Momentum Modbus Plus 170 PNT Series Guida Utente

ModiconTSX MomentumM1 Processor Adapter andOption Adapter User Guide870 USE 101 00 Version 2.2

Contentsx 870 USE 101 00 V.2.2Section 11.2 Configuring Option Adapter Features ... 261Overvie

Using the Modbus Ports88 870 USE 101 00 V.2.2Modbus Port 2, ContinuedDefault ParametersThe factory-set default communication parameters for Modbus Po

Using the Modbus Ports870 USE 101 00 V.2.2 89Four-Wire Cabling Schemes for Modbus RS485 NetworksIntroductionFour-wire cabling schemes may be used for

Using the Modbus Ports90 870 USE 101 00 V.2.2Four-Wire Cabling Schemes for Modbus RS485 Networks, ContinuedSlave CablingThe slaves use a pin-for-pin

Using the Modbus Ports870 USE 101 00 V.2.2 91Four-Wire Cabling Schemes for Modbus RS485 Networks, ContinuedSingle Master/Slave Option 2The following d

Using the Modbus Ports92 870 USE 101 00 V.2.2Two-Wire Cabling Schemes for Modbus RS485 NetworksIntroductionTwo-wire cabling schemes may be used for s

Using the Modbus Ports870 USE 101 00 V.2.2 93Two-Wire Cabling Schemes for Modbus RS485 Networks, ContinuedCableAll devices are connected with the same

Using the Modbus Ports94 870 USE 101 00 V.2.2Two-Wire Cabling Schemes for Modbus RS485 Networks, ContinuedSingle Master/Slave CablingThe following di

Using the Modbus Ports870 USE 101 00 V.2.2 95Cable for Modbus RS485 Networks OverviewThis section describes the cables which should be used in constru

Using the Modbus Ports96 870 USE 101 00 V.2.2Cable for Modbus RS485 Networks, ContinuedInterconnect CablesCable for connecting two Modbus RS485 devic

Using the Modbus Ports870 USE 101 00 V.2.2 97Cable for Modbus RS485 Networks, ContinuedOther Premade CableInterconnect cable in various lengths may be

Contents870 USE 101 00 V.2.2 xiSection 13.3 Passing Supervisory Data over Modbus Plus ... 307Overview ...

Using the Modbus Ports98 870 USE 101 00 V.2.2Connectors for Modbus RS485 NetworksOverviewThis section describes the connectors which should be used i

Using the Modbus Ports870 USE 101 00 V.2.2 99Connectors for Modbus RS485 Networks, ContinuedConnectors for Custom CablingThis RJ45 connector should be

Using the Modbus Ports100 870 USE 101 00 V.2.2Terminating Devices for Modbus RS485 NetworksOverviewThis section describes terminating devices which s

Using the Modbus Ports870 USE 101 00 V.2.2 101Pinouts for Modbus RS485 NetworksOverviewThis section contains pinouts for wiring an RS485 network for T

Using the Modbus Ports102 870 USE 101 00 V.2.2Pinouts for Modbus RS485 Networks, Continued9-Pin D-Shell PinoutHere are the pinouts for wiring a male

Using the Modbus Ports870 USE 101 00 V.2.2 103Pinouts for Modbus RS485 Networks, ContinuedMaster Communication CableHere is the pinout for the 170 MCI

Using the Modbus Ports104 870 USE 101 00 V.2.2Pinouts for Modbus RS485 Networks, ContinuedModbus RS485 Connector “T” (DB9 Base)Here is the pinout for

Using the Modbus Ports870 USE 101 00 V.2.2 105Pinouts for Modbus RS485 Networks, ContinuedModbus RS485 Connector “T” (RJ45 Base)Here is the pinout for

Using the Modbus Ports106 870 USE 101 00 V.2.2Pinouts for Modbus RS485 Networks, ContinuedTerminating Resistor PlugsHere is the pinout for the Modbus

870 USE 101 00 V.2.2 1075 Using the I/OBus PortAt a GlancePurposeTwo TSX Momentum components offer I/OBus master capabilities: 171 CCS 760 00 Process

Contentsxii 870 USE 101 00 V.2.2

Using the I/OBus Port108 870 USE 101 00 V.2.2How I/OBus WorksIntroductionI/OBus allows a Momentum CPU to assume bus master capabilities over as many

Using the I/OBus Port870 USE 101 00 V.2.2 109Guidelines for I/OBus NetworksOverviewThis section gives guidelines for creating an I/OBus network using

Using the I/OBus Port110 870 USE 101 00 V.2.2Guidelines for I/OBus Networks, ContinuedI/OBus SpecificationsThe table below provides I/OBus specificat

Using the I/OBus Port870 USE 101 00 V.2.2 111I/OBus AccessoriesOverviewModicon provides several cabling solutions for I/OBus:Low profile cables in two

Using the I/OBus Port112 870 USE 101 00 V.2.2I/OBus Accessories, ContinuedInterbus Cable Connector KitI/OBus communicates over Interbus full duplex c

Using the I/OBus Port870 USE 101 00 V.2.2 113I/OBus Accessories, ContinuedInterbus Cable PinoutsThe following diagram shows how to wire the connectors

Using the I/OBus Port114 870 USE 101 00 V.2.2

870 USE 101 00 V.2.2 1156 Using the Modbus Plus PortsAt a GlancePurposeModbus Plus ports are available with:172 PNN 210 22 Option Adapter (Single Por

Using the Modbus Plus Ports116 870 USE 101 00 V.2.2Modbus Plus Features for MomentumIntroductionWhen a Modbus Plus network is constructed entirely of

Using the Modbus Plus Ports870 USE 101 00 V.2.2 117Two Types of Modbus Plus NetworksI/O Networks and Supervisory NetworksIn a distributed control envi

870 USE 101 00 V.2.2 1About This BookRevision History This is version 2.2 of this manual. The following information has been added or changed:To find

Using the Modbus Plus Ports118 870 USE 101 00 V.2.2Two Types of Modbus Plus Networks, ContinuedWhat if I Need Both Types?If your system requires both

Using the Modbus Plus Ports870 USE 101 00 V.2.2 119Standard Cabling SchemesIntroductionIn a standard Modbus Plus cabling scheme, each peer device conn

Using the Modbus Plus Ports120 870 USE 101 00 V.2.2Standard Cabling Schemes, ContinuedMomentum NetworkThis diagram depicts a Modbus Plus network cons

Using the Modbus Plus Ports870 USE 101 00 V.2.2 121Cluster Mode Cabling SchemesIntroductionIn cluster mode, Momentum I/O devices may be placed in smal

Using the Modbus Plus Ports122 870 USE 101 00 V.2.2Cluster Mode Cabling Schemes, ContinuedTerminationYou must terminate both ends of the network with

Using the Modbus Plus Ports870 USE 101 00 V.2.2 123Cluster Mode Cabling Schemes, ContinuedCluster Scheme #1In this example, two clusters of Momentum I

Using the Modbus Plus Ports124 870 USE 101 00 V.2.2Cluster Mode Cabling Schemes, ContinuedCluster Scheme #2In this example, two clusters are connecte

Using the Modbus Plus Ports870 USE 101 00 V.2.2 125Cable Accessories for Modbus Plus Networks OverviewThis section describes the cables, connector and

Using the Modbus Plus Ports126 870 USE 101 00 V.2.2Cable Accessories for Modbus Plus Networks, ContinuedCable Between ClustersCable for connecting tw

Using the Modbus Plus Ports870 USE 101 00 V.2.2 127Cable Accessories for Modbus Plus Networks, ContinuedDB9 Connector “T”This connector is used in clu

About This Book2 870 USE 101 00 V.2.2Validity NoteThis manual is valid for Modsoft 2.6 and Concept 2.1.Related DocumentationYou may find the following

