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PC-DIO-24
User Manual
Digital I/O Board for the IBM PC/XT/AT
September 1995 Edition
Part Number 320288B-01
© Copyright 1989, 1995 National Instruments Corporation.
All Rights Reserved.
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Limited Warranty
The PC-DIO-24 is warranted against defects in materials and workmanship for a period of one year from the date of
shipment, as evidenced by receipts or other documentation. National Instruments will, at its option, repair or replace
equipment that proves to be defective during the warranty period. This warranty includes parts and labor.
The media on which you receive National Instruments software are warranted not to fail to execute programming
instructions, due to defects in materials and workmanship, for a period of 90 days from date of shipment, as
evidenced by receipts or other documentation. National Instruments will, at its option, repair or replace software
media that do not execute programming instructions if National Instruments receives notice of such defects during
the warranty period. National Instruments does not warrant that the operation of the software shall be uninterrupted
or error free.
A Return Material Authorization (RMA) number must be obtained from the factory and clearly marked on the
outside of the package before any equipment will be accepted for warranty work. National Instruments will pay the
shipping costs of returning to the owner parts which are covered by warranty.
National Instruments believes that the information in this manual is accurate. The document has been carefully
reviewed for technical accuracy. In the event that technical or typographical errors exist, National Instruments
reserves the right to make changes to subsequent editions of this document without prior notice to holders of this
edition. The reader should consult National Instruments if errors are suspected. In no event shall National
Instruments be liable for any damages arising out of or related to this document or the information contained in it.
EXCEPT AS SPECIFIED HEREIN, NATIONAL INSTRUMENTS MAKES NO WARRANTIES, EXPRESS OR
IMPLIED, AND SPECIFICALLY DISCLAIMS ANY WARRANTY OF MERCHANTABILITY OR FITNESS
FOR A PARTICULAR PURPOSE. CUSTOMER'S RIGHT TO RECOVER DAMAGES CAUSED BY FAULT
OR NEGLIGENCE ON THE PART OF NATIONAL INSTRUMENTS SHALL BE LIMITED TO THE AMOUNT
THERETOFORE PAID BY THE CUSTOMER. NATIONAL INSTRUMENTS WILL NOT BE LIABLE FOR
DAMAGES RESULTING FROM LOSS OF DATA, PROFITS, USE OF PRODUCTS, OR INCIDENTAL OR
CONSEQUENTIAL DAMAGES, EVEN IF ADVISED OF THE POSSIBILITY THEREOF. This limitation of the
liability of National Instruments will apply regardless of the form of action, whether in contract or tort, including
negligence. Any action against National Instruments must be brought within one year after the cause of action
accrues. National Instruments shall not be liable for any delay in performance due to causes beyond its reasonable
control. The warranty provided herein does not cover damages, defects, malfunctions, or service failures caused by
owner's failure to follow the National Instruments installation, operation, or maintenance instructions; owner's
modification of the product; owner's abuse, misuse, or negligent acts; and power failure or surges, fire, flood,
accident, actions of third parties, or other events outside reasonable control.
Copyright
Under the copyright laws, this publication may not be reproduced or transmitted in any form, electronic or
mechanical, including photocopying, recording, storing in an information retrieval system, or translating, in whole or
in part, without the prior written consent of National Instruments Corporation.
Trademarks
®
®
LabVIEW and NI-DAQ are trademarks of National Instruments Corporation.
Product and company names listed are trademarks or trade names of their respective companies.
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WARNING REGARDING MEDICAL AND CLINICAL USE
OF NATIONAL INSTRUMENTS PRODUCTS
National Instruments products are not designed with components and testing intended to ensure a level of reliability
suitable for use in treatment and diagnosis of humans. Applications of National Instruments products involving
medical or clinical treatment can create a potential for accidental injury caused by product failure, or by errors on the
part of the user or application designer. Any use or application of National Instruments products for or involving
medical or clinical treatment must be performed by properly trained and qualified medical personnel, and all
traditional medical safeguards, equipment, and procedures that are appropriate in the particular situation to prevent
serious injury or death should always continue to be used when National Instruments products are being used.
National Instruments products are NOT intended to be a substitute for any form of established process, procedure, or
equipment used to monitor or safeguard human health and safety in medical or clinical treatment.
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FCC/DOC Radio Frequency Interference Compliance
This equipment generates and uses radio frequency energy and, if not installed and used in strict accordance with the
instructions in this manual, may cause interference to radio and television reception. This equipment has been tested
and found to comply with the following two regulatory agencies:
Federal Communications Commission
This device complies with Part 15 of the Federal Communications Commission (FCC) Rules for a Class A digital
device. Operation is subject to the following two conditions:
1. This device may not cause harmful interference in commercial environments.
2. This device must accept any interference received, including interference that may cause undesired operation.
Canadian Department of Communications
This device complies with the limits for radio noise emissions from digital apparatus set out in the Radio
Interference Regulations of the Canadian Department of Communications (DOC).
Le présent appareil numérique n’émet pas de bruits radioélectriques dépassant les limites applicables aux appareils
numériques de classe A prescrites dans le règlement sur le brouillage radioélectrique édicté par le ministère des
communications du Canada.
Instructions to Users
These regulations are designed to provide reasonable protection against harmful interference from the equipment to
radio reception in commercial areas. Operation of this equipment in a residential area is likely to cause harmful
interference, in which case the user will be required to correct the interference at his own expense.
There is no guarantee that interference will not occur in a particular installation. However, the chances of
interference are much less if the equipment is installed and used according to this instruction manual.
If the equipment does cause interference to radio or television reception, which can be determined by turning the
equipment on and off, one or more of the following suggestions may reduce or eliminate the problem.
•
•
•
•
Operate the equipment and the receiver on different branches of your AC electrical system.
Move the equipment away from the receiver with which it is interfering.
Reorient or relocate the receiver’s antenna.
Be sure that the equipment is plugged into a grounded outlet and that the grounding has not been defeated with a
cheater plug.
Notice to user: Changes or modifications not expressly approved by National Instruments could void the user’s
authority to operate the equipment under the FCC Rules.
If necessary, consult National Instruments or an experienced radio/television technician for additional suggestions.
The following booklet prepared by the FCC may also be helpful: How to Identify and Resolve Radio-TV
Interference Problems. This booklet is available from the U.S. Government Printing Office, Washington, DC
20402, Stock Number 004-000-00345-4.
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Contents
About This Manual.............................................................................................................xi
Organization of This Manual .........................................................................................xi
Conventions Used in This Manual.................................................................................xii
National Instruments Documentation ............................................................................xii
Related Documentation..................................................................................................xiii
Customer Communication .............................................................................................xiii
Chapter 1
Introduction ..........................................................................................................................1-1
About the PC-DIO-24 ....................................................................................................1-1
What You Need to Get Started ......................................................................................1-2
LabVIEW and LabWindows/CVI Application Software ..................................1-2
Register-Level Programming.............................................................................1-4
Custom Cables ...................................................................................................1-4
Chapter 2
Configuration and Installation ......................................................................................2-1
Board Configuration ......................................................................................................2-1
Interrupt Selection..............................................................................................2-4
Interrupt Enable Settings........................................................................2-4
Interrupt Level Settings..........................................................................2-4
I/O Connector Pin Description...........................................................................2-6
Signal Connection Descriptions.........................................................................2-7
Port C Pin Assignments .........................................................................2-7
Mode 1 Input Timing .............................................................................2-9
Theory of Operation ..........................................................................................................3-1
Address Decoder ............................................................................................................3-2
Bus Transceivers ............................................................................................................3-2
82C55A Programmable Peripheral Interface ................................................................3-2
Interrupt Control Circuitry .............................................................................................3-2
Digital I/O Connector.....................................................................................................3-2
© National Instruments Corporation
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Contents
Chapter 4
Register-Level Programming .........................................................................................4-1
Introduction....................................................................................................................4-1
82C55A Modes of Operation.........................................................................................4-1
Mode 0 ...............................................................................................................4-2
Mode 2 ...............................................................................................................4-2
Single Bit Set/Reset Feature ..............................................................................4-2
Register Descriptions .....................................................................................................4-3
Mode 0–Basic I/O ..............................................................................................4-5
Mode 1–Strobed Output.....................................................................................4-9
Interrupt Programming Examples......................................................................4-14
Interrupt Handling..........................................................................................................4-15
Specifications ........................................................................................................................A-1
Appendix B
I/O Connector.......................................................................................................................B-1
Appendix C
OKI 82C55A Data Sheet...................................................................................................C-1
Customer Communication...............................................................................................D-1
Glossary ............................................................................................................................Glossary-1
Index ..................................................................................................................................Index-1
PC-DIO-24 User Manual
viii
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Contents
Figures
Your Hardware...................................................................................................1-3
Control-Word Formats.......................................................................................4-4
Figure B-1. PC-DIO-24 I/O Connector .................................................................................B-1
Tables
Port C Signal Assignments ...............................................................................2-7
© National Instruments Corporation
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PC-DIO-24 User Manual
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About This Manual
This manual describes the mechanical and electrical aspects of the PC-DIO-24 and contains
information concerning its operation and programming. The PC-DIO-24 is a 24-bit parallel,
digital I/O interface designed around an 82C55A programmable peripheral interface (PPI). The
PC-DIO-24 is a member of the National Instruments PC Series of PC I/O Channel expansion
boards for the IBM PC computer family. These boards are designed for low-cost data acquisition
and control for applications in laboratory testing, production testing, and industrial process
monitoring and control.
This manual describes installation, basic programming considerations, and theory of operation
for the PC-DIO-24. The example programs included are written in C.
Organization of This Manual
The PC-DIO-24 User Manual is organized as follows:
•
•
Chapter 1, Introduction, describes the PC-DIO-24, lists what you need to get started,
describes software programming choices, optional equipment, and custom cables, and
explains how to unpack the PC-DIO-24.
Chapter 2, Configuration and Installation, describes how to configure and install the
PC-DIO-24, including I/O connector signal descriptions, handshake timing diagrams, and
cabling instructions.
•
•
Chapter 3, Theory of Operation, contains a functional overview of the PC-DIO-24 board and
explains the operation of each functional unit making up the PC-DIO-24.
Chapter 4, Register-Level Programming, describes in detail the address and function of each
of the PC-DIO-24 control and status registers. This chapter also includes important
information related to register-level programming the PC-DIO-24.
•
•
Appendix A, Specifications, lists the specifications for the PC-DIO-24 board.
Appendix B, I/O Connector, describes the pinout and signal names for the I/O connector on
the PC-DIO-24.
•
Appendix C, OKI 82C55A Data Sheet, contains the manufacturer data sheet for the
OKI 82C55A (OKI Semiconductor) CMOS programmable peripheral interface. This
interface is used on the PC-DIO-24 board.
•
•
Appendix D, Customer Communication, contains forms you can use to request help from
National Instruments or to comment on our products.
