is checked

to be sure it is ON and a TCP RECEIVE REQUEST

command is sent using CMND(490).

D04010

D00030

D04000: First command word

D04010: First response word

D00030: First control data word

RSET

SET

The TCP Receiving Flag (CIO 000203) is also turned

OFF.

000203

000103

000003 000203 A020200 150901

150914

If the Port Enabled Flag (A20200) turns ON and the Re-

ceiving Flag (CIO 150901) turns OFF while the TCP Re-

ceiving Flag (CIO 000203) is OFF, checks are made and if

any of the following are true, the TCP Receive Error Flag

(CIO 000103) is turned ON.

<>(305)

D4020

#0000

The Results Storage Error Flag (CIO 150914) is ON.

The contents of the Response Storage Area set in the

command code (D04020) is not 0000 Hex (normal end).

A021900

000003 000203 A20200 150901

The Network Communications Error Flag (A21900) is ON.

RSET

After the execution results have been checked, the TCP

Receive Bit (CIO 000003) is turned OFF.

000003

END(001)

152

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Using Socket Services with CMND(490)

Section 6-3

Note When using the above programming example, change the bit and word

addresses as necessary to avoid using the same areas used by other parts of

the user program or the CPU Bus Unit.

6-3-6 UDP/IP Communications Programming Example

The following programming example illustrates transferring 100 bytes of data

between an Ethernet Unit and a host computer using UDP/IP communica-

tions.

System Configuration

The system configuration for the program example and the Ethernet Unit sys-

tem setup are shown below.

Host computer

Ethernet Unit

IP address:

196.36.32.55

IP address:

196.36.32.101

4096

Port number: 4096

Port number:

FINS network address:

Node address:

Unit number:

01 Hex

10 Hex

Basic Operations

• CIO 000000 is turned ON to request opening a UDP socket from the

Ethernet Unit.

• CIO 000001 is turned ON to request closing the UDP socket from the

Ethernet Unit.

• CIO 000002 is turned ON to request sending data from the Ethernet Unit.

Data (100 bytes) is sent beginning at D02008.

• CIO 000003 is turned ON to request receiving data from the Ethernet

Unit. The data that is received (100 bytes) is stored beginning at D04025.

• One of the bits between CIO 000100 and CIO 000103 will turn ON if an

error occurs. Refer to 6-2-2 Response Codes for information on errors.

The following areas can be used to access details about errors:

CMND(490) response codes

Response codes in results storage area

Network Communications Error Flags (A21900 to A21907)

Completion codes (A203 to A210)

153

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Using Socket Services with CMND(490)

Section 6-3

Program Memory Maps

The send and receive data and bits (flags) used by the program are shown in

the following diagrams.

DM Area

CMND(490) control data for UDP OPEN REQUEST

000AH 0004H 0001H 0110H 0000H 0032H

D00000

Response monitor time: 5 s

FINS communications port: Port #0

Remote Ethernet Unit designation

Network address: 01_hex

Node number: 01_hex

Unit address: 10_hex

Number bytes to receive: 4 bytes

Number of bytes to send: 10 bytes (000A_hex

)

D00010

CMND(490) control data for UDP CLOSE REQUEST

0008H 0004H 0001H 0110H 0000H 0032H

Number bytes to receive: 4 bytes

Number of bytes to send: 8 bytes

CMND(490) control data for UDP SEND REQUEST

0074H 0004H 0001H 0110H 0000H 0032H

Number bytes to receive: 4 bytes

D00020

Number of bytes to send: 114 (0072_hex) bytes

Command format = 14 bytes + 100 bytes send data

CMND(490) control data for UDP RECEIVE REQUEST

000CH 0004H 0001H 0110H 0000H 0032H

Number bytes to receive: 4 bytes

D00030

Number of bytes to send: 12 bytes (000C_hex

Number of bytes received is specified in command data.

)

UDP OPEN REQUEST command data

2701H 0001H 8203H FC00H 1000H

D01000

Local port number: set to 4096 (1000_hex

)

Results storage area: set to D01020 (03FC_hex

)

(Refer to page 198 for details on formats for socket services)

UDP socket number (Ethernet Unit socket number): set to 1

Command code

154

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Using Socket Services with CMND(490)

Section 6-3

UDP OPEN response

Re-

sponse

2701H

D01010

code

Stores the response after command execution.

UDP OPEN REQUEST results storage area

D01020

D1030

Re-

sponse

code

UDP CLOSE REQUEST command data

2704H 0001H 8204H 1A00H

Results storage area: set to D01050 (041A_hex

UDP socket number closed: set to 1 (0001_hex

Command code

)

UDP CLOSE REQUEST response

Re-

D01040

D01050

sponse

2704H

code

UDP CLOSE REQUEST results storage area

Re-

sponse

code

D02000

UDP SEND REQUEST command data

2703H 0001H 820BH C200H C424H 2037H 1000H 0064H

No. of send bytes: 100 bytes (0064_hex

)

Remote port: Port #4096 (1000_hex

Remote address: 196.36.32.55

)

(C4_hex.24_hex.20_hex.37_hex

)

Results storage area: Set to D03010 (0BC2_hex

UDP socket number

Command code

)

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Using Socket Services with CMND(490)

Section 6-3

UDP SEND REQUEST response

D03000

D03010

Re-

sponse

2703H

code

UDP SEND REQUEST results storage area

Re-

sponse

code

No. of

send

bytes

D04000 UDP RECEIVE REQUEST command data

2702H 0001H 820FH B400H 0064H 0000H

Timeout value: Not set

No. of bytes to receive: 100 bytes (0064_hex

Results storage area: set to D04020 (0FB4_hex

UDP socket number used

Command code

)

UDP RECEIVE REQUEST response

D04010

D04020

Re-

sponse

code

2702H

UDP RECEIVE REQUEST results storage area

Re-

sponse

code

No. of

bytes to

receive

Source

Source IP

address

Receive data: 100 bytes (0064_hex

)

port

number

CIO Area

The following bits and flags are used to control CMND(490) execution. The

bits in CIO 0000 are used to signal execution, the bits in CIO 0001 are used to

signal errors, and the bits in CIO 0002 are used to control the program so that

the instruction is executed only once.

15 to 8

UDP

Send

Bit

UDP

Bit

UDP

Open

Bit

UDP

Receive

Bit

CIO 0000

UDP

Send

Error

Flag

UDP

Error

Flag

UDP

Open

Error

Flag

UDP

CIO 0001

CIO 0002

Receive

Error

Flag

UDP

Opening

Flag

UDP

Receiving Sending Closing

Flag

156

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Using Socket Services with CMND(490)

Section 6-3

Programming Example

000000

@RSET

@SET

UDP Open

When the UDP Open Bit (CIO 000000) turns ON, the

UDP Open Error Flag (CIO 000100) is turned OFF and

the UDP Opening Flag (CIO 000200) is turned ON to

initialize processing.

000100

000200

000000

000200

A20200

CMND(490)

D01000

When the UDP Opening Flag (CIO 000200) turns ON,

the status of the Port Enabled Flag (A20200) is checked

to be sure it is ON and a UDP OPEN REQUEST com-

mand is sent using CMND(490).

D01010

D00000

D01000: First command word

D01010: First response word

D00000: First control data word

RSET

SET

The UDP Opening Flag (CIO 000200) is also turned

OFF.

000200

000100

000000 000200 A020200 150100 150114

If the Port Enabled Flag (A20200) turns ON and the Open-

ing Flag (CIO 150100) turns OFF while the UDP Opening

Flag (CIO 000200) is OFF, checks are made and if any of

the following are true, the UDP Open Error Flag (CIO

000100) is turned ON.

<>(305)

D01020

#0000

The Results Storage Error Flag (CIO 150114) is ON.

A021900

The contents of the Response Storage Area set in the

command code (D01020) is not 0000 Hex (normal end).

000000 000200 A020200 150100

The Network Communications Error Flag (A21900) is ON.

RSET

000000 After the execution results have been checked, the UDP

Open Bit (CIO 000000) is turned OFF.

000001

@RSET

@SET

UDP Close

When the UDP Close Bit (CIO 000001) turns ON, the

UDP Close Error Flag (CIO 000101) is turned OFF and

the UDP Closing Flag (CIO 000201) is turned ON to ini-

tialize processing.

000101

000201

000001

000201

A20200

When the UDP Closing Flag (CIO 000201) turns ON, the

status of the Port Enabled Flag (A20200) is checked to

be sure it is ON and a UDP CLOSE REQUEST command

is sent using CMND(490).

CMND(490)

D01030

D01040

D00010

D01030: First command word

D01040: First response word

D00010: First control data word

The UDP Closing Flag (CIO 000201) is also turned OFF.

RSET

SET

000201

000101

000001 000201 A020200 150103

150114

If the Port Enabled Flag (A20200) turns ON and the Clos-

ing Flag (CIO 150103) turns OFF while the UDP Closing

Flag (CIO 000201) is OFF, checks are made and if any of

the following are true, the UDP Close Error Flag (CIO

000101) is turned ON.

<>(305)

D01050

#0000

The Results Storage Error Flag (CIO 150114) is ON.

The contents of the Response Storage Area set in the

command code (D01050) is not 0000 Hex (normal end).

A021900

The Network Communications Error Flag (A21900) is ON.

000001 000201 A020200 150103

RSET

After the execution results have been checked, the UDP

Close Bit (CIO 000001) is turned OFF.

000001

Continued on next page.

157

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Using Socket Services with CMND(490)

Section 6-3

Continued from previous page.

000002

UDP Send

@RSET

@SET

When the UDP Send Bit (CIO 000002) turns ON, the UDP

Send Error Flag (CIO 000102) is turned OFF and the

UDP Sending Flag (CIO 000202) is turned ON to initialize

processing.

000102

000202

When the UDP Sending Flag (CIO 000202) turns ON, the

status of the Port Enabled Flag (A20200) is checked to be

sure it is ON and a UDP SEND REQUEST command is

sent using CMND(490).

000002

000202 A020200

D02000: First command word

CMND(490)

D03000: First response word

D02000

D03000

D00020: First control data word

The UDP Sending Flag (CIO 000202) is also turned OFF.

D00020

000202

RSET

SET

000002 000202

A20200 150102 150114

If the Port Enabled Flag (A20200) turns ON and the

Sending Flag (CIO 150102) turns OFF while the UDP

Sending Flag (CIO 000202) is OFF, checks are made and

if any of the following are true, the UDP Send Error Flag

(CIO 000102) is turned ON.

000102

<>(305)

D03010

#0000

The Results Storage Error Flag (CIO 150114) is ON.

The contents of the Response Storage Area set in the

command code (D03010) is not 0000 Hex (normal end).

A021900

The Network Communications Error Flag (A21900) is ON.

000002 000202 A020200 150102

After the execution results have been checked, the UDP

Send Bit (CIO 000002) is turned OFF.

RSET

000002

000103

000203

000003

@RSET

@SET

UDP Receive

When the UDP Receive Bit (CIO 000003) turns ON, the

UDP Receive Error Flag (CIO 000103) is turned OFF

and the UDP Receiving Flag (CIO 000203) is turned ON

to initialize processing.

000003

000203

A020200

CMND(490)

When the UDP Receiving Flag (CIO 000203) turns ON, the

status of the Port Enabled Flag (A20200) is checked to be

D04000

D04010 sure it is ON and a UDP RECEIVE REQUEST command is

sent using CMND(490).

D00030

D04000: First command word

D04010: First response word

D00030: First control data word

RSET

SET

The UDP Receiving Flag (CIO 000203) is also turned OFF.

000203

000003 000203 A020200 150101 150114

If the Port Enabled Flag (A20200) turns ON and the Re-

ceiving Flag (CIO 150101) turns OFF while the UDP Re-

000103

ceiving Flag (CIO 000203) is OFF, checks are made and if

any of the following are true, the UDP Receive Error Flag

(CIO 000103) is turned ON.

<>(305)

The Results Storage Error Flag (CIO 150114) is ON.

D04020

#0000

The contents of the Response Storage Area set in the com-

mand code (D04020) is not 0000 Hex (normal end).

A021900

The Network Communications Error Flag (A21900) is ON.

000003 000203 A020200 150101

After the execution results have been checked, the UDP

Receive Bit (CIO 000003) is turned OFF.

RSET

000003

END(001)

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Using Socket Services with CMND(490)

Section 6-3

Note When using the above programming example, change the bit and word

addresses as necessary to avoid using the same areas used by other parts of

the user program or the CPU Bus Unit.

159

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SECTION 7

FTP Server

This section describes the functions provided by the FTP server.

7-1 Overview. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7-2 Setting Login Names and Passwords . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7-3 Using File Memory . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7-4 FTP Server Application Example . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7-5 Using FTP Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7-5-1 Table of Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7-5-2 Using the Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7-5-3 Error Messages and FTP Status . . . . . . . . . . . . . . . . . . . . . . . . . . . .

7-6 UNIX Application Example . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

162

163

167

168

169

172

174

161

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Overview

Section 7-1

7-1 Overview

The Ethernet Unit supports the server functions of FTP (file transfer protocol),

a standard protocol in TCP/IP. A host computer functioning as an FTP client

on the Ethernet can read or write individual files in a Memory Card mounted

to the CPU Unit or in EM file memory.

Only one FTP client can connect at the same time.

Ethernet network

EM file

memory

Memory Card

Disk

Note The PC, however, is unable to read or write files at other nodes using FTP

because the Ethernet Unit does not support FTP client functions.

File System

The file system in the CPU Unit that can be accessed by the Ethernet Unit

includes files in any Memory Card mounted in the CPU Unit and files in EM

file memory. The directory tree is shown below.

root

MEMCARD

Memory card directory

EM file memory directory

A connection will be initially made to the root directory.

Note

1. The date of the MEMCARD directory displayed for lsor dircommands

in the root directory will be the date of the file system volume label.

2. The login date will be displayed for EM files and for MEMCARD if a volume

label has not been created.

Connecting to the FTP Server

The host computer must connect to the FTP server before the FTP server

functions can be used. The login name and password set in the CPU Bus Unit

Setup will be used when connecting (Refer to 4-2 CPU Bus Unit System

Setup.)

The FTP server in the Ethernet Unit can connect to only one client at a time. If

a client attempts to connect when the FTP server is in use, a message will be

returned and connection will be refused.

Status

Normal

Message

220 xxx.xx.xx.xx yyyyyyyyyy FTP server (FTP Version z.zz) ready.

connection

xxx.xx.xx.xx: IP address of Ethernet Unit

yyyyyyyyyy: Ethernet Unit model number (CS1W-ETN01)

z.zz: Firmware version of Ethernet Unit

FTP server

busy

221 FTP server busy, Goodbye.

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Setting Login Names and Passwords

Section 7-2

7-2 Setting Login Names and Passwords

The default FTP login name is “CONFIDENTIAL” and no password is required.

and a password can be set as required using the CPU Bus Unit Setup.

Setting Restrictions

The following restrictions apply to login names and passwords.

• The login name and password must consist of alphanumeric characters,

hyphens, and/or underscores. They are not case sensitive.

• A login name consists of 12 characters.

• A password consists of 8 characters.

• Always set a password when setting a new login name. The login name

will not be valid unless a password is set for it.

• If a login name is not set or contains illegal characters, the default login

name, CONFIDENTIAL, must be used. No password is required and any

password that is set will be ignored.

Setting Method

A new login name and password can be set in the CPU Bus Unit Setup using

the Unit settings on the CX-Programmer.

Note The CPU Bus Unit Setup is not contained in I/O memory, but in a parameter

area. The Setup cannot be written using instructions or edited as I/O memory.

Settings can be made only with the CX-Programmer.

Refer to the CX-Programmer User’s Manual for actual setting methods.

7-3 Using File Memory

There are two media that can be used to store files in memory for CS/CJ-

series PCs:

• Memory Cards

• EM File Memory

CPU Unit

File

Memory Card

File

EM File

Memory

File Memory

Media

Memory type

Capacity

Model

File data recognized by CPU Unit

CS/CJ-

series

Memory

Cards

Flash memory 8 MB

15 MB

HMC-EF861

HMC-EF171

HMC-EF371

• Complete user program

• Specified portions of I/O Memory

• Parameter area data (e.g. PC Setup)

30 MB

EM File

Memory

RAM

Max. capacity of EM Area All EM Area banks

in CPU Unit

from specified bank in

I/O Memory (specified

in PC Setup)

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Using File Memory

Section 7-3

Note The HMC-AP001 PC Card Adapter can be used to mount a Memory Card in a

PC card slot on a computer.

File Types

The MS-DOS file format is used, allowing the files to be handled as normal

files on a Windows-based computer.

File Names

Files are distinguished by assigning file names and extensions. The following

characters can be used in file names and extensions:

Alphanumeric characters: A to Z and 0 to 9. (Names converted to all-caps)

! & $ # ’ [ ] - ^ ( ) _

The following characters cannot be used in files names and extensions:

, . / ? * ” : ; << > = + (spaces)

File names are not case sensitive and will be converted to all-caps in the PC

file system. File names can be up to 8 character long with 3-character exten-

sions. An error will occur if a file name or extension is too long. The first period

(.) in a file name will be taken as the delimiter between the file name and

extension. Extensions are determined by the file type.

Directories

Up to five levels of directories (including root as the first level) can be created

as file storage locations. A maximum of 65 characters can be used in direc-

tory names.

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Using File Memory

Section 7-3

File Names Handled by

CPU Unit

The files described in the following table can be read or written by the CPU

Unit.

File type

Data file

File name

Extension

Contents

Description

********

.IOM

Specified ranges of I/ • Contains word (16-bit) data from a starting

O Memory

word through an end word in one memory

area.

• The following areas can be used: CIO, HR,

WR, AR, DM, and EM.

Program file

********

.OBJ

.STD

Complete user pro-

gram

• Contains all the programs for cyclic tasks

and interrupt tasks, as well as task infor-

mation for one CPU Unit.

Parameter area file

• PC Setup

• Registered I/O

tables

• Contains all of the parameter data for one

CPU Unit.

• There is no need for the user to distinguish

the various types of data contained in the

file.

• The file can be automatically read to or

written from the CPU Unit simply by speci-

fying the extension (.STD)

• Routing tables

• CPU Bus Unit

Setup and other

setup data

Files

trans-

ferred at

startup

Data files

AUTOEXEC .IOM

I/O Memory data for

the specified number

of words starting from

D20000

• There does not necessarily need to be a

data file in the Memory Card when the

automatic file transfer function is used at

startup.

• The AUTOEXEC.IOM file always contains

DM Area data starting at D20000.

• All data in the file will be transferred to

memory starting at D20000 at startup.

Program

files

AUTOEXEC .OBJ

Complete user pro-

gram

• There must be a program file in the Mem-

ory Card when the automatic file transfer

function is used at startup.

• Contains all the programs for cyclic tasks

and interrupt tasks, as well as task infor-

mation for one CPU Unit.

Parameter AUTOEXEC .STD

area file

• PC Setup

• Registered I/O

tables

• There must be a parameter file in the

Memory Card when the automatic file

transfer function is used at startup.

• Contains all of the parameter data for one

CPU Unit.

• There is no need for the user to distinguish

the various types of data contained in the

file.