Using the Modbus Plus Ports128 870 USE 101 00 V.2.2Pinouts and Wiring Diagrams for Modbus Plus NetworksOverviewThis section contains pinouts and wiri

Using the Modbus Plus Ports870 USE 101 00 V.2.2 129Pinouts and Wiring Diagrams for Modbus Plus Networks, ContinuedInterconnect CablesHere is the pinou

Using the Modbus Plus Ports130 870 USE 101 00 V.2.2Pinouts and Wiring Diagrams for Modbus Plus Networks, ContinuedModbus Plus Connector “T” (DB9 Base

Using the Modbus Plus Ports870 USE 101 00 V.2.2 131Pinouts and Wiring Diagrams for Modbus Plus Networks, ContinuedTerminating Resistor PlugsHere is th

Using the Modbus Plus Ports132 870 USE 101 00 V.2.2Modbus Plus AddressesIntroductionModbus Plus devices function as peers on a logical ring. Each dev

Using the Modbus Plus Ports870 USE 101 00 V.2.2 133Modbus Plus Addresses, ContinuedSetting Modbus Plus AddressesTwo rotary switches on the Momentum Op

Using the Modbus Plus Ports134 870 USE 101 00 V.2.2Peer CopWhat Is Peer Cop?A Momentum M1 Processor Adapter has the ability to define point-to-point

Using the Modbus Plus Ports870 USE 101 00 V.2.2 135Peer Cop, ContinuedHow Peer Cop Data Is Sent and ReceivedThe reception of Peer Cop source data and

Using the Modbus Plus Ports136 870 USE 101 00 V.2.2

870 USE 101 00 V.2.1 137IIIModsoftAt a GlancePurposeThis part describes how to configure an M1 CPU, how to I/O map an I/OBus network, how to configure

870 USE 101 00 V.2.2 3IGetting StartedAt a GlancePurposeThis part describes the M1 Processor Adapters and Option Adapters and explains how to assemble

870 USE 101 00 V.2.2 1397 Configuring an M1 CPU with ModsoftAt a GlanceIntroductionThis chapter explains how to configure a CPU using Modsoft 2.6. T

Configuring an M1 CPU with Modsoft140 870 USE 101 00 V.2.2Section 7.1Configuring the Processor AdapterOverviewPurposeThis section describes how to co

Configuring an M1 CPU with Modsoft870 USE 101 00 V.2.2 141Selecting an M1 Processor AdapterIntroductionThis section describes how to select an M1 Proc

Configuring an M1 CPU with Modsoft142 870 USE 101 00 V.2.2Selecting an M1 Processor Adapter, ContinuedProcedure, ContinuedContinued on next pageStep

Configuring an M1 CPU with Modsoft870 USE 101 00 V.2.2 143Selecting an M1 Processor Adapter, ContinuedNext StepYou are now ready to specify the type o

Configuring an M1 CPU with Modsoft144 870 USE 101 00 V.2.2Specifying an M1 Processor TypeIntroductionOnce you have selected an M1 Processor Adapter i

Configuring an M1 CPU with Modsoft870 USE 101 00 V.2.2 145Specifying an M1 Processor Type, ContinuedProcedureFollow the steps below to specify an M1 P

Configuring an M1 CPU with Modsoft146 870 USE 101 00 V.2.2Default Configuration ParametersOverviewThis section describes the default configuration pa

Configuring an M1 CPU with Modsoft870 USE 101 00 V.2.2 147Default Configuration Parameters, ContinuedDefaults for an 18.0 AdapterThis sample Configura

Configuring an M1 CPU with Modsoft148 870 USE 101 00 V.2.2Default Configuration Parameters, ContinuedDefault ValuesHere are the default parameters:Pa

Configuring an M1 CPU with Modsoft870 USE 101 00 V.2.2 149Changing the Range of Discrete and Register ReferencesIntroductionThis section provides guid

Configuring an M1 CPU with Modsoft150 870 USE 101 00 V.2.2Changing the Range of Discrete and Register References, ContinuedProcedureFrom the Configur

Configuring an M1 CPU with Modsoft870 USE 101 00 V.2.2 151Changing the Size of Your Application Logic SpaceIntroductionThe number shown in the Size of

Configuring an M1 CPU with Modsoft152 870 USE 101 00 V.2.2Changing the Number of SegmentsIntroductionThe number of segments specified in the Configur

Configuring an M1 CPU with Modsoft870 USE 101 00 V.2.2 153Changing the Number of Segments, ContinuedProcedureFrom the Configuration Overview screen, f

Configuring an M1 CPU with Modsoft154 870 USE 101 00 V.2.2Changing the Size of the I/O MapIntroductionThe default size of the I/O Map and your option

Configuring an M1 CPU with Modsoft870 USE 101 00 V.2.2 155Changing the Size of the I/O Map, ContinuedProcedureFrom the Configuration Overview screen,

Configuring an M1 CPU with Modsoft156 870 USE 101 00 V.2.2Establishing Configuration Extension MemoryIntroductionBy default, no memory space is alloc

Configuring an M1 CPU with Modsoft870 USE 101 00 V.2.2 157Section 7.2Configuring Option Adapter FeaturesOverviewPurposeThis section describes how to i

870 USE 101 00 V2.2 51 Overview of TSX Momentum M1 Processor AdaptersAt a GlancePurposeA TSX Momentum M1 Processor Adapter can be snapped onto a Mome

Configuring an M1 CPU with Modsoft158 870 USE 101 00 V.2.2Reserving and Monitoring a Battery CoilIntroductionSince the Option Adapter does not have a

Configuring an M1 CPU with Modsoft870 USE 101 00 V.2.2 159Reserving and Monitoring a Battery Coil, ContinuedMonitoring the Battery CoilMonitor the bat

Configuring an M1 CPU with Modsoft160 870 USE 101 00 V.2.2Setting up the Time-of-Day ClockOverviewEach Option Adapter has a time-of-day clock. To us

Configuring an M1 CPU with Modsoft870 USE 101 00 V.2.2 161Setting up the Time-of-Day Clock, ContinuedReserving Registers for the TOD Clock, ContinuedN

Configuring an M1 CPU with Modsoft162 870 USE 101 00 V.2.2Setting the TimeOverviewOnce you have reserved a block of registers for the time-of-day clo

Configuring an M1 CPU with Modsoft870 USE 101 00 V.2.2 163Setting the Time, ContinuedOption 2Go online and set the register values individually, using

Configuring an M1 CPU with Modsoft164 870 USE 101 00 V.2.2Setting the Time, ContinuedProcedureFollow the steps in the table below to set the register

Configuring an M1 CPU with Modsoft870 USE 101 00 V.2.2 165Reading the Time-of-Day ClockOverviewThis section tells how to read the time-of-day clock an

Configuring an M1 CPU with Modsoft166 870 USE 101 00 V.2.2Section 7.3Modifying Communication Port ParametersOverviewPurposeThe communication paramete

Configuring an M1 CPU with Modsoft870 USE 101 00 V.2.2 167Accessing the Port Editor ScreenIntroductionModbus port parameters can be modified using the

Overview of TSX Momentum M1 Processor Adapters6 870 USE 101 00 V2.2Section 1.1Introducing the M1 Processor AdaptersOverviewPurposeA TSX Momentum M1 Pr

Configuring an M1 CPU with Modsoft168 870 USE 101 00 V.2.2Parameters Which Should Not Be ChangedOverviewTwo parameters on the Port editor screen shou

Configuring an M1 CPU with Modsoft870 USE 101 00 V.2.2 169Changing the Mode and Data BitsIntroductionFrom the Port editor screen, each port can be con

Configuring an M1 CPU with Modsoft170 870 USE 101 00 V.2.2Changing the Mode and Data Bits, ContinuedProcedure, ContinuedStep Action2 Use an arrow key