The Glossary contains an alphabetical list and description of terms used in this manual,
including abbreviations, acronyms, metric prefixes, mnemonics, symbols, and terms.
© National Instruments Corporation
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About This Manual
•
The Index alphabetically lists the topics in this manual, including the page where you can
find each one.
Conventions Used in This Manual
The following conventions are used in this manual.
bold
Bold text denotes menus, menu items, or dialog box buttons or options.
bold italic
Bold italic text denotes a note, caution, or warning.
italic
Italic text denotes emphasis, a cross reference, or an introduction to a key
concept.
monospace
Lowercase text in this font denotes text or characters that are to be literally
input from the keyboard, sections of code, programming examples, and
syntax examples. This font is also used for the proper names of disk
drives, paths, directories, programs, subprograms, subroutines, device
names, functions, variables, filenames, and extensions, and for statements
and comments taken from program code.
NI-DAQ
PC
NI-DAQ refers to the NI-DAQ software for PC compatibles unless
otherwise noted.
PC refers to the IBM PC/XT, the IBM PC AT, and compatible computers
unless otherwise noted.
SCXI
< >
SCXI stands for Signal Conditioning eXtensions for Instrumentation and
is a National Instruments product line designed to perform front-end signal
conditioning for National Instruments plug-in DAQ boards.
Angle brackets containing numbers separated by an ellipses represent a
range, signal, or port (for example, ACH<0..7> stands for ACH0 through
ACH7).
Abbreviations, acronyms, metric prefixes, mnemonics, and symbols are listed in the Glossary.
National Instruments Documentation
The PC-DIO-24 User Manual is one piece of the documentation set for your data acquisition
(DAQ) system. You could have any of several types of manuals, depending on the hardware and
software in your system. Use the different types of manuals you have as follows:
•
Getting Started with SCXI—If you are using SCXI, this is the first manual you should read.
It gives an overview of the SCXI system and contains the most commonly needed
information for the modules, chassis, and software.
PC-DIO-24 User Manual
xii
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About This Manual
•
•
Your SCXI hardware user manuals—If you are using SCXI, read these manuals next for
detailed information about signal connections and module configuration. They also explain
in greater detail how the module works and contain application hints.
Your DAQ hardware user manuals—These manuals have detailed information about the
DAQ hardware that plugs into or is connected to your computer. Use these manuals for
hardware installation and configuration instructions, specification information about your
DAQ hardware, and application hints.
•
Software manuals—Examples of software manuals you may have are the LabVIEW and
LabWindows®/CVI manual sets and the NI-DAQ manuals (a 4.6.1 or earlier version of
NI-DAQ supports LabWindows for DOS). After you set up your hardware system, use either
the application software (LabVIEW or LabWindows/CVI) manuals or the NI-DAQ manuals
to help you write your application. If you have a large and complicated system, it is
worthwhile to look through the software manuals before you configure your hardware.
•
•
Accessory installation guides or manuals—If you are using accessory products, read the
terminal block and cable assembly installation guides or accessory board user manuals. They
explain how to physically connect the relevant pieces of the system. Consult these guides
when you are making your connections.
SCXI chassis manuals—If you are using SCXI, read these manuals for maintenance
information on the chassis and installation instructions.
Related Documentation
The following documents contain information that you may find helpful as you read this manual:
•
•
IBM Personal Computer AT Technical Reference manual
IBM Personal Computer XT Technical Reference manual
Customer Communication
National Instruments wants to receive your comments on our products and manuals. We are
interested in the applications you develop with our products, and we want to help if you have
problems with them. To make it easy for you to contact us, this manual contains comment and
configuration forms for you to complete. These forms are in Appendix D, Customer
Communication, at the end of this manual.
© National Instruments Corporation
xiii
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Chapter 1
Introduction
This chapter describes the PC-DIO-24, lists what you need to get started, describes software
programming choices, optional equipment, and custom cables, and explains how to unpack the
PC-DIO-24.
About the PC-DIO-24
Thank you for purchasing the National Instruments PC-DIO-24. The PC-DIO-24 is a low cost,
24-bit parallel, digital I/O interface for the PC. An OKI 82C55A PPI controls the 24 bits of
digital I/O. The 82C55A is very flexible and powerful when interfacing with peripheral
equipment, can operate in either a unidirectional or bidirectional bus mode, and can generate
interrupt request outputs. The 82C55A can be programmed for almost any 8-bit or 16-bit digital
I/O application. All digital I/O is through a standard 50-pin male connector. The pin
assignments for this connector are compatible with standard 24-channel digital I/O applications.
The PC-DIO-24 can be used in a wide range of digital I/O applications. With the PC-DIO-24, a
PC can be interfaced to any of the following.
•
Other computers
-
-
-
-
Another PC with a National Instruments PC-DIO-24 or AT-DIO-32F
IBM Personal System/2 with a National Instruments MC-DIO-24 or MC-DIO-32F
Apple Macintosh II with a National Instruments NB-DIO-24 or NB-DIO-32F
Any other computer with an 8-bit or 16-bit parallel interface
•
•
•
•
Centronics-compatible printers and plotters
Panel meters
Instruments and test equipment with BCD readouts and/or controls
Opto-isolated solid-state relays (SSRs) and I/O module mounting racks
Note: The PC-DIO-24 cannot sink sufficient current to drive the SSR-OAC-5 and
SSR-OAC-5A output modules. However, it can drive the SSR-ODC-5 output module
and all SSR input modules available from National Instruments.
If you need to drive a SSR-OAC-5 or SSR-OAC-5A, you can either use a non-inverting
digital buffer chip between the PC-DIO-24 and the SSR backplane, or you can use a
DIO-23F or MIO Series board with appropriate connections (e.g., SC-205X and
cables).
© National Instruments Corporation
1-1
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Introduction
Chapter 1
With the PC-DIO-24, the PC can serve as a digital I/O system controller for laboratory testing,
production testing, and industrial process monitoring and control.
Detailed specifications of the PC-DIO-24 are in Appendix A, Specifications.
What You Need to Get Started
To set up and use your PC-DIO-24, you will need the following:
PC-DIO-24 board
PC-DIO-24 User Manual
One of the following software packages and documentation:
NI-DAQ for PC compatibles
LabVIEW for Windows
LabWindows/CVI for Windows
Your computer
Software Programming Choices
There are several options to choose from when programming your National Instruments DAQ
and SCXI hardware. You can use LabVIEW, LabWindows/CVI, or NI-DAQ. A 4.6.1 or earlier
version of NI-DAQ supports LabWindows for DOS.
LabVIEW and LabWindows/CVI Application Software
LabVIEW and LabWindows/CVI are innovative program development software packages for
data acquisition and control applications. LabVIEW uses graphical programming, whereas
LabWindows/CVI enhances traditional programming languages. Both packages include
extensive libraries for data acquisition, instrument control, data analysis, and graphical data
presentation.
LabVIEW features interactive graphics, a state-of-the-art user interface, and a powerful graphical
programming language. The LabVIEW Data Acquisition VI Library, a series of VIs for using
LabVIEW with National Instruments DAQ hardware, is included with LabVIEW. The LabVIEW
Data Acquisition VI Libraries are functionally equivalent to the NI-DAQ software.
LabWindows/CVI features interactive graphics, a state-of-the-art user interface, and uses the
ANSI standard C programming language. The LabWindows/CVI Data Acquisition Library, a
series of functions for using LabWindows/CVI with National Instruments DAQ hardware, is
included with the NI-DAQ software kit. The LabWindows/CVI Data Acquisition libraries are
functionally equivalent to the NI-DAQ software.
Using LabVIEW or LabWindows/CVI software will greatly reduce the development time for
your data acquisition and control application.
PC-DIO-24 User Manual
1-2
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Chapter 1
Introduction
NI-DAQ Driver Software
The NI-DAQ driver software is included at no charge with all National Instruments DAQ
hardware. NI-DAQ is not packaged with SCXI or accessory products, except for the SCXI-1200.
NI-DAQ has an extensive library of functions that you can call from your application
programming environment. These functions include routines for analog input (A/D conversion),
buffered data acquisition (high-speed A/D conversion), analog output (D/A conversion),
waveform generation, digital I/O, counter/timer operations, SCXI, RTSI, self-calibration,
messaging, and acquiring data to extended memory.
NI-DAQ has both high-level DAQ I/O functions for maximum ease of use and low-level DAQ
I/O functions for maximum flexibility and performance. Examples of high-level functions are
streaming data to disk or acquiring a certain number of data points. An example of a low-level
function is writing directly to registers on the DAQ device. NI-DAQ does not sacrifice the
performance of National Instruments DAQ devices because it lets multiple devices operate at
their peak performance.
NI-DAQ also internally addresses many of the complex issues between the computer and the
DAQ hardware such as programming interrupts and DMA controllers. NI-DAQ maintains a
consistent software interface among its different versions so that you can change platforms with
minimal modifications to your code. Figure 1-1 illustrates the relationship between NI-DAQ and
LabVIEW and LabWindows/CVI.
Conventional
LabVIEW
(PC, Macintosh, or
Sun SPARCstation)
LabWindows/CVI
(PC or Sun
SPARCstation)
Programming
Environment
(PC, Macintosh, or
Sun SPARCstation)
NI-DAQ
Driver Software
Personal
Computer or
Workstation
DAQ or
SCXI Hardware
Figure 1-1. The Relationship between the Programming Environment,
NI-DAQ, and Your Hardware
© National Instruments Corporation
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Introduction
Chapter 1
Register-Level Programming
The final option for programming any National Instruments DAQ hardware is to write register-
level software. Writing register-level programming software can be very time-consuming and
inefficient, and is not recommended for most users.
Even if you are an experienced register-level programmer, consider using NI-DAQ, LabVIEW,
or LabWindows/CVI to program your National Instruments DAQ hardware. Using the NI-DAQ,
LabVIEW, or LabWindows/CVI software is easier than, and as flexible as, register-level
programming, and can save weeks of development time.
Optional Equipment
National Instruments offers a variety of products to use with your PC-DIO-24 board, including
cables, connector blocks, and other accessories, as follows:
•
•
•
Cables and cable assemblies, shielded and ribbon
Connector blocks, shielded and unshielded 50-pin screw terminals
Signal conditioning eXtensions for Instrumentation (SCXI) modules and accessories for
isolating, amplifying, exciting, and multiplexing signals for relays and analog output. With
SCXI you can condition and acquire up to 3,072 channels.
•
Low channel count signal conditioning modules, boards, and accessories, including
conditioning for strain gauges and RTDs, simultaneous sample and hole, and relays.
For more specific information about these products, refer to your National Instruments catalog or
call the office nearest you.
Custom Cables
National Instruments offers cables and accessories for you to prototype your application or to use
if you frequently change board interconnections.