• Routing tables

• CPU Bus Unit

Setup and other

setup data

• All parameters in the file will be automati-

cally transferred to specified locations in

memory at startup.

Note

1. Refer to information on file memory in the CS/CJ-series Programmable

Controllers Operation Manual (W339).

2. All files transferred automatically at startup must have the name AUTOEX-

EC.

Initializing File Memory

Memory

Cards

Initialization method

1. Insert the Memory Card into the CPU Unit.

2. Initialize the Memory Card from a Programming Device

(Programming Consoles included).

EM File Mem- 1. Specify in the PC Setup the first bank to convert to file memory.

ory

2. Initialize EM File Memory from the CX-Programmer.

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Using File Memory

Section 7-3

Data File Format

The format of data files (files with .IOM extensions) is shown in the following

diagram.

Byte position from the

beginning of the file

Reserved (48 bytes)

Data

Set the reserved bytes to all zeros (00 Hex).

Writing Data Files via FTP

In this example, the put command (see page 171) is used to write the follow-

ing data to a file called DMDATA.IOM on a Memory Card, and then the READ

DATA FILE instruction (FREAD(700)) is used to write 5 words of data from the

beginning of the DMDATA.IOM file to D00000 to D00004.

C: Control word

#0000 = Read data from Memory Card

S2: Filename

S1: First source word

No. of words

to read = 5

\ D

First word to

read = 0

D: First destination word

Contents of DMDATA.IOM Data File

Data (10 bytes)

Reserved

(48 bytes)

Add 00 Hex if necessary to

make an even number of bytes.

Data Read from File

Word Contents

D00000

133A

E4F3

CC0B

3C5F

A200

D00001

D00002

D00003

D00004

Note

1. FREAD(700) will not be able to read the last byte in a file if the files con-

tains an odd number of bytes. Add 00 Hex to the end of the file if necessary

to make an even number of bytes.

2. The UM and DM Areas contain binary data. Set the data type to binary us-

ing the type command (see page 170) before reading or writing files us-

ing FTP.

3. Refer to the CS/CJ-series Programmable Controllers Programming Manu-

al (W340) for information on the File Memory Instructions.

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FTP Server Application Example

Section 7-4

7-4 FTP Server Application Example

The following procedure shows how to use the FTP server by connection with

the default login name, CONFIDENTIAL. No password is required.

Note The login name and a password must be set in the CPU Bus Setup for the

Ethernet Unit in the CPU Unit to use any login name other than CONFIDEN-

TIAL.

1,2,3...

1. Make sure that a Memory Card is inserted in the CPU Unit and turn ON

the power supply to the PC.

2. If EM File Memory is to be used, create the EM File Memory.

3. Connect to the FTP server from a computer on the Ethernet by entering

the text that is underlined in the following diagram.

IP address of the Ethernet Unit

Results

4. Enter FTP commands (underlined in the following diagram) to read and

write files. The following directory tree is used in this example

root

MEMCARD

ABC

(subdirectory)

DEF.IOM (file)

File names read

Results

Change to MEMCARD directory

Results

Transfer DEF.IOM from ABC

directory

Results

Note

1. The current status of the FTP server can be obtained from the service sta-

tus in the words allocated to the Ethernet Unit in the CPU Bus Unit Area in

the CIO Area. The first word allocated to the Ethernet Unit is n and is com-

puted as follows:

n = 1500 + (25 x unit number)

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Using FTP Commands

Section 7-5

FTP Status Flag

0: FTP Server free

1: FTP Server busy

2. The FTP server can handle only one command at a time.

3. Do not simultaneously write a file with the same name to the same file de-

vice in a CPU Unit from more than one Ethernet Unit or ladder diagram

program. Exclusive control is not performed.

7-5 Using FTP Commands

This section describes the FTP commands which the host computer (FTP cli-

ent) can send to the Ethernet Unit’s FTP server. The descriptions should also

apply to most UNIX workstations, but slight differences may arise. Refer to

your workstation’s operation manuals for details.

7-5-1 Table of Commands

The FTP commands which can be sent to the Ethernet Unit are listed in the

following table.

Command

open

user

Description

Connects the specified host FTP server.

Specifies user name for the remote FTP server.

Displays the Memory Card file names.

dir

Display the Memory Card file names and details.

Changes a file name.

rename

mkdir

rmdir

Creates a new directory in the working directory in the remote host.

Deletes a new directory from the working directory in the remote host.

Changes the Ethernet Unit work directory to the specified directory.

cdup

Changes the working directory at the remote host to the parent direc-

tory.

pwd

Displays the Ethernet Unit work directory.

Specifies the data type of transferred files.

Transfers the specified file from the Memory Card to the local host.

Transfers multiple files from the Memory Card to the local host.

Transfers the specified local file to the Memory Card.

Transfers multiple local files to the Memory Card.

Deletes the specified file from the Memory Card.

Deletes multiple files from the Memory Card.

Disconnects the FTP server.

type

get

mget

put

mput

delete

mdelete

bye

Closes the FTP (client).

quit

Closes the FTP (client).

• The Ethernet Unit is considered to be the remote host and the host com-

puter (FTP client) is considered to be the local host.

• A remote file is a file on the Memory Card or in EM File Memory in the

CPU Unit. A local file is one in the host computer (FTP client).

• The parent directory is the directory one above the working directory.

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Using FTP Commands

Section 7-5

7-5-2 Using the Commands

open

Format

open [IP_address or host_name_of_FTP_server]

Function

Connects the FTP server. Normally when the FTP client is booted, the FTP

server IP address is specified to execute this command automatically.

user

Format

Function

user[user_name]

Specifies the user name. Specify the FTP login name set in the Ethernet Unit

system setup. The default FTP login name is “CONFIDENTIAL.”

If a non-default login name is used, it must be followed by the password. In

this case, enter the FTP password set in the system setup.

The user name is automatically requested immediately after connection to the

FTP server.

Format

Function

ls[-l] [REMOTE_FILE_NAME[local_file_name]]

Displays the remote host (Memory Card or EM File Memory) file names.

Set the switch [-l] to display not only the file names but the creation date and

size as well. If the switch is not set, only the file names will be displayed.

You can specify a file name in the Memory Card or EM File Memory if desired.

If a local file name is specified, the file information will be stored in the speci-

fied file in the host computer.

Example

ls /

dir

Format

Function

dir[REMOTE_FILE_NAME[local_file_name]]

Displays the file names, date created, and size of the files in the remote host

(Memory Card or EM File Memory). It displays the same information as com-

mand “ls –l”.

Specify a file name in the Memory Card or EM File Memory as the remote file

name.

If a local file name is specified, the file information is stored in the specified file

in the host computer.

Example

dir /

rename

Format

renameCURRENT_FILE_NAME NEW_FILE_NAME

Function

Changes the specified current file name to the specified new file name.

renamecan be used only to change the file name. It cannot be used to move

the file to a different directory.

mkdir

Format

Function

mkdirDIRECTORY_NAME

Creates a directory of the specified name at the remote host (Memory Card or

EM File Memory).

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Using FTP Commands

Section 7-5

An error will occur if a file or directory of the same name already exists in the

working directory.

rmdir

Format

Function

rmdirDIRECTORY_NAME

Deletes the directory of the specified name from the remote host (Memory

Card or EM File Memory).

The directory must be empty to delete it.

An error will occur if the specified directory does not exist or is empty.

pwd

Format

Function

pwd

Displays the remote host’s (Ethernet Unit) current work directory.

Format

Function

cd[directory_name]

Changes the remote host (Ethernet Unit) work directory to the specified

remote directory.

The files in the Memory Card are contained in the MEMCARD directory under

the root directory (/). The files in EM File Memory are contained in the EM

directory under the root directory (/). The root directory (/) is the directory

used when logging into the Ethernet Unit. No MEMCARD directory will exist if

a Memory Card is not inserted in the PC or if the Memory Card power indica-

tor is not lit. No EM directory will exist if EM File Memory does not exist.

cdup

Format

Function

cdup

Changes the working directory at the remote host to the parent directory (one

directory above the current working directory).

type

Format

Function

typedata_type

Specifies the file data type. The following data types are supported:

ascii:

Files are transferred as ASCII data

binary (image): Files are transferred as binary data.

All files are treated by the PC as binary files. Before reading or writing any

files, always use the type command to set the file type to binary. File con-

tents cannot be guaranteed if transferred as ASCII data.

The default file type is ASCII.

get

Format

Function

getFILE_NAME[receive_file_name]

Transfers the specified remote file from the Memory Card or EM File Memory

to the local host.

A receive file name can be used to specify the name of the file in the local

host.

mget

Format

mgetFILE_NAME

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Using FTP Commands

Section 7-5

Function

Allows the use of a wildcard character (*) to transfer multiple remote files from

the Memory Card or EM File Memory to the local host.

put

Format

Function

putfile_name[DESTINATION_FILE_NAME]

Transfers the specified local file to the remote host (Memory Card or EM File

Memory).

A destination file name can be used to specify the name the file is stored

under in the Memory Card or EM File Memory.

Any existing file with the same name in the remote host (Memory Card or EM

File Memory) will be overwritten by the contents of the transferred file.

If an error occurs during file transfer, the file being transferred will be deleted

and the transmission will end in an error.

mput

Format

Function

mputFILE_NAME

Allows the use of a wildcard character (*) to transfer multiple local files to the

remote host (Memory Card or EM File Memory).

Any existing file with the same name in the remote host (Memory Card or EM

File Memory) will be overwritten by the contents of the transferred file.

If an error occurs during file transfer, the file being transferred will be deleted

and the transmission of that file will end in an error. However, mput execution

will continue and remaining files will be transferred.

delete

Format

Function

deleteFILE_NAME

Deletes the specified remote file from the Memory Card or EM File Memory.

mdelete

Format

mdeleteFILE_NAME

Function

Allows the use of a wildcard character (*) to delete multiple remote files from

the Memory Card or EM File Memory.

Format

Function

Disconnects the Ethernet Unit’s FTP server.

bye

Format

Function

bye

Ends the FTP (client).

quit

Format

Function

quit

Ends the FTP (client).

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Using FTP Commands

Section 7-5

7-5-3 Error Messages and FTP Status

Error Messages

The error messages returned by the Ethernet Unit are listed in the following

table.

Message

Meaning

PPP is a directory.

The path name indicated at PPP is a directory.

The path name indicated at PPP is not a directory.

Another Unit currently has the access right.

PPP is not a directory.

Another unit has access authority

(FINS error 0 x 3001)

Bad sequence of commands.

The RNFR command has not been executed.

Can’t create data socket (X.X.X.X, YY)

Cannot access a device (FINS error 0 x 250F).

Cannot get memory blocks.

A socket cannot be created.

A file device error has occurred.

A message memory block cannot be allocated.

The command format is incorrect.

Command format error (FINS error 0 x 1003).

Connect error.

A connection error has occurred.

Directories of the old and the new paths are not

same.

The directories before and after changing the name are different.

Directory name length exceeded max. size.

Directory not empty (FINS error 0 x 2108).

Fatal error (FINS error 0 x 1101).

The directory name is too long.

The directory must be empty to delete it.

A parameter error has occurred.

Fatal error (FINS error 0 x 1103).

File or directory already exists.

The specified file or directory name already exists.

The file or directory name is incorrect.

File or directory already exists

(FINS error 0 x 2107).

File or directory name illegal.

File or directory name illegal

(FINS error 0 x 110C).

File read error (FINS error 0 x 1104).

File read error (FINS error 0 x 110B).

File write error (FINS error 0 x 2106).

File write error (FINS error 0 x 2107).

FINS error MRES 0 x XX: SRES 0 x XX.

Length of directory name too long.

No space to create entry (FINS error 0 x 2103).

No such device (FINS error 0 x 2301).

No such file or directory.

An error occurs when reading the file.

Some other FINS error has occurred.

The path name of the directory is too long.

There are too many files to create a new one.

The file device cannot be found.

The specified file or directory does not exist.

No such file or directory (FINS error 0 x 2006).

No such file or directory (FINS error 0 x 2106).

No enough memory.

The communications buffers are full.

The file device is full.

Not enough space in the system.

(FINS error 1104).

PLC communication error (timeout).

Socket canceled.

File access timed out.

The socket was canceled.

Socket error NN.

A socket bind error occurred. The error code will be given at NN.

A data reception error occurred. The error code will be given at NN.

A data send error occurred. The error code will be given at NN.

Socket receive error NN.

Socket send error NN.

Timeout (900 seconds): closing control connection. The connection was closed because the client did not respond for

15 minutes.

Too many open files.

Too many sockets have been created.

Writing is not possible.

Write access denied.

Write access denied. (FINS error 0 x 2101).

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Using FTP Commands

Section 7-5

PPP: Path name

XXX: IP address

YY: Port number

MM: FINS error code

NN: Socket error code

Checking FTP Status

Note

1. File operations for files on the Memory Card are performed during FTP

communications. Do not remove the Memory Card or turn OFF power to

the PC while FTP is being used.

2. When using File Memory Instruction from the program in the CPU Unit,

program exclusive control using the FTP Status Flag so that the same data

is not manipulated simultaneously by more than one instruction.

FTP Status Flag

The current status of the FTP server can be obtained from the service status

in the words allocated to the Ethernet Unit in the CPU Bus Unit Area in the

CIO Area. The word containing the FTP Status Flag can be computed as fol-

lows: 1500 + (25 x unit number) + 17

15 14 13 12 11 10

n+17

Power status (CS1W-ETN01 only)

FTP Status Flag

Meaning

Status of

bit 00

FTP server busy

FTP server free

Note The FTP status can also be checked using the software switch settings on the

CX-Programmer.

FTP Indicator

The FTP indicator on the Ethernet Unit indicates FTP status as shown in the

following table.

FTP indicator

Meaning

Lit

FTP server busy

FTP server free

Not lit

FTP File Transfer Time

File system

File transfers using FTP can require up to 5 or 10 minutes depending on the

capacity of the file. Approximate file transfer time are provided in the following

table for reference.

All times are in seconds unless otherwise specified.

Memory Card

EM File Memory

CPU Unit status

Operating mode

PROGRAM

RUN

20 ms

PROGRAM

RUN

20 ms

Cycle time

1 KB

---

Transfers using

put

30 KB

60 KB

120 KB

1 KB

173

128

Transfers using

get

30 KB

60 KB

120 KB

100

113

Note

1. The above times assume that the peripheral servicing time setting in the

PC Setup is set to the default value of 4%.

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UNIX Application Example

Section 7-6

2. If the peripheral servicing time setting in the PC Setup is increased, FTP

files will be transferred faster.

7-6 UNIX Application Example

The following procedure provides an example of FTP operations from a UNIX

workstation. In this example, the following assumptions are made.

• The IP address of the Ethernet Unit is registered in /etc/hosts on the

workstation as “cs1”.

• The default FTP login name is being used (CONFIDENTIAL).

• A processing results data file called RESULT.IOM already exists on the

Memory Card in the CPU Unit.

• A processing instructions data file called PLAN.IOM already exists on the

workstation.

The following procedure transfers the processing results file RESULT.IOM

from the Memory Card in the CPU Unit to the workstation and then the pro-

cessing instructions file PLAN.IOM is transferred from the workstation to the

Memory Card in the CPU Unit.

Underlined text is keyed in from the FTP client. The workstation prompt is indi-

cated as $ and the cursor is indicated as ■.

1,2,3...

1. Start FTP and connect to the Ethernet Unit.

FTP started.

2. Enter the login name.

3. Make sure the Memory Card is inserted. The MEMCARD directory will be

displayed if there is a Memory Card in the CPU Unit.

Used to check for Memory Card.

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UNIX Application Example

Section 7-6

4. Change to the MEMCARD directory.

Change to MEMCARD directory.

5. Change data type to binary.

Binary data type set.

6. Transfer the file RESULT.IOM to the workstation.

File read.

7. Write the file PLAN.IOM to the Memory Card.

File written

8. End FTP.

FTP ended.

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SECTION 8

Mail

This section explains the Ethernet Unit’s mail function.

8-1 Overview of Mail Function. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

8-1-1 Mail Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

8-1-2 Mail Triggers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

8-1-3 Sending Mail. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

8-1-4 Mail Status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

8-2 Sending Mail. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

8-3 Mail Example . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

178

179

180

181

182

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Overview of Mail Function

Section 8-1

8-1 Overview of Mail Function

The mail function can be used to send user-created information, error log

information, and status information as e-mail to an address set in the CPU

Bus Unit System Setup. Mail can be triggered in any of the following ways:

• When an error is registered to the error log.

• At regular intervals.

• When a dedicated control switch is turned ON.

Note A mail server is required in order to use the mail function. Mail server settings

require specialized knowledge and should always be handled by the network

administrator. Be sure you have a clear understanding of the mail system

before using this function. Mail delivery is not guaranteed. Depending on fac-

tors such as the condition of the network, mail that has been sent may not

arrive at its destination.

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Overview of Mail Function

Section 8-1

8-1-1 Mail Contents

Date and time

Ethernet Unit e-mail address

Destination e-mail address

Title (fixed)

Header

Content type (fixed)

Ethernet Unit model (required)

Unit version number (required)

Ethernet Unit IP address (required)

User-created information (optional)

Error log information (optional)

Body

Status information (optional)

Header

The following header information is attached.

• Subject: OMRON Ethernet Unit Mail Service

• Content-Type: text/plain;charset=US-ASCII

• Content-Transfer-Encoding: 7 bit

Ethernet Unit Information

The following Ethernet Unit information is always attached to the mail.

• Model

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Overview of Mail Function

Section 8-1

• Version

• IP address (decimal notation)

• Subnet mask (decimal notation)

• ID address conversion method

Optional Information

The optional information that can be sent is shown in the following table. Dif-

ferent information can be selected with each mail trigger, and it is also possi-

ble to make multiple selections. (The selections are specified in the CPU Bus

Unit System Setup.) If not even one is selected, however, no e-mail will be

sent even when the trigger condition is met.

Item

Contents

User-created information User-created information is data set by the user, in ASCII, in the CPU Unit’s memory. A maxi-

mum of 1,024 bytes of data is sent from the user-created information address set in the CPU

Bus Unit Area. If there is a null code (00 Hex) in the data, however, only the data up to that

point will be sent.

The data set by the user is sent just as it is, and the code is not converted. The relevant words

are always read by the Ethernet Unit, so the contents of the mail can be changed by changing

the contents of the words.

Error log information

Status information

The error log information includes the entire error log in RAM. A maximum of 64 records can

be saved. For details, refer to 10-3 Error Log.

The following data is sent.

(1) Open/closed status of UDP sockets 1 to 8

(2) TCP status of TCP sockets 1 to 8

(3) Unit error information

(4) Counter information

• Total number of receive packets

• Total number of receive errors

• Total number of send packets

• Total number of send errors

• Total number of send collisions

The Ethernet Unit processes error log and status data in ASCII so that it can

be easily read as e-mail.

Note Set user-created information in ASCII.

8-1-2 Mail Triggers

The user can select any of the following trigger conditions for e-mail. The des-

ignation is made in the CPU Bus Unit System Setup. The particular informa-

tion to be sent can be selected individually for each trigger condition.

Name

Trigger condition

Contents

User mail

When Mail Send

Switch turns ON.

