A Sierra Monitor Company

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: 21

FS-8700-19_Metasys_N2 Driver Manual

Table of Contents

TABLE OF CONTENTS 1.

Metasys N2 Description ................................................................................................. 3

2.

Driver Scope of Supply .................................................................................................. 4 2.1. Supplied by FieldServer Technologies for this driver.................................................. 4 2.2. Provided by the Supplier of 3rd Party Equipment ........................................................ 4 2.2.1. Hardware ................................................................................................................ 4 2.2.2. Required 3rd Party Software.................................................................................... 4 2.2.3. Required 3rd Party Configuration............................................................................. 4

3. 3.1.

Hardware Connections .................................................................................................. 5 Hardware Connection Tips / Hints.............................................................................. 5

4.

Configuring the FieldServer as a Metasys N2 Client ................................................... 6 4.1. Data Arrays/Descriptors ............................................................................................. 6 4.2. Client Side Connection Descriptions .......................................................................... 7 4.3. Client Side Node Descriptors ..................................................................................... 8 4.4. Client Side Map Descriptors....................................................................................... 8 4.4.1. FieldServer Related Map Descriptor Parameters .................................................... 8 4.4.2. Driver Related Map Descriptor Parameters............................................................. 9 4.4.3. Timing Parameters ................................................................................................13 4.4.4. Map Descriptor Example 1 – N2Open....................................................................14 4.4.5. Map Descriptor Example 2 - VMA..........................................................................14 4.4.6. Map Descriptor Example 3 - DX9100.....................................................................15

5.

Configuring the FieldServer as a Metasys N2 Server .................................................16 5.1. Server Side Connection Descriptors .........................................................................16 5.2. Server Side Node Descriptors...................................................................................17 5.3. Server Side Map Descriptors ....................................................................................18 5.3.1. FieldServer Specific Map Descriptor Parameters...................................................18 5.3.2. Driver Specific Map Descriptor Parameters ...........................................................18 5.3.3. Map Descriptor Example........................................................................................19

Appendix A. Advanced Topics...........................................................................................20 Appendix A.1. Writing to DX9100 Binary Outputs................................................................20 Appendix A.2. Managing Analog Inputs and Outputs for DX9100. ......................................21 Appendix B. Troubleshooting tips.....................................................................................22 Appendix B.1. Connection Tips & Hints...............................................................................22 Appendix B.2. Offline Behavior ...........................................................................................22 Appendix B.3. Tip on Overrides ..........................................................................................22 Appendix C. Setting up FS-B20 for RS-485.......................................................................23 Appendix C.1. Jumper Settings:..........................................................................................23 Appendix C.2. Hardware connections .................................................................................25 Appendix C.3. Configuration Settings..................................................................................25 Appendix D. Memory Maps ................................................................................................26 Appendix D.1. Metasys DX9100 Memory Map....................................................................26 Appendix D.2. Metasys DC9100 Memory Map....................................................................33 Appendix D.3. Metasys TC9100 Memory Map ....................................................................40

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FS-8700-19_Metasys_N2 Driver Manual

1.

Page 3 of 50

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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FS-8700-19_Metasys_N2 Driver Manual

2.

Page 4 of 50

Driver Scope of Supply 2.1.

Supplied by FieldServer Technologies for this driver

FieldServer Technologies PART # FS-8915-10 FS-8915-10 FS-8917-02 FS-8917-01 SPA59132 FS-8700-19

2.2. 2.2.1.

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 Driver Manual.

Provided by the Supplier of 3rd Party Equipment Hardware PART #

2.2.2.

Description

DESCRIPTION Metasys NCU or other device

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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FS-8700-19_Metasys_N2 Driver Manual

3.

Page 5 of 50

Hardware Connections

FieldServer as a Client 3rd Party System

FieldServer

N2 bus

N2 devices

FieldServer as a Server NCM, N30 or other N2 client

N2 bus (408)-262-2299

N2 devices

FieldServer

3rd Party System

MetasysN2 CONNECTION DIAGRAM BASE NAME: FILE NAME: FS-8700-19

3.1.

DATE: 05/31/06 BY: MC

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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FS-8700-19_Metasys_N2 Driver Manual

4.

Page 6 of 50

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

Data_Array_Name

Provide name for Data Array

Data_Array_Format

Provide data format. Each Data Array can only take on one format.

Data_Array_Length

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.

Legal Values Up to 15 alphanumeric characters Float, Bit, UInt16, SInt16, Packed_Bit, Byte, Packed_Byte, Swapped_Byte 1-10,000

Example //

Data Arrays

Data_Arrays Data_Array_Name, DA_AI_01, DA_AO_01, DA_DI_01, DA_DO_01,

Data_Format, UInt16, UInt16, Bit, Bit,

Data_Array_Length 200 200 200 200

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FS-8700-19_Metasys_N2 Driver Manual

4.2.

Page 7 of 50

Client Side Connection Descriptions

Section Title Connections Column Title Port Protocol Baud* Parity* Data_Bits* Stop_Bits* Handshaking* Poll _Delay* Line_Drive_On* Line_Drive_Off*

Function Specify which port the device is connected to the FieldServer Specify protocol used Specify baud rate Specify parity Specify data bits Specify stop bits Specify hardware handshaking Time between internal polls Duration of RTS assert before start of transmission Duration of RTS assert after end of transmission

Legal Values P1-P8, R1-R21 Metasys_N2 9600 None 8 1 None 0 0.001s 0.000s

Example //

Client Side Connections

Connections Port, Protocol R1, 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. FieldServer Technologies 1991 Tarob Court Milpitas, California 95035 USA Web:www.fieldserver.com Tel: (408) 262-2299 Fax: (408) 262-2296 Toll_Free: 888-509-1970 email: [email protected]

FS-8700-19_Metasys_N2 Driver Manual

4.3.

Page 8 of 50

Client Side Node Descriptors

Section Title Nodes Column Title

Function

Legal Values

Node_Name

Provide name for node

Node_ID Protocol

Station address of physical Server node Specify protocol used Specify which port the device is connected to the FieldServer Identify type of device

Connection

Node_Type

If this parameter is omitted the driver treats the configuration as a N2Open configuration and marks the Node_Type as N2OpenClient when using Ruinet to check the Node parameters.

Up to 32 alphanumeric characters 1-255 Metasys_N2 P1-P8, R1-R21

N2OpenClient, 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,

4.4.

Node_ID, 1,

Protocol, Metasys_N2,

Connection, P8,

Node_Type VMA

Client Side Map Descriptors

4.4.1.

FieldServer Related Map Descriptor Parameters Column Title

Map_Descriptor_Name Data_Array_Name Data_Array_Offset Function

Function Name of this Map Descriptor Name of Data Array where data is to be stored in the FieldServer Starting location in Data Array Function of Client Map Descriptor

Legal Values Up to 32 alphanumeric characters One of the Data Array names from “Data Array” section above 0 to maximum specified in “Data Array” section above RDBC, WRBC, WRBX

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FS-8700-19_Metasys_N2 Driver Manual

4.4.2.

Page 9 of 50

Driver Related Map Descriptor Parameters

4.4.2.1.

