A Sierra Monitor Company
Driver Manual
(Supplement to the FieldServer Instruction Manual)
FS-8700-19 Metasys N2
APPLICABILITY & EFFECTIVITY
Effective for all systems manufactured after May 1, 2001
Driver Version:
1.02
Document Revision: 22
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1.
Metasys N2 Description
The Metasys N2 network supports communications with a diverse range of devices. Many N2
compatible devices use their own version of the protocol and care must be taken to ensure that
the device of interest is covered by the FieldServer implementation.
At present the FieldServer N2 driver will support communications with the following devices or
device classes when acting as a Client:
1. N2Open-compliant devices. N2Open is a published N2-compatible protocol enabling 3rd
party device vendors to integrate with N2.
2. VMA 1400 series (with restrictions, as described in this document)
3. DX9100 and XT9100
When acting as a Server, the FieldServer N2 driver can emulate an N2Open device only.
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2.
Driver Scope of Supply
2.1. Supplied by FieldServer Technologies for this driver
FieldServer Technologies
PART #
Description
FS-8915-10
FS-8915-10
FS-8917-02
FS-8917-01
UTP cable (7 foot) for Ethernet connection
UTP cable (7 foot) for RS-232 use
RJ45 to DB9F connector adapter
RJ45 to DB25M connection adapter
RS-485 connection adapter
SPA59132
FS-8700-19
Driver Manual.
2.2.
2.2.1.
Provided by the Supplier of 3rd Party Equipment
Hardware
PART #
DESCRIPTION
Metasys NCU or other device
2.2.2.
Required 3rd Party Software
Depending on application, JCI software may be necessary
2.2.3.
Required 3rd Party Configuration
Depending on application, third party devices may need configuration
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3.
Hardware Connections
FieldServer as a Client
N2 bus
3rd Party
System
FieldServer
N2 devices
FieldServer as a Server
N2 bus
NCM, N30 or
other N2 client
(408)-262-2299
MetasysN2
CONNECTION DIAGRAM
3rd Party
System
FieldServer
N2 devices
BASE NAME:
FILE NAME: FS-8700-19
DATE: 05/31/06
BY: MC
3.1.
Hardware Connection Tips / Hints
When using the FS-X40 ensure that the FieldServer is connected to the network using one
or both of the RS-485 ports marked R1 and R2. If more ports are required, P1-P8 may be
used in conjunction with an RS-232-to-RS-485 converter.
When using the FS-X20, ensure that the serial port is configured as an RS-485 port. Refer
to Appendix B.3 for more information.
Only one N2 Client may be connected to a N2 network. If the FieldServer is to act as a
Client, ensure that no other Clients are connected to the same N2 network.
Note: Interceptor mode is no longer supported for this driver.
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4.
Configuring the FieldServer as a Metasys N2 Client
For a detailed discussion on FieldServer configuration, please refer to the FieldServer
Configuration manual. The information that follows describes how to expand upon the factory
defaults provided in the configuration files included with the FieldServer (See “.csv” sample files
provided with the FieldServer).
This section documents and describes the parameters necessary for configuring the FieldServer
to communicate with a Metasys N2 Server.
4.1.
Data Arrays/Descriptors
The configuration file defines the FieldServer interfaces, and the data routing required. In
order to enable the FieldServer for Metasys N2 communications, the driver independent
FieldServer buffers need to be declared in the “Data Arrays” section, the destination device
addresses need to be declared in the “Client Side Nodes” section, and the data required
from the Servers needs to be mapped in the “Client Side Map Descriptors” section.
Note that in the tables, * indicates an optional parameter, with the bold legal value being the
default value. Where only one legal value is given, no other values for that parameter are
allowed.
Section Title
Data_Arrays
Column Title
Function
Legal Values
Up to 15 alphanumeric
characters
Data_Array_Name
Provide name for Data Array
Float, Bit, UInt16, SInt16,
Provide data format. Each Data Array Packed_Bit, Byte,
Data_Array_Format
Data_Array_Length
can only take on one format.
Packed_Byte,
Swapped_Byte
Number of Data Objects. Must be
larger than the data storage area
required by the Map Descriptors for
the data being placed in this array.
1-10,000
Example
// Data Arrays
Data_Arrays
Data_Array_Name,
DA_AI_01,
DA_AO_01,
DA_DI_01,
Data_Format,
UInt16,
UInt16,
Bit,
Data_Array_Length
200
200
200
200
DA_DO_01,
Bit,
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4.2.
Client Side Connection Descriptions
Section Title
Connections
Column Title
Function
Specify which port the device is
connected to the FieldServer
Specify protocol used
Specify baud rate
Legal Values
P1-P8, R1-R21
Port
Protocol
Baud*
Parity*
Metasys_N2
9600
None
8
Specify parity
Specify data bits
Data_Bits*
Stop_Bits*
Specify stop bits
1
Handshaking*
Poll _Delay*
Specify hardware handshaking
Time between internal polls
Duration of RTS assert before
start of transmission
None
0
Line_Drive_On*
0.001s
Duration of RTS assert after
end of transmission
Line_Drive_Off*
0.000s
Example
// Client Side Connections
Connections
Port,
R1,
Protocol
Metasys_N2
1 Not all ports shown are necessarily supported by the hardware. Consult the appropriate Instruction
manual for details of the ports available on specific hardware.
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4.3.
Client Side Node Descriptors
Section
Title
Nodes
Column
Title
Function
Legal Values
Up to 32
Node_Name Provide name for node
alphanumeric
characters
1-255
Node_ID
Protocol
Station address of physical Server node
Specify protocol used
Metasys_N2
Specify which port the device is connected to the
FieldServer
Connection
P1-P8, R1-R21
Identify type of device
If this parameter is omitted the driver treats the
configuration as a N2Open configuration and marks
the Node_Type as N2OpenClient when using Ruinet N2OpenClient,
Node_Type
to check the Node parameters.
DX9100, VMA,
N2Open
If the Node_Type is specified as N2Open then the
driver still acts as N2 Open configuration but some
legacy port expander functionality used in some
legacy advanced configuration is enabled.
Example
// Client Side Nodes
Nodes
Node_Name,
PLC 1,
Node_ID,
1,
Protocol,
Metasys_N2,
Connection,
P8,
Node_Type
VMA
4.4.
4.4.1.
Client Side Map Descriptors
FieldServer Related Map Descriptor Parameters
Column Title
Function
Name of this Map
Descriptor
Legal Values
Up to 32 alphanumeric
characters
Map_Descriptor_Name
Name of Data Array
where data is to be
One of the Data Array names
from “Data Array” section
Data_Array_Name
stored in the FieldServer above
Starting location in Data 0 to maximum specified in
Data_Array_Offset
Function
Array
“Data Array” section above
Function of Client Map
Descriptor
RDBC, WRBC, WRBX
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4.4.2.
Driver Related Map Descriptor Parameters
4.4.2.1.
Column Title
N2Open Map Descriptor Parameters
Function
Legal Values
One of the node names
specified in “Client Node
Descriptor” above
If the vendor device lists a
point as BD then use
Data_Type=Byte.
Node_Name
Data_Type
Name of Node to fetch data from
If the vendor device lists a
point as ADI then use
Data_Type=Integer.
Data type
If the vendor device lists a
point as ADF then use
Data_Type=Float_Reg.
AI, AO, DI, DO,
Float_Reg, Integer, Byte
Length
Address
Length of Map Descriptor
Starting address of read block
Used to specify an N2-specific
function, e.g. COS. See
1
1-256
MN2_Function*
MN2_Attribute*
COS, Override, Release
description below.
Used to specify the attribute if an
attribute other than Current Value
is to be accessed. See attribute
table below
See
N2Open Attribute Table
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Data Type
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N2Open Attribute Table
Attribute No.
Attribute
Object Configuration
1
2
3
4
5
6
7
8
1
2
1
2
3
1
2
3
4
5
1
2
1
2
1
2
Object Status
Analog Input Value
Low Alarm Limit
High Alarm Limit
Low Warn Limit
High Warn Limit
Differential
Object Configuration
Object Status
Object Configuration
Object Status
Analog Input
Binary Input
Analog Output
Current Value
Object Configuration
Object Status
Minimum On-Time
Minimum Off-Time
Maximum Cycles/Hour
Object Status
Binary Output
Internal Float
Internal Integer
Internal Byte
Current Value
Object Status
Current Value
Object Status
Current Value
Using Change of State (COS) – N2Open
If a large number of points are to be monitored, optimal efficiency is achieved by
using the COS mechanism instead of reading each individual point directly.
A
N2Open device responds to a COS poll with a change record if a change has taken
place. On startup the device will report the state of all its points when it receives a
COS poll.
Two kinds of Map Descriptors are required for every node that is to be monitored
using COS:
A COS polling Map Descriptor with Function set to COS_Poll.
A COS_Read (i.e. Function set to COS_Read) Map Descriptor for every point
on that node that is to be monitored. Any COS records received will be stored to
the matching Map Descriptor data location.
Note that the COS_Read Map Descriptor has an optional scan_interval. If a value is
set the Map Descriptor will poll at that rate in addition to receiving COS data. This
can be used if the values are to be refreshed continually even if they don’t change. If
the scan_interval is not configured (through omitting the column, or by setting the
value to ‘-‘) the COS_Read Map Descriptor will not cause active polls once the value
has been initialized. See 4.4.4 for example.
Important Note on COS Operation in N2Open
Please be aware that N2Open devices will only report value changes under the
following conditions:
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Point Type
AI
Conditions that will trigger a COS report
point status change (e.g. override)
change in alarm or warning status
NB: no value changes within the normal band are reported by COS!
point status change (e.g. override)
NB: no value changes within the normal band are reported by COS!