If you want to develop your own cable, however, the following guidelines may be useful:
The PC-DIO-24 I/O connector is a 50-pin male ribbon-cable header. The manufacturer part
numbers used by National Instruments for this header are as follows:
•
•
Electronic Products Division/3M (part number 3596-5002)
T&B/Ansley Corporation (part number 609-5007)
The mating connector for the PC-DIO-24 is a 50-position, polarized, ribbon socket connector
with strain relief. National Instruments uses a polarized (keyed) connector to prevent inadvertent
upside-down connection to the PC-DIO-24. Recommended manufacturer part numbers for this
mating connector are as follows:
PC-DIO-24 User Manual
1-4
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Chapter 1
Introduction
•
•
Electronic Products Division/3M (part number 3425-7650)
T&B/Ansley Corporation (part number 609-5041CE)
The standard ribbon cable (50-conductor, 28 AWG, stranded) that can be used with these
connectors is as follows:
•
•
Electronic Products Division/3M (part number 3365/50)
T&B/Ansley Corporation (part number 171-50)
Recommended manufacturer part numbers for the 50-pin edge connector for connecting to a
module rack with an edge connector are as follows:
•
•
Electronic Products Division/3M (part number 3415-0001)
T&B Ansley Corporation (part number 609-5015M)
A polarizing key can be plugged into these edge connectors to prevent inadvertent upside-down
connection to the I/O module rack. The location of this key varies from rack to rack. Consult
the specification for the rack you intend to use for the location of any polarizing key. The
recommended manufacturer part numbers for this polarizing key are as follows:
•
•
Electronic Products Division/3M (part number 3439-2)
T&B Ansley Corporation (part number 609-0005)
If you plan to use the PC-DIO-24 for a communications application, you may need shielded
cables to meet FCC requirements. The PC-DIO-24 I/O bracket has been designed so that the
shield of the I/O cable can be grounded through the computer chassis when a mating connector
such as the following is used:
•
AMP Special Industries (part number 2-746483-2)
Many varieties of shielded ribbon cable are available to work with the mating connector listed
previously. One type of shielded cable encloses a standard ribbon cable with a shielded jacket.
Recommended manufacturers and the appropriate part numbers for this type of cable are as
follows:
•
•
Belden Electronic Wire and Cable (part number 9L28350)
T&B/Ansley Corporation (part number 187-50)
© National Instruments Corporation
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Introduction
Chapter 1
Unpacking
Your PC-DIO-24 board is shipped in an antistatic package to prevent electrostatic damage to the
board. Electrostatic discharge can damage several components on the board. To avoid such
damage in handling the board, take the following precautions:
•
•
Ground yourself via a grounding strap or by holding a grounded object.
Touch the antistatic package to a metal part of your PC chassis before removing the board
from the package.
•
•
Remove the board from the package and inspect the board for loose components or any other
sign of damage. Notify National Instruments if the board appears damaged in any way. Do
not install a damaged board into your computer.
Never touch the exposed pins of connectors.
PC-DIO-24 User Manual
1-6
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Chapter 2
Configuration and Installation
This chapter describes how to configure and install the PC-DIO-24, including I/O connector
signal descriptions, handshake timing diagrams, and cabling instructions.
Board Configuration
The PC-DIO-24 contains one DIP switch and two jumpers to configure the base I/O address and
interrupts, respectively. The PC-DIO-24 also contains one fuse to protect the +5 V power
output. Figure 2-1 shows the location of jumper sets W1 and W2, DIP switch U2, and the
fuse F1.
The PC-DIO-24 is configured at the factory to a base I/O address of hex 210, to use interrupt
enable line PC4, and to use interrupt level 5. These settings (shown in Table 2-1) are suitable for
most systems. However, if your system has other hardware at this base I/O address, interrupt
enable line, or interrupt level, you need to change these settings on the PC-DIO-24 (as described
in the following pages) or on the other hardware. Record your settings in the PC-DIO-24
Hardware and Software Configuration Form in Appendix D, Customer Communication.
Table 2-1. PC-DIO-24 Factory-Set Jumper and Switch Settings
Base I/O Address
Hex 210
(factory setting)
1 2 3 4 5 6 7 8
U2
(The black side indicates the side that
is pushed down.)
Interrupt Enable Line
Interrupt Level
PC4
(factory setting)
W1: Row PC4
W2: IRQ5
Interrupt level 5 selected
(factory setting)
© National Instruments Corporation
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Configuration and Installation
Chapter 2
1
2
NATIONAL
INS TRUMENT S
4
3
1
2
3
4
U2
W1
F1
W2
Figure 2-1. PC-DIO-24 Parts Locator Diagram
Base I/O Address Settings
The base I/O address for the PC-DIO-24 is determined by the switches at position U2 (see
Figure 2-1). The switches are set at the factory for the I/O address hex 210. With this default
setting, the PC-DIO-24 uses the I/O address space hex 210 through 213.
Note: Verify that this space is not already used by other equipment installed in your
computer. If any equipment in your computer uses this I/O address space, you must
change the base I/O address for the PC-DIO-24 or for the other device.
Each switch in U2 corresponds to one of the address lines A9 through A2. Thus, the range for
possible base I/O address settings is hex 000 through 3FC. Base I/O address values hex 000
through 0FF are reserved for system use. Base I/O values hex 100 through 3FF are available on
the I/O channel. A1 and A0 are used by the PC-DIO-24 to decode the onboard registers. On the
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Configuration and Installation
U2 DIP switches, press the side marked OFF to select a binary value of 1 for the corresponding
address bit. Press the other side of the switch to select a binary value of 0 for the corresponding
address bit. Figure 2-2 shows two possible switch settings. The black side indicates the side that
is pushed down.
1
2
3
4
5
6
7
8
O
N
O
F
F
U2
A. Switches Set to Default Setting (Base I/OAddress Hex 210)
1
2
3
4
5
6
7
8
O
N
O
F
F
U2
B. Switches Set to Base I/OAddress Hex 278
Figure 2-2. Example Base I/O Address Switch Settings
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Configuration and Installation
Chapter 2
Interrupt Selection
There are two sets of jumpers for interrupt selection on the PC-DIO-24 board. W1 is used for
selecting the interrupt enable line. W2 is for selecting the interrupt level. The location of these
jumpers is shown in Figure 2-1.
Interrupt Enable Settings
To enable interrupt requests from the PC-DIO-24, you must set jumper W1 to select PC2, PC4,
or PC6 as the active low interrupt enable line. When the interrupt enable line is logic low,
interrupts are enabled from the PC-DIO-24 board. Refer to Chapter 4, Register-Level
Programming, for the suggested interrupt enable line setting for each digital I/O mode of
operation. If W1 is set to N/C, all interrupt requests from the PC-DIO-24 are disabled.
Figure 2-3 shows the possible jumper settings for W1. The board is shipped with this jumper set
to PC4; therefore, interrupt requests from the board are enabled and controlled by PC4.
W1
W1
W1
W1
PC6
PC4
PC2
N/C
PC6
PC4
PC2
N/C
PC6
PC4
PC2
N/C
PC6
PC4
PC2
N/C
INT
INT
INT
INT
(Default Factory Setting)
Figure 2-3. Jumper Settings–PC6, PC4, PC2, and N/C
Interrupt Level Settings
The PC-DIO-24 board can connect to any one of the six interrupt lines of the PC I/O Channel:
IRQ3, IRQ4, IRQ5, IRQ6, IRQ7, or IRQ9. You select the interrupt line by setting a jumper on
W2. To use the interrupt capability of the board, you must select an interrupt line and place the
jumper in the appropriate position. The default interrupt line is IRQ5. To change to another line,
remove the jumper from IRQ5 and place it on the pins for another request line. Figure 2-4 shows
the default factory setting for IRQ5.
IRQ
W2
3
4
5
6
7
9
Figure 2-4. Interrupt Jumper Setting for IRQ5 (Factory Setting)
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The PC-DIO-24 can share interrupt lines with other devices by using a tristate driver to drive its
selected interrupt lines.
Installation
The PC-DIO-24 can be installed in any unused 8-bit or 16-bit expansion slot in your computer.
After you make any necessary changes and verify the switch and jumper settings, record the
settings in the PC-DIO-24 Hardware and Software Configuration Form in Appendix D,
Customer Communication. You are now ready to install the PC-DIO-24.
The following are general installation instructions, but consult the user manual or technical
reference manual of your personal computer for specific instructions and warnings.
1. Turn off your computer.
2. Remove the top cover or access port to the I/O channel.
3. Remove the expansion slot cover on the back panel of the computer.
4. Insert the PC-DIO-24 in an unused 8-bit or 16-bit slot. It may be a tight fit, but do not force
the board into place.
5. Screw the mounting bracket of the PC-DIO-24 to the back panel rail of the computer.
6. Check the installation.
7. Replace the cover to the computer.
The PC-DIO-24 board is now installed and ready for operation.
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Configuration and Installation
Chapter 2
Signal Connections
I/O Connector Pin Description
Figure 2-5 shows the pin assignments for the PC-DIO-24 digital I/O connector.
Warning: Connections that exceed any of the maximum ratings of input or output signals on
the PC-DIO-24 may result in damage to the PC-DIO-24 board and to the PC.
Maximum ratings for each signal are given in this chapter under the discussion of
that signal. National Instruments is not liable for any damages resulting from any
such signal connections.
PC7
PC6
PC5
PC4
PC3
PC2
PC1
PC0
PB7
PB6
PB5
PB4
PB3
PB2
PB1
PB0
PA 7
PA 6
PA 5
PA 4
PA 3
PA 2
PA 1
PA 0
+5V
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
1
3
5
7
9
2
4
6
8
10
11 12
13 14
15 16
17 18
19 20
21 22
23 24
25 26
27 28
29 30
31 32
33 34
35 36
37 38
39 40
41 42
43 44
45 46
47 48
49 50
Figure 2-5. Digital I/O Connector Pin Assignments
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Signal Connection Descriptions
Pin
Signal Name
Description
1, 3, 5, 7, 9, 11, 13, PC<7..0>
15
Port C—Bidirectional data lines for port C. PC7 is the MSB,
PC0 the LSB.
17, 19, 21, 23, 25,
27, 29, 31
PB<7..0>
Port B—Bidirectional data lines for port B. PB7 is the MSB,
PB0 the LSB.
33, 35, 37, 39, 41,
43, 45, 47
PA<7..0>
Port A—Bidirectional data lines for port B. PA7 is the MSB,
PA0 the LSB.
49 (see note below) +5 V
+5 Volts—This pin provides +5 VDC.
All even-numbered GND
pins
Ground—These signals are connected to the PC ground signal.
Note: Pin 49 is connected to the +5 V PC power supply via a 1 A fuse. A replacement fuse is available from
Allied Electronics, part number 845-2007, or Littelfuse, part number 251001.
The absolute maximum voltage input rating is -0.5 to +5.5 V with respect to GND.
Port C Pin Assignments
The signals assigned to port C depend on the mode in which the 82C55A is programmed. In
mode 0, port C is considered two 4-bit I/O ports. In modes 1 and 2, port C is used for status and
handshaking signals with two or three I/O bits mixed in. Table 2-2 summarizes the signal
assignments of port C for each programmable mode. See Chapter 4, Register-Level
Programming, for register-level programming information.