Mail is sent when the Mail Send Switch set in the words allocated to the CPU Bus

Unit in the CIO Area turns from OFF to ON (leading edge).

Error mail

When an error is

recorded in the error

log.

Mail is sent when an error occurs and is recorded in the error log.

Periodic mail

Fixed time intervals Mail is sent each time the interval set in the CPU Bus Unit Area elapses. The inter-

val can be set to anything from 10 minutes to 10 days.

8-1-3 Sending Mail

Triggered by Mail Send

Switch

To send mail only as required, use the Mail Send Switch (bit 3) from among

the Unit Control Switches in the CIO Area words allocated to the CPU Bus

Unit. When the Ethernet Unit detects that the Mail Send Switch has turned

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Overview of Mail Function

Section 8-1

ON, the mail transmission is started according to the mail settings that have

previously been made in the CPU Bus Unit System Setup.

If a transmission is restarted while the mail processing is still in progress, it

will be invalid. After the transmission has been completed, the Ethernet Unit

will automatically turn the switch OFF again. Once the switch has been turned

OFF, another mail message can be sent.

Unit Control Switches: CIO 1500 + (25 x unit number)

15 14 13 12 11 10

Mail Send Switch

Triggered by Error Log

Recording

If there is a need for immediate notification when an error occurs, e-mail can

be sent at the same time as an error is recorded in the error log. When an

error to be recorded in the error log occurs, the e-mail transmission is started

according to the mail settings that have previously been made in the CPU Bus

Unit System Setup.

Note If several errors in a row are recorded in the error log, the notification of these

errors may all be included in the same e-mail message.

Triggered at Regular

Intervals

If there is a need to periodically check the Ethernet Unit’s status, e-mail can

be sent at regular intervals. With this method, e-mail is sent at fixed time inter-

vals according to the mail interval and mail information settings in the CPU

Bus Unit System Setup.

Note After the mail processing has been completed, the next e-mail will be sent

when the fixed time interval elapses. There may be discrepancies in the trans-

mission intervals if the Ethernet Unit status causes the processing to take

more time.

8-1-4 Mail Status

The mail status is reflected in the Mail Status areas in the CPU Bus Unit

words allocated in the DM Area. It can be checked as required.

Mail Status: D30000 + (100 x unit number)

15 14 13 12 11 10

User Mail Status

Periodic Mail Status

Error Mail Status

Bits

Status

Waiting for mail, or mail ready to send according to Mail Send

Switch, or no mail is being sent.

Mail being processed.

Waiting for mail, or mail ready to send according to Mail Send

Switch. Previous mail transmission completion was normal.

Waiting for mail, or mail ready to send according to Mail Send

Switch. Previous mail transmission completion was abnormal.

Mail cannot be sent (due to System Setup error).

Note 0: OFF; 1: ON

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Sending Mail

Section 8-2

8-2 Sending Mail

The procedure for sending mail is as follows:

1,2,3...

1. Make the following settings in the CPU Bus Unit System Setup.

• Mail send information

• Mail timing

• User-created mail data address

• SMTP server address

• Local mail address

• Destination mail address

2. Turn ON the Mail Send Switch (word n, bit 3) in the allocated CIO Area

words.

8-3 Mail Example

This section shows how to use the mail function, taking as an example the

settings and operations involved in sending user mail. The mail send function

settings are performed in the CPU Bus Unit System Setup using the Unit set-

tings on the CX-Programmer. Only the settings are covered here. For details

on CX-Programmer operations, refer to the CX-Programmer User’s Manual.

1,2,3...

1. Use the CX-Programmer, a Programming Device for the PC, to make the

initial mail settings in the CPU Bus Unit System Setup in the CPU Unit. For

the purposes of this example, make the settings shown below. (For details

regarding the CPU Bus Unit System Setup, refer to 4-2-2 Mail Settings.)

• User mail:

• Error mail:

Send user-created information and status information.

Not used.

• Periodic mail: Not used.

Settings

• User mail: Enabled (selected)

• User mail status information transmission: Enabled (selected)

(Leave all other check boxes for mail settings not selected.)

• User-created mail data address: DM00200 (See below.)

• Ethernet Unit mail address

• Destination mail address

• SMTP server address (mail server IP address)

From DM00200 onwards, store data to be sent as mail (user-created informa-

tion) in ASCII as shown below.

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Mail Example

Section 8-3

2. Turn ON the Mail Send Switch in the CIO Area words allocated to the CPU

Bus Unit.

n = CIO 1500 + 25 x unit number)

Mail Send Switch

For Unit #5, for example, the Mail Send Switch address is CIO 162503.

The status, such as mail being processed, and so on, is reflected in the User

Mail Status Area in the DM Area words allocated to the CPU Bus Unit. Check

the status as required.

User Mail Status: D30000 + (100 x unit number) + 17, bits 0 to 2

Bits

Status

Waiting for mail, or mail ready to send according to Mail Send

Switch, or no mail is being sent.

Mail being processed.

Waiting for mail, or mail ready to send according to Mail Send

Switch. Previous mail transmission completion was normal.

Waiting for mail, or mail ready to send according to Mail Send

Switch. Previous mail transmission completion was abnormal.

Mail cannot be sent (due to System Setup error).

Note 0: OFF; 1: ON

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SECTION 9

Testing Communications

This section describes functions that allow you to test communications.

9-1 Communications Testing Functions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

9-2 PING Command . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

9-2-1 Ethernet Unit. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

9-2-2 Host Computer . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

9-3 Internode Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

9-3-1 Running the Test. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

9-3-2 Checking Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

186

187

189

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Communications Testing Functions

Section 9-1

9-1 Communications Testing Functions

The Ethernet Unit provides two functions that allow communications with

other node to be tested.

PING Command

Internode Testing

The PING command is a common way to perform echoback tests on Ethernet

networks. The PING command can be executed to see if nodes are physically

connected properly and to be sure that IP address are set for the correct

Ethernet nodes.

Echoback tests with specific nodes can also be performed by setting parame-

ters in the DM Area and then manipulating specific bits in memory. This type

of internode test can be performed only for remote nodes that support the

FINS internode testing function. Internode testing can be used to make sure

settings for FINS communications services are correct.

9-2 PING Command

The PING command sends an echo request packet to a remote node and

receives an echo response packet to confirm that the remote node is commu-

nicating correctly. The PING command uses the ICMP echo request and

responses. The echo response packet is automatically returned by the ICMP.

The PING command is normally used to check the connections of remote

nodes when configuring a network. The Ethernet Unit supports both the ICMP

echo request and reply functions.

If the remote node returns a normal response to the PING command, then the

nodes are physically connected correctly and Ethernet node settings are cor-

rect.

Remote Node

(host computer or Ethernet Unit)

TCP

UDP

ICMP

Ethernet

Echo request

Echo response

9-2-1 Ethernet Unit

The Ethernet Unit automatically returns the echo response packet in

response to an echo request packet sent by another node (host computer or

other Ethernet Unit). An echo request packet can be sent to another node by

issuing the FINS command to execute the PING command from the PC. Refer

to page 236 for details on the PING command.

9-2-2 Host Computer

The PING command can be executed from the host computer to send an

echo request packet to an Ethernet Unit. The method for using the PING com-

mand from a UNIX computer is given next.

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Internode Test

Section 9-3

Method

Input the following at the host computer prompt ($):

$ ping IP_address(host_name)

The destination is specified by its IP address or host name. If the host name is

used, the host name must be defined in file /etc/hosts.

Note The PING command is not supported by some host computers.

Application Examples

These examples show sending the PING command to the node at IP address

130.25.36.8. The “$” on the example screen represents the host computer

prompt. User inputs are underlined. Comments are placed after semicolons.

Normal Execution

$ ping 130.25.36.8

PING 130.25.36.8: 56 data bytes

; Executes PING command

64 bytes from 130.25.36.8: icmp_seq=0. time=0.ms

←Enter Ctrl+C Key to cancel.

––––130.25.36.8 PING Statistics––––

9 packets transmitted, 9 packets received, 0% packets loss

round–trip (ms) min/avg/max = 0/1/16

Abnormal Execution

$ ping 130.25.36.8

; Executes PING command

PING 130.25.36.8: 56 data bytes

←Enter Ctrl+C Key to cancel.

––––130.25.36.8 PING Statistics––––

9 packets transmitted, 0 packets received, 100% packets loss

Refer to operating system documentation for your host computer for details

about using the host computer’s PING command.

9-3 Internode Test

The internode test sends data to and from specified nodes and uses the

responses to check the network. The Ethernet Unit has a built-in function to

run the internode test.

If a normal response is returned for an internode test, it means that the set-

tings for FINS communications services are correct. If a response is not

received, execute the PING command for the same remote node to see if the

Ethernet connection and settings are correct. If the PING command can be

executed successfully, then the FINS settings, such as the routing tables,

node addresses, or address conversion method, are incorrect.

9-3-1 Running the Test

The test parameters are set and the test is started and stopped by writing the

required data to memory in the PC used to start the internode test. These set-

ting are made using the a Programming Device, such as a Programming Con-

sole.

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Internode Test

Section 9-3

Test Procedure

1,2,3...

1. Write the test parameters into PC memory. The test parameters are de-

scribed following this procedure.

2. Turn ON the Internode Test Start Switch allocated to the Ethernet Unit in

the CPU Bus Unit Area. The Internode Test Start Switch is described fol-

lowing the test parameters. This will begin the internode test.

3. If desired, the test parameters can be changed while the internode test is

actually running. Use the same procedure as used in step 1.

4. Turn OFF the Internode Test Start Switch allocated to the Ethernet Unit in

the CPU Bus Unit Area to stop the test.

Note

1. The test parameters are effected as soon as they are set or changed. It is

not necessary to reboot or restart. If the test parameters are changed dur-

ing the test, however, the new parameters will not be used until the Intern-

ode Test Start Switch is turned OFF and then back ON.

2. Line traffic on the Ethernet network will increase during the test, possibly

affecting system performance.

Setting the Test Parameters

Before starting the test, set the following parameters in the software switches

in the words in the DM area allocated to the Ethernet Unit. The test parame-

ters become effective immediately after they are set. It is not necessary to

reboot or restart the PC.

Configuration of the

Software Switches

The software switches are stored at offsets from the first word calculated with

the formula: first word = D03000 + (100 x unit number).

Offset

Contents

Bits 0 to 7:

Remote node number

Bits 8 to 15:

Remote network address

Number of send bytes

Response monitor time

Setting Range

The parameter setting ranges are given in the following table.

Parameter

Range

00 Hex: Local network

Remote network address

01 to 7F Hex (1 to 127 decimal)

Remote node number

Number of send bytes

01 to 7E Hex (0 to 126 decimal)

0000 Hex specifies the max. length of 1,996

bytes.

0001 to 07CC Hex (1 to 1996 decimal)

Response monitor time

(Unit: 10 ms)

0000 Hex specifies 2 s.

0001 to FFFF Hex (1 to 65535 decimal)

Note

1. The following limits apply to the number of bytes sent when running the test

through a SYSMAC NET or SYSMAC LINK network:

SYSMAC NET: 1,986 bytes

SYSMAC LINK: 512 bytes

2. Broadcast transmissions (target node address = FF) cannot be used for

the internode test.

3. A timeout error will occur if no response is received within the set response

monitor time.

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Internode Test

Section 9-3

Starting and Stopping the Internode Test

Bit 01 of the first word in the words allocated to the Ethernet Unit in the CPU

Bus Unit Area is used as the Internode Test Start Switch. Turn ON bit 01 to

start the internode test and turn bit 01 OFF to stop the internode test. The

address of the word containing the Internode Test Start Switch is calculated

by the following formula:

Word = 1500 + (25 x unit number)

15 14 13 12 11 10

Bit

−

Internode Test Start Switch

0: Stop internode test

1: Start internode test

The internode test run status can be confirmed using the TS indicator on the

Unit’s front panel or the Internode Test Flag (error status, bit 8) in the allocated

words in the CIO Area.

Error status area (1 word) = CIO 1500 + (25 × unit number) + 18

TS indicator

Internode Test Flag

(error status, bit 8)

Run status

Lit

Internode test running

Internode test stopped

Not lit

9-3-2 Checking Results

The results of the internode test are stored in the fourth through ninth words of

the portion of the CPU Bus Unit Area allocated to the Ethernet Unit. The sta-

tus information area stores the test status and numbers of test runs and

errors.

Test Status

The result of the test run and descriptions of errors are stored as the test sta-

tus. The test status is stored at the word whose address is calculated by the

following formula:

Word = D03000 + (100 x unit number) + 3

15 14 13 12 11 10

Bit

Error code

Error flags

1: Timeout error

1: Response error

1: Send error

1: Data not matched

1: Routing table error

1: Send parameter error

Error Code

If the test is run repeatedly, the code for the latest test results is stored.

Bit

Description

Normal

Timeout error

Response (response code) error

Send error

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Internode Test

Section 9-3

Bit

Description

Data not matched

Routing table error (See note.)

Send parameter error (See note.)

Note The internode test does not count errors when a routing table error or send

parameter error has occurred.

Error Flags

The bits corresponding to errors are turned ON if errors occur. The flag status

is maintained until the internode test is run again.

Number of Test Runs and Errors

The number of test runs and total errors from the time the test is started until it

is stopped is stored. The configuration of this area is shown in the following

table. Each result is stored at a word relative to the first word the address of

which can be calculated using the following formula:

Word = D03000 + (100 x unit number) + 4 to +8

Offset

Contents

Number of internode test runs

Number of timeout errors

Number of response errors

Number of send errors

Number of times data did not match

Note

1. The contents of the test status area and test runs/errors area are main-

tained until the internode test is run again.

2. When the number of tests counts to the maximum value (FFFF), subse-

quent internode test runs are counted from 0. However, the maximum val-

ue is maintained and further errors are not counted when the number of

errors reaches the maximum value.

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SECTION 10

Troubleshooting

This section describes information and procedures that can be used to troubleshoot problems that sometimes occur with

Ethernet Unit and Ethernet communications.

The Ethernet Unit makes up part of a network. Repair a defective Ethernet Unit as soon as possible as it can have a negative

effect on the entire network. We recommend that customers keep one or more spare Ethernet Units to allow immediate

recovery of the network.

10-1 Troubleshooting with Indicators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

10-2 Error Status . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

10-3 Error Log. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

10-4 Error Log Error Codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

10-5 Troubleshooting Procedures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

10-5-1 Startup Problems. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

192

194

195

197

10-5-2 FINS Communications Problems

(SEND(090)/RECV(098)/CMND(490)) . . . . . . . . . . . . . . . . . . . . .

198

199

201

202

203

205

207

210

10-5-3 UDP Socket Problems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

10-5-4 TCP Socket Problems. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

10-5-5 FTP Service Problems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

10-5-6 Network Connection Problems. . . . . . . . . . . . . . . . . . . . . . . . . . . . .

10-5-7 Mail Problems. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

10-6 Troubleshooting with Response Codes. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

10-7 Results Storage Area Response Codes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

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Troubleshooting with Indicators

Section 10-1

10-1 Troubleshooting with Indicators

The indicators on the Ethernet Unit can be used to troubleshoot some error.

The probable cause and correction for errors that can be determined from the

RUN, ERC, and ERH indicators are listed in the following table.

RUN

Not lit

ERC

Not lit

ERH

Not lit

Probably cause

Correction

Power is not being supplied to the CPU Unit Supply power.

or the power supply voltage is too low.

Make sure that the correct voltage is being

supplied.

The Ethernet Unit is faulty.

Replace the Ethernet Unit.

The CPU Unit or Backplane is faulty.

Replace the CPU Unit or the Backplane.

The mounting screws on the Ethernet Unit Tighten the mounting screws to the speci-

are loose (CS Series) or the sliders are not fied torque (CS Series) or lock the sliders

properly locked into place (CJ Series).

into place (CJ Series).

Not lit

Lit

The unit number on the Ethernet Unit is not Correct the unit number setting.

set correctly on the rotary switch.

The I/O tables are not registered in the

CPU Unit.

The same unit number is being used on

another Unit as well.

Correct the unit number.

The CPU Unit is faulty.

Restart the CPU Unit. If the problem per-

sists, replace the CPU Unit.

Lit

---

Lit

There is a mistake in the CPU Bus Unit

Setup or routing tables.

Read the error history and correct the data

that is causing the error. If the problem per-

sists, replace the CPU Unit.

Memory in the CPU Unit is faulty.

The CPU Unit is faulty.

Restart the CPU Unit. If the problem per-

sists, replace the CPU Unit.

Restart the CPU Unit. If the problem per-

sists, replace the CPU Unit.

Not lit

Lit

Not lit

---

The node address is set outside the correct Set the node number to between 01 and 7F

range on the rotary switches.

Hex.

The Ethernet Unit is faulty.

Restart the PC. If the problem persists,

replace the Ethernet Unit.

Lit

An error occurred in EEPROM.

Restart the PC. If the problem persists,

replace the Ethernet Unit.

Flashing ---

The IP address is set incorrectly on the

Correct the IP address. Do not set any of

rotary switches on the back of the Unit. (CS the following IP addresses.

Series only)

• Host IDs that are all 0 or all 1.

• Network IDs that are all 0 or all 1.

• Subnetwork IDs that are all 1.

• Addresses beginning with 127 (7F Hex).

The node number set on the rotary switch Make sure that the node number and the

on the front of the Unit does not agree with last byte of the IP address are the same

the host ID in the IP address. This probably and set other host IDs to 0.

can occur when the address conversion

method is set for automatic address gener-

ation. (CS Series only)

Change the address conversion method.

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Troubleshooting with Indicators

Section 10-1

RUN

Lit

ERC

ERH

Probably cause

Correction

Correct the IP address. Do not set any of

---

Flashing The IP address is set incorrectly on the

rotary switches on the back of the Unit. (CJ the following IP addresses.

Series only)

• Host IDs that are all 0 or all 1.

• Network IDs that are all 0 or all 1.

• Subnetwork IDs that are all 1.

• Addresses beginning with 127 (7F Hex).

The node number set on the rotary switch Make sure that the node number and the

on the front of the Unit does not agree with last byte of the IP address are the same

the host ID in the IP address. This probably and set other host IDs to 0.

can occur when the address conversion

method is set for automatic address gener-

ation. (CJ Series only)

Change the address conversion method.

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Error Status

Section 10-2

10-2 Error Status

The Ethernet Unit will output error status to the following word in the CIO Area

of the CPU Unit. This information can be used in troubleshooting errors.

Word = CIO 1500 + (25 x unit number) +18

15 14 13 12 11 10

Transceiver echo test error (CS1W-ETN01 only)

IP address setting error

IP address table error

IP router table error

Routing table error

Transceiver error/Cable error

(Internode Test Flag; Refer to page 189.)

Address mismatch

EEPROM error

The corresponding bit will turn ON when an error occurs

Bit

Name

Correction

Transceiver echo test error Check the transceiver or transceiver cable.

(CS1W-ETN01 only)

IP address setting error

The following cannot be used as IP address settings.

• Host IDs that are all 0 or all 1.

• Network IDs that are all 0 or all 1.

• Subnetwork IDs that are all 1.

• Addresses beginning with 127 (7F Hex).

Reset the IP address.

IP address table error

IP router table error

Routing table error

Correct the IP address table. If the problem persists, replace the CPU Unit.