AO
BI, BO
point status change (e.g. override); includes current value (On/Off)
ADI, ADF, BD none; COS cannot be used with internal data types.
Using Override and Release – N2Open
It is not normally necessary to use the Override command explicitly as the
FieldServer automatically uses this command when the Current Value attribute of a
point is written. For any other attribute it uses the Write command. It will sometimes
be necessary to send a Release command to an overridden point, however. To do
this, a Map Descriptor must be configured with Function set to wrbx and
MN2_Function set to Release. Then, when any value is stored to the Map
Descriptor data location, the Release command will be sent to the N2Open point
specified by the Map Descriptor.
4.4.2.2.
VMA Map Descriptor Parameters
Column Title
Function
Legal Values
One of the node names
specified in “Client Node
Descriptor” above
AI, AO, DI, DO, Driver
(used for ADF, ADI and
BD)
Name of Node to fetch
data from
Node_Name
Data_Type
Data type
Length
Length of Map Descriptor
Starting address of read
block
1
Address
1-256
Data type specifier to be
set when Data_Type has
been set to Driver
MN2_Type
5-7
ADI, ADF and BD types: using the “Driver” Data_Type and MN2_Type fields
The VMA protocol uses a byte value to specify the data types. The standard types
AI, AO, DI and DO correspond to a byte value of 1 through 4 respectively. The types
ADF, ADI and BD are believed to correspond to a byte value of 5 through 7
respectively. If the user wishes to use any other type value based on knowledge of a
particular VMA configuration, then that value may also be specified here. Refer to
Section 4.4.5 for a specific example.
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Driver Data_Type
MN2_Type values
Point Type
Known Value2
Suggested Value3
AI
AO
BI
BO
ADF
ADI
BD
1
2
3
4
5
6
7
If a large number of points are to be monitored, optimal efficiency is achieved by
using the COS mechanism instead of reading each individual point directly. An
N2Open device responds to a COS poll with a change record if a change has taken
place. On startup the device will report the state of all its points when it receives a
COS poll.
Three kinds of Map Descriptors are required for every node that is to be monitored
using COS:
•
A COS initialization Map Descriptor with Function set to ARS and
MN2_Function set to COS_Enable. This Map Descriptor enables COS polling
of those points on the VMA for which Passive Map Descriptors exist.
•
•
A COS polling Map Descriptor with Function set to rdbc and MN2_Function set
to COS.
A Passive (i.e. Function set to Passive) Map Descriptor for every point on that
node that is to be monitored. Any COS records received will be stored to the
matching Map Descriptor data location.
See example in Section 4.4.5
Using Override and Release - VMA
It is normally not necessary to use the Override command explicitly as the
FieldServer automatically uses this command when the Current Value attribute of a
point is written. For any other attribute it uses the Write command. It will sometimes
be necessary to send a Release command to an overridden point, however. To do
this, a Map Descriptor must be configured with Function set to wrbx and
MN2_Function set to Release. Then, when any value is stored to the Map
Descriptor data location, the Release command will be sent to the VMA point
specified by the Map Descriptor.
Note: The VMA Release function only works for analog and binary inputs (AI and
BI). Outputs may be restored to their original value using an explicit write command.
2
3
For information only. Do not use Driver type for these, but specify AI, AO, BI or BO directly in the Data_Type field.
These values are believed to be correct for the corresponding point types, but no guarantee can be given at this time.
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4.4.2.3.
DX9100 Map Descriptor Parameters
Column Title
Function
Legal Values
One of the node names
specified in “Client Node
Descriptor” above
1
Name of Node to fetch
data from
Node_Name
Length
Length of Map Descriptor
Starting address of read
block
Address
0 - 2397
For DX9100 addresses please refer to the DX9100 user documentation. This lists
the name, function (read/write) and data format of all available points. Alternatively,
obtain assistance from FieldServer Technical Support.
4.4.3.
Column Title
Scan_Interval
Timing Parameters
Function
Rate at which data is polled
Legal Values
≥0.001s
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5.
Configuring the FieldServer as a Metasys N2 Server
For a detailed discussion on FieldServer configuration, please refer to the FieldServer
Configuration Manual. The information that follows describes how to expand upon the factory
defaults provided in the configuration files included with the FieldServer (See “.csv” files on the
driver diskette).
This section documents and describes the parameters necessary for configuring the FieldServer
to communicate with a Metasys N2Open Client. Note that only the N2Open variation of the
N2 protocol may be used when configuring the FieldServer as a Server.
The configuration file tells the FieldServer about its interfaces, and the routing of data required.
In order to enable the FieldServer for Metasys N2 communications, the driver independent
FieldServer buffers need to be declared in the “Data Arrays” section, the FieldServer virtual
node(s) needs to be declared in the “Server Side Nodes” section, and the data to be provided to
the Clients needs to be mapped in the “Server Side Map Descriptors” section. Details on how to
do this can be found below.
Note that in the tables, * indicates an optional parameter, with the bold legal value being the
default.
5.1.
Server Side Connection Descriptors
Section Title
Connections
Column Title
Port
Function
Specify which port the device is
connected to the FieldServer
Specify protocol used
Specify baud rate
Legal Values
P1-P8, R1-R24
Protocol
Baud*
Metasys_N2
9600
None
8
Parity*
Specify parity
Data_Bits*
Specify data bits
Stop_Bits*
Specify stop bits
1
Handshaking*
Poll _Delay*
Specify hardware handshaking None
Time between internal polls
Duration of RTS assert before
start of transmission
0
Line_Drive_On*
0.001s
Duration of RTS assert after
end of transmission
Line_Drive_Off*
0.000s
Example
// Server Side Connections
Connections
Port,
P8,
Protocol
Metasys_N2
4 Not all ports shown are necessarily supported by the hardware. Consult the appropriate Instruction
manual for details of the ports available on specific hardware.
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Legal Values
5.2.
Server Side Node Descriptors
Section Title
Nodes
Column Title
Function
Up to 32
Node_Name
Provide name for node
alphanumeric
characters
MetasysN2 station address of physical
Server node
Specify protocol used
Node_ID
Protocol
1-255
Metasys_N2
Specifies time FieldServer will reserve
Server_Hold_Timeout* Server side connection while waiting for the < 0.175s5
Client side to update data in Data_Array
Identify type of device
This parameter need not be specified. The
N2OpenServer,
N2Open
Node_Type*
Server side of the driver can only operate
as an N2 Server and the option for setting it
to N2Open is purely for backward
compatibility.
Example
// Server Side Nodes
Nodes
Node_Name,
PLC 1,
Node_ID,
1,
Protocol
Metasys_N2
5 Can be set to >0.175s if the Client has bee set to timeout after >200ms. Refer to Appendix E for more
information.
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5.3.
5.3.1.
Server Side Map Descriptors
FieldServer Specific Map Descriptor Parameters
Column Title
Function
Name of this Map
Descriptor
Legal Values
Up to 32 alphanumeric
characters
Map_Descriptor_Name
Name of Data Array where
data is to be stored in the
FieldServer
One of the Data Array
names from “Data Array”
section above
Data_Array_Name
Starting location in Data
Array
Function of Server Map
Descriptor
0 to maximum specified in
“Data Array” section above
Data_Array_Offset
Function
Server
5.3.2.
Column
Driver Specific Map Descriptor Parameters
Function
Legal Values
Title
Name of Node to
fetch data from
One of the node names specified in “Client
Node Descriptor” above
Node_Name
If the vendor device lists a point as BD then
use Data_Type=Byte.
If the vendor device lists a point as ADI then
use Data_Type=Integer.
Data_Type
Data type
If the vendor device lists a point as ADF then
use Data_Type=Float_Reg.
AI, AO, DI, DO, Float_Reg, Integer, Byte
Length of Map
Descriptor
Length
1 - 256
Starting address of
read block
Address
1 - 256
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Appendix A.2. Managing Analog Inputs and Outputs for DX9100.
Relative offset for viewing an AI is 7
Relative offset for viewing and forcing an AO is 6
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Appendix B. Troubleshooting tips
Appendix B.1. Connection Tips & Hints
When using the FieldServer as an N2 Client, make very sure that it is the only Client /
master on the N2 network. If there is another Client on the network there will be
communication conflicts. These will be reflected on the FieldServer as protocol errors.
Appendix B.2. Offline Behavior
When the Client node on the FieldServer goes offline, the corresponding data objects on the
FieldServer are also marked offline. If a client polls a virtual FieldServer node for this
particular data, therefore, an offline response will be returned by the FieldServer. A request
from an master device for a FieldServer to identify itself would be met by a valid response,
however. This could lead to confusion and status toggling. This can be addressed using
Responsible Map Descriptors and by configuring the virtual FieldServer using the
Offline_Method option. Please refer to the Configuration Manual for further information.
Appendix B.3. Tip on Overrides
It is important that there be only one device (including the slave device itself) updating a
point which is in overridden mode. The reason for this is that the value of the point could be
changed by an update from a non-Metasys Server before the override is released by the
Metasys Master. In this case, the FieldServer would respond to a poll from the Master with
this changed data.
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Appendix C. Setting up FS-B20 for RS-485
Appendix C.1. Jumper Settings:
Jumpers jp16, jp17, and jp18 need to be transferred from pins 1-2 to pins 2-3 in order to
enable RS-485. These jumpers can be found just behind the RJ45 ports inside the box
Jmpr 18 in 485 position.
Jmpr 16 in 485 position.
Jmpr 17 in 485 position.
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Appendix C.2. Hardware connections
The FS-8917-16 pigtail cable is typically used for this port arrangement. Connection is
depicted in the following diagram.