Warning: During programming, note that each time a port is configured, output ports A
and C are reset to 0, and output port B is undefined.
Table 2-2. Port C Signal Assignments
Programming Mode
Group A
PC5
Group B
PC1
PC7
I/O
PC6
I/O
PC4
PC3
PC2
PC0
I/O
I/O
I/O
I/O
I/O
I/O
Mode 0
Mode 1 Input
Mode 1 Output
Mode 2
I/O
I/O
IBF
STB * INTR
STB *
IBFB
INTR
A
A
A
A
A
B
B
B
B
OBF * ACK * I/O
I/O
INTR
ACK * OBF * INTR
A
A
B
B
OBF * ACK * IBF
STB * INTR
I/O
I/O
I/O
A
A
A
A
* Indicates that the signal is active low.
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Configuration and Installation
Chapter 2
Timing Specifications
This section lists the timing specifications for handshaking with the PC-DIO-24. The
handshaking lines STB* and IBF synchronize input transfers. The handshaking lines OBF* and
ACK* synchronize output transfers.
The following signals are used in the timing diagrams on the subsequent pages.
Name
STB*
IBF
Signal
Direction
Description
Input
Strobe Input—A low signal on this handshaking line loads data into the input
latch.
Output
Input
Input Buffer Full—A high signal on this handshaking line indicates that data
has been loaded into the input latch. This is an input acknowledge signal.
ACK*
Acknowledge Input—A low signal on this handshaking line indicates that
the data written from the selected port has been accepted. This signal is a
response from the external device that it has received the data from the
PC-DIO-24.
OBF*
INTR
Output
Output
Output Buffer Full—A low signal on this handshaking line indicates that
data has been written from the selected port.
Interrupt Request—This signal becomes high when the 82C55A is
requesting service during a data transfer. The appropriate interrupt enable
bits must be set to generate this signal.
RD*
Internal
Read Signal—This signal is the read signal generated from the control lines
of the PC.
WR*
DATA
Internal
Write Signal—This signal is the write signal generated from the control lines
of the PC.
Bidirectional
Data Lines at the Selected Port—This signal indicates when the data on the
data lines at a selected port is or should be available.
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Mode 1 Input Timing
The following figure illustrates the timing specifications for an input transfer in mode 1.
T1
T2
T4
STB*
IBF
T7
T6
INTR
RD*
T5
T3
DATA
Name Description
Minimum
Maximum
T1
T2
T3
T4
T5
T6
T7
STB* pulse width
100
–
20
–
50
–
–
–
150
–
150
–
200
150
STB* = 0 to IBF = 1
Data before STB* = 1
STB* = 1 to INTR = 1
Data after STB* = 1
RD* = 0 to INTR = 0
RD* = 1 to IBF = 0
All timing values are in nanoseconds.
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Configuration and Installation
Chapter 2
Mode 1 Output Timing
The following figure illustrates the timing specifications for an output transfer in mode 1.
T3
WR*
T4
OBF*
T1
T6
INTR
T5
ACK*
DATA
T2
Name Description
Minimum
Maximum
T1
T2
T3
T4
T5
T6
WR* = 0 to INTR = 0
WR* = 1 to output
WR* = 1 to OBF* = 0
ACK* = 0 to OBF* = 1
ACK* pulse width
–
–
–
250
200
150
150
–
–
100
–
ACK* = 1 to INTR = 1
150
All timing values are in nanoseconds.
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Chapter 2
Configuration and Installation
Mode 2 Bidirectional Timing
The following figure illustrates the timing specifications for bidirectional transfers in mode 2.
T1
WR*
T6
OBF*
INTR
T7
ACK*
T3
STB*
T10
T4
IBF
RD*
T2
T5
T9
T8
DATA
Name Description
Minimum
Maximum
T1
T2
T3
T4
T5
T6
T7
T8
T9
T10
WR* = 1 to OBF* = 0
Data before STB* = 1
STB* pulse width
STB* = 0 to IBF = 1
Data after STB* = 1
ACK* = 0 to OBF = 1
ACK* pulse width
ACK* = 0 to output
ACK* = 1 to output float
RD* = 1 to IBF = 0
–
20
100
–
50
–
100
–
20
–
150
–
–
150
–
150
–
150
250
150
All timing values are in nanoseconds.
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Chapter 3
Theory of Operation
This chapter contains a functional overview of the PC-DIO-24 board and explains the operation
of each functional unit making up the PC-DIO-24.
The block diagram in Figure 3-1 illustrates the key functional components of the PC-DIO-24
board.
Address
Decoder
PA
/
8
Bus
Transceivers
PB
82C55A
PPI
/
8
PC
/
8
PC I/O
Channel
Control
Circuitry
Interrupt
Control
Circuitry
PC3
PC0
+5 V
1 A Fuse
Figure 3-1. PC-DIO-24 Block Diagram
The PC I/O Channel consists of an address bus, a data bus, interrupt lines, and several control
and support signals. Control and data transfers to the system microprocessor are asynchronous.
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Theory of Operation
Chapter 3
Address Decoder
The base address used by the board is determined by an onboard switch setting. The address on
the PC I/O Channel bus is monitored by the address decoder. If the address on the bus matches
the selected I/O base address of the board, the board is enabled and the corresponding register on
the PC-DIO-24 is accessed.
Bus Transceivers
The bus transceivers control the sending and receiving of data lines to and from the PC I/O
Channel.
PC I/O Channel Control Circuitry
This circuitry monitors and transmits the PC I/O Channel control and support signals. The
control signals identify transfers as read or write, configuration or I/O, and 8-bit or 16-bit. The
PC-DIO-24 only uses 8-bit transfers.
82C55A Programmable Peripheral Interface
The 82C55A PPI is the heart of the PC-DIO-24. This chip has 24 programmable I/O pins that
represent three 8-bit ports—PA, PB, and PC. Each port can be programmed as an input or an
output port. The 82C55A has three modes of operation—simple I/O (mode 0), strobed I/O
(mode 1), and bidirectional I/O (mode 2). In modes 1 and 2, the three ports are divided into two
groups—group A and group B. Each group has eight data bits and four control and status bits
from port C (PC). Modes 1 and 2 use handshaking signals from port C to synchronize data
transfers. Refer to Chapter 4, Register-Level Programming, or to Appendix C, OKI 82C55A
Data Sheet, for more detailed information.
Interrupt Control Circuitry
The interrupt level used by the PC-DIO-24 is selected by the onboard jumper W2. Another
onboard jumper, W1, is used to enable interrupts from the PC-DIO-24. The setting for W1
selects PC2, PC4, or PC6 as the active low interrupt enable signal. Selecting N/C for W1
disables interrupts from the PC-DIO-24. When the onboard jumpers are set to enable interrupts,
the 82C55A can be programmed to generate an interrupt request by setting INTRA for group A
or INTRB for group B. When interrupts are enabled for group A, an active high signal on the
PC3 line generates an interrupt request. When interrupts are enabled for group B, an active high
signal on the PC0 line generates an interrupt request.
Digital I/O Connector
All digital I/O is transmitted through a standard 50-pin male connector. The pin assignments for
the I/O connector are compatible with standard 24-channel digital I/O applications. All even
pins on this connector are attached to logic ground, and pin 49 is connected to +5 V through a
protection fuse (F1), which is often required to operate I/O module mounting racks. See
Chapter 2, Configuration and Installation, for additional information.
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Chapter 4
Register-Level Programming
This chapter describes in detail the address and function of each of the PC-DIO-24 control and
status registers. This chapter also includes important information related to register-level
programming the PC-DIO-24.
The PC-DIO-24 is a parallel, digital I/O board designed around the OKI 82C55A integrated
circuit. The 82C55A is a general-purpose peripheral interface containing 24 programmable I/O
pins. These pins represent the three 8-bit I/O ports (A, B, and C) of the 82C55A. These ports
can be programmed as two groups of 12 signals or as three individual 8-bit ports. This chapter
includes register-level programming information for the PC-DIO-24, along with program examples
written in C.
Note: If you plan to use a programming software package such as LabWindows/CVI or
NI-DAQ with your PC-DIO-24 board, you need not read this chapter.
Introduction
The three 8-bit ports are divided into two groups—group A and group B (two groups of 12
signals). One 8-bit configuration (or control) word determines the mode of operation for each
group. The group A control bits configure port A<0..7> and the upper 4 bits (nibble) of
port C<4..7>. The group B control bits configure port B<0..7> and the lower nibble of
port C<0..3>. These configuration bits are defined later in this chapter.
82C55A Modes of Operation
The three basic modes of operation for the 82C55A are as follows:
•
•
•
Mode 0 – Basic I/O
Mode 1 – Strobed I/O
Mode 2 – Bidirectional bus
The 82C55A also has a single bit set/reset feature for port C. The 8-bit control word also
programs this function. For additional information, refer to Appendix C, OKI 82C55A Data
Sheet.
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Register-Level Programming
Chapter 4
Mode 0
This mode can be used for simple input and output operations for each of the ports. No
handshaking is required; data is simply written to or read from a selected port.
Mode 0 has the following features:
•
•
•
Two 8-bit ports (A and B) and two 4-bit ports (upper and lower nibble of port C).
Any port can be input or output.
Outputs are latched, but inputs are not latched.
Mode 1
This mode transfers data that is synchronized by handshaking signals. ports A and B use the
eight lines of port C to generate or receive the handshake signals. This mode divides the ports
into two groups (group A and group B):
•
Each group contains one 8-bit data port (port A or port B) and one 4-bit control/data port
(upper or lower nibble of port C).
•
•
•
The 8-bit data ports can be either input or output, both of which are latched.
The 4-bit ports are used for control and status of the 8-bit data ports.
Interrupt generation and enable and/or disable functions are available.
Mode 2
This mode can be used for communication over a bidirectional 8-bit bus. Handshaking signals
are used in a manner similar to mode 1. Interrupt generation and enable and/or disable functions
are also available. Other features of this mode include the following:
•
•
•
Used in group A only (port A and upper nibble of port C).
One 8-bit bidirectional port (port A) and a 5-bit control status port (port C).
Latched inputs and outputs.
Single Bit Set/Reset Feature
Any of the eight bits of port C can be set or reset with one control word. This feature generates
status and control for port A and port B when operating in mode 1 or mode 2.
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Chapter 4
Register-Level Programming
Register Map
The following table lists the address map for the PC-DIO-24. The registers PORTA, PORTB,
PORTC, and CNFG are 8-bit registers in the 82C55A.
Table 4-1. PC-DIO-24 Address Map
Register
PORTA
PORTB
PORTC
CNFG
Offset Address
(Hex)
Size
Type
0x00
0x01
0x02
0x03
8-bit
Read-and-write
Read-and-write
Read-and-write
Write-Only
8-bit
8-bit
8-bit
Note: A number preceded by 0x is a hexadecimal number.