N2Open Map Descriptor Parameters

Column Title

Function

Node_Name

Name of Node to fetch data from

Data_Type

Data type

Length Address

Length of Map Descriptor Starting address of read block Used to specify an N2-specific function, e.g. COS. See description below. Used to specify the attribute if an attribute other than Current Value is to be accessed. See attribute table below

MN2_Function*

MN2_Attribute*

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. If the vendor device lists a point as ADI then use Data_Type=Integer. If the vendor device lists a point as ADF then use Data_Type=Float_Reg. AI, AO, DI, DO, Float_Reg, Integer, Byte 1 1-256 COS, Override, Release

See N2Open Attribute Table

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FS-8700-19_Metasys_N2 Driver Manual

Data Type

Analog Input

Binary Input Analog Output

Binary Output

Internal Float Internal Integer Internal Byte

Page 10 of 50

N2Open Attribute Table Attribute No. 1 2 3 4 5 6 7 8 1 2 1 2 3 1 2 3 4 5 1 2 1 2 1 2

Attribute Object Configuration 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 Current Value Object Configuration Object Status Minimum On-Time Minimum Off-Time Maximum Cycles/Hour Object Status 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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FS-8700-19_Metasys_N2 Driver Manual Point Type AI AO BI, BO ADI, ADF, BD

Page 11 of 50

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! point status change (e.g. override); includes current value (On/Off) 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

Node_Name

Name of Node to fetch data from

Data_Type

Data type

Length

Length of Map Descriptor Starting address of read block Data type specifier to be set when Data_Type has been set to Driver

Address MN2_Type

Legal Values One of the node names specified in “Client Node Descriptor” above AI, AO, DI, DO, Driver (used for ADF, ADI and BD) 1 1-256 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.

FieldServer Technologies 1991 Tarob Court Milpitas, California 95035 USA Web:www.fieldserver.com Tel: (408) 262-2299 Fax: (408) 262-2296 Toll_Free: 888-509-1970 email: [email protected]

FS-8700-19_Metasys_N2 Driver Manual Driver Data_Type MN2_Type values Point Type AI AO BI BO ADF ADI BD

Known Value2 1 2 3 4

Page 12 of 50

Suggested Value3

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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FS-8700-19_Metasys_N2 Driver Manual

4.4.2.3.

Page 13 of 50

DX9100 Map Descriptor Parameters

Column Title Node_Name Length

Function Name of Node to fetch data from Length of Map Descriptor Starting address of read block

Address

Legal Values One of the node names specified in “Client Node Descriptor” above 1 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.

Timing Parameters

Column Title Scan_Interval

Function Rate at which data is polled

Legal Values ≥0.001s

FieldServer Technologies 1991 Tarob Court Milpitas, California 95035 USA Web:www.fieldserver.com Tel: (408) 262-2299 Fax: (408) 262-2296 Toll_Free: 888-509-1970 email: [email protected]

DA_AI3, DA_COS, DA_AI3, DA_BI, DA_Release,

AI_READ, COS_POLLER, AI_BY_COS, BI_BY_COS, AI_1_Release,

RDBC, COS_Poller, COS_Read, COS_Read, WRBX,

COS_Poller Map Descriptor. This only specifies the Function, Node and Scan_Interval.

0, 0, 1, 3, 0,

Function, Node_A, Node_A, Node_A, Node_A, Node_A,

Node_name

COS_Read Map Descriptor sets point type the same as normal read Map Descriptor. Optional scan_interval.

MN2_Function , -, -, -, -, Release, Ana_Input -, Ana_Input, Dig_Input, Ana_Input,

Data_Type 5s 30s 10 -

Scan_Interval

Release function used in conjunction with wrbx. If the Data Array value specified in this Map Descriptor is changed, then a Release command is sent to the specified point.

1, -, 1, 2, 1,

Address

Page 14 of 50

Function, RDBC, WRBX, WRBX, RDBC,

Node_name, Node_VMA, Node_VMA, Node_VMA, Node_VMA,

Address, 1, 3, 3, 23,

Driver type 5 (ADF) configured here.

MN2_Function, -, -, Release, -,

Data_Type, Ana_Input Ana_Output, Ana_Output, Driver,

MN2_Type, -, -, -, 5,

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Override release function configured as wrbx.

DA_Name, DA_AI3, DA_AO, DA_AO, DA_DRV,

DA_Offset, 0, 0, 0, 10,

Map Descriptor Example 2 - VMA

Client Side Map Descriptors

Map_Descriptors Map_Descriptor_Name, AI_READ, AO_WRITE, AO_Release, Special_type,

//

4.4.5.

Scan_Interval 5s 30s 10s

Note: To get change of state (COS) reports from an analog port, the warning/alarm levels need to be configured. If the alarm/warning values are not known, then it would be better to configure an RDBC Map Descriptor which reads the analog input directly. Limits will then not be required.

Normal read Map Descriptor. Note RDBC function, Data_Type and Address specification.

DA_Name,

Map_Descriptor_Name,

DA_Offset,

Map Descriptor Example 1 – N2Open

Client Side Map Descriptors

Map_Descriptors

//

4.4.4.

FS-8700-19_Metasys_N2 Driver Manual

Function, RDBC, WRBX,

Node_name, Node_DX, Node_DX,

Address, 1223, 1225,

The address alone is sufficient to specify DX9100 point. The Data Type is determined by the device.

DA_Offset, 0, 0,

Page 15 of 50

Scan_Interval 5s -

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DA_Name, DA_AI3, DA_AO3,

Map Descriptor Example 3 - DX9100

Client side Map Descriptors

Map_Descriptors Map_Descriptor_Name, D191_ZN1-T, D191_ZN1-S,

//

4.4.6.

FS-8700-19_Metasys_N2 Driver Manual

FS-8700-19_Metasys_N2 Driver Manual

5.

Page 16 of 50

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 Protocol Baud* Parity* Data_Bits* Stop_Bits* Handshaking* Poll _Delay* Line_Drive_On* Line_Drive_Off*

Function Specify which port the device is connected to the FieldServer Specify protocol used Specify baud rate Specify parity Specify data bits Specify stop bits Specify hardware handshaking Time between internal polls Duration of RTS assert before start of transmission Duration of RTS assert after end of transmission

Legal Values P1-P8, R1-R24 Metasys_N2 9600 None 8 1 None 0 0.001s 0.000s

Example //

Server Side Connections

Connections Port, Protocol P8, 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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FS-8700-19_Metasys_N2 Driver Manual

5.2.

Page 17 of 50

Server Side Node Descriptors

Section Title Nodes Column Title Node_Name

Function

Legal Values Up to 32 alphanumeric characters

Provide name for node

MetasysN2 station address of physical Server node Protocol Specify protocol used Specifies time FieldServer will reserve Server_Hold_Timeout* Server side connection while waiting for the Client side to update data in Data_Array Identify type of device Node_ID

Node_Type*

1-255 Metasys_N2 >1.0s

This parameter need not be specified. The 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.

N2OpenServer, N2Open

Example //

Server Side Nodes

Nodes Node_Name, PLC 1,

∗

Node_ID, 1,

Protocol Metasys_N2

∗

Note that no connection information is necessary on Server side.