Configuring an M1 CPU with Modsoft870 USE 101 00 V.2.2 171Changing ParityIntroductionFrom the Port editor screen, a port can be configured for even, o

Configuring an M1 CPU with Modsoft172 870 USE 101 00 V.2.2Changing the Baud RateOverviewEach port can be configured for a baud in the range 50...19,2

Configuring an M1 CPU with Modsoft870 USE 101 00 V.2.2 173Changing the Modbus AddressOverviewEach port can be assigned a Modbus network address in the

Configuring an M1 CPU with Modsoft174 870 USE 101 00 V.2.2Changing the DelayOverviewThe default value for the delay parameter is 10 ms. This value i

Configuring an M1 CPU with Modsoft870 USE 101 00 V.2.2 175Changing the Protocol on Modbus Port 2 OverviewIf your TSX Momentum M1 CPU is using the Modb

Configuring an M1 CPU with Modsoft176 870 USE 101 00 V.2.2Section 7.4I/O Mapping the Local I/O PointsAccessing and Editing the I/O MapIntroductionEve

Configuring an M1 CPU with Modsoft870 USE 101 00 V.2.2 177Accessing and Editing the I/O Map, ContinuedEditing the Local I/O MapTo edit the Local I/O M

Overview of TSX Momentum M1 Processor Adapters870 USE 101 00 V2.2 7Front Panel DiagramIntroductionThis section provides a diagram of a typical M1 Proc

Configuring an M1 CPU with Modsoft178 870 USE 101 00 V.2.2Accessing and Editing the I/O Map, ContinuedEditing the Local I/O MapContinued on next page

Configuring an M1 CPU with Modsoft870 USE 101 00 V.2.2 179Accessing and Editing the I/O Map, ContinuedLocal I/O OnlyThis screen is always used to I/O

Configuring an M1 CPU with Modsoft180 870 USE 101 00 V.2.2

870 USE 101 00 V.2.2 1818 I/O Mapping an I/OBus Network with ModsoftAt a GlancePurposeThis chapter describes how to I/O Map an I/OBus network using M

I/O Mapping an I/OBus Network with Modsoft182 870 USE 101 00 V.2.2Supporting an I/O Map for an I/OBus NetworkIntroductionThe 171 CCS 760 00 and 171 C

I/O Mapping an I/OBus Network with Modsoft870 USE 101 00 V.2.2 183Accessing an I/O Map Screen for an I/OBus NetworkOverviewThis section describes how

I/O Mapping an I/OBus Network with Modsoft184 870 USE 101 00 V.2.2Accessing an I/O Map Screen for an I/OBus Network, ContinuedProcedure, ContinuedNex

I/O Mapping an I/OBus Network with Modsoft870 USE 101 00 V.2.2 185Editing the I/OBus I/O MapOverviewThe maximum number of modules which can be I/O Map

I/O Mapping an I/OBus Network with Modsoft186 870 USE 101 00 V.2.2Editing the I/OBus I/O Map, ContinuedProcedure, ContinuedContinued on next pageStep

I/O Mapping an I/OBus Network with Modsoft870 USE 101 00 V.2.2 187Editing the I/OBus I/O Map, ContinuedProcedure, ContinuedContinued on next pageStep

Data, Illustrations, AlterationsData and illustrations are not binding. We reserve the right to alter products in line with our policy of continuous

Overview of TSX Momentum M1 Processor Adapters8 870 USE 101 00 V2.2Overview of PortsIntroductionEach Processor Adapter is equipped with at least one M

I/O Mapping an I/OBus Network with Modsoft188 870 USE 101 00 V.2.2Editing the I/OBus I/O Map, ContinuedGeneric InterBus Module Identifier CodesInterB

I/O Mapping an I/OBus Network with Modsoft870 USE 101 00 V.2.2 189Editing the I/OBus I/O Map, ContinuedGeneric InterBus Module Identifier Codes, Conti

I/O Mapping an I/OBus Network with Modsoft190 870 USE 101 00 V.2.2

870 USE 101 00 V.2.2 1919 Configuring a Modbus Plus Network in Modsoft with Peer CopAt a GlancePurposeCommunication transactions over Modbus Plus are

Using Peer Cop with Modsoft192 870 USE 101 00 V.2.2Section 9.1Getting StartedOverviewPurposeThis section explains how to access the Peer Cop Configur

Using Peer Cop with Modsoft870 USE 101 00 V.2.2 193Accessing the Peer Cop Configuration Extension ScreenIntroductionBefore you can access the Peer Cop

Using Peer Cop with Modsoft194 870 USE 101 00 V.2.2Accessing the Peer Cop Configuration Extension Screen, ContinuedEstimating How Much Memory to Rese

Using Peer Cop with Modsoft870 USE 101 00 V.2.2 195The Default Peer Cop ScreenOverviewThis section describes the Peer Cop screen as it appears the fir

Using Peer Cop with Modsoft196 870 USE 101 00 V.2.2The Default Peer Cop Screen, ContinuedNext StepNo values are set anywhere in the default Peer Cop

Using Peer Cop with Modsoft870 USE 101 00 V.2.2 197Section 9.2Using Modbus Plus to Handle I/OOverviewPurposeThis section uses an example to explain ho

Overview of TSX Momentum M1 Processor Adapters870 USE 101 00 V2.2 9Memory and Performance CharacteristicsIntroductionProcessor Adapters are equipped w

Using Peer Cop with Modsoft198 870 USE 101 00 V.2.2Devices on the NetworkIntroductionThis section describes the five devices which comprise the sampl

Using Peer Cop with Modsoft870 USE 101 00 V.2.2 199Defining the Link and Accessing a NodeOverviewWhen you reach the default Peer Cop screen, a popup m

Using Peer Cop with Modsoft200 870 USE 101 00 V.2.2Defining the Link and Accessing a Node, ContinuedProcedureFollow the steps in the table below to d

Using Peer Cop with Modsoft870 USE 101 00 V.2.2 201Defining the Link and Accessing a Node, ContinuedProcedure, ContinuedNext StepConfirming the Peer C

Using Peer Cop with Modsoft202 870 USE 101 00 V.2.2Confirming the Peer Cop Summary InformationOverviewOnce you have defined the link and accessed a n

Using Peer Cop with Modsoft870 USE 101 00 V.2.2 203Confirming the Peer Cop Summary Information, ContinuedProcedureFollow the steps in the table below

Using Peer Cop with Modsoft204 870 USE 101 00 V.2.2Confirming the Peer Cop Summary Information, ContinuedProcedure, ContinuedContinued on next pageSt

Using Peer Cop with Modsoft870 USE 101 00 V.2.2 205Confirming the Peer Cop Summary Information, ContinuedNext StepSpecifying references for input data

Using Peer Cop with Modsoft206 870 USE 101 00 V.2.2Specifying References for Input DataIntroductionThe Peer Cop screen is now set to access the devic

Using Peer Cop with Modsoft870 USE 101 00 V.2.2 207Specifying References for Input Data, ContinuedProcedureFollow the steps in the table below to defi

Overview of TSX Momentum M1 Processor Adapters10 870 USE 101 00 V2.2Memory and Performance Characteristics, ContinuedMemory Size and Clock SpeedThe m

Using Peer Cop with Modsoft208 870 USE 101 00 V.2.2Specifying References for Input Data, ContinuedProcedure, ContinuedContinued on next pageStep Acti

Using Peer Cop with Modsoft870 USE 101 00 V.2.2 209Specifying References for Input Data, ContinuedProcedure, ContinuedNext StepAccessing the remaining

Using Peer Cop with Modsoft210 870 USE 101 00 V.2.2Accessing the Remaining DevicesIntroductionThe I/O modules at Modbus Plus addresses 3 ... 5 can be

