User’s Manual Pub. 0300241-01 Rev.
ii Compact™ IO Isolated RTD/resistance Module Important Notes 1. Please read all the information in this owner’s guide before installing the product. 2. The information in this owner's guide applies to hardware Series A and firmware version 1.00 or later. 3. This guide assumes that the reader has a full working knowledge of the relevant processor. Notice The products and services described in this owner's guide are useful in a wide variety of applications.
Table of Contents IMPORTANT NOTES ............................................................................................................................................... II NOTICE .................................................................................................................................................................. II LIMITED WARRANTY .............................................................................................................................................
iv Compact™ IO Isolated RTD/Resistance Module 3.7.6 Wiring the Module ................................................................................................................................. 3-11 SECTION 3.8 CALIBRATION ......................................................................................................................................... 3-12 CHAPTER 4 MODULE DATA, STATUS, AND CHANNEL CONFIGURATION .............................................................. 4-1 SECTION 4.
Table of Contents v SECTION 5.5 NON-CRITICAL VS. CRITICAL MODULE ERRORS ............................................................................................... 5-3 SECTION 5.6 MODULE ERROR DEFINITION TABLE ............................................................................................................. 5-4 5.6.1 Module Error Field .................................................................................................................................... 5-4 5.6.
vi Compact™ IO Isolated RTD/Resistance Module User’s Manual Pub. 0300241-01 Rev.
Preface Read this preface to familiarize yourself with the rest of the manual.
viii Compact™ IO Isolated RTD/Resistance Module Conventions Used in This Manual The following conventions are used throughout this manual: • • • • Bulleted lists (like this one) provide information not procedural steps. Numbered lists provide sequential steps or hierarchical information. Italic type is used for emphasis Bold type identifies headings and sub-headings ! Attention Are used to identify critical information to the reader User’s Manual Pub. 0300241-01 Rev.
Chapter 1 Overview This chapter describes the 1769sc-IR6I Isolated RTD/Resistance Input Module and explains how the controller reads resistance temperature detector (RTD) or direct resistance-initiated analog input data from the module. Included is: • The module’s hardware and diagnostic features • An overview of system and module operation • Compatibility Section 1.
1-2 Compact™ IO Isolated RTD/Resistance Module 1.1.1 RTD/Resistance Inputs and Ranges The table below lists the RTD and resistance types and their associated full-scale ranges, supported by the IR6I module.
Chapter 1: Module Overview 1-3 1.1.4 Hardware Features The Isolated RTD/resistance module contains a removable terminal block (spare part number 1769-RTBN18) providing connections for six 3-wire inputs for any combination of RTD and resistance input devices. Channels are wired as differential inputs. The illustration below shows the hardware features of the module. The illustration below shows the module’s hardware features.
1-4 Compact™ IO Isolated RTD/Resistance Module 1.1.5 General Diagnostic Features The module contains a diagnostic LED that helps you identify the source of problems that may occur during power-up or during normal channel operation. The LED indicates both status and power. Power-up and channel diagnostics are explained in Chapter 5, Diagnostics and Troubleshooting. Section 1.2 System Overview The modules communicate to the controller through the bus interface.
Chapter 1: Module Overview 1-5 From the readings taken by the converter, the module returns an accurate temperature or resistance to the controller user program through the microprocessor. The module uses two bidirectional serial ports for communication, each using an optocoupler for isolation. A third optocoupler is used to reset the microprocessor if the module detects a loss of communication. User’s Manual Pub. 0300241-01 Rev.
1-6 Compact™ IO Isolated RTD/Resistance Module User’s Manual Pub. 0300241-01 Rev.
Chapter 2 Quick Start for Experienced Users Section 2.1 Before You Begin This chapter can help you to get started using the 1769sc-IR6I Isolated RTD/Resistance Input Module. We base the procedures here on the assumption that you have an understanding of Allen-Bradley controllers. You should understand electronic process control and be able to interpret the ladder logic instructions required to generate the electronic signals that control your application.
