Main
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Document Set
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Contents
Chapter 2 Overview of Momentum Option Adapters ...........................65
Chapter 3 Assembling Momentum Components .................................87
Chapter 5 Using the Ethernet Port ........................................................141
Chapter 6 Using the I/OBus Port ...........................................................171
Chapter 7 Using the Modbus Plus Ports ...............................................181
Chapter 9 I/O Mapping an I/OBus Network with Modsoft ....................247
Chapter 11 Saving to Flash in Modsoft ...................................................303
Chapter 13 I/O Mapping an I/OBus Network with Concept ...................361
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About This Book
About Book
Getting Started
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Section 1.1 Introducing the M1 Processor Adapters
Front Panel illustration
Overview of Ports
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Memory and Performance Characteristics
Memory and Performance Characteristics, Continued
below:
Memory and Performance Characteristics, Continued
and 1
references) and discretes (for 0
and 4
Input and Output References The number of registers (for 3
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Section 1.2 Features of Each Processor Adapter
171 CCS 700 00
171 CCS 700 00, Continued
LED Indicators This Processor Adapter has two LED indicators, RUN and COM ACT. Their
Specifications The following table contains specifications for the 171 CCS 700 00 Momentum M1
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171 CCS 700 10
171 CCS 700 10, Continued
LED Indicators This Processor Adapter has two LED indicators, RUN and COM ACT. Their
Specifications The following table contains specifications for the 171 CCS 700 10 Momentum M1
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171 CCS 760 00
171 CCS 760 00, Continued
LED Indicators This Processor Adapter has two LED indicators, RUN and COM ACT. Their
171 CCS 760 00, Continued
Specifications, Continued
171 CCC 760 10
171 CCC 760 10, Continued
LED Indicators This Processor Adapter has two LED indicators, RUN and COM ACT. Their
Specifications The following table contains specifications for the 171 CCC 760 10 Momentum M1
171 CCC 760 10, Continued
Specifications, Continued
171 CCS 780 00
171 CCS 780 00, Continued
LED Indicators This Processor Adapter has two LED indicators, RUN and COM ACT. Their
Specifications The following table contains specifications for the 171 CCS 780 00 Momentum M1
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171 CCC 780 10
171 CCC 780 10, Continued
LED Indicators This Processor Adapter has two LED indicators, RUN and COM ACT. Their
Specifications The following table contains specifications for the 171 CCC 780 10 Momentum M1
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171 CCC 960 20
Specifications The following table contains specifications for the 171 CCC 960 20 Momentum M1
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171 CCC 960 30
Illustration The connectors and LED indicators are shown in the following illustration:
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171 CCC 980 20
Specifications The following table contains specifications for the 171 CCC 980 20 Momentum M1
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171 CCC 980 30
Illustration The connectors and LED indicators are shown in the following illustration:
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Overview of Momentum Option Adapters
Section 2.1 Introducing the Momentum Option Adapters
Basic Features of Option Adapters
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Pinouts for Modbus Port 2 The 172 JNN 210 32 Serial Option Adapter uses the following pinouts:
Specifications This section provides the specifications for the 172 JNN 210 32 Momentum Serial
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Modbus Plus Addresses
Specifications This section provides the specifications for the 172 PNN 210 22 Momentum Serial
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status of the Modbus Plus node.
Modbus Plus Addresses
Specifications This section provides the specifications for the 172 PNN 260 22 Momentum Serial
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Assembling Momentum Components
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Assembling a Processor Adapter and I/O Base
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Assembling a Processor Adapter and I/O Base, Continued
Momentum I/O Bases User Manual
Disassembling a Processor Adapter from an I/O Base
Disassembling a Processor Adapter from an I/O Base, Continued
Section 3.2 Assembling a CPU with an Option Adapter
Assembling a Processor Adapter and an Option Adapter
Assembling a Processor Adapter and an Option Adapter, Continued
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Mounting the Assembled Adapters on the I/O Base
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Mounting the Assembled Adapters on the I/O Base, Continued
Disassembling a Module with an Option Adapter
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Section 3.3 Installing Batteries in an Option Adapter
Installation Guidelines
Installation Guidelines, Continued
Reserving and Monitoring a Battery Coil
Reserving and Monitoring a Battery Coil
Section 3.4 Labeling the CPU
Guidelines for Labeling the CPU
Guidelines for Labeling the CPU, Continued
Communication Ports
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Using the Modbus Ports
Section 4.1 Modbus Port 1
Modbus Port 1
Modbus Port 1, Continued
Port Parameters Modbus Port 1 supports the following commu nication parameters.