Register Descriptions
Figure 4-1 shows the two control-word formats used to completely program the 82C55A. The
Control Word Flag determines which control-word format is being programmed. When the
Control Word Flag is 1, bits 0 through 6 determine the I/O characteristics of the 82C55A ports
and the mode in which they are operating (that is, mode 0, mode 1, or mode 2). When the
Control Word Flag is 0, bits 3 through 0 determine the bit set/reset format of port C.
Warning: During programming, note that each time a port is configured, output ports A
and C are reset to 0, and output port B is undefined.
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Register-Level Programming
Chapter 4
Group A
Group B
D1
D7
D6
D5
D4
D3
D2
D0
Control Word
Flag
Port C
(low nibble)
1 = input
0 = output
1 = mode set
Mode Selection
00 = mode 0
01 = mode 1
1X = mode 2
Port B
1 = input
0 = output
Mode Selection
0 = mode 0
1 = mode 1
Port A
1 = input
0 = output
Port C
(high nibble)
1 = input
0 = output
a. Mode Set Word Format
D7
X
X
X
D3
D2
D1
D0
Control Word
Flag
Bit Set/Reset
1 = set
0 = bit set/reset
0 = reset
Bit Select
(000)
(001)
(010)
:
:
(111)
b. Bit Set/Reset Word Format
Figure 4-1. Control-Word Formats
Single Bit Set/Reset Feature
Table 4-2 shows the control words for setting or resetting each bit in port C. Notice that bit 7 of
the control word is cleared when programming the set/reset option for the bits of port C.
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Chapter 4
Register-Level Programming
Table 4-2. Port C Set/Reset Control Words
Number
Bit Set
Control Word
Bit Reset
Control Word
Bit Set or
Reset in Port C
0
1
2
3
4
5
6
7
0xxx0001
0xxx0011
0xxx0101
0xxx0111
0xxx1001
0xxx1011
0xxx1101
0xxx1111
0xxx0000
0xxx0010
0xxx0100
0xxx0110
0xxx1000
0xxx1010
0xxx1100
0xxx1110
xxxxxxxn
xxxxxxnx
xxxxxnxx
xxxxnxxx
xxxnxxxx
xxnxxxxx
xnxxxxxx
nxxxxxxx
Programming Considerations
Mode 0–Basic I/O
Mode 0 can be used for simple I/O functions for each of the three ports with no handshaking.
Each port can be assigned as an input or an output port. The 16 possible I/O configurations are
shown in Table 4-3. Notice that bit 7 of the control word is set when programming the mode of
operation for each port.
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Register-Level Programming
Chapter 4
Table 4-3. Mode 0 I/O Configurations
Control Word
Bit
Group A
Group B
Number
Port A
Port C1
Port B
Port C2
76543210
0
1
2
3
4
5
6
7
8
10000000
10000001
10000010
10000011
10001000
10001001
10001010
10001011
10010000
10010001
10010010
10010011
10011000
10011001
10011010
10011011
Output
Output
Output
Output
Output
Output
Output
Output
Input
Input
Input
Input
Input
Output
Output
Output
Output
Input
Input
Input
Output
Output
Input
Output
Input
Output
Input
Output
Input
Output
Input
Output
Input
Output
Input
Output
Input
Output
Input
Input
Output
Output
Input
Input
Input
Output
Output
Output
Output
Input
Input
Input
Output
Output
Input
9
10
11
12
13
14
15
Input
Output
Output
Input
Input
Input
Input
Input
Input
1
Upper nibble of port C
Lower nibble of port C
2
Mode 0 Programming Example
Main() {
#define BASE_ADDRESS
#define PORTAoffset
#define PORTBoffset
#define PORTCoffset
#define CNFGoffset
0x210
/* Board located at address 210 */
/* Offset for port A */
/* Offset for port B */
/* Offset for port C */
/* Offset for CNFG */
0x00
0x01
0x02
0x03
register unsigned int porta, portb, portc, cnfg;
char valread;
/* Variable to store data read from a
port */
/* Calculate register addresses. */
porta = BASE_ADDRESS + PORTAoffset;
portb = BASE_ADDRESS + PORTBoffset;
portc = BASE_ADDRESS + PORTCoffset;
cnfg = BASE_ADDRESS + CNFGoffset;
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Chapter 4
Register-Level Programming
/* EXAMPLE 1*/
outp(cnfg,0x80);
outp(porta,0x12);
outp(portb,0x34);
outp(portc,0x56);
/* Ports A, B, and C are outputs. */
/* Write data to port A. */
/* Write data to port B. */
/* Write data to port C. */
/* EXAMPLE 2*/
outp(cnfg,0x90);
/* Port A is input; ports B and C are
outputs. */
outp(portb,0x22);
outp(portc,0x55);
valread = inp(porta);
/* Write data to port B. */
/* Write data to port C. */
/* Read data from port A. */
/* EXAMPLE 3 */
outp(cnfg,0x82);
/* Ports A and C are outputs; port B
is an input. */
/* EXAMPLE 4 */
outp(cnfg,0x89);
/* Ports A and B are outputs; port C
is an input. */
}
Mode 1–Strobed Input
In mode 1, the digital I/O bits are divided into two groups—group A and group B. Each of these
groups contains one 8-bit port and one 4-bit control/data port. The 8-bit port can be either an
input or an output, and the 4-bit port is used for control and status information for the 8-bit port.
The transfer of data is synchronized by handshaking signals in the 4-bit port.
The control word written to the CNFG Register to configure port A for input in mode 1 is shown
as follows. Bits PC6 and PC7 of port C can be used as extra input or output lines.
7
1
6
0
5
1
4
1
3
2
1
0
1/0
X
X
X
Port C bits PC6 and PC7
1 = input
0 = output
The control word written to the CNFG Register to configure port B for input in mode 1 is shown
as follows. Notice that port B does not have extra input or output lines from port C.
7
1
6
5
4
3
2
1
1
1
0
X
X
X
X
X
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Register-Level Programming
Chapter 4
During a mode 1 data read transfer, the status of the handshaking lines and interrupt signals can
be obtained by reading port C. The port C status-word bit definitions for an input transfer are
shown as follows.
The following are the port C status-word bit definitions for input (port A and port B).
7
I/O
6
I/O
5
IBFA
4
3
2
1
IBFB
0
INTEA
INTRA
INTEB
INTRB
Bit
Name
Description
7–6
I/O
Input/Output—Extra I/O status lines when port A is in mode 1
input.
5
4
3
IBFA
Input Buffer Full for Port A—High indicates that data has been
loaded into the input latch for port A.
INTEA
INTRA
Interrupt Enable Bit for Port A—Enables interrupts from the
82C55A for port A. Controlled by bit set/reset of PC4.
Interrupt Request Status for Port A—When INTEA is high and
IBFA is high, this bit is high, indicating that an interrupt request is
asserted.
2
1
0
INTEB
IBFB
Interrupt Enable Bit for Port B—Enables interrupts from the
82C55A for port B. Controlled by bit set/reset of PC2.
Input Buffer Full for Port B—High indicates that data has been
loaded into the input latch for port B.
INTRB
Interrupt Request Status for Port B—When INTEB is high and
IBFB is high, this bit is high, indicating that an interrupt request is
asserted.
At the digital I/O connector, port C has the following pin assignments when in mode 1 input.
Notice that the status of STBA* and STBB* are not included in the port C status word.
PC7
PC6
PC5
PC4
PC3
PC2
PC1
PC0
I/O
I/O
IBFA
Group A
Group B
STBA*
INTRA
STBB*
IBFB
INTRB
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Chapter 4
Register-Level Programming
Mode 1 Input Programming Example
Main() {
#define BASE_ADDRESS
#define PORTAoffset
#define PORTBoffset
#define PORTCoffset
#define CNFGoffset
0x210
0x00
0x01
0x02
0x03
/* Board located at address 210. */
/* Offset for port A */
/* Offset for port B */
/* Offset for port C */
/* Offset for CNFG */
register unsigned int porta, portb, portc, cnfg;
char valread;
/* Variable to store data read from a
port */
/* Calculate register addresses. */
porta = BASE_ADDRESS + PORTAoffset;
portb = BASE_ADDRESS + PORTBoffset;
portc = BASE_ADDRESS + PORTCoffset;
cnfg = BASE_ADDRESS + CNFGoffset;
/* EXAMPLE 1–port A input */
outp(cnfg,0xB0);
while (!(inp(portc) & 0x20));
/* Port A is an input in mode 1. */
/* Wait until IBFA is set, indicating that
data has been loaded in port A. */
/* Read the data from port A. */
valread = inp(porta);
/* EXAMPLE 2–port B input */
outp(cnfg,0x86);
while (!(inp(portc) & 0x02));
/* Port B is an input in mode 1. */
/* Wait until IBFB is set, indicating that
data has been loaded in port B. */
valread = inp(portb);
}
Mode 1–Strobed Output
The control word written to the CNFG Register to configure port A for output in mode 1 is
shown as follows. Bits PC4 and PC5 of port C can be used as extra input or output lines when
port A uses mode 1 output.
7
1
6
0
5
1
4
0
3
2
1
0
1/0
X
X
X
Port C bits PC4 and PC5
1 = input
0 = output
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Register-Level Programming
Chapter 4
The control word written to the CNFG Register to configure port B for output in mode 1 is
shown as follows. Notice that port B does not have extra input or output lines from port C.
7
1
6
5
4
3
2
1
1
0
0
X
X
X
X
X
During a mode 1 data write transfer, the status of the handshaking lines and interrupt signals can
be obtained by reading port C. Notice that the bit definitions are different for a write and a read
transfer.
The following are the port C status-word bit definitions for output (port A and port B).
7
6
5
I/O
4
I/O
3
2
1
0
OBFA*
INTEA
INTRA
INTEB
OBFB*
INTRB
Bit
Name
Description
7
OBFA*
Output Buffer Full for Port A—Low indicates that the CPU has
written data to port A.
6
INTEA
Interrupt Enable Bit for Port A—If this bit is high, interrupts are
enabled from the 82C55A for port A. Controlled by bit set/reset of
PC6.
5–4
3
I/O
Input/Output—Extra I/O status line when port A is in mode 1
output.
INTRA
Interrupt Request Status for Port A—When INTEA is high and
OBFA* is high, this bit is high, indicating that an interrupt request
is asserted.
2
INTEB
Interrupt Enable Bit for Port B—If this bit is high, interrupts are
enabled from the 82C55A for port B. Controlled by bit set/reset of
PC2.
1
0
OBFB*
INTRB
Output Buffer Full for Port B—Low indicates that the CPU has
written data out to port B.
Interrupt Request Status for Port B—When INTEB is high and
OBFB* is high, this bit is high, indicating that an interrupt request
is asserted.
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Chapter 4
Register-Level Programming
At the digital I/O connector, port C has the following pin assignments when in mode 1 output.