Using Peer Cop with Modsoft870 USE 101 00 V.2.2 211Accessing the Remaining Devices, ContinuedProcedure, ContinuedNext StepYou are now ready to configu

Using Peer Cop with Modsoft212 870 USE 101 00 V.2.2Completing the I/O Device Configuration in Peer CopIntroductionUsing the procedures described prev

Using Peer Cop with Modsoft870 USE 101 00 V.2.2 213Completing the I/O Device Configuration in Peer Cop, ContinuedCompleted Screen: Node 3The completed

Using Peer Cop with Modsoft214 870 USE 101 00 V.2.2Completing the I/O Device Configuration in Peer Cop, ContinuedCompleted Screen: Node 5The complete

Using Peer Cop with Modsoft870 USE 101 00 V.2.2 215Section 9.3Passing Supervisory Data over Modbus PlusOverviewPurposeThis Peer Cop example deals with

Using Peer Cop with Modsoft216 870 USE 101 00 V.2.2Devices on the NetworkIntroductionThis section describes the three CPUs which exchange data over t

Using Peer Cop with Modsoft870 USE 101 00 V.2.2 217Configuring a Node to Exchange DataGetting StartedTo Peer Cop this sample configuration, each CPU m

Overview of TSX Momentum M1 Processor Adapters870 USE 101 00 V2.2 11Power SupplySupplied by BaseA Processor Adapter requires 5 V, which is supplied by

Using Peer Cop with Modsoft218 870 USE 101 00 V.2.2Configuring a Node to Exchange Data, ContinuedProcedureFollow the steps in the table below to defi

Using Peer Cop with Modsoft870 USE 101 00 V.2.2 219Configuring a Node to Exchange Data, ContinuedProcedure, ContinuedNext StepConfirming the Peer Cop

Using Peer Cop with Modsoft220 870 USE 101 00 V.2.2Confirming the Peer Cop Summary InformationOverviewOnce you have defined the link and accessed a n

Using Peer Cop with Modsoft870 USE 101 00 V.2.2 221Specifying References for Input and Output Data OverviewWe will now set up the 171 CCS 760 00 TSX M

Using Peer Cop with Modsoft222 870 USE 101 00 V.2.2Specifying References for Input and Output Data, ContinuedDefining the Specific Output, ContinuedC

Using Peer Cop with Modsoft870 USE 101 00 V.2.2 223Specifying References for Input and Output Data, ContinuedDefining the Global InputsNow the M1 need

Using Peer Cop with Modsoft224 870 USE 101 00 V.2.2Specifying References for Input and Output Data, ContinuedDefining the Global Inputs, ContinuedCon

Using Peer Cop with Modsoft870 USE 101 00 V.2.2 225Specifying References for Input and Output Data, ContinuedDefining the Global Inputs, ContinuedNext

Using Peer Cop with Modsoft226 870 USE 101 00 V.2.2Defining the References for the Next NodeOverviewWe now want to attach the Modsoft 2.6 programming

Using Peer Cop with Modsoft870 USE 101 00 V.2.2 227Defining the References for the Next Node, ContinuedDefining Specific Outputs, ContinuedContinued o

Overview of TSX Momentum M1 Processor Adapters12 870 USE 101 00 V2.2Section 1.2Features of Each Processor AdapterOverviewPurposeThis section provides

Using Peer Cop with Modsoft228 870 USE 101 00 V.2.2Defining the References for the Next Node, ContinuedDefining Global InputsFollow the steps in the

Using Peer Cop with Modsoft870 USE 101 00 V.2.2 229Defining the References for the Next Node, ContinuedDefining Global Inputs, ContinuedContinued on n

Using Peer Cop with Modsoft230 870 USE 101 00 V.2.2Defining the References for the Next Node, ContinuedDefining Global Inputs, ContinuedNext StepDefi

Using Peer Cop with Modsoft870 USE 101 00 V.2.2 231Defining References for the Supervisory ComputerOverviewAt this point, we will attach the Modsoft 2

Using Peer Cop with Modsoft232 870 USE 101 00 V.2.2Defining References for the Supervisory Computer, ContinuedSpecifying References for Node 2We know

Using Peer Cop with Modsoft870 USE 101 00 V.2.2 233Defining References for the Supervisory Computer, ContinuedSpecifying References for Node 2, Contin

Using Peer Cop with Modsoft234 870 USE 101 00 V.2.2Defining References for the Supervisory Computer, ContinuedSpecifying References for Node 2, Conti

Using Peer Cop with Modsoft870 USE 101 00 V.2.2 235Defining References for the Supervisory Computer, ContinuedSpecifying References for Node 2, Contin

Using Peer Cop with Modsoft236 870 USE 101 00 V.2.2Completing the ConfigurationOverviewTo complete the configuration of the supervisory computer at M

870 USE 101 00 V.2.2 23710 Saving to Flash in ModsoftAt a GlancePurposeYou save to Flash so that, in the event of an unexpected loss of power, the ap

Overview of TSX Momentum M1 Processor Adapters870 USE 101 00 V2.2 13171 CCS 700 00OverviewThis section describes the 171 CCS 700 00 Processor Adapter,

Saving to Flash in Modsoft238 870 USE 101 00 V.2.2Preparing to Save to FlashBefore You Save to FlashBefore you can save to Flash in Modsoft, you need

Saving to Flash in Modsoft870 USE 101 00 V.2.2 239Saving to FlashConditions for Saving to FlashIn order to save the application program and state RAM

Saving to Flash in Modsoft240 870 USE 101 00 V.2.2Saving to Flash, ContinuedSave-to-Flash Procedure, ContinuedStep Action4 Type Y in response to ques

870 USE 101 00 V.2.1 241IVConceptAt a GlancePurposeThis part describes how to configure an M1 CPU, how to I/O map an I/OBus network, how to configure

870 USE 101 00 V.2.2 24311 Configuring an M1 CPU with ConceptAt a GlancePurposeThis chapter explains how to configure a CPU using Concept 2.1.Note:

Configuring an M1 CPU with Concept244 870 USE 101 00 V.2.2Section 11.1Configuring the Processor AdapterOverviewPurposeThis section describes how to c

Configuring an M1 CPU with Concept870 USE 101 00 V.2.2 245Selecting an M1 Processor AdapterIntroductionThis section describes how to select an M1 Proc

Configuring an M1 CPU with Concept246 870 USE 101 00 V.2.2Selecting an M1 Processor Adapter, ContinuedProcedureFollow the steps below to select an M1

Configuring an M1 CPU with Concept870 USE 101 00 V.2.2 247Selecting an M1 Processor Adapter, ContinuedProcedure, ContinuedContinued on next pageStep A

Overview of TSX Momentum M1 Processor Adapters14 870 USE 101 00 V2.2171 CCS 700 00, ContinuedLED IndicatorsThis Processor Adapter has two LED indicat

Configuring an M1 CPU with Concept248 870 USE 101 00 V.2.2Selecting an M1 Processor Adapter, ContinuedProcedure, ContinuedContinued on next pageStep

Configuring an M1 CPU with Concept870 USE 101 00 V.2.2 249Selecting an M1 Processor Adapter, ContinuedProcedure, ContinuedStep Action5 Choose your PLC

Configuring an M1 CPU with Concept250 870 USE 101 00 V.2.2Default Configuration ParametersOverviewThis section describes the default configuration pa

Configuring an M1 CPU with Concept870 USE 101 00 V.2.2 251Default Configuration Parameters, ContinuedDefaults for a 12.2K MachineThis sample PLC Confi

Configuring an M1 CPU with Concept252 870 USE 101 00 V.2.2Changing the Range of Discrete and Register ReferencesIntroductionThis section provides gui

Configuring an M1 CPU with Concept870 USE 101 00 V.2.2 253Changing the Range of Discrete and Register References, ContinuedProcedureFollow the steps b

Configuring an M1 CPU with Concept254 870 USE 101 00 V.2.2Changing the Size of the Full Logic AreaIntroductionThe number shown in the Available Logic

Configuring an M1 CPU with Concept870 USE 101 00 V.2.2 255Understanding the Number of SegmentsOnly the First Segment is SolvedThe number of segments s

Configuring an M1 CPU with Concept256 870 USE 101 00 V.2.2Changing the Size of the I/O MapIntroductionThe default size of the I/O Map is 144 words.