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FS-8700-19_Metasys_N2 Driver Manual

5.3.

Page 18 of 50

Server Side Map Descriptors

5.3.1.

FieldServer Specific Map Descriptor Parameters Column Title

Map_Descriptor_Name Data_Array_Name Data_Array_Offset Function

5.3.2. Column Title

Function Name of this Map Descriptor Name of Data Array where data is to be stored in the FieldServer Starting location in Data Array Function of Server Map Descriptor

Function Name of Node to fetch data from

Data_Type

Data type

Address

Server

Driver Specific Map Descriptor Parameters

Node_Name

Length

Legal Values Up to 32 alphanumeric characters One of the Data Array names from “Data Array” section above 0 to maximum specified in “Data Array” section above

Length of Map Descriptor Starting address of read block

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. If the vendor device lists a point as ADI then use Data_Type=Integer. If the vendor device lists a point as ADF then use Data_Type=Float_Reg. AI, AO, DI, DO, Float_Reg, Integer, Byte 1 - 256 1 - 256

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The Server function tells the FieldServer that this Map Descriptor makes data available to a Client sending polls to the FieldServer.

Data_Type, Ana_Input,

Function, Server,

Page 19 of 50

Address, 1,

Length 256

Note that a single Server Map Descriptor of length 256 can represent all possible points of one type (e.g. AI).

Node_name, Node_A,

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The Data_Array_Offset sets the start of the data range covered by the Server Map Descriptor. The number of points included is determined by the Length field.

Data_Array_Name, DA_AI3,

Data_Array_Offset, 10,

Map Descriptor Example.

Server Side Map Descriptors

Map_Descriptors Map_Descriptor_Name, A1,

//

5.3.3.

FS-8700-19_Metasys_N2 Driver Manual

5

Page 20 of 50

Description The status bit will indicate the actual status of the output in the field. This bit cannot be modified by the FieldServer as it is read only, and is meant for actual status display. The control bit will allow the FieldServer to write a command to the DX9100 for the associated output. This command will only execute if the override is enabled by the override bit. The override bit must be set to enable an output to be written to by the FieldServer. If this is not set, then the control bit will be ignored.

Low byte Address 1 High byte Address 1

Address 5

Address5

of

of

Data_Array_Name, DA_PO1_01 , DA_PO1_02 ,

Map_Descriptors Map_Descriptor_Name, CMD_DO1_05 , CMD_DO1_06 , Data_Array_Offset, 0 , 0 ,

Data_Array_Length 100 100

Function, Rdbc , Rdbc ,

Node_Name, Dev_30 , Dev_30 ,

Address, 0001 , 0005 ,

Scan_Interval 1.0s // DO3 - DO8 Set and Enable 1.0s // DO3 - DO8 Status

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Binary Outputs start at address 3, so the first bit of each of these addresses will represent B03

Data_Format, Packed_Bit , Packed_Bit ,

Data_Arrays Data_Array_Name, DA_PO1_01 , DA_PO1_02 ,

Example The example below better illustrates the mapping that is typically needed to deal with DX9100 Binary Outputs. Note that since all 6 outputs are packed into word format when transmitted, a Packed_Bit Array is typically required to access the bits individually. In this Example, the status for BO3-BO8 can be found in offsets 0-5 of DA_PO1_02, the control bits can be found in offsets 0-5 of DA_PO1_01, and the override bits can be found in offsets 8-13 of DA_PO1_01.

Override bit

Bit Output status bit Output control bit

When writing to DX9100 Binary Outputs, it is important to understand that each binary output has three bits associated with it as described in the table below:

Appendix A.1. Writing to DX9100 Binary Outputs

Appendix A. Advanced Topics

FS-8700-19_Metasys_N2 Driver Manual

FS-8700-19_Metasys_N2 Driver Manual

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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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Page 23 of 50

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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FS-8700-19_Metasys_N2 Driver Manual

Page 25 of 50

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

8

7

6

5

4

3

2

7

6

5

4

3

2

1

1

RJ45 M ale M odular 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.

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Appendix D. Memory Maps Appendix D.1. Metasys DX9100 Memory Map Module Module Module Module Module Module Module Module Module Module Module Module

1 2 3 4 5 6 7 8 9 10 11 12

Module Module Module Module Module Module Module Module

1 2 3 4 5 6 7 8

Module Module Version Module Module Module Module Module Module

1 2 2 9 10 11 12 13 14

Module Module Module Module Module Module

3 4 5 6 7 8

Module Module Module Module Module Module Module Module

1 2 3 4 5 6 7 8

Module Module Module Module Module Module Module Module

1 2 3 4 5 6 7 8

Programmable modules 64 160 256 352 448 544 640 736 832 928 1024 1120 Analog input modules 1216 1232 1248 1264 1280 1296 1312 1328 Analog output modules 1344 1360 or later (new for version 6.0): 2304 2320 2336 2352 2368 2384 Digital output modules 1376 1392 1408 1424 1440 1456 Extension modules 1472 1552 1632 1712 1792 1872 1952 2032 Time schedule modules 2112 2128 2144 2160 2176 2192 2208 2224 Optimal start / stop module

0040H 00A0H 0100H 0160H 01C0H 0220H 0280H 02E0H 0340H 03A0H 0400H 0460H 04C0H 04D0H 04E0H 04F0H 0500H 0510H 0520H 0530H 0540H 0550H 0900H 0910H 0920H 0930H 0940H 0950H 0560H 0570H 0580H 0590H 05A0H 05B0H 05C0H 0610H 0660H 06B0H 0700H 0750H 07A0H 07F0H 0840H 0850H 0860H 0870H 0880H 0890H 08A0H 08B0H

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FS-8700-19_Metasys_N2 Driver Manual Module Module

Relative Item 0 1 2 3 4 5 6 7 8 9 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

1 2

Signal Condition Byte Word Byte Word Byte Byte Byte 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 FP Byte Word

Page 27 of 50 2240 2272

General control module Read/Write Johnson Tag Read UNIT Write SUP Read MNT Read DIAG Read DICT Read TOS Read DIS Read AIS Read LRST1 Read LRST2 Write LCOS1 Write LCOS2 Write CNTR1 Write CNTR2 Write CNTR3 Write CNTR4 Write CNTR5 Write CNTR6 Write CNTR7 Write CNTR8 Write PASS Write PC1 Write PC2 Write PC3 Write PC4 Write PC5 Write PC6 Write PC7 Write PC8 Write UIA Write ALD@ Write DXS1 Write ALG Write ACO1 Write ACO2 Write ACO3 Write ACO4 Write ACO5 Write ACO6 Write ACO7 Write ACO8 Write PLCNT Read PLCPC

08C0H 08E0H

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 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

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FS-8700-19_Metasys_N2 Driver Manual

Relative Item 0 1 2 3 4 5 6 7 8 9 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

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 FP FP FP FP FP FP FP FP FP FP FP FP FP FP