Notice that the status of ACKA* and ACKB* is not included when port C is read.
PC7
PC6
PC5
PC4
PC3
PC2
PC1
PC0
OBFA*
ACKA*
I/O
Group A
Group B
I/O
INTRA
ACKB*
OBFB*
INTRB
Mode 1 Output Programming Example
Main() {
#define BASE_ADDRESS
#define PORTAoffset
#define PORTBoffset
#define PORTCoffset
#define CNFGoffset
0x210
0x00
0x01
0x02
0x03
/* Board located at address 210. */
/* Offset for port A */
/* Offset for port B */
/* Offset for port C */
/* Offset for CNFG */
register unsigned int porta, portb, portc, cnfg;
char valread;
/* Variable to store data read from a
port */
/* Calculate register addresses. */
porta = BASE_ADDRESS + PORTAoffset;
portb = BASE_ADDRESS + PORTBoffset;
portc = BASE_ADDRESS + PORTCoffset;
cnfg = BASE_ADDRESS + CNFGoffset;
/* EXAMPLE 1–port A output */
outp(cnfg,0xA0);
while (!(inp(portc) & 0x80));
/* Port A is an output in mode 1.*/
/* Wait until OBFA* is set, indicating
that the data last written to port A
has been read.*/
outp(porta,0x12);
/* Write data to port A. */
/* EXAMPLE 2–port B output */
outp(cnfg,0x84);
while (!(inp(portc) & 0x02));
/* Port B is an output in mode 1.*/
/* Wait until OBFB* is set, indicating
that the data last written to port B
has been read.*/
outp(portb,0x34);
}
/* Write the data to port B. */
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Register-Level Programming
Chapter 4
Mode 2–Bidirectional Bus
Mode 2 has an 8-bit bus that can transfer both input and output without changing the
configuration. The data transfers are synchronized with handshaking lines in port C. This mode
uses only port A; however, port B can be used in either mode 0 or mode 1 while port A is
configured for mode 2.
The control word written to the CNFG Register to configure port A as a bidirectional data bus in
mode 2 is shown as follows. If port B is configured for mode 0, then PC2, PC1, and PC0 of
port C can be used as extra input or output lines.
7
1
6
1
5
4
3
2
1
0
X
X
X
1/0
1/0
1/0
Port C bits PC2,PC1,PC0
1 = input
0 = output
Port B direction
1 = input
0 = output
Group B Mode
0 = mode 0
1 = mode 1
During a mode 2 data transfer, the status of the handshaking lines and interrupt signals can be
obtained by reading port C. The port C status-word bit definitions for a mode 2 transfer are
shown as follows.
The following are the port C status-word bit definitions for bidirectional data path (port A only).
7
6
5
IBFA
4
3
2
I/O
1
I/O
0
I/O
OBFA*
INTE1
INTE2
INTRA
Bit
Name
Description
7
OBFA*
Output Buffer Full—Low indicates that the CPU has written data
to port A.
6
5
INTE1
Interrupt Enable Bit for Output—If this bit is set, interrupts are
enabled from the 82C55A for OBFA*. Controlled by bit set/reset of
PC6.
IBFA
Input Buffer Full—High indicates that data has been loaded into
the input latch of port A.
(continues)
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Chapter 4
Register-Level Programming
Bit
Name
Description (continued)
4
INTE2
Interrupt Enable Bit for Input—If this bit is set, interrupts are
enabled from the 82C55A for IBFA. Controlled by bit set/reset of
PC4.
3
INTRA
Interrupt Request Status—If INTE1 is high and IBFA is high, this
bit is high, indicating that an interrupt request is asserted for input
transfers. If INTE2 is high and OBFA* is high, this bit is high,
indicating that an interrupt request is asserted for output transfers.
2–0
I/O
Input/Output—Extra I/O status lines available if port B is not
configured for mode 1.
At the digital I/O connector, port C has the following pin assignments when in mode 2.
PC7
PC6
PC5
PC4
PC3
PC2
PC1
PC0
OBFA*
ACKA*
IBFA
STBA*
INTRA
Group A
Group B
I/O
or
Hand-
shaking
Mode 2 Programming Example
Main() {
#define BASE_ADDRESS
#define PORTAoffset
#define PORTBoffset
#define PORTCoffset
#define CNFGoffset
0x210
0x00
0x01
0x02
0x03
/* Board located at address 210. */
/* Offset for port A */
/* Offset for port B */
/* Offset for port C */
/* Offset for CNFG */
register unsigned int porta, portb, portc, cnfg;
char valread;
/* Variable to store data read from a
port */
/* Calculate register addresses. */
porta = BASE_ADDRESS + PORTAoffset;
portb = BASE_ADDRESS + PORTBoffset;
portc = BASE_ADDRESS + PORTCoffset;
cnfg = BASE_ADDRESS + CNFGoffset;
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Register-Level Programming
Chapter 4
/* EXAMPLE 1*/
outp(cnfg,0xC0);
while (!(inp(portc) & 0x80));
/* Port A is in mode 2. */
/* Wait until OBFA* is set,
indicating that the data last
written to port A has been
read.*/
outp(porta,0x67);
while (!(inp(portc) & 0x20));
/* Write the data to port A. */
/* Wait until IBFA is set, indicating
that data is available in port A to
be read. */
valread = inp(porta);
}
/* Read data from port A. */
Interrupt Programming Examples
The following examples show the process required to enable interrupts for several different
operating modes. The interrupt handling routines and interrupt installation routines are not
included. See the IBM Personal Computer AT Technical Reference manual for additional
information.
Main() {
#define BASE_ADDRESS
#define PORTAoffset
#define PORTBoffset
#define PORTCoffset
#define CNFGoffset
0x210
0x00
0x01
0x02
0x03
/* Board located at address 210. */
/* Offset for port A */
/* Offset for port B */
/* Offset for port C */
/* Offset for CNFG */
register unsigned int porta, portb, portc, cnfg;
char valread;
/* Variable to store data read from a
port */
/* Calculate register addresses. */
porta = BASE_ADDRESS + PORTAoffset;
portb = BASE_ADDRESS + PORTBoffset;
portc = BASE_ADDRESS + PORTCoffset;
cnfg = BASE_ADDRESS + CNFGoffset;
/* EXAMPLE 1–Set up interrupts for mode 1 input for port A. Select PC6 as the
interrupt enable bit. */
outp(cnfg,0xB0);
outp(cnfg,0x09);
/* Port A is an input in mode 1. */
/* Set PC4 to enable interrupts from
82C55A. */
outp(cnfg,0x0C);
/* Clear PC6 to enable interrupts. */
/* EXAMPLE 2–Set up interrupts for mode 1 input for port B. Select PC6 as the
interrupt enable bit. */
outp(cnfg,0x86);
outp(cnfg,0x05);
/* Port B is an input in mode 1. */
/* Set PC2 to enable interrupts from
82C55A. */
outp(cnfg,0x0C);
/* Clear PC6 to enable interrupts. */
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Chapter 4
Register-Level Programming
/* EXAMPLE 3–Set up interrupts for mode 1 output for port A. Select PC4 as
the interrupt enable bit. */
outp(cnfg,0xA0);
outp(cnfg,0x0D);
/* Port A is an output in mode 1. */
/* Set PC6 to enable interrupts from
82C55A. */
outp(cnfg,0x0C);
/* Clear PC4 to enable interrupts. */
/* EXAMPLE 4–Set up interrupts for mode 1 output for port B. Select PC4 as
the interrupt enable bit. */
outp(cnfg,0x84);
outp(cnfg,0x05);
/* Port B is an output in mode 1. */
/* Set PC2 to enable interrupts from
82C55A. */
outp(cnfg,0x08);
/* Clear PC4 to enable interrupts. */
/* EXAMPLE 5–Set up interrupts for mode 2 output transfers. Select PC2 as the
interrupt enable bit. */
outp(cnfg,0xC0);
outp(cnfg,0x0D);
/* mode 2 output */
/* Set PC6 to enable interrupts from
82C55A. */
outp(cnfg,0x04);
/* Clear PC2 to enable interrupts. */
/* EXAMPLE 6–Set up interrupts for mode 2 input transfers. Select PC2 as the
interrupt enable bit. */
outp(cnfg,0xD0);
outp(cnfg,0x09);
/* mode 2 input */
/* Set PC4 to enable interrupts from
82C55A. */
outp(cnfg,0x04);
}
/* Clear PC2 to enable interrupts. */
Interrupt Handling
A jumper setting on the PC-DIO-24 selects the signal that is used for the interrupt enable signal.
If jumper W1 is set to N/C, interrupts are disabled. Jumper W1 can be used to select PC2, PC4,
or PC6 as the active low interrupt enable signal. For example, if PC2 is selected, interrupts are
enabled if PC2 is logic low. If PC2 is logic high, interrupts from the PC-DIO-24 are disabled.
The following table summarizes which signal should be used as the interrupt enable for all mode
combinations.
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Register-Level Programming
Chapter 4
Table 4-4. Interrupt Enable Signals for All Mode Combinations
Port A
Mode 2
Output
Port A
Mode 2
Input
Port B
Mode 1
Output
Port B
Mode 1
Input
Port A
Mode 1
Output
Port A
Mode 1
Input
Port B
Mode 0
Port A
Mode 0
Interrupt
Enable
Bit
No
No
No
No
No
No
No
No
No
No
No
No
Yes
Yes
Yes
No
No
No
No
No
No
No
No
No
Yes
Yes
Yes
No
No
No
No
No
No
No
No
No
No
No
Yes
Yes
Yes
No
No
No
No
Yes
No
No
No
Yes
No
No
Yes
No
No
Yes
No
No
No
No
No
No
No
Yes
No
No
Yes
No
No
Yes
No
No
No
No
No
No
No
Yes
Yes
Yes
No
No
No
No
No
No
Yes
No
No
Yes
No
No
Yes
No
No
Yes
No
No
Yes
No
No
No
No
No
No
No
No
N/C
PC6, PC2
PC4, PC2
PC6, PC4
PC6
PC4
PC6, PC4
PC6
No
Yes
Yes
Yes
No
No
Yes
No
PC4
PC2
N/C
N/C
PC2
N/C
N/C
No
Yes
No
No
Yes
The recommended jumper settings for W1 are as follows.
•
•
•
PC6 — If port A is in mode 1 input.
PC4 — If port A is in mode 1 output.
PC2 — If port A is in mode 2 (port B is not in mode 1).
To enable interrupts from the PC-DIO-24, select PC2, PC4, or PC6 as the active low interrupt
enable signal. Initially, set the selected bit high to disable unwanted interrupts.
Program the PC-DIO-24 for the I/O mode desired. To enable interrupts from the 82C55A, set
either the INTEA or the INTEB bit to enable interrupts from port A or port B, respectively. In
mode 2, set either INTE1 or INTE2 for interrupts on input or output transfers. After interrupts
have been enabled from the 82C55A, clear the selected interrupt enable bit to enable interrupts
from the PC-DIO-24.