Configuring an M1 CPU with Concept870 USE 101 00 V.2.2 257Changing the Size of the I/O Map, ContinuedProcedureFrom the PLC Configuration screen, follo

Overview of TSX Momentum M1 Processor Adapters870 USE 101 00 V2.2 15171 CCS 700 00, ContinuedSpecifications, ContinuedMechanicalWeight 42.5 g (1.5 oz)

Configuring an M1 CPU with Concept258 870 USE 101 00 V.2.2Establishing Configuration Extension Memory for Peer CopIntroductionBy default, the Peer Co

Configuring an M1 CPU with Concept870 USE 101 00 V.2.2 259Establishing Configuration Extension Memory for Peer Cop, ContinuedProcedureFrom the PLC Con

Configuring an M1 CPU with Concept260 870 USE 101 00 V.2.2Establishing Configuration Extension Memory for Peer Cop, ContinuedProcedure, ContinuedStep

Configuring an M1 CPU with Concept870 USE 101 00 V.2.2 261Section 11.2Configuring Option Adapter FeaturesOverviewPurposeThis section describes how to

Configuring an M1 CPU with Concept262 870 USE 101 00 V.2.2Reserving and Monitoring a Battery CoilIntroductionSince the Option Adapter does not have a

Configuring an M1 CPU with Concept870 USE 101 00 V.2.2 263Reserving and Monitoring a Battery Coil, ContinuedReserving a Battery Coil, ContinuedContinu

Configuring an M1 CPU with Concept264 870 USE 101 00 V.2.2Reserving and Monitoring a Battery Coil, ContinuedMonitoring the Battery CoilMonitor the ba

Configuring an M1 CPU with Concept870 USE 101 00 V.2.2 265Setting up the Time-of-Day ClockOverviewEach Option Adapter has a time-of-day clock. To use

Configuring an M1 CPU with Concept266 870 USE 101 00 V.2.2Setting up the Time-of-Day Clock, ContinuedReserving Registers for the TOD Clock, Continued

Configuring an M1 CPU with Concept870 USE 101 00 V.2.2 267Setting up the Time-of-Day Clock, ContinuedNext StepSetting the time.

Overview of TSX Momentum M1 Processor Adapters16 870 USE 101 00 V2.2171 CCS 700 10OverviewThis section describes the 171 CCS 700 10 Processor Adapter

Configuring an M1 CPU with Concept268 870 USE 101 00 V.2.2Setting the TimeOverviewOnce you have reserved a block of registers for the time-of-day clo

Configuring an M1 CPU with Concept870 USE 101 00 V.2.2 269Reading the Time-of-Day ClockOverviewThis section uses an example to describe how to interpr

Configuring an M1 CPU with Concept270 870 USE 101 00 V.2.2Section 11.3Modifying Communication Port ParametersOverviewPurposeThe communication paramet

Configuring an M1 CPU with Concept870 USE 101 00 V.2.2 271Accessing the Modbus Port Settings Dialog BoxIntroductionModbus port parameters can be modif

Configuring an M1 CPU with Concept272 870 USE 101 00 V.2.2Changing the Baud RateOverviewEach port can be configured for a baud in the range 50 ... 19

Configuring an M1 CPU with Concept870 USE 101 00 V.2.2 273Changing Mode and Data BitsIntroductionFrom the Modbus Port Settings dialog box, each port c

Configuring an M1 CPU with Concept274 870 USE 101 00 V.2.2Stop Bit Should Not Be ChangedOne Stop BitEach port operates with 1 stop bit. While Concep

Configuring an M1 CPU with Concept870 USE 101 00 V.2.2 275Changing the DelayOverviewThe Delay parameter is set to 10 ms and should be left at this val

Configuring an M1 CPU with Concept276 870 USE 101 00 V.2.2Changing the Modbus AddressOverviewEach port can be assigned a Modbus network address in th

Configuring an M1 CPU with Concept870 USE 101 00 V.2.2 277Changing the Protocol on Modbus Port 2OverviewIf your TSX Momentum M1 CPU is using the Modbu

Overview of TSX Momentum M1 Processor Adapters870 USE 101 00 V2.2 17171 CCS 700 10, ContinuedLED IndicatorsThis Processor Adapter has two LED indicato

Configuring an M1 CPU with Concept278 870 USE 101 00 V.2.2Section 11.4I/O Mapping the Local I/O PointsAccessing and Editing the I/O MapIntroductionEv

Configuring an M1 CPU with Concept870 USE 101 00 V.2.2 279Accessing and Editing the I/O Map, ContinuedEditing the Local I/O MapFrom the I/O Map dialog

Configuring an M1 CPU with Concept280 870 USE 101 00 V.2.2Accessing and Editing the I/O Map, ContinuedEditing the Local I/O Map, ContinuedLocal I/O O

870 USE 101 00 V.2.2 28112 I/O Mapping an I/OBus Network with ConceptAt a GlancePurposeThis chapter describes how to I/O Map an I/OBus network using

I/O Mapping an I/OBus Network with Concept282 870 USE 101 00 V.2.2Supporting an I/O Map for an I/OBus NetworkIntroductionThe 171 CCS 760 00 Processor

I/O Mapping an I/OBus Network with Concept870 USE 101 00 V.2.2 283Accessing an I/O Map Screen for an I/OBus NetworkOverviewThis section describes how

I/O Mapping an I/OBus Network with Concept284 870 USE 101 00 V.2.2Accessing an I/O Map Screen for an I/OBus Network, ContinuedProcedure, ContinuedNex

I/O Mapping an I/OBus Network with Concept870 USE 101 00 V.2.2 285Editing the I/OBus I/O MapOverviewThe maximum number of modules which can be I/O Map

I/O Mapping an I/OBus Network with Concept286 870 USE 101 00 V.2.2Editing the I/OBus I/O Map, ContinuedProcedure, ContinuedGeneric InterBus Module Id

I/O Mapping an I/OBus Network with Concept870 USE 101 00 V.2.2 287Editing the I/OBus I/O Map, ContinuedGeneric InterBus Module Identifier Codes, Conti

December 1998TSX MomentumM1 Processor Adapter andOption Adapter User Guide870 USE 101 00 Version 2.2

Overview of TSX Momentum M1 Processor Adapters18 870 USE 101 00 V2.2171 CCS 700 10, ContinuedSpecifications, ContinuedMechanicalWeight 42.5 g (1.5 oz

I/O Mapping an I/OBus Network with Concept288 870 USE 101 00 V.2.2

870 USE 101 00 V.2.2 28913 Configuring a Modbus Plus Network in Concept with Peer CopAt a GlancePurposeCommunication transactions over Modbus Plus ar

Using Peer Cop with Concept290 870 USE 101 00 V.2.2Section 13.1Getting StartedOverviewPurposeThis section explains how to access the Peer Cop Configu

Using Peer Cop with Concept870 USE 101 00 V.2.2 291Accessing the Peer Cop Dialog BoxIntroductionThis section describes how to access the Peer Cop dial

Using Peer Cop with Concept292 870 USE 101 00 V.2.2Accessing the Peer Cop Dialog Box, ContinuedAccessing the Screen, ContinuedStep Action3 Click the