SERIAL
FS-X20
RJ45 Male Modular
Jack
ORANGE/WHITE
(RJ45-08)
BROWN
(RJ45-01)
FS-8917-16
+
-
G
BLUE/WHITE
(RJ45-04)
8
7
6
5
4
3
2
1
8
7
6
5
4
3
2
1
RJ45 Male Modular Jack
RJ45 Female Modular Jack
Appendix C.3. Configuration Settings
•
•
The Port address in the Configuration needs to be set to R1 instead of P1.
Line_Drive_On and Line_Drive_Off need to be defined in the connections section of the
configuration file. These need to be set to at least 0.001s. Refer to Sections 4.2 and 5.1
for more information.
FS-8700-19_Metasys_N2 Driver Manual
Appendix D. Memory Maps
Page 26 of 51
Appendix D.1. Metasys DX9100 Memory Map
Programmable modules
Module
Module
Module
Module
Module
Module
Module
Module
Module
Module
Module
Module
1
2
3
4
5
6
7
8
9
64
160
256
352
448
544
640
736
832
928
1024
1120
0040H
00A0H
0100H
0160H
01C0H
0220H
0280H
02E0H
0340H
03A0H
0400H
0460H
10
11
12
Analog input modules
Module
Module
Module
Module
Module
Module
Module
Module
1
2
3
4
5
6
7
8
1216
1232
1248
1264
1280
1296
1312
1328
04C0H
04D0H
04E0H
04F0H
0500H
0510H
0520H
0530H
Analog output modules
Module
Module
Version
Module
Module
Module
Module
Module
Module
1
2
2
1344
1360
0540H
0550H
or later (new for version 6.0):
9
2304
2320
2336
2352
2368
2384
0900H
0910H
0920H
0930H
0940H
0950H
10
11
12
13
14
Digital output modules
Module
Module
Module
Module
Module
Module
3
4
5
6
7
8
1376
1392
1408
1424
1440
1456
0560H
0570H
0580H
0590H
05A0H
05B0H
Extension modules
Module
Module
Module
Module
Module
Module
Module
Module
1
2
3
4
5
6
7
8
1472
1552
1632
1712
1792
1872
1952
2032
05C0H
0610H
0660H
06B0H
0700H
0750H
07A0H
07F0H
Time schedule modules
Module
Module
Module
Module
Module
Module
Module
Module
1
2
3
4
5
6
7
8
2112
2128
2144
2160
2176
2192
2208
2224
0840H
0850H
0860H
0870H
0880H
0890H
08A0H
08B0H
Optimal start / stop module
Module
Module
1
2
2240
2272
08C0H
08E0H
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General control module
Relative Item
0
1
2
3
4
5
6
Signal Condition
Byte
Word
Byte
Word
Byte
Byte
Read/Write
Read
Write
Read
Read
Read
Read
Read
Read
Read
Read
Write
Write
-
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Read
Johnson Tag
UNIT
SUP
MNT
DIAG
DICT
TOS
DIS
AIS
LRST1
LRST2
LCOS1
LCOS2
-
CNTR1
CNTR2
CNTR3
CNTR4
CNTR5
CNTR6
CNTR7
CNTR8
PASS
PC1
Description
Device model. For DX-9100 always 5
Supervisory central control
Maintenance control
Diagnistics
Digital input counters
Triac output status
Digital input status
Analog input status
Logic results 37637
Logic results 17-32
Logic constants 37637
Logic constants 17-32
Spare
DI1 pulse count
DI2 pulse count
DI3 pulse count
DI4 pulse count
DI5 pulse count
DI6 pulse count
DI7 pulse count
DI8 pulse count
Byte
7
8
9
Word
Word
Word
Word
Word
-
LONG
LONG
LONG
LONG
LONG
LONG
LONG
LONG
Word
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Word
Byte
Word
FP
FP
FP
FP
FP
FP
FP
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
Password code
Prescaler DI1 counter
Prescaler DI2 counter
Prescaler DI3 counter
Prescaler DI4 counter
Prescaler DI5 counter
Prescaler DI6 counter
Prescaler DI7 counter
Prescaler DI8 counter
User interface address
Alarm disable condition source
DX-9100 type settings
Standard algorithm type
Analog constant 1
Analog constant 2
Analog constant 3
Analog constant 4
Analog constant 5
Analog constant 6
Analog constant 7
Analog constant 8
PLC control and status
PLC program counter
PC2
PC3
PC4
PC5
PC6
PC7
PC8
UIA
ALD@
DXS1
ALG
ACO1
ACO2
ACO3
ACO4
ACO5
ACO6
ACO7
ACO8
PLCNT
PLCPC
FP
Byte
Word
FS-8700-19_Metasys_N2 Driver Manual
Page 28 of 51
Programmable Module Type
Relative Item
0
1
2
3
4
5
6
7
Signal Condition
Byte
Word
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Byte
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
Word
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
Read/Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Johnson Tag
PMTYP
PMOPT
PMF1
PMF2
PMF3
PMF4
PMF5
PMF6
PMF7
Description
Programmable module type
Programmable module options
Function channel number 1 - F1
Function channel number 2 - F2
Function channel number 3 - F3
Function channel number 4 - F4
Function channel number 5 - F5
Function channel number 6 - F6
Function channel number 7 - F7
Function channel number 8 - F8
Input connection - I1@
Input connection - I2@
Input connection - I3@
Input connection - I4@
Input connection - I5@
Input connection - I6@
Input connection - I7@
Input connection - I8@
Input connection - I9@
Input connection - I10@
Input connection - I11@
Input connection - I12@
Input connection - I13@
Input connection - I14@
Input connection - I15@
Input connection - I16@
Module constant - K1
8
9
PMF8
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
51
52
53
54
55
56
PMI1@
PMI2@
PMI3@
PMI4@
PMI5@
PMI6@
PMI7@
PMI8@
PMI9@
PMI10@
PMI11@
PMI12@
PMI13@
PMI14@
PMI15@
PMI16@
PMK01
PMK02
PMK03
PMK04
PMK05
PMK06
PMK07
PMK08
PMK09
PMK10
PMK11
PMK12
PMK13
PMK14
PMK15
PMK16
PMK17
PMK18
PMK19
PMK20
PMK21
PMK22
PMK23
PMK24
PMK25
PMK26
PMK27
PMK28
PMK29
PMK30
PMK31
Module constant - K2
Module constant - K3
Module constant - K4
Module constant - K5
Module constant - K6
Module constant - K7
Module constant - K8
Module constant - K9
Module constant - K10
Module constant - K11
Module constant - K12
Module constant - K13
Module constant - K14
Module constant - K15
Module constant - K16
Module constant - K17
Module constant - K18
Module constant - K19
Module constant - K20
Module constant - K21
Module constant - K22
Module constant - K23
Module constant - K24
Module constant - K25
Module constant - K26
Module constant - K27
Module constant - K28
Module constant - K29
Module constant - K30
Module constant - K31
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FS-8700-19_Metasys_N2 Driver Manual
Page 29 of 51
Programmable Module Type
Relative Item
Signal Condition
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
Read/Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Read
Write
Write
Write
Write
Write
Write
Write
Write
Johnson Tag
PMK32
PMK33
PMK34
PMOU1
PMOU2
PMOU3
PMOU4
PMOU5
PMOU6
PMOU7
PMOU8
PMAX1
PMAX2
PMHDC
PMDO
Description
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
Module constant - K32
Module constant - K33
Module constant - K34
Output channel 1
Output channel 2
Output channel 3
Output channel 4
Output channel 5
Output channel 6
Output channel 7
Output channel 8
Auxiliary output 1
Auxiliary output 2
FP
Byte
Byte
Word
LONG
LONG
LONG
LONG
LONG
LONG
LONG
LONG
Hold mode control/status
Logic output control and status
Programmable module status
Accumulator channel 1
Accumulator channel 2
Accumulator channel 3
Accumulator channel 4
Accumulator channel 5
Accumulator channel 6
Accumulator channel 7
Accumulator channel 8
PMST
PMAC1
PMAC2
PMAC3
PMAC4
PMAC5
PMAC6
PMAC7
PMAC8
Analog Input Modules
Relative Item
Signal Condition
Word
FP
FP
FP
FP
FP
FP
FP
Read/Write
Write
Write
Write
Write
Write
Write
Write
Read
Read
Read
Read
Johnson Tag
AIT
HR
LR
HIA
LOA
FTC
ADF
AI
AI%
ADC
AIST
Description
0
1
2
3
4
5
6
7
8
9
10
Analog inout type
High range input
Low range input
High alarm limit
Low alarm limit
Filter constant
Differential on alarm limit (units)
Analog input value
Analog input %
Analog input in counts
Analog input status
FP
FP
Byte