2-2 Compact™ IO Isolated RTD/Resistance Module Section 2.3 What You Need To Do This chapter covers: 1) Ensuring that your power supply is adequate 2) Attaching and locking the module 3) Wiring the module 4) Configuring the module 5) Going through the startup procedure 6) Monitoring module operation Step 1: Ensure that your 1769 system power supply1 has sufficient current output to support your system configuration.
Chapter 2: Quick Start for Experienced Users 2-3 1) Check that the bus lever of the module to be installed is in the unlocked (fully right) position. 2) Use the upper and lower tongue-and-groove slots (1) to secure the modules together (or to a controller). 3) Move the module back along the tongue-and-groove slots until the bus connectors (2) line up with each other. 4) Push the bus lever back slightly to clear the positioning tab (3). Use your fingers or a small screwdriver.
2-4 Compact™ IO Isolated RTD/Resistance Module Follow the guidelines below when wiring the module. General • Power and input wiring must be in accordance with Class 1, Division 2 wiring methods, Article 501-4(b) of the National Electric Code, NFPA 70, and in accordance with the authority having jurisdiction. • Channels are isolated from one another by 500V dc maximum.
Chapter 2: Quick Start for Experienced Users o Keep lead wire resistance as small as possible and less than 25 Ω . o Use quality cable that has a small tolerance impedance rating and consistent impedance throughout its length. o Use a heavy gauge lead wire with less resistance per foot. Step 4: Configure the module. 2-5 Reference Chapter 4 (Module Data, Status, and Channel Configuration) The configuration file is typically modified using the programming software compatible with your controller.
2-6 Compact™ IO Isolated RTD/Resistance Module Step 6: Monitor the module status to check if the module is operating correctly Reference Chapter 5(Diagnostics and Troubleshooting) Module and channel configuration errors are reported to the controller. These errors are typically reported in the controller’s I/O status file. Channel status data is also reported in the module’s input data table, so these bits can be used in your control program to flag a channel error. User’s Manual Pub. 0300241-01 Rev.
Chapter 3 Installation and Wiring This chapter tells you how to: • Determine the power requirements for the modules • Avoid electrostatic damage • Install the module • Wire the module’s terminal block • Wire input devices Section 3.1 Compliance to European Union Directives This product is approved for installation within the European Union and EEA regions. It has been designed and tested to meet the following directives. 3.1.
3-2 Compact™ IO Isolated RTD/Resistance Module Section 3.2 Power Requirements The module receives power through the bus interface from the +5V dc/+24V dc system power supply. The maximum current drawn by the module is shown in the table below. 5V dc 190 mA 24V dc 35 mA Section 3.3 General Considerations Compact I/O is suitable for use in an industrial environment when installed in accordance with these instructions.
Chapter 3: Installation and Wiring 3-3 3.3.2 Prevent Electrical Discharge ! Attention Electrostatic discharge can damage integrated circuits or semiconductors if you touch analog I/O module bus connector pins or the terminal block on the input module. Follow these guidelines when you handle the module: • Touch a grounded object to discharge static potential. • Wear an approved wrist-strap grounding device. • Do not touch the bus connector or connector pins.
3-4 Compact™ IO Isolated RTD/Resistance Module which means that a module may not be located more than 8 modules away from the system power supply. Section 3.4 System Assembly The module can be attached to the controller or an adjacent I/O module before or after mounting. For mounting instructions, see Panel Mounting Using the Dimensional Template on page 3-6, or DIN Rail Mounting on page 3-7. To work with a system that is already mounted, see Replacing a Single Module within a System on page 3-7.