Using Peer Cop with Concept870 USE 101 00 V.2.2 293Adjusting the Amount of Extension MemoryIntroductionThe default amount of memory allotted for Confi

Using Peer Cop with Concept294 870 USE 101 00 V.2.2Other Default Settings in the Peer Cop Dialog BoxOverviewThis section describes the default settin

Using Peer Cop with Concept870 USE 101 00 V.2.2 295Other Default Settings in the Peer Cop Dialog Box, ContinuedLast ValueThe default Last Value settin

Using Peer Cop with Concept296 870 USE 101 00 V.2.2Section 13.2Using Modbus Plus to Handle I/OOverviewPurposeThis section uses an example to explain

Using Peer Cop with Concept870 USE 101 00 V.2.2 297Devices on the NetworkIntroductionThis section describes the five devices which comprise the sample

Overview of TSX Momentum M1 Processor Adapters870 USE 101 00 V2.2 19171 CCS 760 00OverviewThis section describes the 171 CCS 760 00 Processor Adapter,

Using Peer Cop with Concept298 870 USE 101 00 V.2.2Changing the Peer Cop Summary InformationOverviewFor our example, we will change the default Healt

Using Peer Cop with Concept870 USE 101 00 V.2.2 299Changing the Peer Cop Summary Information, ContinuedProcedure, ContinuedNext StepSpecifying referen

Using Peer Cop with Concept300 870 USE 101 00 V.2.2Specifying References for Input DataIntroductionThis section describes how to specify the referenc

Using Peer Cop with Concept870 USE 101 00 V.2.2 301Specifying References for Input Data, ContinuedProcedureFollow the steps in the table below to defi

Using Peer Cop with Concept302 870 USE 101 00 V.2.2Specifying References for Input Data, ContinuedProcedure, ContinuedContinued on next pageStep Acti

Using Peer Cop with Concept870 USE 101 00 V.2.2 303Specifying References for Input Data, ContinuedProcedure, ContinuedNext StepSpecifying output refer

Using Peer Cop with Concept304 870 USE 101 00 V.2.2Specifying References for Output DataIntroductionThis section describes how to specify the referen

Using Peer Cop with Concept870 USE 101 00 V.2.2 305Specifying References for Output Data, ContinuedProcedure, ContinuedContinued on next pageStep Acti

Using Peer Cop with Concept306 870 USE 101 00 V.2.2Specifying References for Output Data, ContinuedProcedure, ContinuedStep Action4 Repeat steps 2 an

Using Peer Cop with Concept870 USE 101 00 V.2.2 307Section 13.3Passing Supervisory Data over Modbus PlusOverviewPurposeThis Peer Cop example deals wit

Overview of TSX Momentum M1 Processor Adapters20 870 USE 101 00 V2.2171 CCS 760 00, ContinuedLED IndicatorsThis Processor Adapter has two LED indicat

Using Peer Cop with Concept308 870 USE 101 00 V.2.2Devices on the NetworkIntroductionThis section describes the three CPUs which exchange data over t

Using Peer Cop with Concept870 USE 101 00 V.2.2 309Specifying References for Input and Output Data OverviewWe will now set up the 171 CCS 760 00 TSX M

Using Peer Cop with Concept310 870 USE 101 00 V.2.2Specifying References for Input and Output Data, ContinuedDefining the Specific Output, ContinuedC

Using Peer Cop with Concept870 USE 101 00 V.2.2 311Specifying References for Input and Output Data, ContinuedDefining the Global InputsNow the M1 need

Using Peer Cop with Concept312 870 USE 101 00 V.2.2Specifying References for Input and Output Data, ContinuedDefining the Global Inputs, ContinuedNex

Using Peer Cop with Concept870 USE 101 00 V.2.2 313Defining the References for the Next NodeOverviewWe now want to attach the Concept 2.1 programming

Using Peer Cop with Concept314 870 USE 101 00 V.2.2Defining the References for the Next Node, ContinuedDefining Specific OutputsFollow the steps in t

Using Peer Cop with Concept870 USE 101 00 V.2.2 315Defining the References for the Next Node, ContinuedDefining Global InputsFollow the steps in the t

Using Peer Cop with Concept316 870 USE 101 00 V.2.2Defining References for the Supervisory PLCOverviewAt this point, we will attach the Concept 2.1 p

Using Peer Cop with Concept870 USE 101 00 V.2.2 317Defining References for the Supervisory PLC, ContinuedDefining the Global OutputsThis supervisory C

Overview of TSX Momentum M1 Processor Adapters870 USE 101 00 V2.2 21171 CCS 760 00, ContinuedSpecifications, ContinuedMechanicalWeight 42.5 g (1.5 oz)

Using Peer Cop with Concept318 870 USE 101 00 V.2.2

870 USE 101 00 V.2.2 31914 Saving to Flash with ConceptSaving to FlashOverviewYou save to Flash so that, in the event of an unexpected loss of power,

Saving to Flash with Concept320 870 USE 101 00 V.2.2Saving to Flash, ContinuedProcedureFollow the steps in the table below to save to Flash:Continued

Saving to Flash with Concept870 USE 101 00 V.2.2 321Saving to Flash, ContinuedProcedure, ContinuedContinued on next pageStep Action4 From the Online m

Saving to Flash with Concept322 870 USE 101 00 V.2.2Saving to Flash, ContinuedProcedure, ContinuedStep Action6 Select the appropriate parameters in t

870 USE 101 00 V.2.1 323AppendicesAt a GlancePurpose This part provides supplemental information on Ladder Logic elements and instructions, LED flash

870 USE 101 00 V.2.2 325A Ladder Logic Elements and InstructionsAt a GlanceOverviewThe executive firmware for the TSX Momentum M1 Processor Adapters

Ladder Logic Elements and Instructions326 870 USE 101 00 V.2.2Standard Ladder Logic ElementsIntroductionThis section provides a glossary of standard

Ladder Logic Elements and Instructions870 USE 101 00 V.2.2 327Standard Ladder Logic Elements, ContinuedStandard Ladder Logic Instructions The table be

Overview of TSX Momentum M1 Processor Adapters22 870 USE 101 00 V2.2171 CCC 760 10 OverviewThis section describes the 171 CCC 760 10 Processor Adapte

Ladder Logic Elements and Instructions328 870 USE 101 00 V.2.2Standard Ladder Logic Elements, ContinuedStandard Ladder Logic Instructions, ContinuedC

Ladder Logic Elements and Instructions870 USE 101 00 V.2.2 329Standard Ladder Logic Elements, ContinuedStandard Ladder Logic Instructions, ContinuedSy

Ladder Logic Elements and Instructions330 870 USE 101 00 V.2.2DX Loadable SupportIntroductionThe M1 CPUs can use DX loadable instructions, which supp

Ladder Logic Elements and Instructions870 USE 101 00 V.2.2 331A Special STAT Instruction OverviewA special version of the STAT instruction has been de

Ladder Logic Elements and Instructions332 870 USE 101 00 V.2.2A Special STAT Instruction, ContinuedTop Node ContentThe reference number entered in th

Ladder Logic Elements and Instructions870 USE 101 00 V.2.2 333A Special STAT Instruction, ContinuedWords 1...12The first 12 words describe the CPU sta

Ladder Logic Elements and Instructions334 870 USE 101 00 V.2.2A Special STAT Instruction, ContinuedWords 1...12, ContinuedContinued on next pageWord

Ladder Logic Elements and Instructions870 USE 101 00 V.2.2 335A Special STAT Instruction, ContinuedWords 1...12, ContinuedContinued on next pageWord D

Ladder Logic Elements and Instructions336 870 USE 101 00 V.2.2A Special STAT Instruction, ContinuedWords 13...20Words 13...20 are available only for

870 USE 101 00 V.2.2 337B Run LED Flash Patterns and Error CodesRun LED Flash Pattern and Error CodesThe following table lists the flash pattern of t