Programmable Module Type Read/Write Johnson Tag Write PMTYP Write PMOPT Write PMF1 Write PMF2 Write PMF3 Write PMF4 Write PMF5 Write PMF6 Write PMF7 Write PMF8 Write PMI1@ Write PMI2@ Write PMI3@ Write PMI4@ Write PMI5@ Write PMI6@ Write PMI7@ Write PMI8@ Write PMI9@ Write PMI10@ Write PMI11@ Write PMI12@ Write PMI13@ Write PMI14@ Write PMI15@ Write PMI16@ Write PMK01 Write PMK02 Write PMK03 Write PMK04 Write PMK05 Write PMK06 Write PMK07 Write PMK08 Write PMK09 Write PMK10 Write PMK11 Write PMK12 Write PMK13 Write PMK14 Write PMK15 Write PMK16 Write PMK17 Write PMK18 Write PMK19 Write PMK20 Write PMK21 Write PMK22 Write PMK23 Write PMK24 Write PMK25 Write PMK26 Write PMK27 Write PMK28 Write PMK29 Write PMK30 Write PMK31

Page 28 of 50

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 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

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Page 29 of 50

Relative Item 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80

Signal Condition FP FP FP FP FP FP FP FP FP FP FP FP FP Byte Byte Word LONG LONG LONG LONG LONG LONG LONG LONG

Programmable Module Type Read/Write Johnson Tag Write PMK32 Write PMK33 Write PMK34 Write PMOU1 Write PMOU2 Write PMOU3 Write PMOU4 Write PMOU5 Write PMOU6 Write PMOU7 Write PMOU8 Write PMAX1 Write PMAX2 Write PMHDC Write PMDO Read PMST Write PMAC1 Write PMAC2 Write PMAC3 Write PMAC4 Write PMAC5 Write PMAC6 Write PMAC7 Write PMAC8

Relative Item 0 1 2 3 4 5 6 7 8 9 10

Signal Condition Word FP FP FP FP FP FP FP FP FP Byte

Analog Input Modules Read/Write Johnson Tag Write AIT Write HR Write LR Write HIA Write LOA Write FTC Write ADF Read AI Read AI% Read ADC Read AIST

Description 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 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

Description 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

Relative Item 0 1 2 3 4 5 6 7 8 9 10 11 12

Signal Condition Byte Word Word FP FP FP FP Byte FP FP Word Word Word

Analog Output Modules Read/Write Johnson Tag Write AOT Write AO@ Write AOF@ Write HRO Write LRO Write OFL Write OUT Write AOC Write HLO Write LLO Write INC@ Write DEC@ Write ENL@

Description Analog output type 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 Output low limit DDC increase logic connection DDC decrease logic connection Limit function enable logic connection

Relative Item

Signal Condition

Digital Output Modules Read/Write Johnson Tag

Description

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FS-8700-19_Metasys_N2 Driver Manual

Relative Item 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15

Relative Item 0 1 2 3 4 5 6 7 8 9 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

Signal Condition Byte Word Word Word FP FP FP FP FP FP FP FP Byte Word Word Word

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 FP

Digital Output Modules Read/Write Johnson Tag Write DOT Write DO@ Write FB@ Write DOF@ Write HRO Write LRO Write FST Write DB Write HLO Write LLO Write OFL Write OUT Write DOC Write INC@ Write DEC@ Write ENL@ Extension Modules Read/Write Johnson Tag Write XTIOMAP Write XTIOTYP Write XTIOMOD Write XTADX Write XTI1@ Write XTI2@ Write XTI3@ Write XTI4@ Write XTI5@ Write XTI6@ Write XTI7@ Write XTI8@ Write XTHR01 Write XTLR01 Write XTHR02 Write XTLR02 Write XTHR03 Write XTLR03 Write XTHR04 Write XTLR04 Write XTHR05 Write XTLR05 Write XTHR06 Write XTLR06 Write XTHR07 Write XTLR07 Write XTHR08 Write XTLR08 Write XTHIA1 Write XTLOA1 Write XTHIA2 Write XTLOA2 Write XTHIA3 Write XTLOA3 Write XTHIA4 Write XTLOA4 Write XTHIA5 Write XTLOA5

Page 30 of 50

Description 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 Output high limit Output low limit 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

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 Point connection - I6 Point connection - I7 Point connection - I8 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

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FS-8700-19_Metasys_N2 Driver Manual

Relative Item 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

Relative Item 0 1 2 3 4 5 6

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

Signal Condition Word Word Word Word FP FP Byte

Extension Modules Read/Write Johnson Tag Write XTHIA6 Write XTLOA6 Write XTHIA7 Write XTLOA7 Write XTHIA8 Write XTLOA8 Read XTAIS Read XTAI1 Read XTAI2 Read XTAI3 Read XTAI4 Read XTAI5 Read XTAI6 Read XTAI7 Read XTAI8 Write XTAO1 Write XTAO2 Write XTAO3 Write XTAO4 Write XTAO5 Write XTAO6 Write XTAO7 Write XTAO8 Write XTDIC1 Write XTDIC2 Write XTDIC3 Write XTDIC4 Write XTDIC5 Write XTDIC6 Write XTDIC7 Write XTDIC8 Write XTCNT Write XTDO Read XTDI Read XTSTC Time schedule modules Read/Write Johnson Tag Write TSOPT Write TSEX@ Write TSON@ Write TSOF@ Write TSXTM Write TSTIM Write TSSTA

Page 31 of 50

Description 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 Analog input value 6 Analog input value 7 Analog input value 8 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 Extension module local status

Description Time schedule options LSB External extension logical connection On forcing logical connection Off forcing logical connection Extension time (min) Time to next event (min) Time schedule status

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FS-8700-19_Metasys_N2 Driver Manual

Module Module Module Module Module Module Module Module Module Module Module Module

1 2 3 4 5 6 7 8 9 10 11 12

Module Module Module Module Module Module Module Module

1 2 3 4 5 6 7 8

Module Module Version Module Module Module Module Module Module

1 2 2 9 10 11 12 13 14

Module Module Module Module Module Module

3 4 5 6 7 8

Module Module Module Module Module Module Module Module

1 2 3 4 5 6 7 8

Module Module Module Module Module Module Module Module

1 2 3 4 5 6 7 8

Module Module

1 2

Programmable modules 64 160 256 352 448 544 640 736 832 928 1024 1120 Analog input modules 1216 1232 1248 1264 1280 1296 1312 1328 Analog output modules 1344 1360 or later (new for version 6.0): 2304 2320 2336 2352 2368 2384 Digital output modules 1376 1392 1408 1424 1440 1456 Extension modules 1472 1552 1632 1712 1792 1872 1952 2032 Time schedule modules 2112 2128 2144 2160 2176 2192 2208 2224 Optimal start / stop module 2240 2272

Page 32 of 50

0040H 00A0H 0100H 0160H 01C0H 0220H 0280H 02E0H 0340H 03A0H 0400H 0460H 04C0H 04D0H 04E0H 04F0H 0500H 0510H 0520H 0530H 0540H 0550H 0900H 0910H 0920H 0930H 0940H 0950H 0560H 0570H 0580H 0590H 05A0H 05B0H 05C0H 0610H 0660H 06B0H 0700H 0750H 07A0H 07F0H 0840H 0850H 0860H 0870H 0880H 0890H 08A0H 08B0H 08C0H 08E0H