Chapter 3: Installation and Wiring 3-5 right-side adjacent module’s bus lever is in the unlocked (fully right) position. 3) Use the upper and lower tongue-and-groove slots (1) to secure the modules together (or to a controller). 4) Move the module back along the tongue-and-groove slots until the bus connectors (2) line up with each other. 5) Push the bus lever back slightly to clear the positioning tab (3). Use your fingers or a small screwdriver.
3-6 Compact™ IO Isolated RTD/Resistance Module 3.5.2 Panel Mounting 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 Panel Mounting Procedure Using Modules as a Template The following procedure allows you to use the assembled modules as a template for drilling holes in the panel.
Chapter 3: Installation and Wiring 3-7 others aside. This reduces remounting time during drilling and tapping of the next group. 7) Repeat steps 1 to 6 for any remaining modules. 3.5.3 DIN Rail Mounting 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.
3-8 Compact™ IO Isolated RTD/Resistance Module Section 3.7 Field Wiring Connections 3.7.1 System Wiring Guidelines Consider the following when wiring your system: General • This product is intended to be mounted to a well-grounded mounting surface such as a metal panel. Additional grounding connections from the module’s mounting tabs or DIN rail (if used) are not required unless the mounting surface cannot be grounded. • Channels are isolated from one another by 500 Vdc maximum.
Chapter 3: Installation and Wiring • 3-9 Refer to Industrial Automation Wiring and Grounding Guidelines, AllenBradley publication 1770-4.1, for additional information. 3.7.2 RTD Wiring Considerations Since the operating principle of the RTD module is based on the measurement of resistance, take special care when selecting your input cable. For 2-wire or 3-wire configurations, select a cable that has a consistent impedance throughout its entire length.
3-10 Compact™ IO Isolated RTD/Resistance Module To remove the terminal block, loosen the upper and lower retaining screws. The terminal block will back away from the module as you remove the screws. Be careful not to damage the CJC sensors. When replacing the terminal block, torque the retaining screws to 0.46 Nm (4.1 in-lbs). 3.7.5 Wiring the Finger Safe Terminal Block When wiring the terminal block, keep the finger-safe cover in place. 1) Loosen the terminal screws to be wired.
Chapter 3: Installation and Wiring 3-11 3.7.6 Wiring the Module ! Attention To prevent shock hazard, care should be taken when wiring the module to analog signal sources. Before wiring any module, disconnect power from the system power supply and from any other source to the module. After the module is properly installed, follow the wiring procedure below, using the Belden 8761 cable. To wire your module follow these steps. 1) At each end of the cable, strip some casing to expose the individual wires.
3-12 Compact™ IO Isolated RTD/Resistance Module Figure 3-1 (Wiring Diagram) Jumper 3-wire RTD EXC 3 EXC 0 Sense 0 2-Wire RTD Sense 3 RTN 0 RTN 3 EXC 1 EXC 4 Sense 1 Sense 4 RTN 1 Jumper Potentiometer RTN 4 EXC 2 4-Wire RTD EXC 5 Sense 2 Sense 5 RTN 5 ` RTN 2 Leave one sensor wire open Section 3.8 Calibration The isolated RTD/resistance module is initially calibrated at the factory. The module must be returned to the factory for calibration. User’s Manual Pub. 0300241-01 Rev.
Chapter 4 Module Data, Status, and Channel Configuration After installing the 1769sc-IR6I Isolated RTD/Resistance Input Module, you must configure it for operation, usually using the programming software compatible with the controller (for example, RSLogix 500 or RSLogix 5000). Once configuration is complete and reflected in the ladder logic, you need to operate the module and verify its configuration.
4-2 Compact™ IO Isolated RTD/Resistance Module Section 4.2 Configuring Channels After module installation, you must configure operation details, such as RTD type, temperature units, etc., for each channel. Channel configuration data for the module is stored in the controller configuration file, which is both readable and writable. The configuration data file is shown below. Bit definitions are provided in Channel Configuration, below.