Correct the IP router table. If the problem persists, replace the CPU Unit.

Correct the routing tables. If the problem persists, replace the CPU Unit.

CS1W-ETN01: Transceiver Check the transceiver, transceiver cable, or cable.

error

CS1W-ETN11 and CJ1W-

ETN11: Cable error

Address mismatch

EEPROM error

Make sure that the node number and the last byte of the IP address are the same

and set other host IDs to 0.

Change the address conversion method.

Restart the PC. If the problem persists, replace the Ethernet Unit.

10-3 Error Log

The Ethernet Unit provides an error log that records errors that have occurred

during Ethernet Unit operation. The contents of the error log can be read or

cleared from a Programming Device, such as the CX-Programmer, or it can

be read or cleared using FINS commands from a workstation or computer.

(See 11-3-7 ERROR LOG READ and 11-3-8 ERROR LOG CLEAR).

Logged Errors

The following errors are recorded in the error log.

• Errors in network operation

• Errors in data transfers

• Error in the CPU Unit

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Error Log Error Codes

Section 10-4

Error Log Table

Each error is recorded as one record in an error log table. Up to 64 records

can be saved. If more than 64 errors occur, the oldest errors will be deleted

from the error log and the most recent error will be recorded.

The following information is recorded in the error log table.

• Main error code (See table later in this section.)

• Detailed error code (See table later in this section.)

• Time stamp (from the clock in the CPU Unit)

Error Log Location

When an error is detected, the error codes and time stamp are recorded in the

error log in RAM inside the Ethernet Unit. Serious errors are also recorded in

EEPROM. The maximum number of errors that can be saved to EEPROM is

64 for the CS Series and 32 for the CJ Series. The errors recorded in

EEPROM will be saved even if the Unit is restarted or power is turned OFF.

When the Ethernet Unit is started, the contents of the error log in EEPROM is

copied to RAM.

When a FINS command is used to read the error log, the log held in RAM is

read. When a FINS command is used to clear the error log, the logs held in

both RAM and EEPROM are cleared.

FINS Commands for Error

Logs

The following FINS commands can be used to read or clear the error log.

Refer to Section 11 FINS Commands Addressed to Ethernet Units.

Command

code

Function

MRC

SRC

ERROR LOG READ

ERROR LOG CLEAR

10-4 Error Log Error Codes

The error codes are described in the following table. The detailed error code

will provide detailed information on an error.

Error

code

Meaning

Detailed error code

1st byte 2nd byte

Correction

EE-

PROM

0001

0002

0006

Watchdog timer error in CPU Unit 00

Replace the CPU Unit.

Saved

CPU Unit service monitor error

Other CPU error

Monitor time (ms)

Check the operating environment. Saved

Bit 11: Unit not in Registered Create the I/O tables.

I/O Tables

Saved

000F

0010

CPU Unit initialization error

Replace the CPU Unit.

Saved

Insufficient System Setup Area

Reduce the number of CPU Bus

Units.

0011

0012

Event timed out

MRC

SRC

Replace the CPU Unit.

Saved

CPU Unit memory error

01: Read

error

03: Routing

table

01: Recreate the data specified by Saved

the 2nd byte of the detailed error

code.

02: Write

error

04: Setup

error

02: Clear memory using proce-

dure in the PC operation manual.

05: CPU Bus

Unit Words

(CIO/DM)

0013

CPU Unit protected

Remove protection from CPU Unit Saved

memory.

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Error Log Error Codes

Section 10-4

Error

code

Meaning

Detailed error code

Correction

EE-

PROM

1st byte

2nd byte

0103

0105

0107

0108

010B

Resend count exceeded (send

failed)

Commands

Bit 15:

Bits 08 to 14: SNA

Bits 00 to 07: SA1

Check transceiver at remote node. ---

OFF

Node address setting error (send

failed)

Set the IP address correctly.

---

Responses

Bit 15:

Bits 08 to 14: DNA

Bits 00 to 07: DA1

Remote node not in network (send

failed)

Check the connection to the

remote node.

No Unit with specified unit

address (send failed)

Check the unit address at the

remote node.

CPU Unit error (send failed)

Troubleshoot the error in the CPU ---

Unit using the PC operation man-

ual.

010D

010E

Destination address not in routing

tables (send failed)

Set the destination address in the ---

routing tables.

No routing table entry (send

failed)

Set the local node, remote node, ---

and relay nodes in the routing

tables.

010F

0110

Routing table error (send failed)

Create the routing tables correctly. ---

Too many relay points (send

failed)

Reconstruct the network or cor-

rect the routing tables so that

commands are sent to within a 3-

level network range.

---

0111

0112

0117

0118

0119

Command too long (send failed)

Header error (send failed)

Check the command format and

set the correct command data.

---

Check the command format and

set the correct command data.

Internal buffers full; packet dis-

carded

Change the network so that traffic ---

is not concentrated.

Illegal packet discarded

Check for nodes sending illegal

packets.

---

Local node busy (send failed)

Unexpected routing error

Change the network so that traffic ---

is not concentrated.

0120

0121

Check the routing tables.

---

No setting in IP address table;

packet discarded

Set the remote node in the IP

address table.

0122

Service not supported in current

mode; packet discarded

Select the IP address table or

both methods for the address con-

version method.

---

0123

0124

021A

Internal send buffer full; packet

discarded

Change the network so that traffic ---

is not concentrated.

Maximum frame size exceeded;

routing failed

Reduce the size of events.

---

Logic error in setting table

01: Data link Recreate the data specified by the Saved

table

2nd byte of the detailed error

code.

02: Network

parameters

03: Routing

tables

04: Setup

05: CPU Bus

Unit Words

(CIO/DM)

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Troubleshooting Procedures

Section 10-5

Error

code

Meaning

Detailed error code

1st byte 2nd byte

Correction

EE-

PROM

0300

Parameter error; packet discarded Commands

Bit 15:

Check the command format and

set the correct command data.

---

OFF

Bits 08 to 14: SNA

Bits 00 to 07: SA1

Responses

Bit 15:

Bits 08 to 14: DNA

Bits 00 to 07: DA1

0601

0602

CPU Bus Unit error

Arbitrary

Restart the CPU Unit. If the prob- Saved

lem persists, replace the Ethernet

Unit.

CPU Bus Unit memory error

01: Read

error

06: Error log Restart the CPU Unit. If the prob- Saved

lem persists, replace the Ethernet (except

Unit.

for error

log)

02: Write

error

Note

1. The time information in the CPU Unit is used in the CPU Bus Units.

2. If the time information cannot be read from the CPU Unit, the time stamp

in the error log will be all zeros. This can occur due to CPU Unit startup

error, unit number errors, CPU error, and model number errors. If the time

is read out from a Programming Device, the time will be shown as all zeros

in the year 2000.

3. The battery must be installed in the CS/CJ-series CPU Unit, the power

turned ON, and then the time set before the clock in the CPU Unit can be

used. The time will not be set correctly in the error log unless the clock time

is set correctly.

4. An error record is not created in EEPROM when a CPU Bus Unit memory

error occurs.

10-5 Troubleshooting Procedures

The following procedures can be used to troubleshoot various problems in

system operation.

10-5-1 Startup Problems

Most of the initial steps in these procedures are in question form. Continue in

sequence until a “True” answer tells you to jump to a specified step or until you

are told to perform a specific action that corrects the problem. If performing

the action does not correct the problem, return to the beginning of the proce-

dure and start over.

1,2,3...

1. RUN indicator lit?

True ➨ Step 14.

2. ERH indicator lit?

True ➨ Step 12.

3. ERC indicator lit?

True ➨ Step 9.

4. Power not supplied to CPU Unit?

True ➨ Make sure that sufficient power is supplied to the CPU Unit.

5. Ethernet Unit loose on Rack?

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Troubleshooting Procedures

Section 10-5

True ➨ Make sure that Unit is firmly mounted and tighten the mounting

screws firmly or lock the sliders into place.

6. Do the RUN and ERH indicators not light if another CPU Unit is mounted

to the Rack?

True ➨ Replace the Ethernet Unit.

7. Replace the CPU Unit that didn’t work.

8. ERC indicator not lit?

True ➨ Step 14.

9. Is the same node number used by another Unit?

True ➨ Set the node numbers so that each one is used only once.

10. Create the I/O tables in the CPU Unit.

11. Replace the following components one at a time in the order given and dis-

card any faulty ones: transceiver cable, transceiver, Ethernet Unit.

12. Is the node number set between 01 and 7E Hex?

True ➨ Replace the following items in order to eliminate the faulty part:

Ethernet Unit, transceiver, transceiver cable.

13. Set the unit number to between 01 and 7E Hex.

14. ERH indicator not lit?

True ➨ Step 18.

15. Is the same unit number used by another CPU Bus Unit?

True ➨ Set the unit numbers correctly.

16. Has a CPU Unit error occurred in the PC’s CPU Unit?

True ➨ Restart the CPU Unit. If the error persists, replace the CPU Unit.

17. Set the Setup and routing tables correctly.

18. ERH indicator not flashing?

True ➨ Go to 10-5-6 Network Connection Problems on page 203.

19. Is the IP address incorrect?

True ➨ Correct the IP address in the System Setup, and read out the con-

troller status using the READ CONTROLLER STATUS command

in FINS communications and correct any problems indicated.

20. Make sure that the node number and the last byte of the IP address are the

same and set other host IDs to 0, or change the address conversion meth-

od to use and IP address table or “both methods.”

10-5-2 FINS Communications Problems (SEND(090)/RECV(098)/

CMND(490))

Most of the initial steps in these procedures are in question form. Continue in

sequence until a “True” answer tells you to jump to a specified step or until you

are told to perform a specific action that corrects the problem. If performing

the action does not correct the problem, return to the beginning of the proce-

dure and start over.

1,2,3...

1. Refer to 10-6 Troubleshooting with Response Codes on page 207 and re-

move any causes of the problem discovered there before proceeding with

this procedure.

2. Is the control data for the instruction set incorrectly?

True ➨ Make sure that the FINS network address is not set to 0 for the

Ethernet Unit and check the network address, node number and

unit address.

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Troubleshooting Procedures

Section 10-5

3. Is a CMND(194) instruction being addressed to the local node, e.g. for

socket services?

True ➨ Go to 10-5-6 Network Connection Problems on page 203.

4. Are different UDP port numbers set for FINS communications for both the

local node and the remote node?

True ➨ Set the same port number for both nodes.

5. Are the local and remote nodes both on the same network, i.e. do they

have the same network number in their IP addresses?

True ➨ Step 10.

6. Is the IP address of the remote node missing from the IP address table?

True ➨ Set the IP address of the remote node in the local IP address table.

(Note: Use of the IP address table must be set in the mode settings

for the IP address table to be effective.)

7. Is the IP address of the remote node missing from the IP router table?

True ➨ Set the network number of the remote node in the IP router table.

(With CJ-series Ethernet Units, it is possible to set a default IP

router.)

8. Are the FINS network addresses of the local and remote nodes different?

True ➨ Set both nodes to the same FINS network address.

9. Are you attempting a broadcast transmission?

True ➨ Do not attempt to broadcast to a node with a different network

number. You can broadcast only to nodes on the same IP network.

10. Set the IP address of the remote node in the IP address table or use auto-

matic address conversion.

11. Are you attempting to communicate with a PC on another network?

True ➨ Go to 10-5-6 Network Connection Problems on page 203.

12. Are the routing tables set improperly?

True ➨ Set routing tables at the local node, target node, and any relay

nodes.

10-5-3 UDP Socket Problems

Most of the initial steps in these procedures are in question form. Continue in

sequence until a “True” answer tells you to jump to a specified step or until you

are told to perform a specific action that corrects the problem. If performing

the action does not correct the problem, return to the beginning of the proce-

dure and start over.

General Problems

1,2,3...

1. Go through the procedure in 10-5-2 FINS Communications Problems

(SEND(090)/RECV(098)/CMND(490)) before starting this procedure.

2. Is the response code a value other than 0000?

True ➨ Go to 10-6 Troubleshooting with Response Codes on page 207.

3. Is the response code in the results storage area a value other than 0000?

True ➨ Go to 10-7 Results Storage Area Response Codes on page 210.

(There will be no response code in the results storage area if Sock-

et Service Request Switches are being used.)

4. Go to 10-5-6 Network Connection Problems on page 203.

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Troubleshooting Procedures

Section 10-5

Opening and Closing

Problems

Refer to General Problems on page 199.

Reception Problems

1,2,3...

1. Is reception processing finishing?

True ➨ Step 10.

2. Is the remote node not processing to send data?

True ➨ Adjust the remote node to process send data.

3. Read controller status using the FINS command READ CONTROLLER

STATUS.

4. Have any reception errors occurred?

T r ue ➨ There may be noise affecting the network. Increase the number of

retries or take measures against noise as described in Appendix

A Network Installation or 3-6-4 Connecting the Power Supply

(CS1W-ETN01 Only).

5. Read memory status using the FINS command READ MEMORY STATUS.

6. Is the network memory being used more than 80%?

True ➨ There may be too much load on the Ethernet Unit. If the memory

exhaustion records show counts, UDP data may be corrupted.

Check your applications.

7. Read protocol status using the FINS command READ PROTOCOL STA-

TUS.

8. Are any of the first three items in the status being counted?

True ➨ The UDP protocol of the remote node may not be compatible with

that of the Ethernet Unit. Use another communications service.

9. Check the remote node for transmission problems using the next proce-

dure. If nothing is uncovered, go to 10-5-6 Network Connection Problems

on page 203.

10. Return to the procedure for general problems.

Transmission Problems

1,2,3...

1. Is send processing not finishing?

True ➨ Return to the procedure for general problems.

2. Read protocol status using the FINS command READ PROTOCOL STA-

TUS.

3. Have any failures to reach the destination been counted in the ICMP sta-

tus?

True ➨ The UDP socket specified by the destination UDP port number in

the send parameters is not opening at the remote node.

4. Read controller status using the FINS command READ CONTROLLER

STATUS.

5. Have any send errors occurred?

True ➨ There may be too much traffic on the network and UDP packets

may be getting corrupted. Use TCP sockets or adjust the network

to reduce excessive traffic.

6. Check the reception status on the remote node.

7. Return to the procedure for general problems.

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Troubleshooting Procedures

Section 10-5

10-5-4 TCP Socket Problems

Most of the initial steps in these procedures are in question form. Continue in

sequence until a “True” answer tells you to jump to a specified step or until you

are told to perform a specific action that corrects the problem. If performing

the action does not correct the problem, return to the beginning of the proce-

dure and start over.

General Problems

1,2,3...

1. Go through the procedure in 10-5-2 FINS Communications Problems

(SEND(090)/RECV(098)/CMND(490)) before starting this procedure.

2. Is the response code a value other than 0000?

True ➨ Go to 10-6 Troubleshooting with Response Codes on page 207.

3. Is the response code in the results storage area a value other than 0000?

True ➨ Go to 10-7 Results Storage Area Response Codes on page 210.

(There will be no response code in the results storage area if Sock-

et Service Request Switches are being used.)

4. Read controller status using the FINS command READ CONTROLLER

STATUS.

5. Have any send collisions occurred?

True ➨ There may be too much traffic going on the network. Reduce net-

work traffic.

6. Go to 10-5-6 Network Connection Problems on page 203.

Opening Problems

1,2,3...

1. Are you attempting an active open?

True ➨ Step 3.

2. Is the passive open not finishing?

True ➨ Use an active open at the remote node.

3. Is the response code in the results storage area a value other than 0049?

True ➨ Step 6.

4. Read socket status using the FINS command READ SOCKET STATUS.

5. Does the port number being used exist at the local node?

True ➨ Make sure that the same port number is not being used simulta-

neously by more than one process, including FTP services.

Sockets can remain in ESTABLISHED or some later status even if

closed; be sure to close ports from both sides of the connection.

A socket can remain open in TIME WAIT status for up to one

minute on the side that closes the socket first; we recommend that

the active-side port number be set to 0 and that you close the

socket from the active side. If you are using the Socket Service Re-

quest Switches, check the response code to see if it is 0049 Hex.

6. Return to General Problems on page 199.

Closing Problems

Refer to General Problems on page 199.

Reception Problems

1,2,3...

1. Is reception processing not finishing?

True ➨ Step 6.

2. Is the remote node not processing to send data?

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Troubleshooting Procedures

Section 10-5

True ➨ Adjust the remote node to process send data.

3. Read memory status using the FINS command READ MEMORY STATUS.

4. Is the network memory being used more than 80%?

True ➨ There may be too much load on the Ethernet Unit. If the memory

exhaustion records show counts, processing may be slow. Check

your applications.

5. Return to the procedure for general problems.

6. Is the response code in the results storage area a value other than 0000?

(If you are using the Socket Service Request Switches, check the re-

sponse code to see if it is other than 0000 Hex.)

True ➨ Return to the procedure for general problems.

7. Is the number of bytes received in the results storage area 0?

True ➨ The remote node’s TCP socket has closed. Close the local socket.

Transmission Problems

1,2,3...

1. Is send processing finishing?

True ➨ Return to the procedure for general problems.

2. Read socket status using the FINS command READ SOCKET STATUS.

3. Is there the maximum number of bytes in the send queue (4,096 bytes)?

True ➨ Make sure that reception processing is being performed at the re-

mote note.

10-5-5 FTP Service Problems

Most of the initial steps in these procedures are in question form. Continue in

sequence until a “True” answer tells you to jump to a specified step or until you

are told to perform a specific action that corrects the problem. If performing

the action does not correct the problem, return to the beginning of the proce-

dure and start over.

Connection Problems

1,2,3...

1. Are you unable to connect to the Ethernet Unit’s FTP server?

True ➨ Step 5.

2. If the FTP indicator lit?

True ➨ The FTP server is connected to another client. Wait until the client

has finished.

3. Are the parameter settings in the host computer incorrect?

True ➨ Correct the computer settings. Refer to the documentation for your

computer.

4. Go to 10-5-6 Network Connection Problems on page 203.

5. Are you unable to log in?

True ➨ Check the login name and password settings.

6. Is a Memory Card being used?

True ➨ Step 11.

7. Can you display the EM directory using lsfrom the host computer?

True ➨ End.

8. Have specified banks of the EM Area been converted to EM File Memory?

True ➨ Step 9.

9. Has the EM File Memory been initialized?

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Troubleshooting Procedures

Section 10-5

True ➨ Replace the CPU Unit.

10. Initialize the EM File Memory from the CX-Programmer or other Program-

ming Device.

11. Can you display the MEMCARD directory using lsfrom the host comput-

er?

True ➨ End.

12. Is a Memory Card not inserted in the PC?

True ➨ Insert a Memory Card.

13. Is the Memory Card faulty?

True ➨ Initialize the Memory Card. If the problem persists, replace the

Memory Card if necessary.

File Transfer Problems

1,2,3...

1. Are you not connected to the FTP server?

True ➨ Return to the previous procedure.

2. Is the current directory not MEMCARD or EM?

True ➨ Make MEMCARD or EM the current directory (execute cd /MEM-

CARDor cd /EM).

3. Can you execute get?

True ➨ Step 6.

4. Is the file you are attempting to get not actually on the Memory Card?

True ➨ Designate a file actually in the file system.