Analog Output Modules
Relative Item
Signal Condition
Read/Write Johnson Tag
Description
0
1
2
3
4
5
6
7
8
9
10
11
12
Byte
Word
Word
FP
FP
FP
FP
Byte
FP
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
AOT
Analog output type
AO@
AOF@
HRO
LRO
OFL
OUT
AOC
HLO
LLO
INC@
DEC@
ENL@
Source of analog output module
Output forcing logic connection
Output high range
Output low range
Output % value in forcing mode
Output module output value %
Analog output control and status
Output high limit
FP
Output low limit
Word
Word
Word
DDC increase logic connection
DDC decrease logic connection
Limit function enable logic connection
Digital Output Modules
Relative Item
Signal Condition
Read/Write Johnson Tag
Description
FS-8700-19_Metasys_N2 Driver Manual
Page 30 of 51
Digital Output Modules
Read/Write Johnson Tag
Relative Item
Signal Condition
Description
0
1
2
3
4
5
6
7
Byte
Word
Word
Word
FP
FP
FP
FP
FP
FP
FP
FP
Byte
Word
Word
Word
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
DOT
DO@
FB@
DOF@
HRO
LRO
FST
DB
HLO
LLO
Digital output options
Source of digital output module
Source of feedback signal
Output forcing logic connection
Output high range
Output low range
PAT output full stroke time/DAT cycle
PAT deadband
8
9
Output high limit
Output low limit
10
11
12
13
14
15
OFL
Output % value in forcing mode
Output module output value %
Logic output control and status
DDC increase logic connection
DDC decrease logic connection
Limit function enable logic connection
OUT
DOC
INC@
DEC@
ENL@
Extension Modules
Relative Item
0
1
2
3
4
5
6
Signal Condition
Word
Word
Word
Byte
Word
Word
Word
Word
Word
Word
Word
Word
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
Read/Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Johnson Tag
XTIOMAP
XTIOTYP
XTIOMOD
XTADX
XTI1@
XTI2@
XTI3@
XTI4@
XTI5@
XTI6@
XTI7@
XTI8@
XTHR01
XTLR01
XTHR02
XTLR02
XTHR03
XTLR03
XTHR04
XTLR04
XTHR05
XTLR05
XTHR06
XTLR06
XTHR07
XTLR07
XTHR08
XTLR08
XTHIA1
XTLOA1
XTHIA2
XTLOA2
XTHIA3
XTLOA3
XTHIA4
XTLOA4
XTHIA5
XTLOA5
Description
Extension module I/O map
Extension module I/O type
Extension module I/O mode
Extension module address 0-255
Point connection - I1
Point connection - I2
Point connection - I3
Point connection - I4
Point connection - I5
7
8
9
Point connection - I6
Point connection - I7
Point connection - I8
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
High output range point 1
Low output range point 1
High output range point 2
Low output range point 2
High output range point 3
Low output range point 3
High output range point 4
Low output range point 4
High output range point 5
Low output range point 5
High output range point 6
Low output range point 6
High output range point 7
Low output range point 7
High output range point 8
Low output range point 8
High alarm limit point 1
Low alarm limit point 1
High alarm limit point 2
Low alarm limit point 2
High alarm limit point 3
Low alarm limit point 3
High alarm limit point 4
Low alarm limit point 4
High alarm limit point 5
Low alarm limit point 5
FP
FS-8700-19_Metasys_N2 Driver Manual
Page 31 of 51
Extension Modules
Read/Write Johnson Tag
Relative Item
Signal Condition
FP
FP
FP
FP
FP
FP
Word
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
LONG
LONG
LONG
LONG
LONG
LONG
LONG
LONG
Byte
Byte
Byte
Byte
Description
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
Write
Write
Write
Write
Write
Write
Read
Read
Read
Read
Read
Read
Read
Read
Read
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Read
Read
XTHIA6
XTLOA6
XTHIA7
XTLOA7
XTHIA8
XTLOA8
XTAIS
XTAI1
XTAI2
XTAI3
XTAI4
High alarm limit point 6
Low alarm limit point 6
High alarm limit point 7
Low alarm limit point 7
High alarm limit point 8
Low alarm limit point 8
Extension module alarms
Analog input value 1
Analog input value 2
Analog input value 3
Analog input value 4
Analog input value 5
XTAI5
XTAI6
XTAI7
XTAI8
Analog input value 6
Analog input value 7
Analog input value 8
XTAO1
XTAO2
XTAO3
XTAO4
XTAO5
XTAO6
XTAO7
XTAO8
XTDIC1
XTDIC2
XTDIC3
XTDIC4
XTDIC5
XTDIC6
XTDIC7
XTDIC8
XTCNT
XTDO
Analog output value 1
Analog output value 2
Analog output value 3
Analog output value 4
Analog output value 5
Analog output value 6
Analog output value 7
Analog output value 8
Digital input 1 pulse count
Digital input 2 pulse count
Digital input 3 pulse count
Digital input 4 pulse count
Digital input 5 pulse count
Digital input 6 pulse count
Digital input 7 pulse count
Digital input 8 pulse count
Extension module hold control
Logic outputs control and status
Logic inputs status
XTDI
XTSTC
Extension module local status
Time schedule modules
Relative Item
Signal Condition
Read/Write
Johnson Tag
TSOPT
TSEX@
TSON@
TSOF@
TSXTM
Description
0
1
2
3
4
5
6
Word
Word
Word
Word
FP
Write
Write
Write
Write
Write
Write
Write
Time schedule options LSB
External extension logical connection
On forcing logical connection
Off forcing logical connection
Extension time (min)
FP
Byte
TSTIM
TSSTA
Time to next event (min)
Time schedule status
FS-8700-19_Metasys_N2 Driver Manual
Page 32 of 51
Programmable modules
Module
Module
Module
Module
Module
Module
Module
Module
Module
Module
Module
Module
1
2
3
4
5
6
7
8
9
64
160
256
352
448
544
640
736
832
928
1024
1120
0040H
00A0H
0100H
0160H
01C0H
0220H
0280H
02E0H
0340H
03A0H
0400H
0460H
10
11
12
Analog input modules
Module
Module
Module
Module
Module
Module
Module
Module
1
2
3
4
5
6
7
8
1216
1232
1248
1264
1280
1296
1312
1328
04C0H
04D0H
04E0H
04F0H
0500H
0510H
0520H
0530H
Analog output modules
Module
Module
Version
Module
Module
Module
Module
Module
Module
1
2
2
1344
1360
0540H
0550H
or later (new for version 6.0):
9
2304
2320
2336
2352
2368
2384
0900H
0910H
0920H
0930H
0940H
0950H
10
11
12
13
14
Digital output modules
Module
Module
Module
Module
Module
Module
3
4
5
6
7
8
1376
1392
1408
1424
1440
1456
0560H
0570H
0580H
0590H
05A0H
05B0H
Extension modules
Module
Module
Module
Module
Module
Module
Module
Module
1
2
3
4
5
6
7
8
1472
1552
1632
1712
1792
1872
1952
2032
05C0H
0610H
0660H
06B0H
0700H
0750H
07A0H
07F0H
Time schedule modules
Module
Module
Module
Module
Module
Module
Module
Module
1
2
3
4
5
6
7
8
2112
2128
2144
2160
2176
2192
2208
2224
0840H
0850H
0860H
0870H
0880H
0890H
08A0H
08B0H
Optimal start / stop module
Module
Module
1
2
2240
2272
08C0H
08E0H
FS-8700-19_Metasys_N2 Driver Manual
Page 33 of 51
Appendix D.2. Metasys DC9100 Memory Map
Note: The DC9100 is not currently supported by the FieldServer MetasysN2 Driver.
The information below is for interest and future use only.
PAGE 0
Item
DEC
Item
HEX
Johnson
Signal Condition Read/Write
Description
Tag
Device model. Value always either 2 or
12
0
0 Byte
Read
MODL
1
2
3
4
5
6
7
8
9
1 FP
2 FP
3 FP
4 FP
5 FP
6 FP
7 FP
8 FP
9 FP
FP
Read
Read
Read
Read
Read
Read
Read
Read
Read
Read
Read
Read
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Read
Read
Read
Read
Read
Read
Read
Read
Write
Write
Write
INP1
INP2
INP3
INP4
INP5
INP6
INP7
INP8
Analog input 1
Analog input 2
Analog input 3
Analog input 4
Analog input 5
Analog input 6
Analog input 7
Analog input 8
Numeric calculation modul result
Numeric calculation modul result
Numeric calculation modul result
Numeric calculation modul result
Remote constant 1
Remote constant 2
Remote constant 3