Chapter 4: Module, Data, Status, and Channel Configuration 4-3 Each channel configuration word consists of bit fields, the settings of which determine how the channel operates. See the table below and the descriptions that follow for valid configuration settings and their meanings. Table 4-2 (Channel Configuration) Bit Filter Frequency 4.17 Hz 10 Hz 16.7 Hz 19.
4-4 Compact™ IO Isolated RTD/Resistance Module 4.2.
Chapter 4: Module, Data, Status, and Channel Configuration 4-5 lowest temperature of -200°C corresponds to -32767 counts. The highest temperature of 850°C corresponds to +32767. Engineering Units x1 When using this data format for a RTD or resistance input, the module scales the RTD or resistance input data to the actual engineering values for the selected RTD or resistance input type. It expresses temperatures in 0.1°C or 0.1°F units for RTDs. For resistance inputs, the module expresses resistance in 0.
4-6 Compact™ IO Isolated RTD/Resistance Module Table 4-4 (Open-Circuit Response) Response Definition Option Upscale Sets the input data value to full upper scale value of channel data word. The full-scale value is determined by the selected input type and data format. Downscale Sets the input data value to full lower scale value of channel data word. The low scale value is determined by the selected input type and data format.
Chapter 4: Module, Data, Status, and Channel Configuration 4-7 19.6 Hz 53 msec 208 msec 5 Hz 2x(4.17 Hz values) From Appendix A NA 74 dB 62 Hz 18 msec 68 msec 14 Hz 4x(4.17 Hz values From Appendix A) NA NA 470 Hz 4 msec 10 msec 109 Hz 10x(4.17 Hz values) From Appendix A NA NA Effects of Filter Frequency on Noise Rejection The filter frequency that you choose for a module channel determines the amount of noise rejection for the inputs. A lower frequency (4.
4-8 Compact™ IO Isolated RTD/Resistance Module Module Update Time The module update time is defined as the total time required for the module to sample and convert the input signals of all enabled input channels and provide the resulting data values to the processor. On an isolated module with one ADC per channel, all channels convert the signal in parallel so the module update time is equal to the slowest channel update time.
Chapter 4: Module, Data, Status, and Channel Configuration 4-9 system using RSLogix 500, see Appendix B; for CompactLogix using RSLogix 5000, see Appendix C. Section 4.4 Input Data File The input data table allows you to access module read data for use in the control program, via word and bit access. The data table structure is shown in table below.
4-10 Compact™ IO Isolated RTD/Resistance Module 3) If A/D hardware errors prevent the conversion process from taking place, the bit condition is set (1). 4.4.3 Open-Circuit Flag Bits (OC0 to OC7) Bits OC0 through OC5 of word 6 contain open-circuit error information for channels 0 through 5, respectively. The bit is set (1) when an open-circuit condition exists. See Open-Circuit Detection on page 5-3 for more information on open-circuit operation. 4.4.
Chapter 5 Diagnostics and Troubleshooting This chapter describes troubleshooting the isolated RTD/Resistance input module. This chapter contains information on: • Safety considerations while troubleshooting • Internal diagnostics during module operation • Module errors Section 5.1 Safety Considerations Safety considerations are an important element of proper troubleshooting procedures.
5-2 Compact™ IO Isolated RTD/Resistance Module Circuits installed on the machine for safety reasons, like over-travel limit switches, stop push buttons, and interlocks, should always be hard-wired to the master control relay. These devices must be wired in series so that when any one device opens, the master control relay is de-energized, thereby removing power to the machine. Never alter these circuits to defeat their function. Serious injury or machine damage could result. Section 5.
Chapter 5: Diagnostics and Troubleshooting 5-3 Whenever a channel configuration word is improperly defined, the module reports an error. See pages 5-3 to 5-5 for a description of module errors. 5.4.2 Over or Under Range Detection Whenever the data received at the channel word is out of the defined operating range, an over-range or under-range error is indicated in input data word 7.