5. Return to 10-5-1 Startup Problems on page 197.

6. Can you execute put?

True ➨ Step 9.

7. Is there insufficient free space available in the file system?

True ➨ Delete unneeded files or use a different Memory Card.

8. Return to 10-5-1 Startup Problems on page 197.

9. Is the data in the file transferred with putor getnormal (i.e., not corrupt-

ed)?

True ➨ End

10. Use the typecommand and change the file data type to binary before ex-

ecuting putor get.

10-5-6 Network Connection Problems

Most of the initial steps in these procedures are in question form. Continue in

sequence until a “True” answer tells you to jump to a specified step or until you

are told to perform a specific action that corrects the problem. If performing

the action does not correct the problem, return to the beginning of the proce-

dure and start over.

1,2,3...

1. Go through the procedure in 10-5-1 Startup Problems before starting this

procedure.

2. Go to step 6. for the CS1W-ETN11 or CJ1W-ETN11.

3. Is the P/S indicator lit?

True ➨ Step 6.

4. Is a 24-VDC power supply connected?

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Section 10-5

True ➨ Replace the following items in order to remove the faulty part:

Power supply cable, Power Supply Unit, Ethernet Unit.

5. Connect a 24-VDC power supply.

6. Is the power supply indicator lit on the transceiver?

True ➨ Step 9.

7. Is the transceiver cable loose?

True ➨ Connect the cable firmly.

8. Replace the following components one at a time in the order given and dis-

card any faulty ones: transceiver cable, transceiver, Ethernet Unit.

9. Execute pingat each node for all nodes on the network to see if commu-

nications are possible.

10. Was not even one response received at every node in the network?

True ➨ Check terminators, the coaxial cable, and transceiver cables.

11. Were responses not received only between certain nodes?

True ➨ Make sure the distance between transceivers on the coaxial cable

is a multiple of 2.5 m.

Check IP address settings.

Make sure that the remote node supports ICMP.

12. Is an FTP client not mounted on the remote node?

True ➨ Mount an FTP client.

13. Are you using FINS communications (e.g., SEND(090), RECV(098), or

CMND(490))?

True ➨ Do an internode test.

14. Read protocol status using the FINS command READ PROTOCOL STA-

TUS and check the following parameters in the returned status data. If any

of these items have actually been counted, the remote node may not sup-

port the relevant service.

IP (all communications): Items 2 through 6

ICMP (PING): Items 5 through 8

TCP (FTP and TCP sockets): Items 4 through 6 under reception status

UDP (FINS and UDP sockets): Items 1 through 3

If item 4, 8, or 9 under the IP status is being counted, there may be too

much traffic through the Ethernet Unit. Check your user applications.

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Troubleshooting Procedures

Section 10-5

10-5-7 Mail Problems

Most of the initial steps in these procedures are in question form. Continue in

sequence until a “True” answer tells you to jump to a specified step or until you

are told to perform a specific action that corrects the problem. If performing

the action does not correct the problem, return to the beginning of the proce-

dure and start over.

1,2,3...

1. Is the ERH indicator lit?

True ➨ Correct mistakes in the Setup

Correct the SMTP server address (it is set to 255.255.255.255 or

127.*.*.*).

Correct the local mail address.

Correct the notification destination mail address.

2. Is notification given for user mail?

True ➨ Step 9.

3. Is the user mail send status “7”?

True ➨ Correct mistakes in the Setup

Correct the SMTP server address (it is set to 0.0.0.0).

Correct the user mail send information settings (the user data, er-

ror log information, or status data is not set in the send informa-

tion).

4. Is the user mail send status “0”?

True ➨ Turn ON the Send Mail Switch from the user program. (The Send

Mail Switch has not been turned ON since power was turned ON

or since the Unit was restarted.)

5. Is the user mail send status “6”?

True ➨ Check the communications path.

Correct the SMTP server address.

Correct the IP router table.

Something is blocking communications or equipment on the com-

munications path is not set correctly.

6. Is the destination mail address incorrectly set?

True ➨ Correct the destination mail address in the Setup. (Error mail will

be held at the SMTP server if the destination mail address is incor-

rect. Be sure the send destination mail address is set correctly.)

7. Is required information missing from the mail data?

True ➨ Correct the mail send information settings in the Setup (the user

data, error log information, or status data is not set in the send in-

formation).

8. Was it impossible to obtain the required information from the mail data?

True ➨ Correct the following errors.

Correct the user-generated mail address.

Check the user application to be sure that there is not too much

traffic at the Ethernet Unit.

9. Is notification given for recurring mail?

True ➨ Step 16.

10. Is the send status for recurring mail “7”?

True ➨ Correct mistakes in the Setup

Correct the SMTP server address (it is set to 0.0.0.0).

Correct the recurring mail send information settings (the user data,

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Troubleshooting Procedures

Section 10-5

error log information, or status data is not set in the send informa-

tion).

11. Is the send status for recurring mail “0”?

True ➨ If sending recurring mail is not set in the Setup, make the proper

settings.

If sending recurring mail is set in the Setup, go to Step 24.

12. Is the send status for recurring mail “6”?

True ➨ Check the communications path.

Correct the SMTP server address.

Correct the IP router table.

Something is blocking communications or equipment on the com-

munications path is not set correctly.

13. Is the destination mail address incorrectly set?

True ➨ Correct the destination mail address in the Setup. (Error mail will

be held at the SMTP server if the destination mail address is incor-

rect. Be sure the send destination mail address is set correctly.)

14. Is required information missing from the mail data?

True ➨ Correct the mail send information settings in the Setup (the user

data, error log information, or status data is not set in the send in-

formation).

15. Was it impossible to obtain the required information from the mail data?

True ➨ Correct the following errors.

Correct the user-generated mail address.

Check the user application to be sure that there is not too much

traffic at the Ethernet Unit.

16. Is notification given for error mail?

True ➨ End

17. Is the send status for error mail “7”?

True ➨ Correct mistakes in the Setup

Correct the SMTP server address (it is set to 0.0.0.0).

Correct the error mail send information settings (the user data, er-

ror log information, or status data is not set in the send informa-

tion).

18. Is the send status for error mail “0”?

True ➨ If sending error mail is not set in the Setup, make the proper set-

tings.

If sending error mail is set in the Setup, no system errors have oc-

curred and the system should be operating correctly.

19. Is the send status for error mail “6”?

True ➨ Check the communications path.

Correct the SMTP server address.

Correct the IP router table.

Something is blocking communications or equipment on the com-

munications path is not set correctly.

20. Is the destination mail address incorrectly set?

True ➨ Correct the destination mail address in the Setup. (Error mail will

be held at the SMTP server if the destination mail address is incor-

rect. Be sure the send destination mail address is set correctly.)

21. Is required information missing from the mail data?

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Troubleshooting with Response Codes

Section 10-6

True ➨ Correct the mail send information settings in the Setup (the user

data, error log information, or status data is not set in the send in-

formation).

22. Was it impossible to obtain the required information from the mail data?

True ➨ Correct the following errors.

Correct the user-generated mail address.

Check the user application to be sure that there is not too much

traffic at the Ethernet Unit.

23. End

24. Check the setting of the mail send timing in the Setup. The timing may not

be set or may be set longer than intended.

10-6 Troubleshooting with Response Codes

You can troubleshoot the errors in FINS communications from the response

codes when the SEND(090), RECV(098), or CMND(490) instructions have

been used. For the storage areas of the response codes refer to information

on page 90.

The table below lists response codes (main and sub-codes) returned after

execution of FINS commands, the probable cause of errors, and recom-

mended remedies. The response codes provided here are for the Ethernet

Unit. Refer to the FINS Command Reference Manual (W227) or the operation

manuals for the relevant Unit for further information on response codes.

The 6th, 7th, and 15th bits of the response codes have specific functions. The

6th bit will be ON when a non-fatal error has occurred in the PC at the remote

node; the 7th bit will be ON when a fatal error has occurred in the PC at the

remote node; and the 15th bit will be ON when a network relay error has

occurred. Refer to information given after the following table for more informa-

tion on relay errors.

15 14 13 12 11 10

Bit

Main response code

Sub response code

1: PC Non-fatal Error Flag

1: PC Fatal Error Flag

1: Relay Error Flag

Main code

Sub-

code

Probable cause

Remedy

00: Normal com- 00

pletion

---

Send error in local node was caused by

---

01: Local node

error

Reduce the load (traffic) on the Ethernet Unit.

lack of available space in internal buffers. Check your user applications.

The network cannot be accessed because Correct the local IP address.

the IP address setting is not correct.

The internal buffers are full because there Correct the user application to reduce traffic at

is too much traffic at the local node, pre-

venting data from being sent.

the Ethernet Unit.

207

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Troubleshooting with Response Codes

Section 10-6

Main code

Sub-

code

Probable cause

Remedy

Set IP address of remote node into IP address

02: Remote node 01

error

IP address of remote node not set cor-

rectly in IP address table or IP router table. table and, if internetwork transmission is

required, into the IP router table.

No node with the specified unit address.

Check the remote node’s unit address and

make sure the correct one is being used in the

control data.

Message packet was corrupted by trans-

mission error.

Check the protocol and controller status by

reading them with FINS commands. Increase

the number of transmit retry attempts.

Response time-out, response watchdog

timer interval too short.

Increase the value for the response monitor

time in the control data.

The transmission frame may be corrupted Read out the error log and correct as required.

or the internal reception buffer full.

03: Communica- 01

tions controller

Error occurred in the communications con- Take corrective action, referring to troubleshoot-

troller, ERC indicator is lit.

ing procedures in this section.

error

CPU Unit error occurred in the PC at the

remote node.

Check CPU Unit indicators at the remote node

and clear the error in the CPU Unit (refer to the

PC’s operation manuals)

Unit number setting error

Make sure the unit number is within the speci-

fied range and that the same unit number is not

used twice in the same network.

04: Not execut-

able

An undefined command has been used.

Check the command code and be sure the

command is supported by the Unit to which you

are sending it.

(Service not sup-

ported.)

A short frame (4 bytes) is being used for

the FINS header frame.

Check the FINS header frame length. The

Ethernet Unit does not support short headers.

05: Routing error 01

Remote node is not set in the routing

tables.

Set the destination address in the routing

tables.

Routing tables aren’t registered com-

pletely.

Set routing tables at the local node, remote

node, and any relay nodes.

Routing table error

Set the routing tables correctly.

The maximum number of relay nodes (2)

was exceeded in the command.

Redesign the network or reconsider the routing

table to reduce the number of relay nodes in the

command. Communications are possible on

three network levels, including the local net-

work.

10: Command for- 01

mat error

The command is longer than the max. per- Check the command format of the command

missible length.

and set it correctly. Be sure broadcast transmis-

sions don’t exceed 1,473 bytes.

The command is shorter than min. permis- Check the command format of the command

sible length. and set it correctly.

The designated number of data items dif- Check the number of items and the data, and

fers from the actual number in the com-

mand data.

make sure that they agree.

Data for another node on the same net-

work was received from the network.

Check the header parameters in the command

data and be sure the correct command format

is being used.

An attempt was made to send response

data for a broadcast address.

208

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Troubleshooting with Response Codes

Section 10-6

Main code

Sub-

code

Probable cause

Remedy

11: Parameter

error

The parameters in the command data are Check the parameters.

incorrect.

The UDP/TCP socket number was not

within the proper range.

Be sure the socket number is between 1 and 8.

Set the Local UDP port number correctly.

The local UDP port number might be set to

A correct memory area code has not been Check the command’s memory area code in the

used or EM Area is not available.

Results Storage Area and set the appropriate

code.

The first word is in an inaccessible area or Set a first word that is in an accessible area.

the bit number is not 00.

The bit number must be 00 for Ethernet Units.

The address set in the command is not

correct.

Correct the address in the command data,

being sure that the start address plus the num-

ber of words does not exceed accessible mem-

ory.

The response frame is too long.

Correct the number of data elements or other

parameters in the command data for which the

response is being returned.

Parameters are set incorrectly in the com- Check the command data and correct any

mand data.

parameters that are incorrect.

22: Status error

(operating mode

disagreement)

The same socket service is already in

progress at the specified socket number.

Use the socket status flag in PC memory to be

sure that socket service has finished before

starting services again.

The specified socket is not open.

Open the socket. For TCP sockets, be sure to

wait until connection is made.

The internal buffers are full because there Correct the user application to reduce traffic at

is too much traffic at the local node, pre-

venting data from being sent.

the Ethernet Unit.

23: Environment

error (no such

Unit)

IP address conversion failed.

Check the IP address and subnet mask in the

System Setup and be sure that settings are cor-

rect.

IP address conversion is set for automatic Check the mode settings in the System Setup.

conversion only.

This error will be generated for the READ IP

ADDRESS TABLE command only.

Network Relay Errors

For network relay errors using SEND(090) or RECV(098), check the path of

the command using the routing tables and the nature of the error using the

response code to eliminate the cause of the error.

For network relay errors using CMND(490), the location of the relay error is

recorded in the second through third words of the response, as shown below.

1st byte

2nd byte

15 14 13 12 11 10

Bit

First word

Command code

15 14 13 12 11 10

Bit

Main response code (MRES)

Sub response code (SRES)

Second word

1: PC Non-fatal Error Flag

1: PC Fatal Error Flag

1: Relay Error Flag

15 14 13 12 11 10

Error network address

Bit

Third word

Error node number

209

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Results Storage Area Response Codes

Section 10-7

10-7 Results Storage Area Response Codes

The response codes stored in the Results Storage Area can be used to trou-

bleshoot socket service problems. Refer to 6-2 Using Socket Services with

Socket Service Request Switches or 6-3 Using Socket Services with

CMND(490) for the location of the response codes stored in the Results Stor-

age Area.

The UNIX socket service error messages corresponding to the response

codes are given in the following table. Refer to the documentation for the

devices involved when communicating between an Ethernet Unit and other

devices.

Response

code

UNIX error

message

Description

Probable remedy

0003

0006

0009

ESRCH

No such process

Close the local socket and try reopening it.

ENXIO

EBADF

No such device or address

Bad file number (incorrect socket

specification)

000D

EACCES

Permission denied

Check the IP address of the remote node and

try to reconnect.

(Broadcast address specified for

remote IP address for active TCP

open)

000E

EFAULT

Bad address (copy failed between

kernel and user area)

Close the local socket and try reopening it.

0011

0016

EEXIST

EINVAL

File exists

Invalid argument (socket library

argument error)

0018

0020

003C

EMFILE

EPIPE

Too many open files (More than 32

sockets)

Broken pipe (remote node closed

socket)

Close the local socket.

EPROTONO-

SUPPORT

Protocol not supported (protocol

other than UDP, TCP, or RAW speci-

fied)

Close the local socket and try reopening it.

003D

003E

EPROTOTYPE

ENOBUFS

Protocol wrong type for socket

No buffer space available

There is too much load (traffic) on the Ethernet

Unit. Check your user applications.

003F

0040

0041

EISCONN

Socket is already connected (con-

nection attempted to open socket)

Close the local socket and try reopening it.

ENOTCONN

EALREADY

Socket is not connected (send

attempted to closed socket)

Operation already in progress (con-

nection attempted to existing non-

block connection)

0042

EMSGSIZE

Message too long

Check the length of send data.

UDP or TCP: 1 to 1,982 bytes

UDP broadcasts: 1 to 1,472 bytes

210

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Results Storage Area Response Codes

Section 10-7

Response

code

UNIX error

message

Description

Probable remedy

0043

0044

0045

0046

EDESTADDRREQ Destination address required (desti- Close the local socket and try reopening it.

nation address not specified)

ENOPROTOOPT

Protocol not available (unsupported

option specified)

ECONNABORTED Software caused connection abort

(another task closed socket)

EINPROGRESS

Operation now in progress (non-

block connection ended during pro-

cessing)

0047

0048

0049

ENOTSOCK

Socket operation on non-socket

Operation not supported on socket

EOPNOTSUPP

EADDRINUSE

Address already in use (UDP or

TCP open request sent for port

already in use)

Check the port number.

TCP ports can remain unusable for 1 min after

closing.

004A

ECONNREFUSED Connection refused (TCP socket

Passively open a remote TCP socket, checking

(active open) processing refused by the remote IP address and remote TCP port

remote node)

number.

004B

004C

004D

004E

004F

ECONNRESET

Connection reset by peer (TCP

socket closed by remote node)

Close the local socket and try reconnecting.

EADDRNOTAVAIL Can’t assign requested address

(mistake in remote IP address)

Check the setting of the remote IP address and

try reconnecting.

EAFNOSUPPORT Address family not supported by

protocol family

Close the local socket and try reopening it.

ENETUNREACH

Network is unreachable

Set the path to the remote node in the IP router

table.

EHOSTDOWN

Host is down

Check the remote host and communications

path.

0050

0051

EWOULDBLOCK

Operation would block

Close the local socket and try reopening it.

EHOSTUNREACH No route to host

The specified node does not exist on the desig-

nated IP network segment. Check the commu-

nications path.

0053

0063

0066

ETIMEDOUT

ESELABORT

(None)

Connection timed out (TCP timed

out)

Check the remote host and communications

path.

Used for internal Ethernet Unit pro- Close the local socket and try reopening it.

cessing

Internal memory cannot be allocated Traffic is too high at the Ethernet Unit. Correct

for processing; the service cannot

be provided.

the user application to reduce traffic at the

Ethernet Unit.

0080

(None)

Timed out for passive TCP open

request

Either the remote node is not executing an

active TCP open or there is a block on the net-

work.

0081

0082

(None)

Closed by close command during

socket servicing

No action is necessarily called for.

Connection with remote node not

achieved for passive TCP open

request

The remote IP address and TCP port number

settings differ from those of the remote socket

(active side).

211

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SECTION 11

FINS Commands Addressed to Ethernet Units

This section describes the FINS commands that can be sent to an Ethernet Unit and the responses that are returned by the

Ethernet Unit.

11-1 Command Codes and Response Codes. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-1-1 Command Code List. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-1-2 Response Code List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-2 Socket Applications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-2-1 Format. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-2-2 PC Memory Areas . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3 Command/Response Reference . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3-1 RESET . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3-2 CONTROLLER DATA READ. . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3-3 CONTROLLER STATUS READ. . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3-4 INTERNODE ECHO TEST. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3-5 BROADCAST TEST RESULTS READ . . . . . . . . . . . . . . . . . . . . .

11-3-6 BROADCAST DATA SEND . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3-7 ERROR LOG READ . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3-8 ERROR LOG CLEAR . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3-9 UDP OPEN REQUEST . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3-10 UDP RECEIVE REQUEST . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3-11 UDP SEND REQUEST . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3-12 UDP CLOSE REQUEST . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3-13 PASSIVE TCP OPEN REQUEST . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3-14 ACTIVE TCP OPEN REQUEST. . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3-15 TCP RECEIVE REQUEST . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3-16 TCP SEND REQUEST. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3-17 TCP CLOSE REQUEST . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3-18 PING. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3-19 IP ADDRESS TABLE WRITE . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3-20 IP ADDRESS WRITE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3-21 IP ADDRESS TABLE READ . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3-22 IP ROUTER TABLE READ . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3-23 PROTOCOL STATUS READ . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3-24 MEMORY STATUS READ . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3-25 SOCKET STATUS READ . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

11-3-26 ADDRESS INFORMATION READ . . . . . . . . . . . . . . . . . . . . . . . .

