Related Manuals for Rockwell Automation Allen-Bradley 1769-BOOLEAN
Summary of Contents for Rockwell Automation Allen-Bradley 1769-BOOLEAN
- Page 1 Compact Combination 24V dc Sink Input/Source Output BOOLEAN Control Module 1769-BOOLEAN Reference Manual...
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Page 2: Important User Information
In no event will Rockwell Automation, Inc. be responsible or liable for indirect or consequential damages resulting from the use or application of this equipment. -
Page 3: Table Of Contents
Table of Contents Important User Information ........2 Preface Who Should Use This Manual. - Page 4 Reduce Noise ......... . 30 Protect the Circuit Board from Contamination .
- Page 5 Index Rockwell Automation Support ....... 96 Installation Assistance ........96 New Product Satisfaction Return .
- Page 6 Notes: Publication 1769-RM016A-EN-P - July 2006...
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Page 7: Preface
Preface Read this preface to familiarize yourself with the rest of the manual. This preface covers the following topics: • Who should use this manual • How to use this manual • Related publications • Conventions used in this manual Use this manual if you are responsible for designing, installing, programming, Who Should Use This or troubleshooting control systems that use the Allen-Bradley Compact I/O... -
Page 8: Related Documentation
If you would like a manual, you can: • download a free electronic version from the Internet at http://literature.rockwellautomation.com • purchase a printed manual by contacting your local distributor or Rockwell Automation representative. We use the following conventions throughout this manual. Conventions Used in This Manual •... -
Page 9: Module Operation
Chapter Module Operation This chapter contains information about the following. Overview • Module description • Module block diagram • Input and output circuit diagrams • Controlling outputs using Boolean expressions – Format of Boolean expression – Allowed variations of Boolean expressions –... -
Page 10: About The 1769-Boolean Module
Module Operation The 1769-BOOLEAN module is a 24V dc combination input/output module. About the 1769-BOOLEAN The module outputs can be either directly controlled from your program or Module independently controlled by the module using configured Boolean expressions. These Boolean expressions are simple, logical combinations of the module hardware input states and soft inputs controlled by your program. -
Page 11: Module Description
Module Operation Module Description Item Description Bus lever (with locking function) BOOLEAN Upper panel mounting tab DANGER Do Not Remove RTB Under Power Lower panel mounting tab Unless Area is Non-Hazardous +VDC OUT 0 OUT 1 OUT 2 Module status LED OUT 3 OUT DC N.C. -
Page 12: Boolean Expressions
Module Operation An expression is any legal combination of symbols that represents a value. An Boolean Expressions expression that results in a value of either TRUE or FALSE is called a Boolean expression. Every Boolean expression (except a null expression) consists of at least one operand and can have one or more operators. -
Page 13: 1769-Boolean Module Block Diagram
Module Operation The following figure is the block diagram for the 1769-BOOLEAN module. 1769-BOOLEAN Module Block Diagram 1769-BOOLEAN Module Block Diagram Publication 1769-RM016A-EN-P - July 2006... -
Page 14: Wire The 1769-Boolean Module
Module Operation Each terminal accepts as many as two wires with these restrictions. Wire the 1769-BOOLEAN Module Wire Type Wire Size Terminal Retaining Screw Torque Screw Torque Solid Cu-90 °C (194 °F) 2.08…0.34 mm 0.68 Nm (6 lb-in) 0.46 Nm (4.1 (14…22 AWG) lb-in) Stranded... -
Page 15: Control Outputs Using Boolean Expressions
Module Operation You can configure the 1769-BOOLEAN module outputs to be controlled by Control Outputs Using Boolean expression (Boolean control mode). Boolean Expressions Format of Boolean Expression Each output is controlled with a separate expression. The fixed format of each Boolean expression is assumed to be of the form: Output State = (A x B) y C where A, B, and C are operands and x and y are logical operators you select. -
Page 16: Operands
Module Operation Variations of Boolean Expressions Variation Description Null All operands and operators assigned a value of “None”. Only the first operand assigned a non-default value, all other operands and all operators assigned a value of “None”. A x B Only the first two operands and the first operator assigned a non-default value, final operand and final operator assigned a value of “None”... -
Page 17: Output Delay
Module Operation Output Delay When configured for Boolean control, the module's outputs are directed ON when the Boolean expression for each output channel is TRUE. The module can be configured to add a delay between an output's Boolean expression becoming TRUE and the output being placed into the ON state. The length of this delay time for an output operating in Boolean control mode can be configured to be between 0 (default) and 1 second in 1 ms increments. -
Page 18: Output Delay And Duration Operation
Module Operation Output Delay and Duration Operation Since an output's Boolean expression can change in real time, configuring a delay and/or duration time when an output is in Boolean control mode could cause confusion. The module shall operate in the following manner when output delay and/or duration times are configured to non-default values (while an output is configured for Boolean control). -
Page 19: Boolean Control Mode Examples
Module Operation • In Case 2 the output will follow the state of the Boolean expression as long as the configured delay time has expired and the Boolean expression has maintained a TRUE state. When an output's Boolean expression transitions from FALSE to TRUE, the output will be turned ON only if the Boolean expression has maintained a state of TRUE for the entire length of the delay time. - Page 20 Module Operation Publication 1769-RM016A-EN-P - July 2006...