Remote constant 4
Control output 1
Control output 2
Control output 3
Control output 4
Control output 5
NCM1
NCM2
NCM3
NMC4
REC1
REC2
REC3
REC4
OUT1
OUT2
OUT3
OUT4
OUT5
OUT6
OUT7
OUT8
WSP1
WSP2
WSP3
WSP4
WSP5
WSP6
WSP7
WSP8
STW1
STW2
STW3
STW4
STW5
STW6
STW7
STW8
DOUT
CHLD
COMP
10 A
11 B
12 C
13 D
14 E
15 F
16
17
18
19
20
FP
FP
FP
FP
FP
10 FP
11 FP
12 FP
13 FP
14 FP
15 FP
16 FP
17 FP
18 FP
19 FP
FP
21
22
23
24
Control output 6
Control output 7
Control output 8
25
Working setpoint 1
Working setpoint 2
Working setpoint 3
Working setpoint 4
Working setpoint 5
Working setpoint 6
Working setpoint 7
Working setpoint 8
Status word 1
Status word 2
Status word 3
Status word 4
Status word 5
Status word 6
Status word 7
Status word 8
Logic output DDC control
Hold mode control
Supervisory mode control
26 1A
27 1B
28 1C
29 1D
30 1E
31 1F
32
33
34
35
36
37
38
39
40
41
42 2A
43 2B
FP
FP
FP
FP
FP
20 FP
21 Word
22 Word
23 Word
24 Word
25 Word
26 Word
27 Word
28 Word
29 Word
Byte
Byte
FS-8700-19_Metasys_N2 Driver Manual
Page 34 of 51
PAGE 0
Johnson
Tag
Item
DEC
Item
HEX
Signal Condition Read/Write
Description
44 2C
45 2D
46 2E
47 2F
48
-
-
-
-
Spare
Spare
PV1@
RS1@
RV1@
PB1@
OF1@
Byte
Byte
Write
Write
Write
Write
Write
Process variable connection
Remote setpoint connection
Reference variable connection
Proportional band connection
OFF mode logic control connection
STAND-BY mode logic control
connection
Reverse action logic control connection
External forcing logic control
connection
30 Byte
31 Byte
32 Byte
49
50
51
52
53
33 Byte
34 Byte
35 Byte
Write
Write
Write
SB1@
RA1@
EF1@
54
55
56
57
58 3A
59 3B
60 3C
61 3D
62 3E
63 3F
64
36 Byte
37 FP
38 FP
39 FP
FP
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
TYPE1
LS1
PB1
TI1
TD1
HL1
LL1
BS1
BO1
Controller type
Local setpoint
Proportional band
Reset action
Rate action
FP
FP
FP
FP
Upper limit of the control output
Lower limit of the control output
Change of setpoint during STAND-BY
Change of setpoint during OFF
Deviation alarm
Process variable connection
Remote setpoint connection
Reference variable connection
Proportional band connection
OFF mode logic control connection
STAND-BY mode logic control
connection
FP
AD1
40 Byte
41 Byte
42 Byte
43 Byte
44 Byte
PV2@
RS2@
RV2@
PB2@
OF2@
65
66
67
68
69
70
71
45 Byte
46 Byte
47 Byte
Write
Write
Write
SB2@
RA2@
EF2@
Reverse action logic control connection
External forcing logic control
connection
72
73
48 Byte
49 FP
FP
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
TYPE2
LS2
PB2
TI2
TD2
HL2
LL2
LL2
BS2
Controller type
Local setpoint
Proportional band
Reset action
74 4A
75 4B
76 4C
77 4D
78 4E
78 4E
79 4F
80
81
82
83
84
FP
FP
FP
FP
FP
FP
Rate action
Upper limit of the control output
Lower limit of the control output
Lower limit of the control output
Change of setpoint during STAND-BY
Change of setpoint during OFF
Deviation alarm
Process variable connection
Remote setpoint connection
Reference variable connection
Proportional band connection
OFF mode logic control connection
STAND-BY mode logic control
connection
50 FP
51 FP
52 Byte
53 Byte
54 Byte
55 Byte
56 Byte
BO2
AD2
PV3@
RS3@
RV3@
PB3@
OF3@
85
86
87
88
57 Byte
58 Byte
Write
Write
SB3@
RA3@
Reverse action logic control connection
FS-8700-19_Metasys_N2 Driver Manual
Page 35 of 51
PAGE 0
Johnson
Tag
Item
DEC
Item
HEX
Signal Condition Read/Write
Description
External forcing logic control
connection
89
59 Byte
Write
EF3@
90 5A
91 5B
92 5C
93 5D
94 5E
95 5F
96
97
98
99
100
Byte
FP
FP
FP
FP
FP
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
TYPE3
LS3
PB3
TI3
TD3
HL3
LL3
BS3
BO3
Controller type
Local setpoint
Proportional band
Reset action
Rate action
Upper limit of the control output
Lower limit of the control output
Change of setpoint during STAND-BY
Change of setpoint during OFF
Deviation alarm
Process variable connection
Remote setpoint connection
Reference variable connection
Proportional band connection
OFF mode logic control connection
STAND-BY mode logic control
connection
60 FP
61 FP
62 FP
63 FP
64 Byte
65 Byte
66 Byte
67 Byte
68 Byte
AD3
PV4@
RS4@
RV4@
PB4@
OF4@
101
102
103
104
105
69 Byte
Byte
Write
Write
Write
SB4@
RA4@
EF4@
106 6A
107 6B
Reverse action logic control connection
External forcing logic control
connection
Byte
108 6C
109 6D
110 6E
111 6F
112
113
114
115
116
117
118
119
120
121
122 7A
Byte
FP
FP
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
TYPE4
LS4
PB4
TI4
TD4
HL4
LL4
BS4
BO4
Controller type
Local setpoint
Proportional band
Reset action
FP
70 FP
71 FP
72 FP
73 FP
74 FP
75 FP
76 Byte
77 Byte
78 Byte
79 Byte
Byte
Rate action
Upper limit of the control output
Lower limit of the control output
Change of setpoint during STAND-BY
Change of setpoint during OFF
Deviation alarm
Process variable connection
Remote setpoint connection
Reference variable connection
Proportional band connection
OFF mode logic control connection
STAND-BY mode logic control
connection
AD4
PV5@
RS5@
RV5@
PB5@
OF5@
123 7B
124 7C
125 7D
Byte
Byte
Byte
Write
Write
Write
SB5@
RA5@
EF5@
Reverse action logic control connection
External forcing logic control
connection
126 7E
127 7F
128
129
130
131
132
133
134
Byte
FP
Write
Write
Write
Write
Write
Write
Write
Write
Write
TYPE5
LS5
PB5
TI5
TD5
HL5
LL5
BS5
BO5
Controller type
Local setpoint
Proportional band
Reset action
80 FP
81 FP
82 FP
83 FP
84 FP
85 FP
86 FP
Rate action
Upper limit of the control output
Lower limit of the control output
Change of setpoint during STAND-BY
Change of setpoint during OFF
FS-8700-19_Metasys_N2 Driver Manual
Page 36 of 51
PAGE 0
Johnson
Tag
Item
DEC
Item
HEX
Signal Condition Read/Write
Description
135
136
137
138 8A
139 8B
140 8C
87 FP
Write
Write
Write
Write
Write
Write
AD5
Deviation alarm
88 Byte
89 Byte
Byte
PV6@
RS6@
RV6@
PB6@
OF6@
Process variable connection
Remote setpoint connection
Reference variable connection
Proportional band connection
OFF mode logic control connection
STAND-BY mode logic control
connection
Reverse action logic control connection
External forcing logic control
connection
Byte
Byte
141 8D
142 8E
143 8F
Byte
Byte
Byte
Write
Write
Write
SB6@
RA6@
EF6@
144
145
146
147
148
149
150
151
90 Byte
91 FP
92 FP
93 FP
94 FP
95 FP
96 FP
97 FP
98 FP
99 FP
Byte
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
TYPE6
LS6
PB6
TI6
TD6
HL6
LL6
BS6
BO6
Controller type
Local setpoint
Proportional band
Reset action
Rate action
Upper limit of the control output
Lower limit of the control output
Change of setpoint during STAND-BY
Change of setpoint during OFF
Deviation alarm
Process variable connection
Remote setpoint connection
Reference variable connection
Proportional band connection
OFF mode logic control connection
STAND-BY mode logic control
connection
152
153
AD6
154 9A
155 9B
156 9C
157 9D
158 9E
PV7@
RS7@
RV7@
PB7@
OF7@
Byte
Byte
Byte
Byte
159 9F
160 A0
161 A1
Byte
Byte
Byte
Write
Write
Write
SB7@
RA7@
EF7@
Reverse action logic control connection
External forcing logic control
connection
162 A2
163 A3
164 A4
165 A5
166 A6
167 A7
168 A8
169 A9
170 AA
171 AB
172 AC
173 AD
174 AE
175 AF
176 B0
Byte
FP
FP
FP
FP
FP
FP
FP
FP
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
TYPE7
LS7
PB7
TI7
TD7
HL7
LL7
BS7
BO7
Controller type
Local setpoint
Proportional band