11-3-27 IP ADDRESS READ . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .

214

215

216

217

218

219

220

221

223

224

225

227

228

231

232

234

235

236

237

238

239

240

241

245

247

248

249

213

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Command Codes and Response Codes

Section 11-1

11-1 Command Codes and Response Codes

11-1-1 Command Code List

The command codes listed in the following table can be sent to an Ethernet

Unit.

Command code

MRC SRC

Name

Page

RESET

CONTROLLER DATA READ

CONTROLLER STATUS READ

INTERNODE ECHO TEST

BROADCAST TEST RESULTS READ 221

BROADCAST DATA SEND

ERROR LOG READ

ERROR LOG CLEAR

UDP OPEN REQUEST

UDP RECEIVE REQUEST

UDP SEND REQUEST

UDP CLOSE REQUEST

PASSIVE TCP OPEN REQUEST

ACTIVE TCP OPEN REQUEST

TCP RECEIVE REQUEST

TCP SEND REQUEST

TCP CLOSE REQUEST

PING

IP ADDRESS TABLE WRITE

IP ADDRESS WRITE (CJ Series only) 238

IP ADDRESS TABLE READ

IP ROUTER TABLE READ

248

249

PROTOCOL STATUS READ

MEMORY STATUS READ

SOCKET STATUS READ

ADDRESS INFORMATION READ

IP ADDRESS READ (CJ Series only)

11-1-2 Response Code List

Response codes are 2-byte codes which indicate the results of command

execution. They are returned in the response following the command code.

The first byte of a response code is the MRES (main response code), which

categorizes the results of command execution. The second byte is the SRES

(sub-response code) which specifies the results.

MRC: Main request code

Command Response

code code

SRC: Sub-request code

MRES: Main response code

SRES: Sub-response code

MRC SRC MRES SRES

214

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Socket Applications

Section 11-2

The MRES codes are shown in the following table along with the results they

indicate. Refer to 10-6 Troubleshooting with Response Codes for details on

response codes including the SRES.

MRES

Execution results

Normal completion

Local node error

Remote node error

Unit error (controller error)

Service not supported

Routing error

Command format error

Parameter error

Status error

Operating environment error

Unit error

11-2 Socket Applications

The format of the following FINS commands partially differs when the sockets

are used.

Command code

MRC SRC

Name

Page

UDP OPEN REQUEST

234

235

UDP RECEIVE REQUEST

UDP SEND REQUEST

UDP CLOSE REQUEST

PASSIVE TCP OPEN REQUEST

ACTIVE TCP OPEN REQUEST

TCP RECEIVE REQUEST

TCP SEND REQUEST

TCP CLOSE REQUEST

11-2-1 Format

The basic format of these commands is shown in the diagram below.

Number of bytes from the

beginning of the frame

Command

code

Socket

number

Results storage area

Parameters

Command Code

Socket Number

Specifies the requested process.

Specifies the socket number for which the process is requested, from 1 to 8.

Specifies the area to store the results of the requested process.

Results Storage Area

Parameters

Specifies the parameters for the command code. Parameters depend on the

command being executed; for details, refer to the following pages.

215

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Socket Applications

Section 11-2

11-2-2 PC Memory Areas

The memory areas of the PC that can be specified for results storage when

executing commands from the PC are listed in the table below. The Variable

type is set in the first byte of the results storage area. The remaining three

bytes contain the address for communications.

Addresses in the Addresses for communications column are not the same as

the actual memory addresses.

Memory

area

Data type

Word addresses

Addresses for

communications

Variable Bytes

type

Bit Areas

Current

value of

word

CIO

CIO 0000 to CIO 6143

H000 to H511

000000 to 17FF00

000000 to 01FF00

01C000 to 03BF00

000000 to 7FFF00

B0 (80)*

A448 to A959

DM Area

EM Area

D00000 to D32767

Bank 0

Bank 1

Bank 2

Bank 3

Bank 4

Bank 5

Bank 6

Bank 7

Bank 8

Bank 9

Bank A

Bank B

Bank C

E0_E00000 to E0_E32765 000000 to 7FFF00

E1_E00000 to E1_E32765 000000 to 7FFF00

E2_E00000 to E2_E32765 000000 to 7FFF00

E3_E00000 to E3_E32765 000000 to 7FFF00

E4_E00000 to E4_E32765 000000 to 7FFF00

E5_E00000 to E5_E32765 000000 to 7FFF00

E6_E00000 to E6_E32765 000000 to 7FFF00

E7_E00000 to E7_E32765 000000 to 7FFF00

E8_E00000 to E8_E32765 000000 to 7FFF00

E9_E00000 to E9_E32765 000000 to 7FFF00

EA_E00000 to EA_E32765 000000 to 7FFF00

EB_E00000 to EB_E32765 000000 to 7FFF00

EC_E00000 to EC_E32765 000000 to 7FFF00

A0 (90)*

A1 (91)*

A2 (92)*

A3 (93)*

A4 (94)*

A5 (95)*

A6 (96)*

A7 (97)*

Current bank

E00000 to E32765

000000 to 7FFF00

Note The variable types (area designations) given in parentheses can also be

used, allowing CV-series or CVM1 programs to be more easily corrected for

use with CS/CJ-series PCs.

Word and Bit Addresses

Three bytes of data are used to express data memory addresses of PCs. The

most significant two bytes give the word address and the least significant byte

gives the bit number between 00 and 15. The word address combined with

the bit number expresses the bit address. The bit number is always 00

because Ethernet Units can handle only word data, i.e., individual bits cannot

be addressed.

Word

Bit

Word addresses for specific memory area words can be calculated by con-

verting the normal decimal word address to hexadecimal and adding it to the

first word in the Addresses for communications column in the above table. For

example, the address for communications for D00200 would be 0000 (from

above table) plus C8 (decimal 200 converted to hexadecimal), or 00C8.

216

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Command/Response Reference

Section 11-3

11-3 Command/Response Reference

This section describes the FINS commands that can be sent to Ethernet Units

and the responses to each command.

The command, response, and (where applicable) the results storage blocks

are given with the commands in graphic form as shown in the following dia-

gram. If the data is fixed, it is included in the blocks. If the data is variable, it is

described following the blocks. Each box represents 1 byte; every two boxes

represents 1 word. The following diagram shows 2 bytes, or 1 word.

Two bytes

The results storage format is the format used to store transfer results and data

for socket services requested with command codes 2701 to 2714.

Response codes applicable to the command are described at the end of the

command description. If any UNIX error codes are generated, these are also

described. Refer to your UNIX error symbol definition file /usr/include/sys/

errno.h for details. UNIX errors are returned in the results storage area.

Note Except for special cases, all send/receive data is in hexadecimal format.

11-3-1 RESET

Reset the Ethernet Unit.

Command Block

Command

code

Response Block

Precautions

Command Response

code code

No response will be returned if the command ends normally. A response will

be returned only if an error occurs.

In some cases, send requests (SEND(192)/RECV(193) instructions) made

from the PC to the Ethernet Unit just before execution of the RESET com-

mand may not be executed.

Except for the FINS communications service sockets, all open sockets (for

sockets services, FTP server, or mail transmission) are closed immediately

before resetting.

Response Codes

Response code

1001

Description

Command too large

217

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Command/Response Reference

Section 11-3

11-3-2 CONTROLLER DATA READ

Reads the following data from the Ethernet model, version, IP address, sub-

net mask, FINS UDP port number, mode settings, Ethernet address.

Command Block

Command

code

Response Block

20 bytes

4 bytes

6 bytes

Command Response Model

Version IP address Subnet FINS UDP

Mode

Ethernet

address

code

mask port number setting

Parameters

Model, Version

(Response)

The Ethernet Unit mode and version are returned as ASCII characters occu-

pying 20 bytes each (i.e., 20 characters each). If all bytes are not used, the

remaining bytes will be all spaces (ASCII 20 Hex).

Example Model:

Version:

CS1W-ETN01, CS1W-ETN11, CJ1W-ETN11

V1.00

IP Address, Subnet Mask

(Response)

The Ethernet Unit’s IP address and subnet mask are returned as 4 bytes

each.

FINS UDP Port Number

(Response)

The Ethernet Unit’s UDP port number for FINS is returned as 2 bytes.

Mode Setting (Response)

The mode setting in the system setup is returned.

Bit 15

Others all 0

Broadcast setting

IP address conversion

FINS UDP port number

designation

Broadcast Setting

0: All 1s for host number (4.3BSD specification)

1: All 0s for host number (4.2BSD specification)

IP Address Conversion

00, 01: Automatic generation

10:

11:

IP address table

Both methods (IP address table + automatic generation)

FINS UDP Port Number Designation

0: Default value (9600)

1: System setup value

Ethernet Address

(Response)

The Ethernet address of the Ethernet Unit is returned. The Ethernet address

is the address marked on the label on the side of the Ethernet Unit.

Response Codes

Response code

0000

1001

Description

Normal

Command too large

218

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Command/Response Reference

Section 11-3

11-3-3 CONTROLLER STATUS READ

Reads the controller status.

Command Block

Command

code

Response Block

2 bytes

4 bytes

Total

4 bytes

Total

4 bytes

Total

4 bytes

Total

4 bytes

Total

Command Response

code

Error flags

code

number of number of number of number number

packets

received

receive

errors

packets

sent

of errors of send

sent collisions

Parameters

Error Flags (Response)

Indicates the operating status and errors that occurred when the Ethernet Unit

was started.

15 14 13 12 11 10

Bit 01: Transceiver echo test error (CS1W-ETN01 only)

Bit 02: IP address error

Bit 03: IP address table error

Bit 04: IP router table error

Bit 06: Routing table error

Bit 07: Transceiver error (CS1W-ETN01 only)

Bit 08: Internode test flag (OFF: Test stopped, ON: Test running)

Bit 14: Address mismatch

Bit 15: EEPROM error

The cause of each error is listed below.

Transceiver Echo Test Error (CS1W-ETN01 only)

An error occurred during the self diagnostic testing after the Unit was turned

on or reset.

Note If this bit turns ON for the CS1W-ETN11 or CJ1W-ETN11, the Ether-

net Unit has malfunctioned.

IP Address Error

All bits for the network number or host number are set to 0 or 1.

IP Address Table Error

More than 32 records exist in the IP address table.

IP Router Table Error

More than 8 records exist in the IP router table.

Routing Table Error

Local network table contains 0 or more than 16 records.

Relay network table contains more than 20 records.

Transceiver Error (CS1W-ETN01 Only)

The transceiver cable is disconnected or the transceiver is defective.

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Command/Response Reference

Section 11-3

Note If this bit turns ON for the CS1W-ETN11 or CJ1W-ETN11, the Ether-

net Unit has malfunctioned.

Address Mismatch

The address conversion method was set for automatic generation, but the

node number and the last byte of the local IP address do not agree, or other

host sections are 0.

EEPROM Error

An error occurred in the EEPROM memory in the Ethernet Unit.

Total Number of Packets

Received (Response)

The total number of packets received by the Ethernet Unit is returned.

Total Number of Receive

Errors (Response)

The total number of errors detected while the Ethernet Unit was receiving is

returned. The types of error detected are short packet errors, alignment

errors, and CRC errors.

Total Number of Packets

Sent (Response)

The total number of packets sent by the Ethernet Unit is returned.

Total Number of Errors

Sent (Response)

The total number of packet errors detected while the Ethernet Unit was send-

ing is returned.

Total Number of Send

Collisions

The number of packets damaged by 16 collisions with data from other nodes

during Ethernet Unit transmissions.

Precautions

Counting of the total number of packets received, total number of receive

errors, total number of packets sent, total number of errors sent, and total

number of send collisions is discontinued when the counted value reaches the

maximum value.

Response Codes

Response code

0000

1001

Description

Normal

Command too large

11-3-4 INTERNODE ECHO TEST

Runs the echo test between specified nodes.

Command Block

Response Block

Parameters

1,998 bytes max.

Test data

Command

code

1,998 bytes max.

Test data

Command Response

code code

Test Data (Command,

Response)

This command specifies the data to be sent to the specified nodes. Up to

1,998 bytes can be specified. The response sends back data identical to the

data specified in the command. An abnormality is assumed if the data

returned in the response differs from the test data sent.

Precautions

The test destination node is the destination node specified in the CMND(194)

instruction operands.

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Command/Response Reference

Section 11-3

Always specify the unit address of the Ethernet Unit in the CMND(194)

instruction.

Response Codes

Response code

0000

Description

Normal

1001

1002

Command too large

Command too small (No test data)

11-3-5 BROADCAST TEST RESULTS READ

Reads the results (number of times data received) of the broadcast test.

Command Block

Command

code

Response Block

Parameters

Command Response Times

code code received

Times Received

(Response)

The number of times the data has been received normally during the broad-

cast send test is returned as a hexadecimal number. The number of times

received is cleared each time the result is read.

Response Codes

Response code

0000

1001

Description

Normal

Command too large

11-3-6 BROADCAST DATA SEND

Sends test data simultaneously to all nodes on the network.

Command Block

1,460 bytes max.

Test data

Command

code

Parameters

Test Data (Command)

This command specifies the data to be sent to the specified nodes. Up to

1,460 bytes can be specified.

Precautions

No response is made to this command.

When using this command, set the FINS header parameters (or the control

data for the CMND(194) instruction) as follows:

Destination node number:

Destination unit address:

Response/no response flag:

FF (broadcast data)

FE (Ethernet Unit)

1 (no response)

11-3-7 ERROR LOG READ

Reads the error log.

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Command/Response Reference

Section 11-3

Command Block

Command Beginning Number

code

record

number

records

Response Block

Parameters

10 bytes

Command Response

code code

Maximum Number

Number

records

Error log

data

Error log

data

number

of stored

records

of stored of

records

Beginning Record Number

(Command)

The first record to be read. The first record number can be specified in the

range between 0000 and 003F (0 to 63 decimal) where 0000 is the oldest

record.

Number of Records

(Command, Response)

The number of records to read is specified between 0001 and 0040 (1 to 64

decimal) in the command. The response returns the actual number of records

read.

Maximum Number of

Stored Records

(Response)

The maximum number of records that can be stored in the error log. Care is

required as the error log differs according to the type of PC or CPU Bus Unit.

In an Ethernet Unit, the maximum number of stored records is fixed at 40 (64

decimal).

Number of Stored

Records (Response)

The number of records stored at the time the command is executed is

returned.

Error Log Data

(Response)

The specified number of error log records from the beginning record number

is returned sequentially. The total number of bytes in the error log is calculated

as the number of records x 10 bytes/record. Each error log record thus com-

prises 10 bytes, configured as follows:

1st byte

10th byte

Error

code

Detailed

information

Month

Year

Hour

Day

Second

Minutes

Error Code, Detailed Information

Details of the error stored in the record. Refer to Section 10 Troubleshooting

for details.

Minute, Second, Day, Hour, Year, Month

Indicate the time at which the error stored in the record occurred.

Precautions

If the error log contains fewer records than the number specified in the num-

ber of records parameter, all records stored in the error log at the time the

command is executed will be returned and the command executed will end

normally.

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Command/Response Reference

Section 11-3

Response Codes

Response code

0000

Description

Normal

1001

1002

1103

110C

Command too large

Command too small

Beginning record number is out of range

The number of read records is 0.

11-3-8 ERROR LOG CLEAR

Clears the number of records stored in the Ethernet Unit error log.

Command Block

Response Block

Response Codes

Command

code

Command Response

code code

Response code

0000

1001

Description

Normal

Command too large

11-3-9 UDP OPEN REQUEST

Requests processing to open a socket.

Command Block

Command UDP

Results storage area

Local UDP

port number

code

socket

number

Response Block

Command Response

code code

Results Storage

Format

Results storage

response code

Parameters

UDP Socket Number

(Command)

The UDP socket number to be opened specified as 2 bytes between 1 and 8.

Results Storage Area

(Command)

The area in which the results of the command execution are stored. The first

byte specifies the memory area and data type (variable type). The 2nd to 4th

bytes specify the beginning address of the results storage area. Refer to

page 216 for details about the variable types and addresses that can be spec-

ified.

Local UDP Port Number

(Command)

The UDP port number for communications with the socket is specified as 2

bytes (0 cannot be specified). Packets received at this port are distributed to

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Command/Response Reference

Section 11-3

the socket specified in the UDP socket number, and send packets are distrib-

uted from the UDP socket to this port. The port number specified as the FINS

UDP port number (default value 9600) cannot be used.

Response Codes

Response code

0000

Description

Normal

0105

0302

1001

1002

1100

Local IP address setting error

CPU Unit error; execution not possible.

Command too large

Command too small

UDP socket number is out of range.

Local UDP port number is 0.

1101

1103

220F

2211

The variable type for the results storage area is out of range.

Non-zero bit address specified for the results storage area.

Specified socket is already open or is being closed.

High traffic at Unit; cannot execute service.

Results Storage Area Response Codes

Response code

Description

0000

003E

Normal

Internal buffer cannot be reserved due to high receive load

(ENOBUFS).

0049

Duplicate UDP port number (EADDRINUSE).

11-3-10UDP RECEIVE REQUEST

Requests that data be sent from a UDP socket.

Command Block

Command UDP

Results storage area

Number of Timeout

code

socket

number

reception

bytes

value

Response Block

Command Response

code code

Results Storage

Format

Received bytes

Received data

Results

Source IP

address

Source

Number of

storage

response

code

UDP port reception

number

bytes

Parameters

UDP Socket Number

(Command)

The UDP socket number to receive data specified as 2 bytes between 1 and

Results Storage Area

(Command)

The area in which the results of the command execution are stored. The first

byte specifies the memory area and data type (variable type). The 2nd to 4th

bytes specify the beginning address of the results storage area. Refer to

page 216 for details about the variable types and addresses that can be spec-

ified.

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Command/Response Reference

Section 11-3

Number of Reception

Bytes (Command, Results

Storage Area)

The maximum number of bytes of data to be received is given in the com-

mand. The number of bytes of data received will be stored in the results stor-

age area. Up to 1,984 bytes can be specified.

Timeout Value (Command)

The maximum control time between receiving the receive request and storing

the result. If this set time limit is exceeded, the code for a timeout error will be

set as the results storage response code. The value is set in units of 0.1 s.

The timeout time will be unlimited if the value is set to 0.

Source IP Address

(Results Storage Area)

The IP address of the node sending data.

The port number of the node sending data.

The data sent from the remote node.

Source UDP Port Number

(Results Storage Area)

Received Data (Results

Storage Area)

Precautions

If a packet is received which contains more bytes than the number specified in

Number of reception bytes specified in the command, the specified number of

bytes will be stored and the remainder of the bytes will be discarded.

Response Codes

Response code

0000

Description

Normal

0105

0302

1001

1002

1100

IP address setting error

CPU Unit error; execution not possible.

Command too large

Command too small

UDP socket number or number of reception bytes is out of

range.

1101

1103

220F

2210

2211

The variable type for the results storage area is out of range.

Non-zero bit address specified for the results storage area.

The specified socket is currently receiving data.

The specified socket is not open.

High traffic at Unit; cannot execute service.