An external signal can be used to interrupt the PC-DIO-24 when port A or port B is in mode 0.
Select PC2, PC4, or PC6 as the interrupt enable bit and clear the selected bit to enable interrupts.
Connect the external signal that should trigger an interrupt to either PC3 or PC0. When the
external signal becomes logic high, an interrupt request occurs. To disable the external signal
interrupt, set the selected interrupt enable bit to logic high.
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Appendix A
Specifications
This appendix lists the specifications for the PC-DIO-24 board. These specifications are typical at 25° C, unless
otherwise stated. The operating temperature range is 0° to 70° C.
Digital I/O
Number of channels .................................................... 24 I/O
Compatibility .............................................................. TTL
Absolute max voltage input rating .............................. -0.5 to +5.5 V with respect to GND
Handshaking................................................................ Requires 1 port
Power-on state............................................................. Configured as inputs
Data transfers .............................................................. Interrupts, programmed I/O
Digital Logic Levels
Input Signals
Odd-numbered pins 1–47.........................................
Level
Min
2.2 V
Max
5.3 V
0.8 V
1.0 µA
Input logic high voltage
Input logic low voltage
Input current
-0.3 V
-1.0 µA
(0 < V < 5 V)
in
Output Signals
Pin 49 (at +5 V)........................................................... 0.25 A max
Odd-numbered pins 1–47.........................................
Level
Output high voltage
(I = -2.5 mA)
Min
Max
5.0 V
0.4 V
—
3.7 V
0.0 V
4 mA
4 mA
out
Output low voltage
(I = 2.5 mA)
out
Output current
(V = 0.5 V)
OL
Output current
(V = 2.7 V)
—
OH
Environment
Operating Temperature ............................................... 0° to 70° C
Storage Temperature ................................................... -55° to 150° C
Relative humidity ........................................................ 5% to 90% noncondensing
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Specifications
Appendix A
Physical
Dimensions.................................................................. 17.5 by 9.9 cm (6.9 in. by 3.9 in.)
I/O connector............................................................... 50-pin male ribbon-cable connector
Power Requirement (from PC I/O Channel)
Typ power ................................................................... 0.10 A at 5 VDC (±10%)
Max power .................................................................. 0.16 A at 5 VDC (±10%)
Transfer Rates
The maximum average transfer rates for the PC-DIO-24 are shown as follows. The code used to make the
measurements follows the table. The assembly language code was assembled as inline assembly C code using
version 8.00 of the Microsoft Optimizing C Compiler. The C code was compiled using version 8.00 of the
Microsoft Optimizing C Compiler.
Table A-1. Maximum Average Transfer Rates for the PC-DIO-24
Bus
CPU
CPU Speed
Assembly
C
AT (ISA16)
486DX4
100 MHz
410 kbytes/s
330 kbytes/s
Assembly language code:
mov
cx, 64
dx, 0180h
; Count out 64 transfers
; The port to access
mov
loop:
lodsb
out
add
in
; Assume ds:si points to buffer of data
; Send the data
; Add offset to base address for Ireg1
; Dummy read from Ireg1
dx, al
dx, 0014h
al, dx
sub
dx, 0014h
; Restore base address
; The previous four lines are not
; necessary for measuring transfer rates
; Decrement the loop counter
; See if we need to loop
dec
jnz
cx
short loop
C code:
address = 0x0180;
/* The port address */
ireg1address = address + 0x0014;
for (i = 0; i < 64; i++) {
outp(address, *data++);
inp(ireg1address);
}
/* Loop 64 times */
/* Send data */
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Appendix B
I/O Connector
This appendix describes the pinout and signal names for the I/O connector on the PC-DIO-24.
Figure B-1 shows the PC-DIO-24 digital I/O connector.
PC7
PC6
PC5
PC4
PC3
PC2
PC1
PC0
PB7
PB6
PB5
PB4
PB3
PB2
PB1
PB0
PA 7
PA 6
PA 5
PA 4
PA 3
PA 2
PA 1
PA 0
+5V
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
GND
1
3
5
7
9
2
4
6
8
10
11 12
13 14
15 16
17 18
19 20
21 22
23 24
25 26
27 28
29 30
31 32
33 34
35 36
37 38
39 40
41 42
43 44
45 46
47 48
49 50
Figure B-1. PC-DIO-24 I/O Connector
Detailed signal specifications are included in Chapter 2, Configuration and Installation.
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Appendix
*
C
OKI 82C55A Data Sheet
This appendix contains the manufacturer data sheet for the OKI
Semiconductor 82C55A CMOS programmable peripheral
interface (PPI). This interface is used on the DAQCard-DIO-24.
*
Copyright © OKI Semiconductor. 1993. Reprinted with permission of copyright owner.
All rights reserved.
OKI Semiconductor Data Book Microprocessor, Seventh Edition, March 1993.
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Appendix C
OKI 82C55A Data Sheet
PC-DIO-24 User Manual
C-2
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Appendix C
OKI 82C55A Data Sheet
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Appendix C
OKI 82C55A Data Sheet
PC-DIO-24 User Manual
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Appendix C
OKI 82C55A Data Sheet
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Appendix C
OKI 82C55A Data Sheet
PC-DIO-24 User Manual
C-6
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Appendix C
OKI 82C55A Data Sheet
© National Instruments Corporation
C-7
PC-DIO-24 User Manual
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Appendix C
OKI 82C55A Data Sheet
PC-DIO-24 User Manual
C-8
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Appendix C
OKI 82C55A Data Sheet
© National Instruments Corporation
C-9
PC-DIO-24 User Manual
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Appendix C
OKI 82C55A Data Sheet
PC-DIO-24 User Manual
C-10
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Appendix C
OKI 82C55A Data Sheet
© National Instruments Corporation
C-11
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Appendix C
OKI 82C55A Data Sheet
PC-DIO-24 User Manual
C-12
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Appendix C
OKI 82C55A Data Sheet
© National Instruments Corporation
C-13
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Appendix C
OKI 82C55A Data Sheet
PC-DIO-24 User Manual
C-14
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Appendix C
OKI 82C55A Data Sheet
© National Instruments Corporation
C-15
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Appendix C
OKI 82C55A Data Sheet
PC-DIO-24 User Manual
C-16
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Appendix C
OKI 82C55A Data Sheet
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Appendix D
Customer Communication
___________________________________________________
For your convenience, this appendix contains forms to help you gather the information necessary
to help us solve technical problems you might have as well as a form you can use to comment on
the product documentation. Filling out a copy of the Technical Support Form before contacting
National Instruments helps us help you better and faster.
National Instruments provides comprehensive technical assistance around the world. In the U.S.
and Canada, applications engineers are available Monday through Friday from 8:00 a.m. to
6:00 p.m. (central time). In other countries, contact the nearest branch office. You may fax
questions to us at any time.
Corporate Headquarters
(512) 795-8248
Technical support fax: (800) 328-2203
(512) 794-5678
Branch Offices
Australia
Austria
Belgium
Canada Ontario)
Canada (Quebec)
Denmark
Finland
Phone Number
03 9 879 9422
0662 45 79 90 0
02 757 00 20
519 622 9310
514 694 8521
45 76 26 00
90 527 2321
1 48 14 24 24
089 741 31 30
2645 3186
02 48301892
03 5472 2970
02 596 7456
95 800 010 0793
03480 33466
32 84 84 00
Fax Number
03 9 879 9179
0662 45 79 90 19
02 757 03 11
519 622 9311
514 694 4399
45 76 71 11
90 502 2930
1 48 14 24 14
089 714 60 35
2686 8505
02 48301915
03 5472 2977
02 596 7455
05 404 0890
03480 30673
32 84 86 00
2265887
France
Germany
Hong Kong
Italy
Japan
Korea
Mexico
Netherlands
Norway
Singapore
Spain
Sweden
2265886
91 640 0085
08 730 49 70
056 20 51 51
02 377 1200
01635 523545
91 640 0533
08 730 43 70
056 20 51 55
02 737 4644
01635 523154
Switzerland
Taiwan
U.K.
© National Instruments Corporation
D-1
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Technical Support Form
___________________________________________________
Photocopy this form and update it each time you make changes to your software or hardware, and use the completed
copy of this form as a reference for your current configuration. Completing this form accurately before contacting
National Instruments for technical support helps our applications engineers answer your questions more efficiently.
If you are using any National Instruments hardware or software products related to this problem, include the
configuration forms from their user manuals. Include additional pages if necessary.
Name
Company
Address
Fax (
Computer brand
Operating system
)
Phone (
Model
)
Processor
Speed
MHz
RAM
no
MB
Display adapter
Mouse
yes
Other adapters installed
Brand
Hard disk capacity
Instruments used
MB
National Instruments hardware product model
Configuration
Revision
National Instruments software product
Configuration
Version
The problem is
List any error messages
The following steps will reproduce the problem
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PC-DIO-24 Hardware and Software
Configuration Form
___________________________________________________
Record the settings and revisions of your hardware and software on the line to the right of each item. Complete a
new copy of this form each time you revise your software or hardware configuration, and use this form as a
reference for your current configuration. Completing this form accurately before contacting National Instruments
for technical support helps our applications engineers answer your questions more efficiently.
National Instruments Products
•
•
PC-DIO-24 Revision
_________________________________________________
_________________________________________________
_________________________________________________
_________________________________________________
Base I/O Address of PC-DIO-24
(Factory Setting–hex 210)
•
•
•
•
Interrupt Enable Line of PC-DIO-24
(Factory Setting–PC4)
Interrupt Level of PC-DIO-24
(Factory Setting–5)
Handshaking Mode
(mode 0, mode 1, mode 2)
_________________________________________________
_________________________________________________
NI-DAQ or LabWindows/CVI Version
Other Products
•
•
•
•
•
•
•
•
•
•
Computer Make and Model
_________________________________________________
_________________________________________________
_________________________________________________
_________________________________________________
_________________________________________________
_________________________________________________
_________________________________________________
_________________________________________________
_________________________________________________
Microprocessor
Clock Frequency
Type of Video Board Installed
DOS Version
Programming Language
Programming Language Version
Other Boards in System
Base I/O Address of Other Boards
Interrupt Enable Line
of Other Boards
_________________________________________________
_________________________________________________
•
Interrupt Level of Other Boards
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Documentation Comment Form
___________________________________________________
National Instruments encourages you to comment on the documentation supplied with our products. This
information helps us provide quality products to meet your needs.
Title: PC-DIO-24 User Manual
Edition Date:
Part Number:
September 1995
320288B-01
Please comment on the completeness, clarity, and organization of the manual.
If you find errors in the manual, please record the page numbers and describe the errors.
Thank you for your help.