5-4 Compact™ IO Isolated RTD/Resistance Module Section 5.6 Module Error Definition Table Analog module errors are expressed in two fields as four-digit Hex format with the most significant digit as “don’t care” and irrelevant. The two fields are “Module Error” and “Extended Error Information”. The structure of the module error data is shown below.
Chapter 5: Diagnostics and Troubleshooting 5-5 If you set the fields in the configuration file to invalid or unsupported values, the module generates a critical error. Table 5-3 Extended Error Codes on page 5-5 lists the possible module-specific configuration error codes defined for the modules. Section 5.7 Error Codes The table below explains the extended error code.
5-6 Error Type Compact™ IO Isolated RTD/Resistance Module Extended Error Information Code (Binary) X414 Module Error Code (Binary) 010 0 0001 0100 An unused bit has been set for ch1 (C:e.1) X415 010 0 0001 0101 An unused bit has been set for ch2 (C:e.2) X416 010 0 0001 0110 An unused bit has been set for ch3 (C:e.3) X417 010 0 0001 0111 An unused bit has been set for ch4 (C:e.4) Hex Equivalent Error Description X418 010 0 0001 1000 An unused bit has been set for ch5 (C:e.
Appendix A Specifications Specification Module ID Codes Configuration Input Modes Input Types Excitation Current Description Vendor ID = 58 (Decimal) Product Type = 10 (Decimal) Product Code = 101 (Decimal) 6 isolated channels of RTD/resistance inputs Temperature or resistance 100 ohm PT 385 200 ohm PT 385 500 ohm PT 385 1000 ohm PT 385 100 ohm PT 3916 200 ohm PT 3916 500 ohm PT 3916 1000 ohm PT 3916 10 ohm Cu 426 120 ohm Ni 618 120 ohm Ni 672 604 ohm NiFe 0 - 150 ohm resistance, 0 - 500 ohm resistance,
A-2 Compact™ IO Isolated RTD/Resistance Module Fast Transient Burst (IEC61000-4-4) Surge Immunity (IEC61000-4-5) Conducted Immunity (IEC61000-4-6) 4 kV Fault detection Open circuit detection, over-range and under-range error bits. Open circuit detection time is equal to the channel update time. CMRR >100 dB at 50 Hz (4.17 Hz, 10 Hz, 16.7 Hz filter) >100 dB at 60 Hz (4.17 Hz, 10 Hz, 19.6 Hz filter) NMRR >65 dB at 50 Hz (4.17 Hz, 10 Hz, 16.7 Hz filter) >65 dB at 60 Hz (4.17 Hz, 10 Hz, 19.
Appendix A: Specifications Open Circuit Detection Time < 1s Isolation Channel to Rack Channel to Channel 500 VDC Maintained, 710 VDC for 1 minute 500 VDC Maintained, 710 VDC for 1 minute Cable Impedance 25 ohms maximum for specified accuracy, 10 ohms maximum for Copper RTD Input Protection Voltage Mode +/- 35VDC continuous Max Current input is limited due to input impedance Power Requirements Internal rack +5V Internal rack +24V Thermal Dissipation Distance Rating 190 mA maximum (continuous) 35 mA
A-4 Compact™ IO Isolated RTD/Resistance Module User’s Manual Pub. 0300241-01 Rev.
Appendix B Module Configuration Using MicroLogix 1500 and RSLogix 500 This appendix examines the 1769sc-IR6I module’s addressing scheme and describes module configuration using RSLogix 500 and a MicroLogix 1500 controller. Section B.1 Module Addressing The following memory map shows the input and configuration image tables for the module. Detailed information on the image table is located in Chapter 4. Memory Map Slot e Input Image File Input Image 8 words Slot e Configuration File User’s Manual Pub.