Overview of TSX Momentum M1 Processor Adapters870 USE 101 00 V2.2 23171 CCC 760 10, ContinuedLED IndicatorsThis Processor Adapter has two LED indicato

Run LED Flash Patterns and Error Codes338 870 USE 101 00 V.2.2Run LED Flash Pattern and Error Codes, ContinuedContinued on next pageNumber of Blinks

Run LED Flash Patterns and Error Codes870 USE 101 00 V.2.2 339Run LED Flash Pattern and Error Codes, ContinuedNumber of Blinks Code (hex) Error7 0300

Run LED Flash Patterns and Error Codes340 870 USE 101 00 V.2.2

870 USE 101 00 V.2.2 341C TIO Power Supply ModuleAt a GlancePurposeThis appendix describes the 170 CPS 110 00 TIO Power Supply module. The module pr

TIO Power Supply Module342 870 USE 101 00 V.2.2Section C.1Module OverviewIntroductionPurposeThis section describes the front panel components of the

TIO Power Supply Module870 USE 101 00 V.2.2 343Front Panel ComponentsOverviewThis section contains a diagram of the front panel of the 170 CPS 111 00

TIO Power Supply Module344 870 USE 101 00 V.2.2Front Panel Components, ContinuedLED DiagramThis module has one LED, which is shown in the diagram bel

TIO Power Supply Module870 USE 101 00 V.2.2 345SpecificationsOverviewThis section contains specifications for the 170 CPS 110 00 TIO Power Supply modu

TIO Power Supply Module346 870 USE 101 00 V.2.2Specifications, ContinuedGeneral Specifications, ContinuedContinued on next pageFault InformationInput

TIO Power Supply Module870 USE 101 00 V.2.2 347Specifications, ContinuedAC Input VoltageThis section contains specifications for AC input voltage, sel

Overview of TSX Momentum M1 Processor Adapters24 870 USE 101 00 V2.2171 CCC 760 10, ContinuedSpecifications, ContinuedMechanicalWeight 42.5 g (1.5 oz

TIO Power Supply Module348 870 USE 101 00 V.2.2Specifications, ContinuedPower on Surge Current CurveThe following chart shows power on surge current

TIO Power Supply Module870 USE 101 00 V.2.2 349Specifications, ContinuedOutput Current ChartThe following chart shows output current (derating) for un

TIO Power Supply Module350 870 USE 101 00 V.2.2Section C.2WiringOverviewPurposeThis section describes the types of terminal connectors available, how

TIO Power Supply Module870 USE 101 00 V.2.2 351Choosing a Terminal ConnectorIntroductionPower is supplied to the module through an 8-pole terminal con

TIO Power Supply Module352 870 USE 101 00 V.2.2Terminal Connector CodingSafety RequirementThis module is used in hazardous and harmless voltage range

TIO Power Supply Module870 USE 101 00 V.2.2 353Mounting the Terminal ConnectorsIntroductionThis section describes how to mount terminal connectors and

TIO Power Supply Module354 870 USE 101 00 V.2.2External Operating Voltage ConnectionsOverviewThis section contains a diagram of the external operatin

TIO Power Supply Module870 USE 101 00 V.2.2 355External Operating Voltage Connections, ContinuedGroundingThe spade-lug connector on the front of the m

TIO Power Supply Module356 870 USE 101 00 V.2.2

&%$870 USE 101 00 V.2.2 357Numerics171 CCC 760 10 Processor Adapterdiagram, 22key features, 22LEDs, 23not supported in Concept 2.1, 243specificati

Overview of TSX Momentum M1 Processor Adapters870 USE 101 00 V2.2 25171 CCS 780 00OverviewThis section describes the 171 CCS 780 00 Processor Adapter,

Index358 870 USE 101 00 V.2.2AassemblyProcessor Adapter and I/O base, 55Processor Adapter and Option Adapter, 61Processor Adapter, Option Adapter and

Index870 USE 101 00 V.2.2 359OOption Adapterbatteriesinstallation, 71purpose, 32reserving and monitoring a battery coil in Concept, 262reserving and m

Index360 870 USE 101 00 V.2.2

Modicon, Square D and Telemecanique are PLC brand names from Schneider. These products are sold in the US by Square D; in Canada, Latin America, Euro

Overview of TSX Momentum M1 Processor Adapters26 870 USE 101 00 V2.2171 CCS 780 00, ContinuedLED IndicatorsThis Processor Adapter has two LED indicat

Overview of TSX Momentum M1 Processor Adapters870 USE 101 00 V2.2 27171 CCS 780 00, ContinuedSpecifications, ContinuedMechanicalWeight 42.5 g (1.5 oz)

Document SetTSX Momentum I/O Bases User Guide870 USE 002 00TSX Momentum Interbus Communication Adapter User Manual870 USE 003 00TSX Momentum FIPIO Com

Overview of TSX Momentum M1 Processor Adapters28 870 USE 101 00 V2.2171 CCC 780 10OverviewThis section describes the 171 CCC 780 10 Processor Adapter

Overview of TSX Momentum M1 Processor Adapters870 USE 101 00 V2.2 29171 CCC 780 10, ContinuedLED IndicatorsThis Processor Adapter has two LED indicato

Overview of TSX Momentum M1 Processor Adapters30 870 USE 101 00 V2.2171 CCC 780 10, ContinuedSpecifications, ContinuedMechanicalWeight 42.5 g (1.5 oz

870 USE 101 00 V.2.2 312 Overview of TSX Momentum Option AdaptersAt a GlancePurposeAn Option Adapter may be inserted between the Processor Adapter an

Option Adapters32 870 USE 101 00 V.2.2Section 2.1Introducing the TSX Momentum Option AdaptersBasic Features of Option AdaptersIntroductionThis sectio

Option Adapters870 USE 101 00 V.2.2 33Section 2.2Serial Option AdapterOverviewPurposeThis section describes the 172 JNN 210 32 Serial Option Adapter,

Option Adapters34 870 USE 101 00 V.2.2Front Panel ComponentsOverviewThe front panel includes:An LED indicatorBattery compartmentModbus Port 2 connect

Option Adapters870 USE 101 00 V.2.2 35Front Panel Components, ContinuedLED IndicatorThis Option Adapter has one LED indicator, the Com Act indicator.

Option Adapters36 870 USE 101 00 V.2.2Front Panel Components, ContinuedPinouts for Modbus Port 2The 172 JNN 210 32 Serial Option Adapter uses the fol

Option Adapters870 USE 101 00 V.2.2 37Specifications Specifications This section provides the specifications for the 172 JNN 210 32 TSX Momentum Seri

870 USE 101 00 V.2.2 vContentsAbout This Book... 1Revision History ...

Option Adapters38 870 USE 101 00 V.2.2Specifications, ContinuedSpecifications, ContinuedRFI Susceptibility/ immunity Meets CE mark requirements for o

Option Adapters870 USE 101 00 V.2.2 39Section 2.3Modbus Plus Option AdapterOverviewPurposeThis section describes the 172 PNN 210 22 Modbus Plus Option

Option Adapters40 870 USE 101 00 V.2.2Front Panel ComponentsOverviewThe front panel includes:An LED indicatorBattery compartmentAddress switches9-pin

Option Adapters870 USE 101 00 V.2.2 41Front Panel Components, ContinuedLED Indicator This Option Adapter has one LED indicator, the MB+ ACT indicator.