Reset action
Rate action
Upper limit of the control output
Lower limit of the control output
Change of setpoint during STAND-BY
Change of setpoint during OFF
Deviation alarm
Process variable connection
Remote setpoint connection
Reference variable connection
Proportional band connection
OFF mode logic control connection
STAND-BY mode logic control
connection
FP
AD7
Byte
Byte
Byte
Byte
Byte
PV8@
RS8@
RV8@
PB8@
OF8@
177 B1
178 B2
179 B3
Byte
Byte
Byte
Write
Write
Write
SB8@
RA8@
EF8@
Reverse action logic control connection
External forcing logic control
connection
FS-8700-19_Metasys_N2 Driver Manual
Page 37 of 51
PAGE 0
Johnson
Tag
Item
DEC
Item
HEX
Signal Condition Read/Write
Description
180 B4
181 B5
182 B6
183 B7
184 B8
185 B9
186 BA
187 BB
188 BC
189 BD
190 BE
191 BF
192 C0
193 C1
194 C2
195 C3
196 C4
197 C5
198 C6
199 C7
200 C8
201 C9
202 CA
203 CB
204 CC
205 CD
206 CE
207 CF
208 D0
209 D1
210 D2
211 D3
212 D4
213 D5
214 D6
215 D7
216 D8
217 D9
218 DA
219 DB
220 DC
221 DD
222 DE
223 DF
224 E0
225 E1
226 E2
227 E3
228 E4
229 E5
230 E6
Byte
FP
FP
FP
FP
FP
FP
FP
FP
FP
Byte
FP
FP
FP
Byte
FP
FP
FP
Byte
FP
FP
FP
Byte
FP
FP
FP
Byte
FP
FP
FP
Byte
FP
FP
FP
Byte
FP
FP
FP
Byte
FP
FP
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
TYPE8
LS8
PB8
TI8
TD8
HL8
LL8
BS8
BO8
AD8
IR1
HA1
LA1
FI1
Controller type
Local setpoint
Proportional band
Reset action
Rate action
Upper limit of the control output
Lower limit of the control output
Change of setpoint during STAND-BY
Change of setpoint during OFF
Deviation alarm
Range analog input 1
High alarm input 1
Low alarm input 1
Filter time input 1
Range analog input 2
High alarm input 2
Low alarm input 2
Filter time input 2
Range analog input 3
High alarm input 3
Low alarm input 3
Filter time input 3
Range analog input 4
High alarm input 4
Low alarm input 4
Filter time input 4
Range analog input 5
High alarm input 5
Low alarm input 5
Filter time input 5
Range analog input 6
High alarm input 6
Low alarm input 6
Filter time input 6
Range analog input 7
High alarm input 7
Low alarm input 7
Filter time input 7
Range analog input 8
High alarm input 8
IR2
HA2
LA2
FI2
IR3
HA3
LA3
FI3
IR4
HA4
LA4
FI4
IR5
HA5
LA5
FI5
IR6
HA6
LA6
FI6
IR7
HA7
LA7
FI7
IR8
HA8
LA8
FI8
Low alarm input 8
Filter time input 8
FP
FP
FP
Byte
FP
FP
Byte
FP
FP
Byte
OH1
OL1
OMS1
OH2
OL2
OMS2
OH3
OL3
OMS3
Output 1 high range
Output1 low range
Source of analog output module 1
Output 2 high range
Output 2 low range
Source of analog output module 2
Output OUTA1 high range
Output OUTA1 low range
Source of logic output module OUTA
FS-8700-19_Metasys_N2 Driver Manual
Page 38 of 51
PAGE 0
Johnson
Tag
Item
DEC
Item
HEX
Signal Condition Read/Write
Description
231 E7
232 E8
233 E9
234 EA
235 EB
236 EC
237 ED
238 EE
239 EF
240 F0
241 F1
242 F2
243 F3
244 F4
245 F5
246 F6
247 F7
248 F8
249 F9
250 FA
251 FB
252 FC
253 FD
254 FE
255 FF
Byte
Byte
FP
FP
FP
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
OMS4
OMTY1
FST1
DB1
OH5
OL5
OMS5
OMS6
OMTY2
FST2
DB2
Source of logic output module OUTB
Output module type
PAT/DAT output 1 timing
Dead band PAT output 1
Output OUTA2 high range
Output OUTA2 low range
Source of logic output module OUTA
Source of logic output module OUTB
Output module type
PAT/DAT output 2 timing
Dead band PAT output 2
Output OUTA3 high range
Output OUTA3 low range
Source of logic output module OUTA
Source of logic output module OUTB
Output module type
PAT/DAT output 3 timing
Dead band PAT output 3
Symmetry band controller module 5
Symmetry band controller module 6
Alarm disable condition source
DC type settings
FP
Byte
Byte
Byte
FP
FP
FP
OH7
OL7
FP
Byte
Byte
Byte
FP
FP
FP
OMS7
OMS8
OMty3
FST3
DB3
SB1
SB2
FP
Byte
Byte
Byte
FP
ALDIS
RCTY1
ALGT
COS1
COS2
Standard algorithm type
Spare constant
Spare constant
FP
PAGE 1
Relative Item Signal Condition Read/Write Johnson Tag Description Relative Item
0
1
2
3
4
5
6
7
0 FP
1 FP
2 FP
3 FP
4 FP
5 FP
6 FP
7 FP
8 FP
9 FP
FP
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
HR1
LR1
HR2
LR2
HR3
LR3
HR4
LR4
HR5
LR5
HR6
LR6
HR7
LR7
HR8
LR8
OM%1
OM%2
OM%3
OM%4
OM%5
OM%6
OM%7
OM%8
High range analog input 1
Low range analog input 1
High range analog input 2
Low range analog input 2
High range analog input 3
Low range analog input 3
High range analog input 4
Low range analog input 4
High range analog input 5
Low range analog input 5
High range analog input 6
Low range analog input 6
High range analog input 7
Low range analog input 7
High range analog input 8
Low range analog input 8
Output % Output module 1
Output % Output module 2
Output % Output module 3
Output % Output module 4
Output % Output module 5
Output % Output module 6
Output % Output module 7
Output % Output module 8
8
9
10 A
11 B
12 C
13 D
14 E
15 F
16
17
18
19
20
FP
FP
FP
FP
FP
10 FP
11 FP
12 FP
13 FP
14 FP
15 FP
16 FP
17 FP
21
22
23
FS-8700-19_Metasys_N2 Driver Manual
Page 39 of 51
Optimal start / stop module
Relative Item Signal Condition Read/Write Johnson Tag Description
0
1
2
3
4
5
6
7
Byte
Word
Word
Word
Word
Word
Word
Word
Word
Word
FP
FP
FP
FP
FP
FP
FP
FP
FP
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
OSOPT
OSZT@
OSOT@
OSSP@
OSOB@
OSDI@
OSDA@
OSTS@
OSNX@
OSTIM@
OSPURGE
OSMAXST
OSMAXSO
OSBHK
OSBCK
OSSBHK
OSSBCK
OSFW
Module options
Zone temperature connection
Outdoor temperature connection
Zone temperature setpoint connection
Off setpoint bias connection
Disable module connection
Disable adaptive action connection
Connection at time schedule output
Connection at next output
8
9
Connection at time to next output
Minimum cool / heat time (min)
Maximum start up time (min)
Maximum shut down time (min)
Start mode building heating factor
Start mode building cooling factor
Stop mode building heating factor
Stop mode building cooling factor
Percentage adaptive control (filter weight)
Outdoor heating design temperature
Outdoor cooling design temperature
Control range
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
OSHTD
OSCTD
OSCRNG
OSSP
OSOB
OSTIM
FP
FP
FP
FP
FP
Byte
Zone temperature on setpoint
Zone temperature off setpoint
Remaining time to next event
Operating status
OSSTA
FS-8700-19_Metasys_N2 Driver Manual
Page 40 of 51
Appendix D.3. Metasys TC9100 Memory Map
Note: The TC9100 is not currently supported by the FieldServer MetasysN2 Driver.
The information below is for interest and future use only.
General dynamic Parameters
Relative Item Signal Condition Read/Write Johnson Tag Description
0
1
2
3
Byte
FP
FP
FP
FP
Read
Write
Write
Write
Write
UNIT
AI1
AI2
AI3
AI4
Device model. For TC-9100 always 06h
Process Temperature
Remote Temperature Set Point Bias
Pressure
4
Override Input
5
Spare
6
Spare
7
Spare
8
Spare
9
Word
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
FP
Read
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Write
Read
Read
Read
ADC
Selected Analog Input ADC counter
Output Programmable Module #1
Output Programmable Module #2
Output Programmable Module #3
Output Programmable Module #4
Output Programmable Module #5
Output Programmable Module #6
Working Set Point Control Module 1
Working Set Point Control Module 2
Working Set Point Control Module 3
Working Set Point Control Module 4
Working Set Point Control Module 5
Working Set Point Control Module 6