B-2 Compact™ IO Isolated RTD/Resistance Module For example, to obtain the general status of channel 2 of the module located in slot e, use address I:e.6/2. Note: The end-cap does not use a slot address. B.1.1 1769sc-IR6I Configuration File The configuration file contains information you use to define the way a specific channel functions. The configuration file is explained in more detail in Configuring Channels on page 4-2.
Appendix B: Module Configuration Using MicroLogix 1500 and RSLogix 500 B-3 Start RSLogix and create a MicroLogix 1500 application. The following screen appears: While offline, double-click on the IO Configuration icon under the controller folder and the following IO Configuration screen appears. This screen allows you to manually enter expansion modules into expansion slots, or to automatically read the configuration of the controller.
B-4 Compact™ IO Isolated RTD/Resistance Module Enter the settings from the table below. Table C-2 (Module ID Codes) Vendor ID 58 Product Type 10 Product Code 101 Series A Input Words 8 Output Words 0 Extra Data Length 12 After entering the data from the table above, the screen should look like the one shown below. Click the “OK” button when finished. To complete the configuration, double-click on the module from the IO configuration screen and select the “Generic Extra Data Config” tab.
Appendix B: Module Configuration Using MicroLogix 1500 and RSLogix 500 B-5 Enter the decimal equivalent of each configuration word. There are a total of 12 words that need to be configured. The module default settings are used if all the configuration words are left at zero. Refer to Chapter 4 for a complete description of each configuration word. User’s Manual Pub. 0300241-01 Rev.
B-6 Compact™ IO Isolated RTD/Resistance Module User’s Manual Pub. 0300241-01 Rev.
Appendix C Configuring the IR6I for CompactLogix Controllers in RSLogix 5000 The procedure in this example is used only when your 1769sc-IR6I Isolated RTD/resistance module add-on profile is not available. An add-on profile for the 1769scIR6I will be made available on our website (www.spectrumcontrols.com) after the initial release of the module.
C-2 Compact™ IO Isolated RTD/Resistance Module In the Controller Organizer on the left of the screen, right click on “CompactBus Local”, select New Module, and the following screen appears: This screen is used to narrow your search for I/O modules to configure into your system. From the list select the “Generic 1769 Module”. Click the OK button and the following default Generic Profile screen appears: User’s Manual Pub. 0300241-01 Rev.
Appendix C: Configuring the IR6I for CompactLogix Controllers in RSLogix 5000 C-3 First, select the Comm Format (“Input Data – INT” for the 1769sc-IR6I), then fill in the name field. For this example, “IR6I” is used to help identify the module type in the Controller Organizer. The Description field is optional and may be used to provide more details concerning this I/O module in your application.
C-4 Compact™ IO Isolated RTD/Resistance Module At this point you may click “Finish” to complete the configuration of your I/O module. Configure each I/O module in this manner. Section C.3 Configuring I/O Modules Once you have created a Generic Profile for 1769sc-IR6I Isolated RTD/resistance module, you must enter configuration information into the tag database that is automatically created from the Generic Profile information you entered.
Appendix C: Configuring the IR6I for CompactLogix Controllers in RSLogix 5000 C-5 Section C.4 Configuring a 1769sc-IR6I Isolated RTD/resistance Module To configure the 1769sc-IR6I module in slot 1, click on the plus sign left of Local:1:C. Configuration data is entered under the Local:1:C.Data tag. Click the plus sign to the left of Local:1:C.Data to reveal the 13 integer data words where configuration data may be entered for the 1769sc-IR6I module. The tag addresses for these 13 words are Local:1:C.
C-6 Compact™ IO Isolated RTD/Resistance Module User’s Manual Pub. 0300241-01 Rev.
Appendix D Configuring the IR6I to be Used with a 1769-ADN DeviceNet Adapter This application example assumes your 1769sc-IR6I isolated RTD/resistance input module is in a remote DeviceNet system controlled by a 1769-ADN DeviceNet adapter. RSNetworx for DeviceNet is not only used to configure your DeviceNet network, but is also used to configure individual I/O modules in remote DeviceNet adapter systems.