Option Adapters42 870 USE 101 00 V.2.2Front Panel Components, ContinuedModbus Plus Address SwitchesThe two rotary switches on the Option Adapter are

Option Adapters870 USE 101 00 V.2.2 43SpecificationsSpecificationsThis section provides the specifications for the 172 PNN 210 22 TSX Momentum Serial

Option Adapters44 870 USE 101 00 V.2.2Specifications, ContinuedSpecifications, ContinuedRFI Susceptibility/ immunity Meets CE mark requirements for o

Option Adapters870 USE 101 00 V.2.2 45Section 2.4Redundant Modbus Plus Option AdapterOverviewPurposeThis section describes the 172 PNN 260 22 Redundan

Option Adapters46 870 USE 101 00 V.2.2Front Panel ComponentsOverviewThe front panel includes:Two 9-pin D-shell connectors for Modbus Plus communicati

Option Adapters870 USE 101 00 V.2.2 47Front Panel Components, ContinuedLED IndicatorsThis Option Adapter has three LED indicators. Their functions ar

Contentsvi 870 USE 101 00 V.2.2Chapter 2 Overview of TSX Momentum Option Adapters ... 31Section 2.1 Introducing the TSX Momentum Opt

Option Adapters48 870 USE 101 00 V.2.2Front Panel Components, ContinuedMB+ ACT Flash PatternsThis table provides the patterns that the MB+ ACT indica

Option Adapters870 USE 101 00 V.2.2 49Front Panel Components, ContinuedModbus Plus Address SwitchesThe two rotary switches on the Option Adapter are u

Option Adapters50 870 USE 101 00 V.2.2SpecificationsSpecificationsThis section provides the specifications for the 172 PNN 260 22 TSX Momentum Serial

Option Adapters870 USE 101 00 V.2.2 51Specifications, ContinuedSpecifications, ContinuedRFI Susceptibility/ immunity Meets CE mark requirements for op

Option Adapters52 870 USE 101 00 V.2.2

870 USE 101 00 V.2.2 533 Assembling TSX Momentum ComponentsAt a GlancePurposeThis chapter describes how to assemble and disassemble a TSX Momentum M1

Assembling TSX Momentum Components54 870 USE 101 00 V.2.2Section 3.1Assembling a CPUOverviewPurposeThis section describes how to assemble a Processor

Assembling TSX Momentum Components870 USE 101 00 V.2.2 55Assembling a Processor Adapter and I/O BaseOverviewA Processor Adapter can be snapped directl

Assembling TSX Momentum Components56 870 USE 101 00 V.2.2Assembling a Processor Adapter and I/O Base, ContinuedProcedure: Assembling a Processor Adap

Assembling TSX Momentum Components870 USE 101 00 V.2.2 57Assembling a Processor Adapter and I/O Base, ContinuedProcedure: Assembling a Processor Adapt

Contents870 USE 101 00 V.2.2 viiPart II Communication Ports ... 75Chapter 4 Using the Modbu

Assembling TSX Momentum Components58 870 USE 101 00 V.2.2Disassembling a Processor Adapter from an I/O BaseOverviewThis section contains safety preca

Assembling TSX Momentum Components870 USE 101 00 V.2.2 59Disassembling a Processor Adapter from an I/O Base, ContinuedProcedure: Disassembling an Adap

Assembling TSX Momentum Components60 870 USE 101 00 V.2.2Section 3.2Assembling a CPU with an Option AdapterOverviewPurposeAn Option Adapter may only

Assembling TSX Momentum Components870 USE 101 00 V.2.2 61Assembling a Processor Adapter and an Option AdapterOverviewIf a TSX Momentum Option Adapter

Assembling TSX Momentum Components62 870 USE 101 00 V.2.2Assembling a Processor Adapter and an Option Adapter, ContinuedProcedure: Assembling an Opti

Assembling TSX Momentum Components870 USE 101 00 V.2.2 63Assembling a Processor Adapter and an Option Adapter, ContinuedNext StepFollow the directions

Assembling TSX Momentum Components64 870 USE 101 00 V.2.2Mounting the Assembled Adapters on the I/O BaseOverviewThis section gives guidelines, safety

Assembling TSX Momentum Components870 USE 101 00 V.2.2 65Mounting the Assembled Adapters on the I/O Base, ContinuedProcedure: Mounting the Assembled A

Assembling TSX Momentum Components66 870 USE 101 00 V.2.2Mounting the Assembled Adapters on the I/O Base, ContinuedProcedure: Mounting the Assembled

Assembling TSX Momentum Components870 USE 101 00 V.2.2 67Disassembling a Module with an Option AdapterOverviewThe three-tiered assembly is designed to

Contentsviii 870 USE 101 00 V.2.2Part III Modsoft... 137Chapter 7 Co

Assembling TSX Momentum Components68 870 USE 101 00 V.2.2Disassembling a Module with an Option Adapter, ContinuedProcedure: Removing the Adapter Asse

Assembling TSX Momentum Components870 USE 101 00 V.2.2 69Disassembling a Module with an Option Adapter, ContinuedProcedure: Removing the Adapter Assem

Assembling TSX Momentum Components70 870 USE 101 00 V.2.2Disassembling a Module with an Option Adapter, ContinuedProcedure: Disassembling an Option A

Assembling TSX Momentum Components870 USE 101 00 V.2.2 71Section 3.3Installing Batteries in an Option AdapterInstallation GuidelinesWhy Install Batter

Assembling TSX Momentum Components72 870 USE 101 00 V.2.2Installation Guidelines, ContinuedLeave Power On When Changing BatteriesOnce your CPU has be

Assembling TSX Momentum Components870 USE 101 00 V.2.2 73Section 3.4Labeling the CPUGuidelines for Labeling the CPUOverviewA fill-in label is shipped

Assembling TSX Momentum Components74 870 USE 101 00 V.2.2Guidelines for Labeling the CPU, ContinuedExample of aFill-In LabelA fill-in label is illust

870 USE 101 00 V.2.2 75IICommunication PortsAt a GlancePurposeThis part describes the communication ports available with TSX Momentum Processor Adapte

870 USE 101 00 V.2.2 774 Using the Modbus PortsAt a GlancePurposeThis chapter describes Modbus Port 1 and Modbus Port 2, including communication para

Contents870 USE 101 00 V.2.2 ixChapter 9 Configuring a Modbus Plus Network in Modsoft with Peer Cop ...

Using the Modbus Ports78 870 USE 101 00 V.2.2Section 4.1Modbus Port 1OverviewPurposeModbus Port 1 is standard on most TSX Momentum M1 Processor Adapt

Using the Modbus Ports870 USE 101 00 V.2.2 79Modbus Port 1IntroductionModbus Port 1 is an RS232 asynchronous serial port that permits a host computer

Using the Modbus Ports80 870 USE 101 00 V.2.2Modbus Port 1, ContinuedPort ParametersModbus Port 1 supports the following communication parameters.Con

Using the Modbus Ports870 USE 101 00 V.2.2 81Modbus Port 1, ContinuedDefault ParametersThe factory-set default communication parameters for Modbus Por

Using the Modbus Ports82 870 USE 101 00 V.2.2Cable Accessories for Modbus Port 1OverviewThis section describes the cable and D-shell adapters needed

Using the Modbus Ports870 USE 101 00 V.2.2 83Cable Accessories for Modbus Port 1, Continued110 XCA 203 00 PinoutThe pinout for this adapter is shown i

Using the Modbus Ports84 870 USE 101 00 V.2.2Cable Accessories for Modbus Port 1, Continued110 XCA 204 00 PinoutThe pinout for this adapter is shown

Using the Modbus Ports870 USE 101 00 V.2.2 85Section 4.2Modbus Port 2OverviewPurposeThree Momentum components offer this port:171 CCS 780 00 Processor

Using the Modbus Ports86 870 USE 101 00 V.2.2Modbus Port 2Two Types of PortModbus Port 2 is available in two types: Features of an RS485 PortModbus P

Using the Modbus Ports870 USE 101 00 V.2.2 87Modbus Port 2, ContinuedPort ParametersModbus Port 2 offers the following communication parameters:Contin