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Page 33 of 50

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

0 1 2 3 4 5 6 7 8 9 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

Signal Condition Read/Write

0 Byte

Read

MODL

1 2 3 4 5 6 7 8 9

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 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

A B C D E F 10 11 12 13 14 15 16 17 18 19 1A 1B 1C 1D 1E 1F 20 21 22 23 24 25 26 27 28 29 2A 2B

Johnson Tag

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 FP FP FP FP FP FP FP Word Word Word Word Word Word Word Word Word Byte Byte

Description

Device model. Value always either 2 or 12 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 Control output 6 Control output 7 Control output 8 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

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FS-8700-19_Metasys_N2 Driver Manual

Page 34 of 50 PAGE 0

Item DEC

Item HEX

44 45 46 47 48 49 50

2C 2D 2E 2F

Signal Condition Read/Write

Johnson Tag

Byte Byte 30 Byte 31 Byte 32 Byte

Write Write Write Write Write

Spare Spare PV1@ RS1@ RV1@ PB1@ OF1@

51

33 Byte

Write

SB1@

52

34 Byte

Write

RA1@

53

35 Byte

Write

EF1@

54 55 56 57 58 59 60 61 62 63 64 65 66 67 68

36 37 38 39

Byte FP FP FP FP FP FP FP FP FP Byte Byte Byte Byte Byte

Write Write Write Write Write Write Write Write Write Write Write Write Write Write Write

TYPE1 LS1 PB1 TI1 TD1 HL1 LL1 BS1 BO1 AD1 PV2@ RS2@ RV2@ PB2@ OF2@

69

45 Byte

Write

SB2@

70

46 Byte

Write

RA2@

71

47 Byte

Write

EF2@

72 73 74 75 76 77 78 78 79 80 81 82 83 84 85 86

48 Byte 49 FP FP FP FP FP FP FP FP 50 FP 51 FP 52 Byte 53 Byte 54 Byte 55 Byte 56 Byte

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 BO2 AD2 PV3@ RS3@ RV3@ PB3@ OF3@

87

57 Byte

Write

SB3@

88

58 Byte

Write

RA3@

3A 3B 3C 3D 3E 3F 40 41 42 43 44

4A 4B 4C 4D 4E 4E 4F

Description

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 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 Reverse action logic control connection External forcing logic control connection Controller type Local setpoint Proportional band Reset action 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 Reverse action logic control connection

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Page 35 of 50 PAGE 0

Item DEC

Item HEX

89

Signal Condition Read/Write

Johnson Tag

59 Byte

Write

EF3@

Byte FP FP FP FP FP FP FP FP FP Byte Byte Byte Byte Byte

Write Write Write Write Write Write Write Write Write Write Write Write Write Write Write

TYPE3 LS3 PB3 TI3 TD3 HL3 LL3 BS3 BO3 AD3 PV4@ RS4@ RV4@ PB4@ OF4@

69 Byte

Write

SB4@

106 6A

Byte

Write

RA4@

107 6B

Byte

Write

EF4@

108 109 110 111 112 113 114 115 116 117 118 119 120 121 122

7A

Byte FP FP FP FP FP FP FP FP FP Byte Byte Byte Byte Byte

Write Write Write Write Write Write Write Write Write Write Write Write Write Write Write

TYPE4 LS4 PB4 TI4 TD4 HL4 LL4 BS4 BO4 AD4 PV5@ RS5@ RV5@ PB5@ OF5@

123 7B

Byte

Write

SB5@

124 7C

Byte

Write

RA5@

125 7D

Byte

Write

EF5@

126 7E 127 7F 128 129 130 131 132 133 134

Byte FP FP FP FP FP FP FP FP

Write Write Write Write Write Write Write Write Write

TYPE5 LS5 PB5 TI5 TD5 HL5 LL5 BS5 BO5

90 91 92 93 94 95 96 97 98 99 100 101 102 103 104

5A 5B 5C 5D 5E 5F 60 61 62 63 64 65 66 67 68

105

6C 6D 6E 6F 70 71 72 73 74 75 76 77 78 79

80 81 82 83 84 85 86

Description

External forcing logic control connection 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 Reverse action logic control connection External forcing logic control connection 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 Reverse action logic control connection External forcing logic control connection 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

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FS-8700-19_Metasys_N2 Driver Manual

Page 36 of 50 PAGE 0

Item DEC

Item HEX

Signal Condition Read/Write

Johnson Tag

135 136 137 138 8A 139 8B 140 8C

87 FP 88 Byte 89 Byte Byte Byte Byte

Write Write Write Write Write Write

AD5 PV6@ RS6@ RV6@ PB6@ OF6@

141 8D

Byte

Write

SB6@

142 8E

Byte

Write

RA6@

143 8F

Byte

Write

EF6@

9A 9B 9C 9D 9E

Byte FP FP FP FP FP FP FP FP FP Byte Byte Byte Byte 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 AD6 PV7@ RS7@ RV7@ PB7@ OF7@

159 9F

Byte

Write

SB7@

160 A0

Byte

Write

RA7@

161 A1

Byte

Write

EF7@

162 163 164 165 166 167 168 169 170 171 172 173 174 175 176

A2 A3 A4 A5 A6 A7 A8 A9 AA AB AC AD AE AF B0

Byte FP FP FP FP FP FP FP FP FP Byte Byte Byte Byte Byte

Write Write Write Write Write Write Write Write Write Write Write Write Write Write Write

TYPE7 LS7 PB7 TI7 TD7 HL7 LL7 BS7 BO7 AD7 PV8@ RS8@ RV8@ PB8@ OF8@

177 B1

Byte

Write

SB8@

178 B2

Byte

Write

RA8@

179 B3

Byte

Write

EF8@

144 145 146 147 148 149 150 151 152 153 154 155 156 157 158

90 91 92 93 94 95 96 97 98 99

Description

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 Reverse action logic control connection External forcing logic control connection 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 Reverse action logic control connection External forcing logic control connection 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 Reverse action logic control connection External forcing logic control connection

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FS-8700-19_Metasys_N2 Driver Manual

Page 37 of 50 PAGE 0

Item DEC

Item HEX

180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230

B4 B5 B6 B7 B8 B9 BA BB BC BD BE BF C0 C1 C2 C3 C4 C5 C6 C7 C8 C9 CA CB CC CD CE CF D0 D1 D2 D3 D4 D5 D6 D7 D8 D9 DA DB DC DD DE DF E0 E1 E2 E3 E4 E5 E6

Signal Condition Read/Write

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 FP FP FP Byte FP FP Byte FP FP Byte

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

TYPE8 LS8 PB8 TI8 TD8 HL8 LL8 BS8 BO8 AD8 IR1 HA1 LA1 FI1 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 OH1 OL1 OMS1 OH2 OL2 OMS2 OH3 OL3 OMS3

Description

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 Low alarm input 8 Filter time input 8 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

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FS-8700-19_Metasys_N2 Driver Manual