D-2 Compact™ IO Isolated RTD/Resistance Module Start RSNetworx for DeviceNet. The following screen appears: In the left column under Category, click on the “+” sign next to Communication Adapters. The list of products under Communication Adapters contains the 1769ADN/A. Should this adapter not appear under Communication Adapters, your RSNetworx for DeviceNet software is not version 6.00 or later. To continue, you will need to obtain an upgrade for your software.
Appendix D: Configuring the IR6I to be Used with a 1769-AND DeviceNet Adapter D-3 To configure I/O for the adapter, double-click on the adapter that you just placed on the network, and the following screen appears: At this point, you may modify the adapters DeviceNet node address, if desired. Next, click on the Module Configuration tab. The following screen appears: Section D.5 Configuring the 1769sc-IR6I The 1769-ADN appears in slot 0.
D-4 Compact™ IO Isolated RTD/Resistance Module click on the first empty slot after the 1769-ADN. From the module list on the left, select the 1769sc-IR6I. The module should appear in the empty slot. Double-click on the 1769sc-IR6I module in slot 1 and the following 1769sc-IR6I configuration screen appears: Enter 1 into the bank field at the bottom of the screen. By default, the 1769sc-IR6I module contains eight input words and no output words. Click on the “Advanced Parameters” tab.
Appendix D: Configuring the IR6I to be Used with a 1769-AND DeviceNet Adapter D-5 Click OK and your configuration for the 1769sc-IR6I isolated RTD/resistance input module is complete. Refer to your Compact™ I/O 1769-ADN DeviceNet Adapter user’s manual, publication number 1769-UM001A-US-P, for information concerning DeviceNet network configuration and operation. User’s Manual Pub. 0300241-01 Rev.
D-6 Compact™ IO Isolated RTD/Resistance Module User’s Manual Pub. 0300241-01 Rev.
Index A Accuracy, A-2 C Calibration, 3-12 Channel Configuration, 4-3 CompactLogix, C-1 Configuration Data File, 4-2 Critical Module Error, 5-3 Cut-Off Frequency, 4-7 Input Ranges, 1-2 Types, 1-2 Input Data File, 4-9 Input Filter Selection, 4-6 L LED, 1-4, 5-1, 5-2 Low Voltage Directive, 3-1 M D Data Format, 1-2 Data Formats, 4-4 Distance Rating, 2-2, 3-3, A-3 Door Label, 3-9 E Electrical Noise Reducing, 3-3 EMC Directive, 3-1 Engineering Units x1, 4-5 Engineering Units x10, 4-5 Error Codes, 5-5 Extend
RSLogix 5000, C-1 U S Scaled for PID, 4-5 Specifications, A-1 System Assembly, 3-4 System Operation, 1-4 Under Range Status, 4-10 Under-Range Detection, 5-3 Update Time Channel, 4-6 T Terminal Block Wiring Finger Safe, 3-10 User’s Manual Pub. 0300241-01 Rev.
Getting Technical Assistance Note that your module contains electronic components which are susceptible to damage from electrostatic discharge (ESD). An electrostatic charge can accumulate on the surface of ordinary plastic wrapping or cushioning material. In the unlikely event that the module should need to be returned to Spectrum Controls, please ensure that the unit is enclosed in approved ESD packaging (such as static-shielding / metalized bag or black conductive container).
©2009, Spectrum Controls, Inc. All rights reserved. Specifications subject to change without notice. The Encompass logo and ControlLogix are trademarks of Rockwell Automation. Corporate Headquarters Spectrum Controls Inc. P.O. Box 5533 Bellevue, WA 98006 USA Fax: 425-641-9473 Tel: 425-746-9481 Web Site: www.spectrumcontrols.com E-mail: spectrum@spectrumcontrols.com User’s Manual Pub. 0300241-01 Rev.