External Analog Input 1
External Analog Input 2
External Analog Input 3
External Analog Input 4
Analog Constant 5
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
OCM1
OCM2
OCM3
OCM4
OCM5
OCM6
WSP1
WSP2
WSP3
WSP4
WSP5
WSP6
XAI1
XAI2
XAI3
XAI4
ACO5
ACO6
WAC
SAC
ALR
AIH1
FP
FP
FP
FP
Analog Constant 6
Winter Authority Correction
Summer Authority Correction
Analog Inputs Alarm Status
Analog Input 1 High alarm
Analog Input 1 High alarm
Analog Input 2 High alarm
Analog Input 2 Low alarm
Analog Input 3 High alarm
Analog Input 3 Low alarm
Analog Input 4 High alarm
Analog Input 4 Low alarm
Not used
Not used
Not used
Not used
Not used
Not used
Not used
Not used
Logic Output Status
Word
W(1)
W(2)
W(3)
W(4)
W(5)
W(6)
W(7)
W(8)
W(9)
W(10)
W(11)
W(12)
W(13)
W(14)
W(15)
W(16)
Byte
B(1)
B(2)
B(3)
AIL1
AIH2
AIL2
AIH3
AIL3
AIH4
AIL4
31
Read
LOS
DO3
DO4
DO5
TRIAC 3 ON
TRIAC 4 ON
TRIAC 5 ON
FS-8700-19_Metasys_N2 Driver Manual
Page 41 of 51
General dynamic Parameters
Relative Item Signal Condition Read/Write Johnson Tag Description
B(4)
B(5)
B(6)
B(7)
B(8)
Byte
B(1)
DO6
DO7
DO1
DO2
TRIAC 6 ON
TRIAC 7 ON
TRIAC 1 ON
TRIAC 2 ON
Not used
32
Read
ROS
MODS
TC9100 Operation Status
00 = Night mode
01 = Stand-by mode
10 = Comfort mode
11 = OFF mode
Temporary mode
Alternate mode
B(2)
B(3)
B(4)
B(5)
B(6)
B(7)
B(8)
Byte
B(1)
B(2)
B(3)
B(4)
B(5)
B(6)
B(7)
Byte
B(1)
B(2)
B(3)
B(4)
B(5)
B(6)
B(7)
Byte
B(1)
B(2)
B(3)
B(4)
B(5)
B(6)
Byte
B(1)
B(2)
B(3)
B(4)
B(5)
B(6)
MODT
MODA
Supervisory mode enabled
Window open
WIN
OCC
AIRQ
MSK
Occupancy Sense
Air Quality Sense
Outputs Central Control - Enable
Enable TRIAC 3
Enable TRIAC 4
Enable TRIAC 5
Enable TRIAC 6
Enable TRIAC 7
Enable TRIAC 1
Enable TRIAC 2
Outputs Central Control - Set Level
TRIAC 3 ON
TRIAC 4 ON
TRIAC 5 ON
TRIAC 6 ON
TRIAC 7 ON
TRIAC 1 ON
TRIAC 2 ON
Control Loops Hold
Loop #1 Hold
Loop #2 Hold
Loop #3 Hold
Loop #4 Hold
Loop #5 Hold
Loop #6 Hold
Computer mode Control
Loop #1 Hold WSP override
Loop #2 Hold WSP override
Loop #3 Hold WSP override
Loop #4 Hold WSP override
Loop #5 Hold WSP override
Loop #6 Hold WSP override
33
34
Write
Write
DO3E
DO4E
DO5E
DO6E
DO7E
DO1E
DO2E
ODC
DO3C
DO4C
DO5C
DO6C
DO7C
DO1C
DO2C
HLD
35
36
Write
Write
HLD
37
Byte
B(1)
Write
SUP
MODC
Supervisory Mode Control
00 = Night mode request
01 = Stand-by mode request
10 = Comfort mode request
11 = OFF mode request
Shut-Off mode request
Start-Up mode request
Not used
B(2)
B(3)
B(4)
B(5)
B(6)
B(7)
SOFF
STUP
Supervisory Mode Control
Manual OP Mode
MAN
FS-8700-19_Metasys_N2 Driver Manual
Page 42 of 51
General dynamic Parameters
Relative Item Signal Condition Read/Write Johnson Tag Description
B(8)
Byte
B(1)
B(2)
B(3)
B(4)
B(5)
B(6)
B(7)
B(8)
FP
Byte
Byte
Byte
Word
FP
FP
FP
FP
FP
FP
FP
Byte
Byte
Byte
FP
FP
FP
FP
FP
FP
FP
FP
Byte
Byte
Byte
FP
FP
FP
FP
FP
FP
FP
Supervisory System Active Refresh
Control & status
Maintenance Started
Maintenance Stopped
Reverse Action
38
Read
LSC
MNT
RAS
Loop #1 Active
Intrusion Alarm
IAS
AFM
FOS
Anti freezing Mode Active
Three speed Fan Override Real Status
Loop #3 Active
Constant K1 Module #1
Input Connection I1@
Input Connection I2@
Input Connection I3@
Options
Constant K2
Constant K3
Constant K4
Constant K5
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
65
66
67
68
69
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
Write
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
PM1K1
PM1I@1
PM1I@2
PM1I@3
PM1TYP
PM1K2
PM1K3
PM1K4
PM1K5
PM1K6
PM1K7
PM2K1
PM2I@1
PM2I@2
PM2I@3
PM2TYP
PM2K2
PM2K3
PM2K4
PM2K5
PM2K6
PM2K7
PM3K1
PM3I@1
PM3I@2
PM3I@3
PM3TYP
PM3K2
PM3K3
PM3K4
PM3K5
PM3K6
PM3K7
PM4K1
PM4I@1
PM4I@2
PM4I@3
PM4TYP
PM4K2
PM4K3
PM4K4
PM4K5
PM4K6
PM4K7
PM5K1
PM5I@1
PM5I@2
Constant K6
Constant K7
Constant K1 Module #2
Input Connection I1@
Input Connection I2@
Input Connection I3@
Options
Constant K2
Constant K3
Constant K4
Constant K5
Constant K6
Constant K7
Constant K1 Module #3
Input Connection I1@
Input Connection I2@
Input Connection I3@
Options
Constant K2
Constant K3
Constant K4
Constant K5
Constant K6
Constant K7
FP
Constant K1 Module #4
Input Connection I1@
Input Connection I2@
Input Connection I3@
Options
Constant K2
Constant K3
Constant K4
Constant K5
Constant K6
Constant K7
Constant K1 Module #5
Input Connection I1@
Input Connection I2@
Byte
Byte
Byte
FP
FP
FP
FP
FP
FP
FP
FP
Byte
Byte
FS-8700-19_Metasys_N2 Driver Manual
Page 43 of 51
General dynamic Parameters
Relative Item Signal Condition Read/Write Johnson Tag Description
86
87
88
89
90
91
92
93
94
95
96
97
98
99
Byte
FP
FP
FP
FP
FP
FP
FP
FP
Byte
Byte
Byte
FP
FP
FP
FP
FP
FP
FP
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
PM5I@3
PM5TYP
PM5K2
PM5K3
PM5K4
PM5K5
PM5K6
PM5K7
PM6K1
PM6I@1
PM6I@2
PM6I@3
PM6TYP
PM6K2
PM6K3
PM6K4
PM6K5
PM6K6
PM6K7
Input Connection I3@
Options
Constant K2
Constant K3
Constant K4
Constant K5
Constant K6
Constant K7
Constant K1 Module #6
Input Connection I1@
Input Connection I2@
Input Connection I3@
Options
Constant K2
Constant K3
Constant K4
Constant K5
100
101
102
103
104
Constant K6
Constant K7
Input Output Config Parameters
Relative Item Signal Condition Read/Write Johnson Tag Description
105
106
107
108
109
110
111
112
113
114
115
116
Word
Spare
Spare
FP
FP
FP
FP
FP
FP
FP
Read
VER
Firmware Version
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
HIA1
LOA1
HIA2
LOA2
HIA3
LOA3
HIA4
LOA4
OCN1
High Alarm AI1
Low Alarm AI1
High Alarm AI2
Low Alarm AI2
High Alarm AI3
Low Alarm AI3
High Alarm AI4
Low Alarm AI4
Output #1 Configuration
FP
Byte
B(1)
00001 Src of Module (Analog Items 1..31)
?.
B(5)
B(6)
11111
000 = Not used
001 = Output for Solenoids
010 = 0 to 10 V Analog Output
011 = ON/OFF Output
100 = DAT Output Type
101 = PAT Output Type
110 = Multistage ON/OFF Type
PAT/DAT Timing for Output Module #1
Output #2 Configuration
00001 Src of Module (Analog Items 1..31)
?.
B(8)
FP
Byte
B(1)
117
118
R/W
R/W
OCO1
OCN2
B(5)
B(6)
11111
000 = Not used
001 = Output for Solenoids
010 = 0 to 10 V Analog Output
011 = ON/OFF Output
PAT Dead Band/Multistate Hysteresis #1
Output #3 Configuration
00001 Src of Module (Analog Items 1..31)
?.
B(8)
FP
Byte
B(1)
119
120
R/W
R/W
OCO2
OCN3
FS-8700-19_Metasys_N2 Driver Manual
Page 44 of 51
Input Output Config Parameters
Relative Item Signal Condition Read/Write Johnson Tag Description
B(5)
B(6)
11111
000 = Not used
011 = ON/OFF Output
100 = DAT Output Type
101 = PAT Output Type
B(8)
FP
Byte
B(1)
110 = Multistage ON/OFF Type
PAT/DAT Timing for Output Module #3
Output #4 Configuration
00001 Src of Module (Analog Items 1..31)
?.
121
122
R/W
R/W
OCO3
OCN4
B(5)
B(6)
11111
000 = Not used
011 = ON/OFF Output
B(8)
FP
Byte
B(1)
123
124
R/W
R/W
OCO4
OCN5
PAT Dead Band/Multistate Hysteresis #3
Output #5 Configuration
00001 Src of Module (Analog Items 1..31)
?.
B(5)
B(6)
11111
000 = Not used
011 = ON/OFF Output
100 = DAT Output Type
101 = PAT Output Type
110 = Multistage ON/OFF Type
111 = Three Windings Control
PAT/DAT Timg Outpt Mod #5 FSB-pnt #1
Output #6 Configuration
00001 Src of Module (Analog Items 1..31)
?.
B(8)
FP
Byte
B(1)
125
126
R/W
R/W
OCO5
OCN6
B(5)
B(6)
11111
000 = Not used
B(8)
FP
Byte
B(1)
127
128
R/W
R/W
OCO6
OCN7
PAT/DAT Timg Outpt Mod #5 FSB-pnt #2
Output #7 Configuration
00001 Src of Module (Analog Items 1..31)
?.