Page 38 of 50 PAGE 0

Item DEC

Item HEX

231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255

Signal Condition Read/Write

E7 E8 E9 EA EB EC ED EE EF F0 F1 F2 F3 F4 F5 F6 F7 F8 F9 FA FB FC FD FE FF

Relative Item 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23

Byte Byte FP FP FP FP Byte Byte Byte FP FP FP FP Byte Byte Byte FP FP FP FP Byte Byte 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

Signal Condition 0 1 2 3 4 5 6 7 8 9 A B C D E F 10 11 12 13 14 15 16 17

Johnson Tag

OMS4 OMTY1 FST1 DB1 OH5 OL5 OMS5 OMS6 OMTY2 FST2 DB2 OH7 OL7 OMS7 OMS8 OMty3 FST3 DB3 SB1 SB2 ALDIS RCTY1 ALGT COS1 COS2

PAGE 1 Read/Write Johnson Tag FP Write FP Write FP Write FP Write FP Write FP Write FP Write FP Write FP Write FP Write FP Write FP Write FP Write FP Write FP Write FP Write FP Write FP Write FP Write FP Write FP Write FP Write FP Write FP Write

Description

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 Standard algorithm type Spare constant Spare constant

Description Relative Item HR1 High range analog input 1 LR1 Low range analog input 1 HR2 High range analog input 2 LR2 Low range analog input 2 HR3 High range analog input 3 LR3 Low range analog input 3 HR4 High range analog input 4 LR4 Low range analog input 4 HR5 High range analog input 5 LR5 Low range analog input 5 HR6 High range analog input 6 LR6 Low range analog input 6 HR7 High range analog input 7 LR7 Low range analog input 7 HR8 High range analog input 8 LR8 Low range analog input 8 OM%1 Output % Output module 1 OM%2 Output % Output module 2 OM%3 Output % Output module 3 OM%4 Output % Output module 4 OM%5 Output % Output module 5 OM%6 Output % Output module 6 OM%7 Output % Output module 7 OM%8 Output % Output module 8

FieldServer Technologies 1991 Tarob Court Milpitas, California 95035 USA Web:www.fieldserver.com Tel: (408) 262-2299 Fax: (408) 262-2296 Toll_Free: 888-509-1970 email: [email protected]

FS-8700-19_Metasys_N2 Driver Manual

Relative Item 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24

Signal Condition Byte Word Word Word Word Word Word Word Word Word FP FP FP FP FP FP FP FP FP FP FP FP FP FP Byte

Page 39 of 50

Optimal start / stop module Read/Write Johnson Tag Description Write OSOPT Module options Write OSZT@ Zone temperature connection Write OSOT@ Outdoor temperature connection Write OSSP@ Zone temperature setpoint connection Write OSOB@ Off setpoint bias connection Write OSDI@ Disable module connection Write OSDA@ Disable adaptive action connection Write OSTS@ Connection at time schedule output Write OSNX@ Connection at next output Write OSTIM@ Connection at time to next output Write OSPURGE Minimum cool / heat time (min) Write OSMAXST Maximum start up time (min) Write OSMAXSO Maximum shut down time (min) Write OSBHK Start mode building heating factor Write OSBCK Start mode building cooling factor Write OSSBHK Stop mode building heating factor Write OSSBCK Stop mode building cooling factor Write OSFW Percentage adaptive control (filter weight) Write OSHTD Outdoor heating design temperature Write OSCTD Outdoor cooling design temperature Write OSCRNG Control range Write OSSP Zone temperature on setpoint Write OSOB Zone temperature off setpoint Write OSTIM Remaining time to next event Write OSSTA Operating status

FieldServer Technologies 1991 Tarob Court Milpitas, California 95035 USA Web:www.fieldserver.com Tel: (408) 262-2299 Fax: (408) 262-2296 Toll_Free: 888-509-1970 email: [email protected]

FS-8700-19_Metasys_N2 Driver Manual

Page 40 of 50

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. Relative Item 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30

31

Signal Condition Byte FP FP FP FP

Word FP FP FP FP FP FP FP FP FP FP FP FP FP FP FP FP FP FP FP FP 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)

General dynamic Parameters Read/Write Johnson Tag Description Read UNIT Device model. For TC-9100 always 06h Write AI1 Process Temperature Write AI2 Remote Temperature Set Point Bias Write AI3 Pressure Write AI4 Override Input Spare Spare Spare Spare Read ADC Selected Analog Input ADC counter Write OCM1 Output Programmable Module #1 Write OCM2 Output Programmable Module #2 Write OCM3 Output Programmable Module #3 Write OCM4 Output Programmable Module #4 Write OCM5 Output Programmable Module #5 Write OCM6 Output Programmable Module #6 Write WSP1 Working Set Point Control Module 1 Write WSP2 Working Set Point Control Module 2 Write WSP3 Working Set Point Control Module 3 Write WSP4 Working Set Point Control Module 4 Write WSP5 Working Set Point Control Module 5 Write WSP6 Working Set Point Control Module 6 Write XAI1 External Analog Input 1 Write XAI2 External Analog Input 2 Write XAI3 External Analog Input 3 Write XAI4 External Analog Input 4 Write ACO5 Analog Constant 5 Write ACO6 Analog Constant 6 Read WAC Winter Authority Correction Read SAC Summer Authority Correction Read ALR Analog Inputs Alarm Status AIH1 Analog Input 1 High alarm AIL1 Analog Input 1 High alarm AIH2 Analog Input 2 High alarm AIL2 Analog Input 2 Low alarm AIH3 Analog Input 3 High alarm AIL3 Analog Input 3 Low alarm AIH4 Analog Input 4 High alarm AIL4 Analog Input 4 Low alarm Not used Not used Not used Not used Not used Not used Not used Not used Read LOS Logic Output Status DO3 TRIAC 3 ON DO4 TRIAC 4 ON DO5 TRIAC 5 ON

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FS-8700-19_Metasys_N2 Driver Manual

Relative Item

32

33

34

35

36

37

Signal Condition 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) 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) Byte B(1)

B(2) B(3) B(4) B(5) B(6) B(7)

Page 41 of 50

General dynamic Parameters Read/Write Johnson Tag Description DO6 TRIAC 6 ON DO7 TRIAC 7 ON DO1 TRIAC 1 ON DO2 TRIAC 2 ON Not used Read ROS TC9100 Operation Status MODS 00 = Night mode 01 = Stand-by mode 10 = Comfort mode 11 = OFF mode MODT Temporary mode MODA Alternate mode Supervisory mode enabled WIN Window open OCC Occupancy Sense AIRQ Air Quality Sense Write MSK Outputs Central Control - Enable DO3E Enable TRIAC 3 DO4E Enable TRIAC 4 DO5E Enable TRIAC 5 DO6E Enable TRIAC 6 DO7E Enable TRIAC 7 DO1E Enable TRIAC 1 DO2E Enable TRIAC 2 Write ODC Outputs Central Control - Set Level DO3C TRIAC 3 ON DO4C TRIAC 4 ON DO5C TRIAC 5 ON DO6C TRIAC 6 ON DO7C TRIAC 7 ON DO1C TRIAC 1 ON DO2C TRIAC 2 ON Write HLD Control Loops Hold Loop #1 Hold Loop #2 Hold Loop #3 Hold Loop #4 Hold Loop #5 Hold Loop #6 Hold Write HLD 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 Write