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Page 21: Example 2: Duration > 0, Delay < True Time
Module Operation Example 2: Duration > 0, Delay < TRUE Time In this example, the output is configured with a duration time greater than 0, a delay time greater than 0, and the configured delay time is shorter than the time that the Boolean expression remains TRUE. -
Page 22: Retriggering Ignored
Module Operation Example 3: Duration > 0, Delay < TRUE Time, Retriggering Ignored In this example, the output is configured with a duration time greater than 0, a delay time greater than 0, and multiple transitions of the Boolean expression occur before the initial “One-shot”... -
Page 23: Example 4: Duration > 0, Delay = 0, Duration > True Time
Module Operation Example 4: Duration > 0, Delay = 0, Duration > TRUE Time In this example, the output is configured with a duration time greater than 0, a delay time equal to 0, and the configured duration time is longer than the time that the Boolean expression remains TRUE. -
Page 24: Example 5: Duration > 0, Delay = 0, Duration < True Time
Module Operation Example 5: Duration > 0, Delay = 0, Duration < TRUE Time In this example, the output is configured with a duration time greater than 0, a delay time equal to 0, and the configured duration time is shorter than the time that the Boolean expression remains TRUE. -
Page 25: Example 6: Duration = 0, Delay < True Time
Module Operation Example 6: Duration = 0, Delay < TRUE Time In this example, the output is configured with a duration time equal to 0 (the output will remain ON only if the Boolean expression remains TRUE), a delay time greater than 0, and the Boolean expression continuously remains TRUE for a length of time greater than the configured delay time. -
Page 26: Example 7: Duration = 0, Delay > True Time
Module Operation Example 7: Duration = 0, Delay > TRUE Time In this example, the output is configured with a duration time equal to 0 (the output will remain ON only if the Boolean expression remains TRUE) and a delay time greater than 0. Conditions where the Boolean expression remains TRUE both for less than and longer than the configured delay time are illustrated. -
Page 27: Installation And Wiring
Chapter Installation and Wiring This chapter tells you how to: Overview • determine the power requirements for the module. • avoid electrostatic damage. • install the module. • wire the module’s terminal block. • wire input devices. • wire output devices. Topic Page Compliance to European Union Directives... -
Page 28: Low Voltage Directive
Installation and Wiring Low Voltage Directive This product is tested to meet Council Directive 73/23/EEC Low Voltage, by applying the safety requirements of EN 61131-2 Programmable Controllers, Part 2 – Equipment Requirements and Tests. For specific information required by EN61131-2, see the appropriate sections in this publication, as well as the following Allen-Bradley publications: •... -
Page 29: Hazardous Location Considerations
Installation and Wiring Hazardous Location Considerations This equipment is suitable for use in Class I, Division 2, Groups A, B, C, D or nonhazardous locations only. The following attention statement applies to use in hazardous locations. Explosion Hazard ATTENTION • Substitution of components may impair suitability for Class I, Division 2. -
Page 30: Remove Power