Results Storage Area Response Codes

Response

code

Description

0000

003E

Normal

Internal buffer cannot be reserved due to high reception load

(ENOBUFS).

0066

0080

0081

Internal memory cannot be allocated; cannot execute service.

A receive request timeout error occurred.

The specified socket was closed while receiving data.

11-3-11UDP SEND REQUEST

Requests that data be received by a UDP socket.

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Command/Response Reference

Section 11-3

Command Block

1984 bytes max.

Send data

Command UDP

code socket

number

Results storage area

Destination IP

address

Destination

UDP port

number

Number of

bytes sent

Response Block

Command Response

code code

Results Storage

Format

Response Number of

code bytes sent

Parameters

UDP Socket Number

(Command)

The UDP socket number to send the data specified as 2 bytes between 1 and

Results Storage Area

(Command)

The area in which the result of the command execution is stored. The first byte

specifies the memory area and data type (variable type). The 2nd to 4th bytes

specify the beginning address of the results storage area. Refer to page 216

for details about the variable types and addresses that can be specified.

Destination IP Address

(Command)

The IP address of the node to which data is being sent.

Destination UDP Port

Number (Command)

The UDP port number of the node to which data is being sent.

Number of Bytes Sent

(Command, Results

Storage Area)

The number of bytes in the data sent by this command. Up to 1,984 bytes can

be specified, or up to 1,472 bytes can be specified if the broadcast address is

specified as the send destination. The results storage area stores the actual

number of bytes sent.

Send Data (Command)

Specifies the data sent to the remote node.

Response Codes

Response code

0000

Description

Normal

0105

0302

1001

1002

1003

Local IP address setting error

CPU Unit error; execution not possible.

Command too large

Command too small

The number of bytes sent does not match the sent data

length.

1100

UDP socket number or number of bytes sent is out of range.

The destination IP address is 0.

Local UDP port number is 0.

1101

1103

220F

2210

2211

The variable type for the results storage area is out of range.

Non-zero bit address specified for the results storage area.

Specified socket is currently sending.

The specified socket is not open.

High traffic at Unit; cannot execute service.

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Command/Response Reference

Section 11-3

Results Storage Area Response Codes

Response code

Description

0000

003E

Normal

Internal buffer cannot be reserved due to high reception load

(ENOBUFS).

0042

004C

004E

The send destination IP address is a broadcast address and

the number of bytes sent exceeds 1,472. (EMSGSIZE)

Incorrect network number.

Incorrect destination IP address (EADDRNOTAVAIL).

Incorrect destination IP address (ENETUNREACH).

No network number in IP router table.

Router incorrectly set.

0051

Router incorrectly specified.

Incorrect destination IP address (EHOSTUNREACH).

11-3-12UDP CLOSE REQUEST

Requests processing to close a socket.

Command Block

Command UDP

Results storage area

code

socket

number

Response Block

Command Response

code

Results Storage

Format

Response

code

Parameters

UDP Socket Number

(Command)

The UDP socket number to be closed specified as 2 bytes between 1 and 8.

Results Storage Area

(Command)

The area in which the results of the command execution are stored. The first

byte specifies the memory area and data type (variable type). The 2nd to 4th

bytes specify the beginning address of the results storage area. Refer to

page 216 for details about the variable types and addresses that can be spec-

ified.

Response Codes

Response code

0000

Description

Normal

0105

0302

1001

1002

1100

1101

1103

Local IP address setting error

CPU Unit error; execution not possible.

Command too large

Command too small

UDP socket number is out of range.

The variable type for the results storage area is out of range.

Non-zero bit address specified for the results storage area.

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Command/Response Reference

Section 11-3

Response code

2210

Description

Specified socket is not open.

2211

High traffic at Unit; cannot execute service.

Results Storage Area Response Codes

Response code

Description

0000

Normal

11-3-13PASSIVE TCP OPEN REQUEST

Requests processing to open a TCP socket. The socket will wait to be con-

nected to another node.

Command Block

Command TCP

code socket

number

Results storage area

Local

TCP

Remote IP

address

Remote TCP

port number

Timeout

value

port

number

Response Block

Command Response

code

Results Storage

Format

Response

code

Remote IP

address

Remote port

number

Parameters

TCP Socket Number

(Command)

The TCP socket number to be opened specified as 2 bytes between 1 and 8.

Results Storage Area

(Command)

The area in which the results of the command execution are stored. The first

byte specifies the memory area and data type (variable type). The 2nd to 4th

bytes specify the beginning address of the results storage area. Refer to

page 216 for details about the variable types and addresses that can be spec-

ified.

Local TCP Port Number

(Command, Results

Storage Area)

The TCP port number for communications with the socket is specified as 2

bytes (0 cannot be specified). Do not specify the port number of the FTP

server (port #21).

Timeout Value (Command)

The maximum control time between receiving the open request and storing

the result. If this set time limit is exceeded, the code for a timeout error will be

set as the results storage response code. The value is set in units of 0.1 s.

The timeout time is unlimited if the value is set to 0.

Remote IP Address

(Command, Results

Storage Area)

Specify the remote node’s IP address. If all zeroes are set, no remote node is

specified and connection is awaited from any node. If any other value is set,

connection is awaited from the specified remote node. The IP address of the

connected remote node will be stored in the results storage area.

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Command/Response Reference

Section 11-3

Remote Port Number

(Command, Results

Storage Area)

Specify the remote TCP port number with this command. If all zeroes are set,

no remote TCP port number is specified. If any other value is set, it specifies

the TCP port number of the remote node. The TCP port number of the con-

nected remote node will be stored in the results storage area.

Precautions

Processing varies as shown in the table below according to the specified com-

bination of remote IP address and remote TCP port number.

Remote IP address

Remote TCP port

Description

All connection requests received

Not 0

Received only when port number

matches.

Not 0

Received only when IP address

matches.

Not 0

Received only when IP address and

port number matches.

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Command/Response Reference

Section 11-3

Response Codes

Response code

0000

Description

Normal

0105

0302

1001

1002

1100

Local IP address setting error

CPU Unit error; execution not possible.

Command too large

Command too small

TCP socket number is out of range.

Local TCP port number is 0.

1101

1103

220F

The variable type for the results storage area is out of range.

Non-zero bit address specified for the results storage area.

The specified socket (connection) is already open or is cur-

rently being opened.

2211

High traffic at Unit; cannot execute service.

Results Storage Area Response Codes

Response code

Description

0000

003E

Normal

Internal buffer cannot be reserved due to high reception load

(ENOBUFS).

0042 (See note.)

0045

An error occurred (EMSGSIZE).

A communication error occurred with the remote node

(ECONNABORTED).

0049

Duplicated port numbers (EADDRINUSE).

An error occurred (ECONNREFUSED).

004A (See note.)

004B (See note.)

A communication error occurred with the remote node

(ECONNRESET).

004E (See note.)

0051 (See note.)

0053

A parameter error occurred at the remote IP address (ENE-

TUNREACH).

A parameter error occurred at the remote IP address (EHOS-

TUNREACH).

A communication error occurred with the remote node

(ETIMEDOUT). No remote exists.

0066

0080

0081

0082

Internal memory cannot be allocated; cannot execute service.

An open request timeout error occurred.

Socket was closed during opening procedure.

Connection could not be established with the specified

remote.

Note These errors occur only in large multilayered networks.

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Command/Response Reference

Section 11-3

11-3-14ACTIVE TCP OPEN REQUEST

Requests processing to open a TCP socket. The socket will be connected to

another node.

Command Block

Command TCP

Results storage

area

Local

TCP port

number

Remote IP

address

Remote

TCP port

number

code

socket

number

Response Block

Command Response

code

Results Storage

Format

Response

code

Local port

number

Parameters

TCP Socket Number

(Command)

The TCP socket number to be opened specified as 2 bytes between 1 and 8.

Results Storage Area

(Command)

The area in which the results of the command execution are stored. The first

byte specifies the memory area and data type (variable type). The 2nd to 4th

bytes specify the beginning address of the results storage area. Refer to

page 216 for details about the variable types and addresses that can be spec-

ified.

Local TCP Port Number

(Command, Results

Storage Area)

The TCP port number for communications with the socket is specified as 2

bytes (0 cannot be specified). Do not specify the port number of the FTP

server (port #21). An available TCP port number is automatically assigned if 0

is specified.

Remote IP Address

(Command)

Specify the remote node’s IP address (must be non-zero).

Remote Port Number

(Command)

Specify the remote TCP port number (must be non-zero).

Response Codes

Response code

0000

Description

Normal

0105

0302

1001

1002

1100

Local IP address setting error

CPU Unit error; execution not possible.

Command too large

Command too small

TCP socket number is out of range.

Remote IP address is 0.

Remote TCP port number is 0.

1101

1103

220F

The variable type for the results storage area is out of range.

Non-zero bit address specified for the results storage area.

The specified socket (connection) is already open or is being

opened.

2211

High traffic at Unit; cannot execute service.

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Command/Response Reference

Section 11-3

Results Storage Area Response Codes

Response code

Description

0000

000D

Normal

A parameter error occurred at the remote IP address

(EACCES).

003E

Internal buffer cannot be reserved due to high receive load

(ENOBUFS).

0042 (See note.)

0044

An error occurred (EMSGSIZE).

Received ICMP data (ENOPROTOOPT).

Local socket closed (ECONNABORTED).

Duplicated port numbers (EADDRINUSE).

0045

0049

004A

An error occurred (ECONNREFUSED).

Passive remote is not available.

004B (See note.)

004C

A communication error occurred with the remote node

(ECONNRESET).

A parameter error occurred at the remote IP address (EAD-

DRNOTAVAIL).

A parameter was specified incorrectly.

An attempt was made to actively open local TCP port.

004E

A parameter error occurred at the remote IP address

(ENETUNREACH). No network number in IP router table or

incorrect router setting.

0051

0053

0081

A parameter error occurred at the remote IP address

(EHOSTUNREACH). Incorrect router setting.

A communication error occurred with the remote node

(ETIMEDOUT). No remote exists.

Socket was closed during opening procedure.

Note These errors occur only in large multilayered networks.

11-3-15TCP RECEIVE REQUEST

Requests that data be sent from a TCP socket.

Command Block

Command TCP

Results storage

area

Number of

reception

bytes

Timeout

value

code

socket

number

Response Block

Command

code

Response

code

Results Storage

Format

Received bytes

Received data

Response Number of

code

reception

bytes

Parameters

TCP Socket Number

(Command)

The TCP socket number to receive data specified as 2 bytes between 1 and 8.

Results Storage Area

(Command)

The area in which the results of the command execution are stored. The first

byte specifies the memory area and data type (variable type). The 2nd to 4th

bytes specify the beginning address of the results storage area. Refer to

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Command/Response Reference

Section 11-3

page 216 for details about the variable types and addresses that can be spec-

ified.

Number of Reception

Bytes (Command, Results

Storage Area)

The maximum number of bytes of data to be received is given in the com-

mand. The number of bytes of data received will be stored in the results stor-

age area. Up to 1,984 bytes can be specified.

Timeout Value (Command)

The maximum control time between receiving the receive request and storing

the result. If this set time limit is exceeded, the code for a timeout error will be

set as the results storage response code. The value is set in units of 0.1 s.

The timeout time is unlimited if the value is set to 0.

Received Data (Results

Storage Area)

Stores the received data.

Response Codes

Response code

0000

Description

Normal

0105

0302

1001

1002

1100

Local IP address setting error

CPU Unit error; execution not possible.

Command too large

Command too small

TCP socket number or number of reception bytes is out of

range.

1101

1103

220F

2210

2211

The variable type for the results storage area is out of range.

Non-zero bit address specified for the results storage area.

The specified socket is receiving data.

No connection could be established to the specified socket.

High traffic at Unit; cannot execute service.

Results Storage Area Response Codes

Response code

Description

0000

003E

Normal

Internal buffer cannot be reserved due to high receive load

(ENOBUFS).

0042 (See note.)

0044 (See note.)

0045 (See note.)

Received ICMP data (EMSGSIZE).

Received ICMP data (ENOPROTOOPT).

A communication error occurred with the remote node

(ECONNABORTED).

004B

A communication error occurred with the remote node

(ECONNRESET).

004E (See note.)

Incorrect destination IP address (ENETUNREACH).

No network number in IP router table.

Router incorrectly set.

004F (See note.)

0051 (See note.)

Received ICMP data (EHOSTDOWN).

Received ICMP data (EHOSTUNREACH).

Router incorrectly set.

0053

A communications error occurred with the remote node

(ETIMEDOUT).

0066

0080

0081

Internal memory cannot be allocated; cannot execute service.

A receive request timeout error occurred.

Socket was closed while receiving.

Note These errors occur only in large multilayered networks.

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Command/Response Reference

Section 11-3

11-3-16TCP SEND REQUEST

Requests that data be received at a TCP socket.

Command Block

1,984 bytes max.

Data sent

Command TCP

Results storage

area

Number of

bytes sent

code

socket

number

Response Block

Command

code

Response

code

Results Storage

Format

Response

code

Number of

bytes sent

Parameters

TCP Socket Number

(Command)

The TCP socket number to send the data specified as 1 byte between 1 and

Results Storage Area

(Command)

The area in which the results of the command execution are stored. The first

byte specifies the memory area and data type (variable type). The 2nd to 4th

bytes specify the beginning address of the results storage area. Refer to

page 216 for details about the variable types and addresses that can be spec-

ified.

Number of Bytes Sent

(Command, Results

Storage Area)

The number of bytes in the data sent specified between 1 and 1,984. The

results storage area stores the actual number of bytes sent.

Data Sent (Command)

Specifies the data to be sent.

Response Codes

Response code

0000

Description

Normal

0105

0302

1001

1002

1003

1100

Local IP address setting error

CPU Unit error; execution not possible.

Command too large

Command too small

The number of bytes sent does not match the amount of data.

The TCP socket number or number of bytes sent is out of

range.

1101

1103

220F

2210

2211

The variable type for the results storage area is out of range.

Non-zero bit address specified for the results storage area.

The specified socket is sending data.

No connection could be established to the specified socket.

High traffic at Unit; cannot execute service.

Results Storage Area Response Codes

Response code

Description

0000

0020

Normal

Connection to the remote socket was broken during transmis-

sion (EPIPE).

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Command/Response Reference

Section 11-3

Response code

003E

Description

Internal buffer cannot be reserved due to high receive load

(ENOBUFS).

0042 (See note.)

0044 (See note.)

0045 (See note.)

An error occurred (EMSGSIZE).

Received ICMP data (ENOPROTOOPT).

A communication error occurred with the remote node

(ECONNABORTED).

004B (See note.)

004E (See note.)

A communication error occurred with the remote node

(ECONNRESET).

A parameter error occurred at the remote IP address

(ENETUNREACH).

004F (See note.)

0051 (See note.)

Received ICMP data (EHOSTDOWN).

A parameter error occurred at the remote IP address

(EHOSTUNREACH).

0053 (See note.)

0081

A communication error occurred with the remote node

(ETIMEDOUT).

The specified socket was closed during transmission.

Note These errors occur only in large multilayered networks.

11-3-17TCP CLOSE REQUEST

Requests processing to close a TCP socket. Other processing being carried

out is forcibly ended and a code is recorded in the results storage area.

Command Block

Response Block

Command TCP

Results storage

area

code

socket

number

Command

code

Response

code

Results Storage

Format

Response

code

Parameters

TCP Socket Number

(Command)

The TCP socket number to be closed specified as 2 bytes between 1 and 8.

Results Storage Area

(Command)

The area in which the results of the command execution are stored. The first

byte specifies the memory area and data type (variable type). The 2nd to 4th

bytes specify the beginning address of the results storage area. Refer to

page 216 for details about the variable types and addresses that can be spec-

ified.

Precautions

Any other processing, such as sending or receiving data, being carried out

when this close command is executed will be forcibly ended and a code will be

stored in the results storage area to indicate that this processing was forcibly

ended.

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Command/Response Reference

Section 11-3

Response Codes

Response code

0000

Description

Normal

0105

0302

1001

1002

1100

1101

1103

2210

2211

Local IP address setting error

CPU Unit error; execution not possible.

Command too large

Command too small

The TCP socket number is out of range.

The variable type for the results storage area is out of range.

Non-zero bit address specified for the results storage area.

No connection could be established to the specified socket.

High traffic at Unit; cannot execute service.

Results Storage Area Response Codes

Response code

Description

0000

Normal

11-3-18PING

Equivalent processing to the UNIX computer pingcommand (see below).

Command Block

Command

code

Destination IP address Timeout

value

Response Block

Parameters

Command Response

code code

Destination IP Address

(Command)

The IP address (in hexadecimal) of the destination node for the PING com-

mand echo request packet.

Timeout Value (Command)

The wait time for the echo reply packet. The value is set in seconds. The time-

out time is set at 20 seconds if the value is specified as 0. If the echo reply

packet is not received within the set time limit, the code for a timeout error will

be set as the results storage response code.

Remarks

PING Command

The PING command runs the echoback test using the ICMP protocol. When

the PING command is executed, an echo request packet is sent to the remote

node ICMP. Correct communications are confirmed when the returned

response packet is received normally. The echo reply packet is automatically

returned by the remote node ICMP. Refer to 9-2 PING Command.

Response Codes

Response code

0000

Description

Normal (echo reply received from the remote node)

Timeout error

0205

1001

1002

1100

220F

2211

Command too large

Command too small

Zero destination address

PING command currently being executed

High traffic at Unit; cannot execute service.

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Command/Response Reference

Section 11-3

11-3-19IP ADDRESS TABLE WRITE

Writes the IP address table.

Command Block

6 bytes

IP address

table records

Command Number of IP address

code

records

table records

Response Block

Parameters

Command Response

code code

Number of Records

(Command)

The number of records to write is specified between 0000 and 0020 (0 to 32

decimal) in the command. If this value is set to 0, the IP address table will be

cleared so that no records are registered.

IP Address Table Records

(Command)

Specify the IP address table records. The number of records specified must

be provided. The total number of bytes in the IP address table records is cal-

culated as the number of records x 6 bytes/record. The configuration of the

6 bytes of data in each record is as shown in the following diagram.

6 bytes

FINS node

number

IP address

FINS Node Number

Node number for communications via the FINS command (hexadecimal).

IP Address

IP address used by TCP/IP protocol (hexadecimal).

Precautions

The new I/O address table records will not be effective until the PC is

restarted or the Ethernet Unit is reset.

An error response will be returned if the IP address conversion method in the

system mode settings is set for automatic generation.

Response Codes

Response code

0000

Description

Normal (echo reply received from the remote node)

Command too large

1001

1002

1003

Command too small

The number of records specified does not match the sent data

length.

110C

2307

The number of records is not between 0 and 32.

The FINS node number is not between 1 and 126

The IP address is 0.

IP address conversion method is set for automatic generation.

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Command/Response Reference

Section 11-3

11-3-20IP ADDRESS WRITE

Write the local IP address and the subnet mask in the CPU Bus Unit System

Setup.

This command is supported for CJ-series Ethernet Units only.

Command Block

Response Block

Command

code

IP address

Subnet mask

Command Response

code code

Parameters

IP Address (Command)

Specify the local IP address of the Ethernet Unit using 4 pairs of hexadecimal

numbers in the range 00.00.00.00 to FF.FF.FF.FF (0.0.0.0. to

255.255.255.255 decimal). If 0.0.0.0 is specified, the local IP address set in

the allocated words in the DM Area is enabled.