SUP MODC

SOFF STUP

MAN

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 Supervisory Mode Control Manual OP Mode

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FS-8700-19_Metasys_N2 Driver Manual

Relative Item 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 73 74 75 76 77 78 79 80 81 82 83 84 85

Signal Condition 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 FP Byte Byte Byte FP FP FP FP FP FP FP FP Byte Byte

Page 42 of 50

General dynamic Parameters Read/Write Johnson Tag Description Supervisory System Active Refresh Read LSC Control & status MNT Maintenance Started Maintenance Stopped RAS Reverse Action Loop #1 Active IAS Intrusion Alarm AFM Anti freezing Mode Active FOS Three speed Fan Override Real Status Loop #3 Active Write PM1K1 Constant K1 Module #1 R/W PM1I@1 Input Connection I1@ R/W PM1I@2 Input Connection I2@ R/W PM1I@3 Input Connection I3@ R/W PM1TYP Options R/W PM1K2 Constant K2 R/W PM1K3 Constant K3 R/W PM1K4 Constant K4 R/W PM1K5 Constant K5 R/W PM1K6 Constant K6 R/W PM1K7 Constant K7 R/W PM2K1 Constant K1 Module #2 R/W PM2I@1 Input Connection I1@ R/W PM2I@2 Input Connection I2@ R/W PM2I@3 Input Connection I3@ R/W PM2TYP Options R/W PM2K2 Constant K2 R/W PM2K3 Constant K3 R/W PM2K4 Constant K4 R/W PM2K5 Constant K5 R/W PM2K6 Constant K6 R/W PM2K7 Constant K7 R/W PM3K1 Constant K1 Module #3 R/W PM3I@1 Input Connection I1@ R/W PM3I@2 Input Connection I2@ R/W PM3I@3 Input Connection I3@ R/W PM3TYP Options R/W PM3K2 Constant K2 R/W PM3K3 Constant K3 R/W PM3K4 Constant K4 R/W PM3K5 Constant K5 R/W PM3K6 Constant K6 R/W PM3K7 Constant K7 R/W PM4K1 Constant K1 Module #4 R/W PM4I@1 Input Connection I1@ R/W PM4I@2 Input Connection I2@ R/W PM4I@3 Input Connection I3@ R/W PM4TYP Options R/W PM4K2 Constant K2 R/W PM4K3 Constant K3 R/W PM4K4 Constant K4 R/W PM4K5 Constant K5 R/W PM4K6 Constant K6 R/W PM4K7 Constant K7 R/W PM5K1 Constant K1 Module #5 R/W PM5I@1 Input Connection I1@ R/W PM5I@2 Input Connection I2@

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FS-8700-19_Metasys_N2 Driver Manual

Relative Item 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104

Signal Condition Byte FP FP FP FP FP FP FP FP Byte Byte Byte FP FP FP FP FP FP FP

Relative Item Signal Condition 105 Word 106 Spare 107 Spare 108 FP 109 FP 110 FP 111 FP 112 FP 113 FP 114 FP 115 FP 116 Byte B(1)
B(5) B(6)




B(8) 117 FP 118 Byte B(1)
B(5) B(6)

B(8) 119 FP 120 Byte B(1)


Page 43 of 50

General dynamic Parameters Read/Write Johnson Tag Description R/W PM5I@3 Input Connection I3@ R/W PM5TYP Options R/W PM5K2 Constant K2 R/W PM5K3 Constant K3 R/W PM5K4 Constant K4 R/W PM5K5 Constant K5 R/W PM5K6 Constant K6 R/W PM5K7 Constant K7 R/W PM6K1 Constant K1 Module #6 R/W PM6I@1 Input Connection I1@ R/W PM6I@2 Input Connection I2@ R/W PM6I@3 Input Connection I3@ R/W PM6TYP Options R/W PM6K2 Constant K2 R/W PM6K3 Constant K3 R/W PM6K4 Constant K4 R/W PM6K5 Constant K5 R/W PM6K6 Constant K6 R/W PM6K7 Constant K7 Input Output Config Parameters Read/Write Johnson Tag Description 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

R/W R/W

OCO1 OCN2

R/W R/W

OCO2 OCN3

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 00001 Src of Module (Analog Items 1..31) ?. 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) ?. 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) ?.

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FS-8700-19_Metasys_N2 Driver Manual

Relative Item Signal Condition B(5) B(6)


B(8) 121 FP 122 Byte B(1)
B(5) B(6)
B(8) 123 FP 124 Byte B(1)
B(5) B(6)



B(8) 125 FP 126 Byte B(1)
B(5) B(6)
B(8) 127 FP 128 Byte B(1)
B(5) B(6)
B(8) 129 FP 130 spare 131 Word 132 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)

Page 44 of 50

Input Output Config Parameters Read/Write Johnson Tag Description 11111 000 = Not used 011 = ON/OFF Output 100 = DAT Output Type 101 = PAT Output Type 110 = Multistage ON/OFF Type R/W OCO3 PAT/DAT Timing for Output Module #3 R/W OCN4 Output #4 Configuration 00001 Src of Module (Analog Items 1..31) ?. 11111 000 = Not used 011 = ON/OFF Output R/W R/W

OCO4 OCN5

R/W R/W

OCO5 OCN6

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) ?. 11111 000 = Not used

R/W

OCO7

Fan Speed Break-point #3

R/W Write Read Read Read Read Clear

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 EEPROM not protected

Read Read Read Read Read Read

DIAL

XTAI1 XTAI2 XTAI3 XTAI4

PAT Dead Band/Multistate Hysteresis #3 Output #5 Configuration 00001 Src of Module (Analog Items 1..31) ?. 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) ?. 11111 000 = Not used

FieldServer Technologies 1991 Tarob Court Milpitas, California 95035 USA Web:www.fieldserver.com Tel: (408) 262-2299 Fax: (408) 262-2296 Toll_Free: 888-509-1970 email: [email protected]

FS-8700-19_Metasys_N2 Driver Manual

Relative Item Signal Condition W(14) W(15)

W(16) 133 Word W(1)
W(2) W(3) W(4) W(5) W(6) W(7) W(8) W(9)




W(11) W(12) W(13)




W(15) W(16) 134 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) 135 Byte B(1) B(2) B(3) B(4) B(5) B(6) B(7) B(8) 136 Word 137 FP

Page 45 of 50

Input Output Config Parameters Read/Write Johnson Tag Description Read Reset Cycle indication Read 00 = Power Up Reset 01 = External Reset 10 = Oscillator Failure Read 11 = Watchdog Reset R/W TCS2 TC9100 Controller Options 00 Select Analog Input 1 ADC to 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 001 = Window Open 010 = Occupancy Sensor 011 = Air Quality Sensor 100 = Reverse Action 101 = Intrusion Alarm Negate Digital Input #2 R/W TCS3 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 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 Write TCS1 Controller Options Not used Not used Not used Not used Not used Not used Not used Default Action 1=Reverse R/W HDW1 Hardware Configuration R/W HRI1 High Range AI1