Installation and Wiring Remove Power Remove power before removing or inserting this module. When ATTENTION you remove or insert a module with power applied, an electrical arc may occur. An electrical arc can cause personal injury or property damage by: •... -
Page 31: System Assembly
Installation and Wiring The module can be attached to the controller or an adjacent I/O module System Assembly before or after mounting. Refer to Panel Mounting Using the Dimensional Template on page 33, for mounting instructions, or to DIN Rail Mount on page 34. Refer to Replace a Single Module Within a System on page 34, for information on working with a system that is already mounted. -
Page 32: Mount The Module
Installation and Wiring 6. Move the bus lever fully to the left (4) until it clicks, making sure it is locked firmly in place, to allow communication between the controller and module. When attaching I/O modules, it is very important that ATTENTION the bus connectors are securely locked together to be sure of proper electrical connection. -
Page 33: Panel Mount
Installation and Wiring Panel Mount Mount the module to a panel using two screws per module. Use M4 or #8 panhead screws. Mounting screws are required on every module. Panel Mounting Using the Dimensional Template Spacing for single-wide modules 35 mm (1.378 in.). Spacing for one-and-a-half-wide modules 52.5 mm (2.067 in.). -
Page 34: Din Rail Mount
Installation and Wiring DIN Rail Mount The module can be mounted using the following DIN rails: 35 x 7.5 mm (EN 50 022 - 35 x 7.5) or 35 x 15 mm (EN 50 022 - 35 x 15). Before mounting the module on a DIN rail, close the DIN rail latches. Press the DIN rail mounting area of the module against the DIN rail. -
Page 35: Field Wiring Connections
Installation and Wiring 6. Make sure that the bus lever, on the module to be installed and the right-side adjacent module, are in the unlocked (fully right position) before installing the replacement module. 7. Slide the replacement module into the open slot. 8. -
Page 36: System Wiring Guidelines
Installation and Wiring System Wiring Guidelines Consider the following when wiring your system. General Guidelines • Input and output channels are isolated from each other. • Do not use the module’s NC terminals as connection points. Label the Terminals A removable, write-on label is provided with the module. Remove the label from the door, mark the identification of each terminal with permanent ink, and slide the label back into the door. -
Page 37: Remove The Finger-Safe Terminal Block
Installation and Wiring Remove the Finger-safe Terminal Block When wiring field devices to the module, it is not necessary to remove the terminal block. If you remove the terminal block, use the write-on label on the side of the terminal block to identify the module slot location and type. RTB position can be indicated by circling either the R for right side or L for left side. -
Page 38: Wire The Module
Installation and Wiring 3. Route the wire under the terminal pressure plate. You can use the bare wire or a spade lug. The terminals accept a 6.35 mm (0.25 in.) spade lug. The terminal screws are non-captive. Therefore, it is possible to use a ring lug (maximum 1/4 in. -
Page 39: Input And Output Wiring
Installation and Wiring Input and Output Wiring This illustration describes the 1769-BOOLEAN module terminal layout. 1769-BOOLEAN Module Terminal Layout DANGER Do Not Remove RTB Under Power Unless Area is Nonhazardous +VDC OUT 0 +VDC OUT 1 OUT 0 OUT 2 OUT 1 OUT 3 OUT 2... - Page 40 Installation and Wiring Notes: Publication 1769-RM016A-EN-P - July 2006...