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Cable Accessories for Modbus Port 1
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Section 4.2 Modbus Port 2
Modbus Port 2
Modbus Port 2, Continued
Port Parameters Modbus Port 2 offers the following communication parameters:
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Four-Wire Cabling Schemes for Modbus RS485 Networks
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Four-Wire Cabling Schemes for Modbus RS485 Networks, Continued
Two-Wire Cabling Schemes for Modbus RS485 Networks
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Two-Wire Cabling Schemes for Modbus RS485 Networks, Continued
Cable for Modbus RS485 Networks
blue boot
Cable for Modbus RS485 Networks, Continued
black boot
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Connectors for Modbus RS485 Networks
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Terminating Devices for Modbus RS485 Networks
Pinouts for Modbus RS485 Networks
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Using the Ethernet Port
In This Chapter This chapter contains the following secti ons:
Section 5.1 Ethernet Port
Ethernet Port
Network Design Considerations
Network Design Considerations, Continued
Security
Cabling Schemes
Pinouts
Assigning Ethernet Address Parameters
Setting Ethernet Address Parameters
Using BOOTP Lite to Assign Address Parameters
Setting Ethernet Address Parameters
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Assigning Ethernet Address Parameters, Continued
Saving to Flash with Concept
Using BOOTP Lite to Assign Address Parameters
Reading Ethernet Network Statistics
Quantum 140 NOE 771 00 10/100 Megabit Ethernet Mo dule User Guide
Table 1: TCP/IP Ethernet Statistics Table
Description
Operational Statistics
Ethernet Network Functioning Errors
Receiver Errors
Transmission Errors
Accessing the Ethernet / I/O Scanner Screen
OR:
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Section 5.2 Establishing a Connection with an Ethernet Module
Quantum NOE 771 x0 Ethernet Modules User Guide
Establishing a Connection with an Ethernet Module
or
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Establishing a Connection with an Ethernet Module, continued
Procedure, continued
or
Section 5.3 Accessing Embedded Web Pages
Accessing the Web Utility Home Page
FactoryCast Users Guide For Quantum and Premium
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Momentum M1E Web Pages
Ethernet Statistics, I/O Status and Support Pages.
Schneider
S
Momentum Web Server
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Using the Ethernet Port
Transmit Statistics
M1 ETHERNET STATISTICS
Receive Statistics Functioning Errors
Support Page The Support page contains assistance information and the following links:
Momentum M1E Indicators
Momentum I/O Base User Guide.
Using the I/OBus Port
I/O Bus Port
How I/OBus Works
Network Status Indication in the M1 Ethernet Module
Guidelines for I/OBus Networks
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Cable Accessories
Cable Accessories, Continued
Pinouts
Interbus Cable The following illustration shows how to wire the connectors of the remote bus cable:
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Using the Modbus Plus Ports
and Installation Manual
Modbus Plus Network Planning
Modbus Plus Features for Momentum
single
Two Types of Modbus Plus Networks
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Standard Cabling Schemes
Standard Cabling Schemes, Continued
Cluster Mode Cabling Schemes
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Cluster Scheme #1 In this example, two clusters of Momentum I/O modules are connected in
sequence. The trunk cable continues from the clusters in both directions.
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Cable Accessories for Modbus Plus Networks
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Cable Accessories for Modbus Plus Networks, Continued
Pinouts and Wiring Illustrations for Modbus Plus Networks
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Pinouts and Wiring Illustrations for Modbus Plus Networks, Continued
Modbus Plus Connector T (DB9 Base)
The following illustration shows the pinout for the Modbus Plus Connector T (DB9 base):
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Modbus Plus Addresses
Modbus Plus Addresses, Continued
Peer Cop
Peer Cop, Continued
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Modsoft
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Configuring an M1 CPU with Modsoft
Section 8.1 Configuring the Processor Adapter
Selecting an M1 Processor Adapter
Modicon Modsoft Programmer Software (V.2.6) User Guide
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Specifying an M1 Processor Type
I/O Mapping an I/OBus Network with Modsoft
Specifying an M1 Processor Type, Continued
Procedure Follow the steps below to specify an M1 Processo r Type.
Default Configuration Parameters
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Default Values Here are the default parameters:
Changing the Range of Discrete and Register References
Changing the Range of Discrete and Register References, Continued
Changing the Size of Your Application Logic Space
Changing the Number of Segments
Changing the Number of Segments, Continued
Changing the Size of the I/O Map
Changing the Size of the I/O Map, Continued
Establishing Configuration Extension Memory
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Reserving and Monitoring a Battery Coil
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Setting up the Time-of-Day Clock
Setting up the Time-of-Day Clock, Continued
Setting the Time
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Setting the Time, Continued
Procedure Follow the steps in the table below to set the register values for the time-of-day clock:
Reading the Time-of-Day Clock
Section 8.3 Modifying Communication Port Parameters
Accessing the Port Editor Screen
Parameters Which Should Not Be Changed
Changing the Mode and Data Bits
Changing the Mode and Data Bits, Continued
Changing Parity
Changing the Baud Rate
Changing the Delay
Changing the Modbus Address
Changing the Delay
Changing the Protocol on Modbus Port 2
Section 8.4 I/O Mapping the Local I/O Points
Accessing and Editing the I/O Map
Editing the Local I/O Map To edit the Local I/O Map, perform the steps in the following table.