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FS-8700-19_Metasys_N2 Driver Manual

Relative Item Signal Condition 138 FP 139 FP 140 FP 141 Byte B(1)
B(3) B(4) B(5)




B(7) B(8) 142 FP 143 FP 144 FP 145 FP 146 Byte 147 FP 148 FP 149 FP 150 FP 151 Byte 152 FP 153 FP 154 FP 155 FP 156 Byte 157 Byte B(1)

B(2) B(3) B(4) B(5) B(6) B(7) B(8) 158 Word W(1)
W(6) W(7) W(8) W(9)
W(13) W(14)
W(16) 159 Byte 160 FP 161 FP

Page 46 of 50

Input Output Config Parameters Read/Write Johnson Tag Description R/W LRI1 Low Range AI1 R/W FTC1 Filter Constant AI1 R/W OFS1 Offset Compensation AI1 R/W IOP1 Analog Input Options Controller reference 1 to 6

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

Write

STIME RTC

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 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 Offset Compensation AI4 Analog Input Options (see IOP1) TC9100 Requested Operating Status 00 = Night mode 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

RTC

Spare Spare Hours 0..23

RTC

Day of Week 1..7

OT@ SPW SPS

Outdoor Temperature Connection Winter set point Summer set point

R/W Write Write

FieldServer Technologies 1991 Tarob Court Milpitas, California 95035 USA Web:www.fieldserver.com Tel: (408) 262-2299 Fax: (408) 262-2296 Toll_Free: 888-509-1970 email: [email protected]

FS-8700-19_Metasys_N2 Driver Manual

Relative Item Signal Condition 162 FP 163 FP 164 Byte 165 FP 166 FP 167 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) 168 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) 169 Word 170 FP 171 FP

Relative Item 256 257 258 259 260

261

Page 47 of 50

Input Output Config Parameters Read/Write Johnson Tag Description Write WA Winter Authority Slope Write SA Summer Authority Slope R/W FT@ Freeze Temperature connection Write FSP Freeze set point R/W FDIF Freeze Differential Write LOO Input/Output Override Control Read Three Speed Fan Actual Speed 00 = Output OFF 01 = Speed #1 10 = Speed #2 Read 11 = Speed #3 Not used Read FOS Three spd Fan Overrd Reqst by Hardware Write Fan Speed Reqst by Command Module 00 = Output OFF 01 = Speed #1 10 = Speed #2 11 = Speed #3 TM9100 Real Time Clk Refresh Request FOR Three speed Fan Overrd Reqst Cmd Mod AIO1 Analog Input #1 Override AIO2 Analog Input #2 Override AIO3 Analog Input #3 Override AIO4 Analog Input #4 Override Write CLACT Control Loops Activity Mode Read Loop #1 Heating Read Loop #2 Heating Read Loop #3 Heating Read Loop #4 Heating Read Loop #5 Heating Read Loop #6 Heating Not used Not used Write Loop #1 Active Write Loop #2 Active Write Loop #3 Active Write Loop #4 Active Write Loop #5 Active Write Loop #6 Active R/W ALG2 Configuration Index 2 R/W WAL Winter Authority Limit R/W SAL Summer Authority Limit

Items Stored in the TM91xx External Database Signal Condition Read/Write Johnson Tag Description Byte Read UNIT Device Model : xxH FP Read TEMP Room Temperature FP Read RSP Remote Temperature Set Point Word Read LOO Copy of TC9100 Item LOO Byte Read JMP TM9100 Jumper Configuration & status B(1) JMP1 Clock Setting Disable B(2) JMP2 Fan Setting Disable B(3) JMP3 Time Schedule Setting Disable B(4) JMP4 Model with Time Schedule B(5) JMP5 Time Schedule Configuration Changed Word Write TIME Real Time W(1) RTC Minutes 0..59

FieldServer Technologies 1991 Tarob Court Milpitas, California 95035 USA Web:www.fieldserver.com Tel: (408) 262-2299 Fax: (408) 262-2296 Toll_Free: 888-509-1970 email: [email protected]

FS-8700-19_Metasys_N2 Driver Manual

Page 48 of 50


W(6) W(9)
W(13) W(14)
W(16)

Relative Item Signal Condition 271 Word W(1)


W(2) W(3)
W(4) W(5)
W(6) W(7)
W(8) W(9)
W(10)

272 272 272 273 287 288 289 290 291 292 303 304 305 306 307 308 319 320 321 322 323 324 335

RTC Hours 0..23

RTC Dy of Week 1..7

TM91xx Daily Schedules: Read/Write Johnson Tag Description 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 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(11)
W(12) W(13)
W(15) Word Word Word

Mode event 6 (Same Fmt. Mode event 1)

Write Write Write

E12S1 E34S1 E56S1

Word Word Word Word

Write Write Write Write

DST2 E12S2 E34S2 E56S2

Word Word Word Word

Write Write Write Write

DST3 E12S3 E34S3 E56S3

Word Word Word Word

Write Write Write Write

DST4 E12S4 E34S4 E56S4

Number of Days of activity 1..7

Event #1 & Event #2 Day #1 Event #3 & Event #4 Day #1 Event #5 & Event #6 Day #1 Spare Spare 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 Spare 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 Spare 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 Spare Spare

FieldServer Technologies 1991 Tarob Court Milpitas, California 95035 USA Web:www.fieldserver.com Tel: (408) 262-2299 Fax: (408) 262-2296 Toll_Free: 888-509-1970 email: [email protected]

FS-8700-19_Metasys_N2 Driver Manual

Relative Item Signal Condition 336 Word 337 Word 338 Word 339 Word 340 351 352 Word 353 Word 354 Word 355 Word 356 367 368 Word 369 Word 370 Word 371 Word 372 383

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TM91xx Daily Schedules: Read/Write Johnson Tag Description Write DST5 Type of Daily Schedule #5 (Fmt. #1) Write E12S5 Event #1 & Event #2 Day #5 Write E34S5 Event #3 & Event #4 Day #5 Write E56S5 Event #5 & Event #6 Day #5 Spare Spare Write DST6 Type of Daily Schedule #6 (Fmt. #1) Write E12S6 Event #1 & Event #2 Day #6 Write E34S6 Event #3 & Event #4 Day #6 Write E56S6 Event #5 & Event #6 Day #6 Spare Spare Write DST7 Type of Daily Schedule #7 (Fmt. #1) Write E12S7 Event #1 & Event #2 Day #7 Write E34S7 Event #3 & Event #4 Day #7 Write E56S7 Event #5 & Event #6 Day #7 Spare Spare

FieldServer Technologies 1991 Tarob Court Milpitas, California 95035 USA Web:www.fieldserver.com Tel: (408) 262-2299 Fax: (408) 262-2296 Toll_Free: 888-509-1970 email: [email protected]

FS-8700-19_Metasys_N2 Driver Manual

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FieldServer Technologies 1991 Tarob Court Milpitas, California 95035 USA Web:www.fieldserver.com Tel: (408) 262-2299 Fax: (408) 262-2296 Toll_Free: 888-509-1970 email: [email protected]