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Page 41: Module Data, Status, And Configuration
Chapter Module Data, Status, and Configuration This chapter examines the module's data tables and channel configuration Overview words. Topic Page 1769-BOOLEAN Module Addressing 1769-BOOLEAN Module Input Data File 1769-BOOLEAN Module Output Data File 1769-BOOLEAN Module Configuration Data File Module Inputs The 1769-BOOLEAN module has eight, single-ended, 24V dc sinking inputs. -
Page 42: 1769-Boolean Module Addressing
Module Data, Status, and Configuration The 1769-BOOLEAN module memory map shows the input, output, and 1769-BOOLEAN Module configuration files for the module. Addressing Word 0, Bits 0…7 Input Data - Real Inputs Slot e Input Image Input Image Word 1, Bits 0…3 Output Data Echo File 2 Words... -
Page 43: 1769-Boolean Module Input Image
Module Data, Status, and Configuration 1769-BOOLEAN Module Input Image The 1769-BOOLEAN module input image file represents real input data states and output state data echo. Input word 0 contains the state of the module's real inputs IN 0 through IN 7 in bits 0 7. -
Page 44: 1769-Boolean Module Input Data File
Module Data, Status, and Configuration The input data file lets you access module input read data for use in the control 1769-BOOLEAN Module program, via word or bit access. The data file structure is shown in the table Input Data File below. -
Page 45: Virtual Inputs
Module Data, Status, and Configuration Virtual Inputs The control program determines eight virtual inputs. The module's outputs can be controlled by the module itself when the outputs are configured to use Boolean Control mode. Refer to Output Control (DB) on page 51, for information on configuring the module's outputs for Boolean Control mode. -
Page 46: 1769-Boolean Module Configuration Data File
Module Data, Status, and Configuration The configuration file determines how the module will operate. Parameters 1769-BOOLEAN Module such as input filtering, output control mode, and Boolean expressions are set Configuration Data File up using this file. This data file is readable and writable. The default value of the configuration file is all 0's. -
Page 47: Input Filtering
Module Data, Status, and Configuration Shaded bits must be set to 0. Default is all data file bits = 0. IMPORTANT The configuration file is typically modified using the programming software configuration screen. For information on how to configure the module using. Hardware and Software MicroLogix 1500 and RSLogix 500 software Appendix B CompactLogix and RSLogix 5000 software... -
Page 48: Input Interrupts
Module Data, Status, and Configuration Input Interrupts The module will support 8 input interrupts - one each for the 8 real inputs (IN 0 to IN 7). Interrupts are not supported by all controllers. Refer to your controller's user manual to determine if interrupts from expansion I/O modules are supported. -
Page 49: Program State
Module Data, Status, and Configuration Program State This configuration selection provides the individual selection for the control of the module outputs when the system enters the program mode. Word 3, bits 3 are used to select the program state control mode for module outputs …... -
Page 50: Fault State
Module Data, Status, and Configuration Fault State This configuration selection provides the individual selection for the control of the module outputs when the system enters the fault mode. Word 5, bits 0 … are used to select the program state control mode for module outputs OUT0 through OUT3. -
Page 51: Output Control (Db)
Module Data, Status, and Configuration Output Control (DB) The outputs on the 1769-BOOLEAN module can be configured for two modes of control: direct control mode or Boolean Control mode. Each output is independently configured by use of the Disable Boolean (DB) control bits. Word 8, bit 0 determines the output control mode for OUT0. -
Page 52: Operands
Module Data, Status, and Configuration The type of interrupt is selected for OUT0 by configuring the IT_O bits (bits 4 and 5) of word 8. The output interrupt types for OUT1, OUT2, and OUT3 are similarly configured using the IT_O bits of words 16, 24, and 32. The type of interrupt is selected for each output by configuring the IT_O bits as follows. - Page 53 Module Data, Status, and Configuration The following table shows the bits patterns to use to configure the operands. Bits Patterns Used to Configure the Operands Words 9,10,11, 17,18,19, 25,26,27, 33,34,35 Operand Bit 5 Bit 4 Bit 3 Bit 2 Bit 1 Bit 0 None Real Input 0...
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Page 54: Operators
Module Data, Status, and Configuration Operators The operators that are used in each output's Boolean expression are selected from one of four possibilities. Each operator can be configured as one of the supported logic functions (AND, OR, or XOR) or can be configured as none (the operator is not used in the Boolean expression). -
Page 55: Output Delay
Module Data, Status, and Configuration Each operator will perform the corresponding logical operation on the two operands it is between as illustrated in the following truth tables. OUT = A OR B OUT = A AND B OUT = A XOR B Output Delay When operating in Boolean Control mode, the module's outputs are directed ON when the Boolean expression for each output is TRUE. -
Page 56: Output Duration
Module Data, Status, and Configuration Each output's delay time is configured using one word in the configuration data file. For OUT0, output delay is configured using bits 0-9 of word 13. Configure the output delay for OUT1 with word 21; for OUT2 use word 29; and, for OUT3 use word 37. - Page 57 Module Data, Status, and Configuration Each output's duration time is configured using one word in the configuration data file. For OUT0, output duration is configured using bits 0…9 of word 14. Configure the output duration for OUT1 with word 22; for OUT2 use word 30 and, for OUT3 use word 38.
- Page 58 Module Data, Status, and Configuration Notes: Publication 1769-RM016A-EN-P - July 2006...