Editing the Local I/O Map
I/O Mapping an I/OBus Network with Modsoft
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Supporting an I/O Map for an I/OBus Network
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Accessing an I/O Map Screen for an I/OBus Network
Accessing an I/O Map Screen for an I/OBus Network, Continued
Editing the I/OBus I/O Map
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Configuring a Modbus Plus Network in Modsoft with Peer Cop
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Accessing the Peer Cop Configuration Extension Screen
Accessing the Peer Cop Configuration Extension Screen, Continued
The Default Peer Cop Screen
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Section 10.2 Using Modbus Plus to Handle I/O
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Defining the Link and Accessing a Node
link
node
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Defining the Link and Accessing a Node, Continued
Confirming the Peer Cop Summary Information
On Error
Confirming the Peer Cop Summary Information, Continued
Procedure Follow the steps in the table below to change the Peer Cop summary information.
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Specifying References for Input Data
Procedure Follow the steps in the table below to define the specific input in Peer Cop.
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Accessing the Remaining Devices
Accessing the Remaining Devices, Continued
Completing the I/O Device Configuration in Peer Cop
Completing the I/O Device Configuration in Peer Cop, Continued
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Section 10.3 Passing Supervisory Data over Modbus Plus
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Configuring a Node to Exchange Data
link
node
Configuring a Node to Exchange Data, Continued
Procedure Follow the steps in the table below to define the link and access a node.
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Confirming the Peer Cop Summary Information
On Error
Specifying References for Input and Output Data
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Defining the References for the Next Node
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Defining References for the Supervisory Computer
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Completing the Configuration
Saving to Flash in Modsoft
Preparing to Save to Flash
Saving to Flash
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Concept
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Section 12.1 Configuring the Processor Adapter
Selecting an M1 Processor Adapter
Procedure Follow the steps below to select an M1 Processor A dapter for a new project.
Note: For a full description of Concept, refer to the set of manuals shipped with the software.
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Default Configuration Parameters
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Default Values Here are the default parameters:
Changing the Range of Discrete and Register References
Changing the Range of Discrete and Register References, Continued
Changing the Size of the Full Logic Area
Understanding the Number of Segments
Changing the Size of the I/O Map
Changing the Size of the I/O Map, Continued
Establishing Configuration Extension Memory for Peer Cop
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Establishing Configuration Extension Memory for Peer Cop, Continued
Procedure, Continued
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Reserving and Monitoring a Battery Coil
Reserving a Battery Coil,
xxxx
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Setting up the Time-of-Day Clock
Setting up the Time-of-Day Clock, Continued
Reserving Registers for the TOD Clock,
xxxx
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Setting the Time
Reading the Time-of-Day Clock
Section 12.3 Modifying Modbus Port Parameters
Accessing the Modbus Port Settings Dialog Box
Changing the Baud Rate
Changing Mode and Data Bits
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Changing the Delay
Changing the Modbus Address
Changing the Protocol on Modbus Port 2
Section 12.4 Configuring Ethernet Address Parameters and I/O Scanning
Accessing the Ethernet / I/O Scanner Screen
Accessing the Ethernet / I/O Scanner Screen, Continued
Ethernet Configuration Options
Setting Ethernet Address Parameters
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Configuring I/O
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Read and Write You may include read and write commands on the same line, as shown:
Completing the I/O Configuration
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Completing the I/O Configuration, Continued
Section 12.5 I/O Mapping the Local I/O Points
Accessing and Editing the I/O Map
local I/O Map:
I/O Mapping an I/OBus Network with Concept
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Supporting an I/O Map for an I/OBus Network
Accessing an I/O Map Screen for an I/OBus Network
Accessing an I/O Map Screen for an I/OBus Network, Continued
Editing the I/OBus I/O Map
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Generic InterBus Module Identifier Codes, Continued
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Configuring a Modbus Plus Network in Concept with Peer Cop
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Accessing the Peer Cop Dialog Box
Accessing the Peer Cop Dialog Box, Continued
Adjusting the Amount of Extension Memory
Other Default Settings in the Peer Cop Dialog Box
Other Default Settings in the Peer Cop Dialog Box, Continued
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Changing the Peer Cop Summary Information
Changing the Peer Cop Summary Information, Continued
Specifying References for Input Data
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Specifying References for Output Data
Specifying References for Output Data, Continued
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Specifying References for Input and Output Data
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Defining the References for the Next Node
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Defining References for the Supervisory PLC
Defining References for the Supervisory PLC, Continued
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Saving to Flash with Concept
Saving to Flash
Procedure Follow the steps in the table below to save to Flash:
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Appendices
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Ladder Logic Elements and Instructions
Ladder Logic Block Library User Guide
Standard Ladder Logic Elements
Standard Ladder Logic Instructions
The table below provides standard ladder logic instructions and their meaning.
Standard Ladder Logic Instructions,
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DX Loadable Support
A Special STAT Instruction
length
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Words 1...12 The first 12 words describe the CPU status and are detailed in the following table:
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Run LED Flash Patterns and Error Codes
Run LED Flash Pattern and Error Codes, Continued
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Numerics
Index
A
C
E
I
L
M
P
R
S
W