B(5)
B(6)
11111
000 = Not used
B(8)
129
130
131
132
FP
R/W
OCO7
Fan Speed Break-point #3
spare
Word
Word
W(1)
W(2)
W(3)
W(4)
W(5)
W(6)
W(8)
W(9)
W(10)
W(11)
W(12)
W(13)
R/W
ALG
XST
Configuration Index 1
Diagnostic Status
Gain x 2 Jumper
Integral Action Zeroing Jumper
Zone 1 Jumper
Zone 2 Jumper
Dial Request Status
Not used
Intelligent Command Module Com Failure
not valid
not valid
not valid
not valid
Write
Read
Read
Read
Read
Clear
DIAL
Read
Read
Read
Read
Read
Read
XTAI1
XTAI2
XTAI3
XTAI4
EEPROM not protected
FS-8700-19_Metasys_N2 Driver Manual
Page 45 of 51
Input Output Config Parameters
Relative Item Signal Condition Read/Write Johnson Tag Description
W(14)
W(15)
Read
Read
Reset Cycle indication
00 = Power Up Reset
01 = External Reset
10 = Oscillator Failure
11 = Watchdog Reset
TC9100 Controller Options
W(16)
Word
W(1)
Read
R/W
133
TCS2
00 Select Analog Input 1 ADC
to
W(2)
W(3)
W(4)
W(5)
W(6)
W(7)
W(8)
W(9)
11 Select Analog Input 4 ADC
TM9100 does not overrd the proc Variable
Half Alternate Mode Timing
0 = Celsius 1 = Fahrenheit
0 = 50 Hz 1 = 60 Hz Power Line
Enable Facilitator Mode
TRIAC7 is ON if mode is Comfort
Digital Input #1 Mode
000 = Not used
001 = Window Open
010 = Occupancy Sensor
011 = Air Quality Sensor
100 = Reverse Action
101 = Intrusion Alarm
Negate Digital Input #1
Digital Input #2 Mode
000 = Not used
W(11)
W(12)
W(13)
001 = Window Open
010 = Occupancy Sensor
011 = Air Quality Sensor
100 = Reverse Action
101 = Intrusion Alarm
Negate Digital Input #2
Enable Jumper Options
Enable Integral Zeroing Loop #1
Enable Integral Zeroing Loop #2
Enable Integral Zeroing Loop #3
Enable Integral Zeroing Loop #4
Enable Integral Zeroing Loop #5
Enable Integral Zeroing Loop #6
Not used
W(15)
W(16)
Word
W(1)
W(2)
W(3)
W(4)
W(5)
W(6)
W(7)
W(8)
W(9)
W(10)
W(11)
W(12)
W(13)
W(14)
Byte
134
R/W
TCS3
Not used
Enable Gain Doubling Loop #1
Enable Gain Doubling Loop #2
Enable Gain Doubling Loop #3
Enable Gain Doubling Loop #4
Enable Gain Doubling Loop #5
Enable Gain Doubling Loop #6
Controller Options
135
Write
TCS1
B(1)
Not used
B(2)
Not used
B(3)
Not used
B(4)
Not used
B(5)
Not used
B(6)
Not used
B(7)
Not used
B(8)
Word
FP
Default Action 1=Reverse
Hardware Configuration
High Range AI1
136
137
R/W
R/W
HDW1
HRI1
FS-8700-19_Metasys_N2 Driver Manual
Page 46 of 51
Input Output Config Parameters
Relative Item Signal Condition Read/Write Johnson Tag Description
138
139
140
141
FP
FP
FP
Byte
B(1)
R/W
R/W
R/W
R/W
LRI1
Low Range AI1
FTC1
OFS1
IOP1
Filter Constant AI1
Offset Compensation AI1
Analog Input Options
Controller reference
1 to 6
B(3)
B(4)
B(5)
Input Type: 0=volt 1=resistance
Input Mode
000 - Linear Range
001-Thermistor Linearization 2252.at 25C
010 - Square Root
011 - 0.2 suppression
100-Thermistor Linearization 10 k. at 25C
101 - Square Root & 20 % suppression
Not used
High Range AI2
Low Range AI2
B(7)
B(8)
FP
FP
FP
FP
Byte
FP
FP
FP
FP
Byte
FP
FP
FP
142
143
144
145
146
147
148
149
150
151
152
153
154
155
156
157
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
R/W
Write
HRI2
LRI2
FTC2
OFS2
IOP2
HRI3
LRI3
FTC3
OFS3
IOP3
HRI4
LRI4
FTC4
OFS4
IOP4
OS
Filter Constant AI2
Offset Compensation AI2
Analog Input Options (see IOP1)
High Range AI3
Low Range AI3
Filter Constant AI3
Offset Compensation AI3
Analog Input Options (see IOP1)
High Range AI4
Low Range AI4
Filter Constant AI4
FP
Offset Compensation AI4
Analog Input Options (see IOP1)
TC9100 Requested Operating Status
00 = Night mode
Byte
Byte
B(1)
01 = Stand-by mode
10 = Comfort mode
11 = OFF mode
Not used
Not used
Operating Mode Toggle: Base- Alternate
Not used
Force Operating Mode
Command Module Active
TM9100 Real Time Clk Synchronization
Minutes 0..59
B(2)
B(3)
B(4)
B(5)
B(6)
B(7)
B(8)
Word
W(1)
158
Write
STIME
RTC
W(6)
W(7)
W(8)
W(9)
Spare
Spare
Hours 0..23
RTC
RTC
W(13)
W(14)
Day of Week 1..7
W(16)
Byte
FP
159
160
161
R/W
Write
Write
OT@
SPW
SPS
Outdoor Temperature Connection
Winter set point
Summer set point
FP
FS-8700-19_Metasys_N2 Driver Manual
Page 47 of 51
Input Output Config Parameters
Relative Item Signal Condition Read/Write Johnson Tag Description
162
163
164
165
166
167
FP
FP
Byte
FP
FP
Write
Write
R/W
Write
R/W
WA
SA
FT@
FSP
FDIF
LOO
Winter Authority Slope
Summer Authority Slope
Freeze Temperature connection
Freeze set point
Freeze Differential
Word
W(1)
Write
Read
Input/Output Override Control
Three Speed Fan Actual Speed
00 = Output OFF
01 = Speed #1
10 = Speed #2
W(2)
W(3)
W(4)
W(5)
Read
11 = Speed #3
Not used
Three spd Fan Overrd Reqst by Hardware
Fan Speed Reqst by Command Module
00 = Output OFF
Read
Write
FOS
01 = Speed #1
10 = Speed #2
W(6)
W(7)
W(8)
W(9)
W(10)
W(11)
W(12)
Word
W(1)
W(2)
W(3)
W(4)
W(5)
W(6)
W(7)
W(8)
W(9)
W(10)
W(11)
W(12)
W(13)
W(14)
Word
FP
11 = Speed #3
TM9100 Real Time Clk Refresh Request
Three speed Fan Overrd Reqst Cmd Mod
Analog Input #1 Override
Analog Input #2 Override
Analog Input #3 Override
Analog Input #4 Override
Control Loops Activity Mode
Loop #1 Heating
Loop #2 Heating
Loop #3 Heating
Loop #4 Heating
Loop #5 Heating
Loop #6 Heating
Not used
Not used
Loop #1 Active
Loop #2 Active
Loop #3 Active
Loop #4 Active
Loop #5 Active
FOR
AIO1
AIO2
AIO3
AIO4
CLACT
168
Write
Read
Read
Read
Read
Read
Read
Write
Write
Write
Write
Write
Write
R/W
Loop #6 Active
169
170
171
ALG2
WAL
SAL
Configuration Index 2
Winter Authority Limit
Summer Authority Limit
R/W
R/W
FP
Items Stored in the TM91xx External Database
Relative Item Signal Condition Read/Write Johnson Tag Description
256
257
258
259
260
Byte
FP
FP
Read
Read
Read
Read
Read
UNIT
TEMP
RSP
LOO
JMP
JMP1
JMP2
JMP3
JMP4
JMP5
TIME
Device Model : xxH
Room Temperature
Remote Temperature Set Point
Copy of TC9100 Item LOO
TM9100 Jumper Configuration & status
Clock Setting Disable
Word
Byte
B(1)
B(2)
B(3)
B(4)
B(5)
Word
W(1)
Fan Setting Disable
Time Schedule Setting Disable
Model with Time Schedule
Time Schedule Configuration Changed
Real Time
261
Write
RTC Minutes 0..59
FS-8700-19_Metasys_N2 Driver Manual
Page 48 of 51
Items Stored in the TM91xx External Database
Relative Item Signal Condition Read/Write Johnson Tag Description
W(6)
W(9)
RTC Hours 0..23
W(13)
W(14)
RTC Dy of Week 1..7
W(16)
TM91xx Daily Schedules:
Relative Item Signal Condition Read/Write Johnson Tag Description
271
Word
W(1)
Write
DST1
Type of Daily Schedule #1
Mode event 1
00 = Set Night Mode
01 = Set Comfort Mode
10 = Set Stand-By Mode
11 = Set OFF Mode
W(2)
W(3)
Mode event 2 (Same Fmt. Mode event 1)
Mode event 3 (Same Fmt. Mode event 1)
Mode event 4 (Same Fmt. Mode event 1)
Mode event 5 (Same Fmt. Mode event 1)
W(4)
W(5)
W(6)
W(7)
W(8)
W(9)
W(10)
W(11)
Mode event 6 (Same Fmt. Mode event 1)
Number of Days of activity 1..7
W(12)
W(13)
W(15)
Word
Word
Word
272
272
272
273
287
288
289
290
291
292
303
304
305
306
307
308
319
320
321
322
323
Write
Write
Write
E12S1
E34S1
E56S1
Event #1 & Event #2 Day #1
Event #3 & Event #4 Day #1
Event #5 & Event #6 Day #1
Spare
Spare
Word
Word
Word
Word
Write
Write
Write
Write
DST2
Type of Daily Schedule #2 (Fmt. #1)
Event #1 & Event #2 Day #2
Event #3 & Event #4 Day #2
Event #5 & Event #6 Day #2
Spare
E12S2
E34S2
E56S2
Spare
Word
Word
Word
Word
Write
Write
Write
Write
DST3
Type of Daily Schedule #3 (Fmt. #1)
Event #1 & Event #2 Day #3
Event #3 & Event #4 Day #3
Event #5 & Event #6 Day #3
Spare
E12S3
E34S3
E56S3
Spare
Word
Word
Word
Word
Write
Write
Write
Write
DST4
Type of Daily Schedule #4 (Fmt. #1)
Event #1 & Event #2 Day #4
Event #3 & Event #4 Day #4
Event #5 & Event #6 Day #4
E12S4
E34S4
E56S4
FS-8700-19_Metasys_N2 Driver Manual
Page 49 of 51
TM91xx Daily Schedules:
Relative Item Signal Condition Read/Write Johnson Tag Description
324
335
336
337
338
339
340
351
352
353
354
355
356
367
368
369
370
371
372
383
Spare
Spare
Word
Word
Word
Word
Write
Write
Write
Write
DST5
Type of Daily Schedule #5 (Fmt. #1)
Event #1 & Event #2 Day #5
Event #3 & Event #4 Day #5
Event #5 & Event #6 Day #5
Spare
E12S5
E34S5
E56S5
Spare
Word
Word
Word
Word
Write
Write
Write
Write
DST6
Type of Daily Schedule #6 (Fmt. #1)
Event #1 & Event #2 Day #6
Event #3 & Event #4 Day #6
Event #5 & Event #6 Day #6
Spare
E12S6
E34S6
E56S6
Spare
Word
Word
Word
Word
Write
Write
Write
Write
DST7
Type of Daily Schedule #7 (Fmt. #1)
Event #1 & Event #2 Day #7
Event #3 & Event #4 Day #7
Event #5 & Event #6 Day #7
Spare
E12S7
E34S7
E56S7
Spare
FS-8700-19_Metasys_N2 Driver Manual
Appendix E. Error Messages
Page 50 of 51
Error Message
Description and Action
Typically N2open Clients are configured to timeout after 200ms. If a
FieldServer is configured as a Server the Server_Hold_Timeout time
should be set to 0.175s or less otherwise the response will be suppressed.
This message is printed if the Server_Hold_Timeout is set for >0.175s.
MN2:#01 WARN.
Server_Hold_Timeout is
%0.3fs
For N2Open Slave
typical value is %0.3fs
If the Client’s timeout is >200ms this message may be ignored.
FS-8700-19_Metasys_N2 Driver Manual
Page 51 of 51
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