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Page 59: Chapter 4 Overview
Safety Considerations Power Cycle Diagnostics Module Error Definition Table Module Inhibit Function Contacting Rockwell Automation Safety considerations are an important element of proper troubleshooting Safety Considerations procedures. Actively thinking about the safety of yourself and others, as well as the condition of your equipment, is of primary importance. -
Page 60: Program Alteration
Module Diagnostics and Troubleshooting Program Alteration There are several possible causes of alteration to the user program, including extreme environmental conditions, Electromagnetic Interference (EMI), improper grounding, improper wiring connections, and unauthorized tampering. If you suspect a program has been altered, check it against a previously saved program on an EEPROM or UVPROM memory module. -
Page 61: Extended Error Information Field
Module Diagnostics and Troubleshooting Module Error Types Error Module Error Description Type Field Value Bits 11…09 (Bin) No Errors No error is present. The extended error field holds no additional information. Hardware General and specific hardware error codes are Errors specified in the extended error information field. -
Page 62: Error Codes
Module Diagnostics and Troubleshooting Error Codes Error codes can help troubleshoot your module. 1769-BOOLEAN Module Extended Error Codes Error Type Module Extended Error Error Description Equivalent Error Code Information Code Binary Binary No Error X000 0 0000 0000 No Error General Common X200 0 0000 0000... - Page 63 Module Diagnostics and Troubleshooting Error Type Module Extended Error Error Description Equivalent Error Code Information Code Binary Binary X409 0 0000 1001 Invalid Operand_B, OUT 0 X40A 0 0000 1010 Invalid Operand_B, OUT 1 X40B 0 0000 1011 Invalid Operand_B, OUT 2 X40C 0 0000 1100 Invalid Operand_B, OUT 3...
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Page 64: Module Inhibit Function
When the 1769-BOOLEAN module is inhibited, the module continues to provide information about changes at its inputs to the CompactLogix controller. If you need to contact Rockwell Automation for assistance, please have a clear Contacting Rockwell statement of the problem, including a description of what the system is Automation actually doing, available when you call. - Page 65 Appendix 1769-BOOLEAN Module Specifications Compact Combination 24V dc Sink Input/Source Output BOOLEAN Control Module - 1769-BOOLEAN General Specifications Attribute Value Closed Loop Time Output on-state current > 5 mA: 100 µs max (Digital Filter = 0) Output on-state current < 5 mA: 150 µs max Bus Current Draw, Max 220 mA at 5V dc Heat Dissipation...
- Page 66 1769-BOOLEAN Module Specifications Attribute Value Nominal Impedance 2.0 kohm @ 24V dc 2.3 kohm @ 30V dc IEC Input Compatibility Type 3 Input Point to Bus (CompactBus) Verified by one of the following dielectric tests: 1200V ac for 1 Isolation s or 1697V dc for 1 s 75V dc working voltage (IEC Class 2 reinforced insulation) Sinking Input - Sink describes the current flow between the I/O module and the field device.
- Page 67 1769-BOOLEAN Module Specifications Output Specifications Attribute Value Voltage Category 24V dc Operating Voltage Range 20.4…26.4V dc (source Number of Outputs Signal Delay, Max (resistive load) Turn-on: 10 µs, output on-state current > 5 mA Turn-off: 10 µs, output on-state current > 5 mA 1.0 mA @ 26.4V dc Off-state Leakage, Max On-state Current, Min...
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Page 68: Appendix A Temperature Derating
1769-BOOLEAN Module Specifications Certifications Certification Value Agency Certification C-UL Under CSA C22.2 No. 142 508 listed Compliant for all applicable directives Hazardous Environment Class Class I, Division 2, Hazardous Location, Groups A, B, C, D (UL 1604, C-UL under CSA C22.2 No. 213) The area within the curve represents the safe operating range for the module Temperature Derating under various conditions of user-supplied voltages and ambient temperatures. -
Page 69: Transistor Output Transient Pulses
1769-BOOLEAN Module Specifications The maximum duration of the transient pulse occurs when minimum load is Transistor Output Transient connected to the output. However, for most applications, the energy of the Pulses transient pulse is not sufficient to energize the load. A transient pulse occurs in transistor outputs when the external ATTENTION dc supply voltage is applied to the output common terminals, for... - Page 70 1769-BOOLEAN Module Specifications Notes: Publication 1769-RM016A-EN-P - July 2006...