Example: 150.31.2.83

Subnet Mask (Command)

Specify the local IP address of the Ethernet Unit using 4 pairs of hexadecimal

numbers in the range 00.00.00.00 to FF.FF.FF.FF (0.0.0.0. to

255.255.255.255 decimal).

Example: 255.255.255.255

Response Codes

Precautions

Response code

0000

Description

Normal

1001

1002

Command too large

Command too small

The local IP address and subnet mask set using this mask are written to the

CPU Bus Unit System Setup for the Ethernet Unit. For details, refer to 4-2

CPU Bus Unit System Setup.

The new local IP address and subnet mask settings will not be effective until

the PC is restarted or the Ethernet Unit is reset.

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Command/Response Reference

Section 11-3

11-3-21IP ADDRESS TABLE READ

Reads the IP address table.

Command Block

Command Number of

code

records

Response Block

6 bytes

Command Response Maximum

Number

stored

records

Number IP address

IP address

table records

code

number

of stored

records

table records

records

Parameters

Number of Records

(Command, Response)

The number of records to read is specified between 0000 and 0020 (0 to 32

decimal) in the command. If this value is set to 0, the number of stored

records is returned but the IP address table records are not returned. The

response returns the actual number of records read.

Maximum Number of

Stored Records

(Response)

The maximum number of records that can be stored in the IP address table is

returned. The maximum number of stored records is fixed at 32.

Number of Stored

Records (Response)

The number of IP address table records stored at the time the command is

executed is returned as a hexadecimal number.

IP Address Table Records

(Response)

The number of IP address table records specified in the number of records

parameter is returned. The total number of bytes in the IP address table

records is calculated as the number of records x 6 bytes/record. The configu-

ration of the 6 bytes of data in each record is as shown in the following dia-

gram.

6 bytes

FINS node

number

IP address

FINS Node Number

Node number for communications via the FINS command.

IP Address

IP number used by TCP/IP protocol.

Precautions

If the IP address table contains fewer records than the number specified in the

number of records parameter, all the records contained in the IP address table

when the command is executed will be returned and the command execution

will end normally.

An error response will be returned if the IP address conversion method in the

system mode settings is set to the automatic generation method.

Response Codes

Response code

0000

Description

Normal

1001

1002

2307

Command too large

Command too small

IP address conversion method is set to the automatic genera-

tion method.

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Command/Response Reference

Section 11-3

11-3-22IP ROUTER TABLE READ

Reads the IP router table.

Command Block

Command Number of

code

records

Response Block

8 bytes

Command Response Maximum

Number

IP router

table records

IP router

table records

code

number

of stored

records

of stored of records

records

Parameters

Number of Records

(Command, Response)

The number of records to read is specified between 0000 and 0008 (0 to 8

decimal) in the command. If this value is set to 0, the number of stored

records will be returned but the IP router table records will not be returned.

The response returns the actual number of records read.

Maximum Number of

Stored Records

(Response)

The maximum number of records that can be stored in the IP router table is

returned. The maximum number of stored records is fixed at 0008 (8 records).

Number of Stored

Records (Response)

The number of IP router table records stored at the time the command is exe-

cuted is returned.

IP Router Table Records

(Response)

The number of IP router table records specified in the number of records

parameter is returned. The total number of bytes in the IP router table records

is calculated as the number of records x 8 bytes/record. The configuration of

the 8 bytes of data in each record is shown below.

8 bytes

IP Network address

(Network ID)

Router IP address

IP Network Address

The network ID from the IP address in hexadecimal. The network ID part cor-

responding to the address class (determined by the leftmost 3 bits; refer to 1-

7 IP Addresses) set here, is enabled.

Router IP Address

The IP address of a router connected to a network specified with IP

addresses.

Precautions

If the IP router table contains fewer records than the number specified in the

number of records parameter, all the records contained in the IP router table

when the command is executed will be returned and the command execution

will end normally.

Response Codes

Response code

0000

Description

Normal

1001

1002

Command too large

Command too small

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Command/Response Reference

Section 11-3

11-3-23PROTOCOL STATUS READ

Reads the Ethernet Unit protocol status.

Command Block

Command

code

Response Block

48 bytes

IP status

184 bytes

12 bytes

Command Response

code code

ICMP status

TCP status

UDP status

Parameters

IP Status (Response)

Twelve types of IP status information occupying 4 bytes each are returned in

the following sequence. Each value is returned as an 8-digit hexadecimal

value.

1,2,3...

1. Total number of IP packets received.

2. The number of IP packets discarded due to an error with the checksum in

the packet header.

3. The number of IP packets discarded because the received packet was

larger than the overall packet length value in the packet header.

4. The number of IP packets discarded because the minimum size of the IP

header data could not be stored in the first short buffer when an attempt

was made to store the packet. Refer to 11-3-24 MEMORY STATUS READ

and Appendix F Buffer Configuration.

5. The number of packets discarded for one of the following reasons:

• The IP header length value in the IP header was smaller than the

smallest size of the IP header.

• The size of the first short buffer was smaller than the IP header length

value in the IP header when storing the packet.

6. The number of IP packets discarded because the IP header length was

larger than the overall packet length value in the packet header.

7. The number of fragmented packets received.

8. The number of received fragmented IP packets discarded because a

queue for reassembly could not be secured.

9. The number of fragmented IP packets discarded because they could not

be reassembled within 12 seconds after being received.

10. Always 0.

11. The number of packets addressed to other networks that have been dis-

carded.

12. Always 0.

ICMP Status (Response)

Ten types (46 items) of ICMP status information occupying 4 bytes each are

returned in the following sequence. Each value is returned as an 8-digit hexa-

decimal value.

1,2,3...

1. The number of times the ICMP error routine was called. The ICMP error

routine uses ICMP packets to inform the source about errors. The routine

is called when an illegal packet is received (error in IP option processing

or error in relay processing) or if the object port does not exist when using

UDP.

2. Always 0.

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Command/Response Reference

Section 11-3

3. Always 0.

4. Total number of outputs of each packet type during ICMP output. The 19

statistical values are returned in the order shown below. Contents are de-

fined for 13 types only; all other types contain 0. Only #0, #3, #14, #16, and

#18 are counted by the Ethernet Unit.

#15

#17

#18

#16

4 bytes

Type number

Description

Echo reply

#1, #2

Undefined, always 0

Destination unreachable

Source quench

Routing redirect

#6, #7

Undefined, always 0

Echo

#9, #10

#11

#12

#13

#14

#15

#16

#17

#18

Undefined, always 0

Time exceeded

Parameter problem

Time stamp

Time stamp reply

Information request

Information request reply

Address mask request

Address mask reply

5. The number of received ICMP packets discarded because the type-indica-

tion code was out of range.

6. The number of received ICMP packets discarded because the overall

packet length value in the packet header was smaller than the minimum

ICMP packet length.

7. The number of received ICMP packets discarded because of an incorrect

checksum value in the packet header.

8. The number of received ICMP packets discarded because the ICMP head-

er length value in the packet header did not match the lengths of individual

header types.

9. The number of responses returned to received ICMP packets requiring a

response.

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Command/Response Reference

Section 11-3

10. Total number of inputs of each packet type during ICMP input. The 19 sta-

tistical values are returned in the order shown below. Contents are defined

for 13 types only; all other types contain 0.

#15

#16

#17

#18

4 bytes

Type number

Description

Echo reply

#1, #2

Undefined, always 0

Destination unreachable

Source quench

Routing redirect

#6, #7

Undefined, always 0

Echo

#9, #10

#11

#12

#13

#14

#15

#16

#17

#18

Undefined, always 0

Time exceeded

Parameter problem

Time stamp

Time stamp reply

Information request

Information request reply

Address mask request

Address mask reply

TCP Status (Response)

Three types (46 items) of TCP status information occupying 4 bytes each are

returned in the following sequence. Each value is returned as an 8-digit hexa-

decimal value.

1) Connection Information (60 Bytes)

Fifteen items are returned in the following sequence:

1,2,3...

1. The number of times active connections were correctly established.

2. The number of times a SYN packet was received while waiting to establish

a passive connection.

3. The number of times active or passive connections were correctly estab-

lished.

4. The number of times an established connection was cut off.

5. The number of times the connection wait status was cut off.

6. The number of times protocol control blocks or other actively allocated

structures were released.

7. The number of segments for the round-trip time (time from segment trans-

mission to ACK).

8. The number of times the round-trip time was changed.

9. The number of times a delayed acknowledgement (ACK) was sent. If the

order of the received segments is reversed, ACK is sent with a packet of

data separate from ACK (response to input data, etc.) or is immediately

sent with the ACK for other data.

10. The number of times the connection was cut off because no ACK was re-

turned after several resend attempts.

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Command/Response Reference

Section 11-3

11. The number of times no ACK was returned within the resend timer set time.

(The resend timer sets the maximum time limit between the data being out-

put and ACK being returned.)

12. The number of times no window advertisement is received within the time

set on the duration timer. (The duration timer sets the maximum time limit

for a window advertisement to be received if the transmission window is

smaller than necessary and the resend timer is not set. If no window ad-

vertisement is received within the time limit, the number of segments per-

mitted by the transmission window are sent. If the transmission window is

set to 0, a window probe (1 octet of data) is sent before the timer restarts.)

13. The number of times no segment was sent or received within the time set

on the hold timer.

14. The number of times the hold packet is resent. (Always 0.)

15. The number of times the hold packet is sent without response before the

connection is cut off.

2) Send Information (40 Bytes)

Ten information items are returned in the following sequence:

1,2,3...

1. The total number of packets sent.

2. The number of data packets sent.

3. The number of data bytes sent.

4. The number of data packets resent.

5. The number of data bytes resent.

6. The number of ACK packets sent.

7. The number of window probes (1 octet of data) sent.

8. The number of emergency data packets sent. (Always 0.)

9. The number of window advertisement packets sent.

10. The number of control packets (SYN, FIN, RST) sent.

3) Receive Information

Twenty-one information items are returned in the following sequence:

1,2,3...

1. The total number of packets received.

2. The number of packets received continuously.

3. The number of bytes received continuously.

4. The number of received packets discarded due to an incorrect checksum.

5. The number of packets discarded because the TCP header was smaller

than the minimum size for a TCP header or was larger than the IP packet.

6. The number of packets discarded because the TCP header and IP header

could not be stored in the first short buffer.

7. The number of resent packets received.

8. The number of bytes in the resend packets.

9. The number of duplicated resend packets received.

10. The number of bytes in the duplicated resend packets received.

11. The number of out-of-range data packets received. (Always 0.)

12. The number of bytes in the out-of-range data packets received. (Always 0.)

13. The number of packets where the data was larger than the window.

14. The number of bytes in the packets where the data was larger than the win-

dow.

15. The number of packets received after closing.

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Command/Response Reference

Section 11-3

16. The number of window probe packets received.

17. The number of resent ACK packets received.

18. The number of ACK packets received with no data set.

19. The number of ACK packets received.

20. The number of ACK packets received for received transmission acknowl-

edgements (ACK).

21. The number of window advertisement packets received.

UDP Status (Response)

Three items of UDP information occupying 4 bytes each are returned in the

following sequence. Each value is returned as an 8-digit hexadecimal value.

1,2,3...

1. The number of packets discarded because the size of the first short buffer

was smaller than the minimum size (28) of the IP header and UDP header

when the packet was stored.

2. The number of packets discarded due to an incorrect checksum in the UDP

header.

3. The number of packets discarded because the IP overall length in the IP

header was shorter than the UDP overall length in the UDP header.

Precautions

All the above values are set to 0 if network operation stops due to incorrect

settings in the system setup.

Counting will be stopped when a count reaches the maximum value. The

maximum values are as follows:

IP, ICMP, or UDP status:7FFFFFFF (2,147,483,647 decimal)

TC status:

FFFFFFFF (4,294,967,295 decimal)

Response Codes

Response code

Description

0000

1001

Normal

Command too large

11-3-24MEMORY STATUS READ

Reads the status of the Ethernet Unit’s network memory. The network mem-

ory contains 196K bytes that are used as required as for communications

buffers for communications servicing. The network memory consists of 1,056

short buffers (128 bytes each) and 64 long buffers (1,024 bytes each). Refer

to Appendix C Buffer Configuration.

Command Block

Command

code

Response Block

Parameters

92 bytes

Command Response

code code

Memory

status

Memory Status

(Response)

A total of 23 data items in six areas are returned in the following order. Each

item consists of 4 bytes.

1,2,3...

1. Short Buffer Application: Two items are returned (8 bytes).

a) The number of short buffers currently being used.

b) The number of short buffers in the system (fixed at 1,056 decimal).

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Command/Response Reference

Section 11-3

2. Short Buffer Application by Type: Thirteen items are returned (52 bytes).

a) The number of short buffers used for storing communications data.

b) The number of short buffers used for protocol headers (TCP, UDP, IP,

ICMP, ARP)

c) The number of short buffers used in socket structures

d) The number of short buffers used as protocol control blocks

e) The number of short buffers used for routing tables

f) Not used (always 0)

g) Not used (always 0)

h) The number of short buffers used for IP fragment re-assembly queue

headers

i) The number of short buffers used for storing socket addresses

j) Not used (always 0)

k) The number of short buffers used for storing socket options

l) The number of short buffers used for storing access rights

m) The number of short buffers used for storing interface addresses

3. Long Buffer Application: Two items are returned (8 bytes).

a) The number of long buffers currently being used.

b) The number of long buffers in the system (fixed at 64 decimal).

4. Not Used: Always 0. (4 bytes)

5. Network Memory Application: Two items are returned.

a) The number of bytes used (in K bytes)

b) The percentage used.

6. Memory Exhaustion Log (12 bytes)

Counts for the following values indicate a high load on the Ethernet Unit.

These high loads may be caused by problems in communications, partic-

ularly FINS communications and UDP sockets. If these values are consis-

tently high, check your applications.

a) The number of times an attempt was made to secure a short buffer

without WAIT when there were no short buffers available.

b) The number of times an attempt was made to secure a short buffer

with WAIT when there were no short buffers available.

c) The number of times an attempt was made to release and secure a

short buffer already being used by another socket when there were no

short buffers available.

Precautions

All the above values are set to 0 if Ethernet communications functions are

stopped due to improper settings in the system setup.

These values are cleared when the Ethernet Unit is started or reset. Values

will be counted only until the maximum values are reached.

Response Codes

Response code

0000

1001

Description

Normal

Command too large

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Command/Response Reference

Section 11-3

11-3-25SOCKET STATUS READ

Reads the Ethernet Unit network socket status.

Command Block

Command

code

Response Block

32 bytes

Command Response Socket

code code

Socket

status

Parameters

Socket Status (Response)

Returns eight types of information in records of 32 bytes each. A maximum of

64 records can be returned. The format of each record is shown below.

Protocol (4 bytes)

The protocol used for the socket is returned as a number.

00 00 00 06: TCP; 00 00 00 11: UDP

Receive Queue (4 bytes)

The number of bytes in the reception queue.

Send Queue (4 bytes)

The number of bytes in the send queue.

Local IP Address (4 bytes)

The local IP address allocated to the socket.

Local Port Number (4 bytes)

The local port number allocated to the socket.

Remote IP Address (4 bytes)

The remote IP address allocated to the socket.

Remote Port Number (4 bytes)

The remote port number allocated to the socket.

TCP Transitions (4 bytes)

The TCP connection status is returned as one of the numbers shown in the

following table. Refer to Appendix D TCP Status Transitions for a diagram of

transitions.

Number

Stage

Status

00 00 00 00 CLOSED

00 00 00 01 LISTEN

00 00 00 02 SYN SENT

Closed.

Waiting for connection.

SYN sent in active status.

00 00 00 03 SYN RECEIVED SYN received and sent.

00 00 00 04 ESTABLISHED

00 00 00 05 CLOSE WAIT

00 00 00 06 FIN WAIT 1

00 00 00 07 CLOSING

00 00 00 08 LAST ACK

00 00 00 09 FIN WAIT 2

00 00 00 0A TIME WAIT

Already established.

Received FIN, waiting to close.

Completed and FIN sent.

Completed and exchanged FIN. Awaiting ACK.

FIN sent and completed. Awaiting ACK.

Close completed and ACK received. Awaiting FIN.

After closing, pauses twice the maximum segment

life (2MSL).

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Command/Response Reference

Section 11-3

Precautions

All the above values are set to 0 if Ethernet communications functions are

stopped due to improper settings in the system setup.

Response Codes

Response code

0000

1001

Description

Normal

Command too large

11-3-26ADDRESS INFORMATION READ

Reads FINS node numbers and IP addresses

Command Block

Command

code

Response Block

Parameters

6 bytes

Command

code

Response Number of

code addresses

Address

information

Number of Addresses (Response)

The number of pairs of FINS node numbers and IP addresses being returned.

The Ethernet Unit is always 0001 (1 decimal).

Address Information

Pairs of FINS node numbers and IP addresses. Each pair requires 6 bytes

and has the following configuration.

6 bytes

FINS node

number

IP address

FINS Node Number

Node number set on the Ethernet Unit (hexadecimal).

IP Address

IP address set on the Ethernet Unit (hexadecimal).

Response Codes

Response code

0000

1001

Description

Normal

Command too large

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Command/Response Reference

Section 11-3

11-3-27IP ADDRESS READ

Reads the local IP address and subnet mask in the CPU Bus Unit System

Setup and the FINS node number. The values read with this command, how-

ever, are not necessarily the settings actually used for operation. The settings

that are actually used for operation can be confirmed using CONTROLLER

DATA READ (page 218) and ADDRESS INFORMATION READ (page 248).

This command is supported for CJ-series Ethernet Units only.

Command Block

Response Block

Command

code

Command Response Number of

code

Subnet mask

IP address

FINS

node

code

addresses

number

Parameters

Number of Addresses (Response)

The number of sets of FINS node numbers, IP addresses, and subnet masks

being returned. The Ethernet Unit is always 0001 (1 decimal).

FINS Node Number (Response)

Node number set on the Ethernet Unit (hexadecimal).

IP Address

The local IP address set in the CPU Bus Unit System Setup for the Ethernet

Unit is returned in order starting from the leftmost bytes in hexadecimal. If the

local IP address set in the allocated words in the DM Area is enabled, 0.0.0.0

is returned.

Subnet Mask (Response)

The subnet mask set in the CPU Bus Unit System Setup for the Ethernet Unit

is returned in order starting from the leftmost bytes in hexadecimal.

Response Codes

Response code

0000

1001

Description

Normal

Command too large

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Appendix A

Network Installation

Basic Installation Precautions

• Take the greatest care when installing the Ethernet System, being sure to follow ISO 8802-3 specifications.

You must obtain a copy of these specifications and be sure you understand them before attempting to

install an Ethernet System. Unless you are already experienced in installing communications systems, we

strongly recommend that you employ a professional to install your system.

• Do not install Ethernet equipment near sources of noise. If noise-prone environments are unavoidable, be

sure to take adequate measures against noise interference, such as installing network components in

grounded metal cases, using optical links in the system, etc. Further information on measures that can be

taken against noise is given later in this section.