C500TS502 Omron, C500TS502 Datasheet

Page 1

SYSMAC C1000H/C2000H CV1000/CV2000/CVM1 C500-TS502 RTD Input Module Operation Manual January 1996 ...

Page 2

...

Page 3

... OMRON. No patent liability is assumed with respect to the use of the information contained herein. Moreover, because OMRON is constantly striving to improve its high- -quality products, the information contained in this manual is subject to change without notice ...

Page 4

ii ...

Page 5

TABLE OF CONTENTS SECTION ...

Page 6

Filtering . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...

Page 7

Terminology . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...

Page 8

Default Settings 1- -1 Terminology The following terms are used throughout this manual. Review these terms as necessary. Note: Caution: DANGER!: 2 Word Mode 4 Word Mode Data Memory Bit LSB Jumper Pins (8 sets of 8 pins) Jumpers (16) ...

Page 9

Default Ladder Programs 1- -3 Default Settings Default settings for the rotary switches and jumpers, data format, and memory map are factory set to a 4-wire,100 Ω Platinum RTD. The mode jumper is set to 2-word mode. 1- -3- -1 ...

Page 10

Default Ladder Programs 4 Section 1- -4 ...

Page 11

Unpacking the Module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...

Page 12

Module Identification 2- -1 Unpacking the Module To unpack the module, open the shipping carton and slide out the corrugated insert containing the module. Remove the module from the insert, making sure to retain the installation slip which accompanies the ...

Page 13

Indicators and RS-232C Connector 2- -4 Indicators and RS-232C Connector The indicator lights and the RS-232C connector are located behind the indi- cator cover. To access this area of the module, remove the indicator cover by rotating it clockwise or ...

Page 14

Jumpers and DIP Switches 2- -5 Setting the Rotary Switches and Jumpers 2- -5- -1 RTD Type There are eight rotary switches located in the back of the module. Each switch has a slotted dial which will accommodate a small, ...

Page 15

Installation Requirements . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...

Page 16

Installation Requirements Installation Requirements 3- -1 Installation Requirements 3- -1- -1 Signal Requirements Before setting input ranges, make sure to review the application require- ments, temperature ranges, and input cable configuration. RTD probes usu- ally have three signal wires but ...

Page 17

Setting RTD Input Range 3- -2 Setting RTD Input Range The C500-TS502 RTD Input Module is initially set at the factory to a 100 Ω Platinum Type. This module can be set to 3 different RTD types. Setting input ranges ...

Page 18

Wiring the Module 3. Note: Make settings to the rotary switch and to its corresponding jumper block for the designated input point. In the back of the module, the rotary switch lo- cated nearest to the top of the module ...

Page 19

Wiring Diagrams 3- -4 Wiring Diagrams The module can accept a variety of input signals. The following diagrams show the various input signal wiring configurations. 3- -4- -1 Module Front End The diagram below is a simplified schematic of the ...

Page 20

Wiring the Module 3- -5 Mounting the Module to the Backplane When mounting the module on the backplane, make sure that it seats in the backplane slot, then tighten the top and bottom captive screws. For mounting location see below. ...

Page 21

Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...

Page 22

Overview 4- -1 Overview The C500-TS502 RTD Input module offers maximum application flexibility and high performance processing by combining the latest in analog and soft- ware technology to provide: • Flexible configuration options • High point density • High accuracy ...

Page 23

Overview Celsius 851 0 -201 BCD 8201 Binary (Temp x 10) F826 Binary (Temp x 10) 213E Reported data °C Celsius 260 0 -81 BCD 8081 Binary (Temp x 10) FCD6 Binary (Temp x 10) OA28 Reported data °C 4- ...

Page 24

Overview CV-Series 000000 000004 000010 C-Series 000000 000004 00011 18 A50013 (020) [ COMP S=xxxx #8000 Always ON A50005 (104) [ NEG >Flag (030) A50006 [ MOV =Flag (103) [ BCDL (131) [ ORW #8000 020000 (103) [ BCDL Less ...

Page 25

Overview The temperature scale, * tion 29 bits 00-07. 4- -1- -4 Block Diagram The following diagram shows a simplified schematic of the module. The in- puts are different for each point. See Section 3 for field wiring examples. Analog- ...

Page 26

Data Formats 4- -2 Module Data Formats The module memory map consists of 16 bit words that contain either data or are bit oriented as flags or bits. The module can be configured to report data in two different formats. ...

Page 27

Intelligent Functions 4- -3 Intelligent Functions 4- -3- -1 Intelligent Function Processing Overview The C500-TS502 is microprocessor based and can perform a number of in- telligent functions on the converted data before putting it in the module memory map where ...

Page 28

Intelligent Functions 4- -3- -2 Scaling Description The scaling function can be used to perform conversion of data to engineer- ing units prior to transfer to the PLC. With this feature enabled, the module maps the selected range of the ...

Page 29

Intelligent Functions To use the scaling function for each input point do the following -3- -3 Averaging The averaging function can be used to perform averaging of many samples of data prior to reporting the value to ...