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Page 71: Overview
Appendix Module Addressing and Configuration with MicroLogix 1500 This appendix examines the 1769-BOOLEAN module's addressing scheme Overview and describes module configuration using MicroLogix 1500 and RSLogix 500 software. Topic Page Module Addressing Input Image Output Image Configuration File Configure the 1769-BOOLEAN Module in a MicroLogix 1500 System Publication 1769-RM016A-EN-P - July 2006... -
Page 72: Module Addressing
Module Addressing and Configuration with MicroLogix 1500 This example shows the 1769-BOOLEAN module memory map. Module Addressing 1769-BOOLEAN Module Memory Map Input Data - Real Inputs Word 0, Bits 0 … Slot e Input Image Input Image Word 1, Bits 0 File Output Data Echo …... -
Page 73: Input Image
Module Addressing and Configuration with MicroLogix 1500 Input Image The module's input image file represents input states and output data echo states. Input word 0 holds the input data that represents the value of inputs IN0 to IN7. Input word 1 represents the directed state of the module's outputs OUT0 through OUT3. -
Page 74: Output Image
Module Addressing and Configuration with MicroLogix 1500 Output Image The module's output image file represents directed output states and virtual input states. Output word 0 holds the directed states for the module's outputs (OUT0 through OUT3) when any of the outputs are configured for direct control mode. -
Page 75: Configuration File
Module Addressing and Configuration with MicroLogix 1500 Configuration File The configuration file contains information that you use to define how the module operates. Refer to Module Data, Status, and Configuration on page 41, for more configuration information. The configuration file is modified using the programming software configuration screen. -
Page 76: Configure The 1769-Boolean Module In A Micrologix 1500 System
Module Addressing and Configuration with MicroLogix 1500 This example takes you through configuring your 1769-BOOLEAN module Configure the with RSLogix 500 programming software. This application example assumes 1769-BOOLEAN Module in a your module is installed as expansion I/O in a MicroLogix 1500 system that MicroLogix 1500 System RSLinx software is properly configured, and a communications link has been established between the MicroLogix controller and RSLogix 500 software. - Page 77 Module Addressing and Configuration with MicroLogix 1500 4. Enter your configuration data. Refer to 1769-BOOLEAN Module Configuration Data File on page 46 for more information on configuration data word and bit assignments. 5. Click OK. Publication 1769-RM016A-EN-P - July 2006...
- Page 78 Module Addressing and Configuration with MicroLogix 1500 Notes: Publication 1769-RM016A-EN-P - July 2006...
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Page 79: Appendix C Overview
Appendix Configuration Using the RSLogix 5000 Generic Profile for CompactLogix Controllers This appendix describes how to configure the 1769-BOOLEAN module for a Overview CompactLogix controller. To configure a 1769-BOOLEAN module for a CompactLogix controller in Configure the Module RSLogix 5000 software using the Generic Profile, you must first begin a new project in RSLogix 5000 software. - Page 80 Configuration Using the RSLogix 5000 Generic Profile for CompactLogix Controllers The main RSLogix 5000 screen appears. The last entry in the controller organizer on the left of the screen is a line labeled [0] CompactBus Local. 5. Right-click this line and select New Module. The Select Module screen appears.
- Page 81 Configuration Using the RSLogix 5000 Generic Profile for CompactLogix Controllers 6. Expand the + next to Other to use the 1769 generic selection for the 1769-BOOLEAN module. 7. Click OK. The New Module default Generic Profile screen appears. This is the default Generic Profile screen. 8.
- Page 82 Configuration Using the RSLogix 5000 Generic Profile for CompactLogix Controllers 11. Enter the Comm Format, Assembly Instance numbers and their associated sizes into the Generic Profile and click OK. The Module Properties screen appears. 12. (optional) Check the Inhibit Module checkbox. The default for this parameter is not to inhibit the module.