Name
Title
Company
Address
Phone
(
)
Mail to:
Technical Publications
Fax to:
Technical Publications
National Instruments Corporation
MS 53-02
National Instruments Corporation
6504 Bridge Point Parkway, MS 53-02
Austin, TX 78730-5039
(512) 794-5678
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Glossary
___________________________________________________
Prefix
Meaning
Value
-6
-3
µ-
m-
k-
micro-
milli-
kilo-
10
10
3
10
6
M-
mega-
10
°
degrees
ohms
percent
Ω
%
A
amperes
AWG
BCD
C
American Wire Gauge
binary-coded decimal
Celsius
DMA
hex
Hz
direct memory access
hexadecimal
hertz
in.
inches
Iin
input current
output current
1,024 bytes
least significant bit
megabytes of memory
meters
Iout
kbytes
LSB
MB
m
MSB
PPI
REXT
s
SSR
V
most significant bit
programmable peripheral interface
external resistance
seconds
solid-state relay
volts
VEXT
external volt
VDC
volts direct current
© National Instruments Corporation
Glossary-1
PC-DIO-24 User Manual
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Index
Special Characters
+5 V signal (table), 2-7
82C55A Programmable Peripheral Interface.
See OKI 82C55A Programmable
Peripheral Interface.
(table), 4-5
custom cables, 1-4 to 1-5
customer communication, xiii, D-1
D
A
DATA signal
description (table), 2-8
ACK* signal
mode 1 input timing, 2-9
mode 1 output timing, 2-10
mode 2 bidirectional timing, 2-11
digital I/O connector, 3-2
digital I/O specifications, A-1
digital logic level specifications
input signals (table), A-1
output signals (table), A-1
documentation
description (table), 2-8
mode 1 output timing, 2-10
mode 2 bidirectional timing, 2-11
address, setting. See base I/O address.
address decoder, 3-2
B
conventions used in manual, xii
National Instruments
documentation, xii-xiii
organization of manual, xi-xii
related documentation, xiii
base I/O address
example switch settings (table), 2-3
factory settings (table), 2-1
setting, 2-2 to 2-3
block diagram of PC-DIO-24, 3-1
board configuration. See configuration.
bus transceivers, 3-2
E
environment specifications, A-1
equipment, optional, 1-4 to 1-5
C
cables, custom, 1-4 to 1-5
F
configuration, 2-1 to 2-5. See also
installation; signal connections.
jumper and switch settings, 2-1 to 2-5
base I/O address settings, 2-1 to 2-3
factory settings, (table), 2-1
fax technical support, D-1
fuse, replacement, 2-7
interrupt enable settings, 2-4
interrupt level settings, 2-4 to 2-5
parts locator diagram, 2-2
G
control words
getting started with PC-DIO-24, 1-2
GND signal (table), 2-7
control-word formats (figure), 4-4
mode 1 strobed input (figure), 4-7
mode 1 strobed output (figure), 4-9
mode 2 bidirectional bus (figure), 4-12
Port C set/reset control words
© National Instruments Corporation
Index-1
PC-DIO-24 User Manual
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Index
interrupt enable settings, 2-4
interrupt handling, 4-15 to 4-16
recommended jumper settings for
W1, 4-16
I
IBF signal
description (table), 2-8
interrupt level settings, 2-4 to 2-5
mode 1 input timing, 2-9
mode 2 bidirectional timing, 2-11
IBFA bit, Port C, 4-8, 4-12
IBFB bit, Port C, 4-8
installation. See also configuration.
procedure for, 2-5
unpacking the PC-DIO-24, 1-6
INTE1 bit, Port C, 4-12
INTE2 bit, Port C, 4-13
INTEA bit, Port C, 4-8, 4-10
INTEB bit, Port C, 4-8, 4-10
interrupt control circuitry, 3-2
interrupt enable
L
LabVIEW and LabWindows/CVI
application software, 1-2
M
manual. See documentation.
mode 0 basic I/O, 4-5 to 4-7
configurations (table), 4-6
factory settings (table), 2-1
jumper settings (figure), 2-4
setting, 2-4
overview, 4-5
programming example, 4-6 to 4-7
purpose and use, 4-2
interrupt handling, 4-15 to 4-16
interrupt enable signals for all mode
combinations (table), 4-16
recommended jumper settings for
W1, 4-16
mode 1 input timing, 2-9
mode 1 output timing, 2-10
mode 1 strobed input, 4-7 to 4-9
control words written to CNFG register
(figures), 4-7
interrupt level
factory settings (table), 2-1
jumper setting (figure), 2-4
settings, 2-4 to 2-5
Port C pin assignments (figure), 4-8
Port C status-word bit definitions, 4-8
programming example, 4-9
purpose and use, 4-2
interrupt programming examples, 4-14
to 4-15
INTR signal
mode 1 strobed output, 4-9 to 4-11
control words written to CNFG register
(figure), 4-9 to 4-10
description (table), 2-8
mode 1 input timing, 2-9
mode 1 output timing, 2-10
mode 2 bidirectional timing, 2-11
INTRA bit, Port C, 4-8, 4-10, 4-13
INTRB bit, Port C, 4-8, 4-10
I/O bit, Port C, 4-8, 4-10, 4-13
I/O connectors
Port C pin assignments (figure), 4-11
Port C status-word bit definitions, 4-10
programming example, 4-11
purpose and use, 4-2
mode 2 bidirectional bus, 4-12 to 4-14
control word written to CNFG Register
(figure), 4-12
digital I/O connector, 3-2
pin description (figure), 2-6, B-1
Port C pin assignments (figure), 4-13
Port C status-word bit definitions, 4-12
to 4-13
programming example, 4-13 to 4-14
purpose and use, 4-2
mode 2 bidirectional timing, 2-11
J
jumper and switch settings, 2-1 to 2-5
base I/O address settings, 2-1 to 2-3
factory settings, (table), 2-1
PC-DIO-24 User Manual
Index-2
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Index
register-level programming, 1-4
theory of operation, 3-1 to 3-2
unpacking, 1-6
N
NI-DAQ driver software, 1-3
physical specifications, A-2
Port C
pin assignments
O
description, 2-7
mode 1 input (figure), 4-8
mode 1 output (figure), 4-11
mode 2 bidirectional bus
(figure), 4-13
OBF* signal
description (table), 2-8
mode 1 output timing, 2-10
mode 2 bidirectional timing, 2-11
OBFA* bit, Port C, 4-10
OBFB* bit, Port C, 4-10, 4-12
OKI 82C55A Programmable Peripheral
Interface
signal assignments (table), 2-7
set/reset control words (table), 4-5
status-word bit definitions
mode 1 strobed input, 4-8
mode 1 strobed output, 4-10
capabilities, 1-1
mode 2 bidirectional bus (figure),
4-12 to 4-13
power requirements (from PC I/O
channel), A-2
programming. See register-level
programming.
data sheet, C-1 to C-17
modes of operation, 4-1 to 4-2
mode 0, 4-2
mode 1, 4-2
mode 2, 4-2
single bit set/reset feature, 4-2
overview, 3-2
optional equipment for PC-DIO-24, 1-4
to 1-5
R
RD* signal
description (table), 2-8
P
mode 1 input timing, 2-9
mode 2 bidirectional timing, 2-11
register-level programming, 4-1 to 4-16
82C55A modes of operation, 4-1 to 4-2
compared with other software
options, 1-4
PA<7..0> signal (table), 2-7
parts locator diagram, 2-2
PB<7..0> signal (table), 2-7
PC I/O channel control circuitry, 3-2
PC<7..0> signal (table), 2-7
PC-DIO-24
interrupt handling, 4-15 to 4-16
interrupt enable signals for all mode
combinations (table), 4-16
interrupt programming examples, 4-14
to 4-15
mode 0 basic I/O, 4-5 to 4-7
configurations (table), 4-6
overview, 4-5
programming example, 4-6 to 4-7
mode 1 strobed input, 4-7 to 4-9
control words (figures), 4-7
Port C pin assignments (figure), 4-8
Port C status-word bit
block diagram, 3-1
custom cables, 1-4 to 1-5
driving SSR-OAC-5 or SSR-OAC-5A
(note), 1-1
getting started, 1-2
interfacing with other devices, 1-1
optional equipment, 1-4 to 1-5
overview, 1-1 to 1-2
parts locator diagram, 2-2
software programming choices, 1-2.
to 1-4
LabVIEW and LabWindows/CVI
application software, 1-2
NI-DAQ driver software, 1-3
definitions, 4-8
programming example, 4-9
© National Instruments Corporation
Index-3
PC-DIO-24 User Manual
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Index
mode 1 strobed output, 4-9 to 4-11
environment, A-1
physical, A-2
power requirements (from PC I/O
channel), A-2
control words written to CNFG
register (figure), 4-9 to 4-10
Port C pin assignments (figure), 4-11
Port C status-word bit
transfer rates, A-2
definitions, 4-10
SSR-OAC-5 and SSR-OAC-5A output
modules, driving with PC-DIO-24
(note), 1-1
programming example, 4-11
mode 2 bidirectional bus, 4-12 to 4-14
control word written to CNFG
Register (figure), 4-12
STB* signal
description (table), 2-8
mode 1 input timing, 2-9
mode 2 bidirectional timing, 2-11
switch settings. See jumper and
switch settings.
Port C pin assignments (figure), 4-13
Port C status-word bit definitions,
4-12 to 4-13
programming example, 4-13 to 4-14
register descriptions, 4-3 to 4-5
control word formats (figure), 4-4
Port C set/reset control words
(table), 4-5
T
single-bit set/reset feature, 4-4 to 4-5
register map, 4-3
technical support, D-1
theory of operation, 3-1 to 3-2
82C55A Programmable Peripheral
Interface, 3-2
S
address decoder, 3-2
block diagram, 3-1
signal connections
bus transceivers, 3-2
descriptions (table), 2-7
I/O connector pin description
(figure), 2-6
Port C pin assignments
description, 2-7
signal assignments (table), 2-7
timing specifications, 2-8 to 2-11
mode 1 input timing, 2-9
mode 1 output timing, 2-10
mode 2 bidirectional timing, 2-11
signals (table), 2-8
digital I/O connector, 3-2
interrupt control circuitry, 3-2
PC I/O channel control circuitry, 3-2
timing specifications, 2-8 to 2-11
mode 1 input timing, 2-9
mode 1 output timing, 2-10
mode 2 bidirectional timing, 2-11
signals (table), 2-8
transfer rate specifications, A-2
single bit set/reset feature
OKI 82C55A Programmable Peripheral
Interface, 4-2
U
unpacking the PC-DIO-24, 1-6
Port C set/reset control words
(table), 4-5
software programming choices, 1-2 to 1-4.
See also register-level programming.
LabVIEW and LabWindows/CVI
application software, 1-2
NI-DAQ driver software, 1-3
specifications
W
WR* signal
description (table), 2-8
mode 1 output timing, 2-10
mode 2 bidirectional timing, 2-11
digital I/O, A-1
digital logic levels, A-1
PC-DIO-24 User Manual
Index-4
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