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Page 83: Configure I/O Modules
Configuration Using the RSLogix 5000 Generic Profile for CompactLogix Controllers Once you have created generic profiles for each 1769-BOOLEAN module in Configure I/O Modules your system, you must then enter configuration information into the Tag database that has been automatically created from the generic profile information you entered for each of these modules. -
Page 84: Configure The Module
Configuration Using the RSLogix 5000 Generic Profile for CompactLogix Controllers Tag addresses are automatically created for configured I/O modules. All local I/O addresses are preceded by the word Local. These addresses have the following format: • Input Data: Local:s.I • Output Data: Local:s.O •... -
Page 85: Appendix D Overview
Appendix Configure Modules in a Remote DeviceNet System with a 1769-ADN DeviceNet Adapter In this example, the 1769-BOOLEAN module is in a remote DeviceNet Overview system controlled by a 1769-ADN DeviceNet adapter. RSNetWorx for DeviceNet software, version 2.23 or later, is used to configure the network and the I/O modules. -
Page 86: Add The Devicenet Adapter To The Scanlist
Configure Modules in a Remote DeviceNet System with a 1769-ADN DeviceNet Adapter In this part of the example, the 1769-ADN adapter is added to the DeviceNet Add the DeviceNet Adapter scanner’s scanlist. to the Scanlist 1. Start the RSNetWorx for DeviceNet software. 2. - Page 87 Configure Modules in a Remote DeviceNet System with a 1769-ADN DeviceNet Adapter 4. To configure I/O for the adapter, double-click the adapter icon that appears on the network. 5. Click the Module Configuration tab. The I/O Summary tab provides the configured size and format of the I/O data.
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Page 88: Configure The 1769-Boolean Module Example
Configure Modules in a Remote DeviceNet System with a 1769-ADN DeviceNet Adapter The 1769-ADN adapter appears in slot 0. Your I/O modules, power supplies, Configure the end caps, and interconnect cables must be entered in the proper order, 1769-BOOLEAN Module following the 1769 I/O rules contained in the DeviceNet Adapter User Example Manual, publication 1769-UM001. - Page 89 Configure Modules in a Remote DeviceNet System with a 1769-ADN DeviceNet Adapter 3. Double-click on the module. 4. Under the General tab, select the appropriate bank. Bank 1 was selected in this example. Publication 1769-RM016A-EN-P - July 2006...
- Page 90 Configure Modules in a Remote DeviceNet System with a 1769-ADN DeviceNet Adapter 5. Under the Configuration Settings tab, you can select the parameter that you want to configure and initiate an action using the toolbar. 6. Set each parameter's current value to match the desired 1769-BOOLEAN module configuration settings.
- Page 91 ___No, there is no need to contact me ___Yes, please call me ___Yes, please email me at _______________________ ___Yes, please contact me via _____________________ Return this form to: Rockwell Automation Technical Communications, 1 Allen-Bradley Dr., Mayfield Hts., OH 44124-9705 Fax: 440-646-3525 Email: RADocumentComments@ra.rockwell.com 3=outstanding).
- Page 92 PLEASE FASTEN HERE (DO NOT STAPLE) Other Comments PLEASE FOLD HERE NO POSTAGE NECESSARY IF MAILED IN THE UNITED STATES BUSINESS REPLY MAIL FIRST-CLASS MAIL PERMIT NO. 18235 CLEVELAND OH POSTAGE WILL BE PAID BY THE ADDRESSEE 1 ALLEN-BRADLEY DR MAYFIELD HEIGHTS OH 44124-9705...
- Page 93 Index adapter 47 diagrams simplified 14 Numerics DIN rail 32 mounting 34 1769-ADN 47 duration configuration example 85 operation 18 user manual 8 output 17 1769-BOOLEAN time 57 configuration file 46 duration operation 18 description 10 diagnostics 59 extended error codes 62 hardware features 11 electrical noise 30 inhibit function 64...
- Page 94 11 replacing a module 34 configuration errors 61 RIUP 30 configuration file 43 remove power 30 data, status, and configuration 41 Rockwell Automation description 11 contact 64 diagnostics 59 RSLogix 500 47 DIN rail mount 33 configuration example 71...
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Page 96: Rockwell Automation Support
(see phone number above to obtain one) to your distributor in order to complete the return process. Outside United Please contact your local Rockwell Automation representative for States return procedure. Publication 1769-RM016A-EN-P - July 2006 PN 953014-70 Copyright © 2006 Rockwell Automation, Inc. All rights reserved. Printed in the U.S.A.