Page 30

Intelligent Functions 4- -3- -5 Peak Hold The peak hold function can be used to detect peak conversion values of rap- idly changing analog input signals. These values are stored in separate memory locations in the module memory map. This ...

Page 31

Module Internal Processing 4- -3- -7 EEPROM Functions The module has an internal EEPROM memory which stores the module memory map. When power is applied, the module uploads the EEPROM to RAM and begins execution using the RAM values in ...

Page 32

Module Internal Processing 26 Section 4- -4 ...

Page 33

Module Memory Map . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ...

Page 34

Module Memory Map 5- -1 Module Memory Map The C500-TS502 has internal RAM for storage of operating parameters dur- ing execution. Internal EEPROM memory provides non-volatile storage for these parameters without the need for batteries. Both memory areas have a ...

Page 35

Module Memory Map Read/ Memory Bits Input map word point write thru thru ...

Page 36

Module Memory Map Read/ Memory Bits map word write ...

Page 37

Module Memory Map Read/ Memory Bits Input map word point write R thru 8 R thru 8 R thru 8 R ...

Page 38

Module Memory Map Read/ Memory Bits map word write ...

Page 39

Interface to the PLC using 2-Word Mode 5- -2- -1 Using the Module Memory Map Configuration Sheet To assist in the custom configuration of the module, a Configuration Work- sheet has been provided in Appendix D. Values for all intelligent ...

Page 40

Programming Examples of 2-Word Mode Input Word I/O word Bit Description 0 Reserved 1 Reserved 2 Reserved 3 Unconfirmed data error 4 Conversion error 5 Low/high alarm error Word - N+1 6 Out of range error ...

Page 41

Programming Examples of 2-Word Mode 5- -4- -3 Writing Data to the Module - I/O Write This section describes the use of the pointer word with the I/O write ladder instruction. For additional information regarding the I/O write instruction, see ...

Page 42

Programming Examples of 2-Word Mode Example 1 WRITE Data Memory to the Module Memory Map This example show how to write the entire Module Memory Map Write area (Locations 25-77). These are the user configurable locations in the Module Memory ...

Page 43

Programming Examples of 2-Word Mode Example 1 READ Alarm and Conversion Data from the Module This example shows how to read the first 19 words from the Module Memory Map, assuming the pointer word is 0000. This data includes the ...

Page 44

Programming Examples of 2-Word Mode 5- -4- -5 Typical Programming Examples Examples 1 through 4 are typical ladder diagrams that show the flexible access to the module set up and in- telligent functions. Example 1 Configuring the Scaling Function This ...

Page 45

Programming Examples of 2-Word Mode Example 2 Configuring the Alarm Function This example shows how to configure the alarm function for specific input points. See Section 4 for general information on using the alarming function. CV-Series 000000 000007 000014 000021 ...

Page 46

Programming Examples of 2-Word Mode Example 3 Configuring the Filtering Function This example shows how to configure the filtering function for specific input points. See Section 4 for general information on using the filtering function. C-Series 000000 000007 000014 000021 ...

Page 47

Programming Examples of 2-Word Mode Example 4 Configuring the Averaging Function This example shows how to configure the averaging function for specific input points. See Section 4 for gener- al information on using the averaging function. C-Series 000000 000007 000014 ...

Page 48

Interface to the PLC using 4-Word Mode 5- -5 Interface to the PLC using 4-Word Mode The C500-TS502 Analog Input Module communications with the program- mable controller using the 4-Word Mode when the 2/4-Word Mode Jumper is set in the ...

Page 49

Interface to the PLC using 4-Word Mode Input Words I/O Bit(s) Description Word 00-15 Read Data Word N+2 N+3 00-02 03 Data Transfer Sequence Error Flag 04 Input Point Specific Low/High Alarm Flag 05 Input Point Specific Out of Range ...

Page 50

Interface to the PLC using 4-Word Mode 5- -5- -2 Protocol The 4-Word Mode Interface provides four status bits for handshaking during communications between the module and the PLC. These bits are read and written through PLC ladder logic and ...

Page 51

Interface to the PLC using 4-Word Mode Read Sequence Timing Diagram The proper sequence of reading to the module memory map is shown in the following timing diagram. The sequence of the four events with PC Write Fin- ished, TS ...

Page 52

Programming Examples of 4-Word Mode 5- -6 Programming Examples of 4-Word Mode 5- -6- -1 Writing Data to the Module Example 1 Write a Single Memory Map Location The RTD Module occupies locations 002, 003, 004, and 005. In this ...

Page 53

Programming Examples of 4-Word Mode Example 2 Writing a Block of Memory Map Locations The RTD Module occupies locations 002, 003, 004, and 005. This example writes a block of data from PLC memory locations D00225 thru D00277 to module ...

Page 54

Programming Examples of 4-Word Mode 5- -6- -2 Reading Data from the Module Example 1 Reading a Single Memory Map Location The RTD Module occupies locations 002, 003, 004, and 005. This example, the data value from DM62 is stored ...

Page 55

Programming Examples of 4-Word Mode Example 2 Reading a Block of Memory Map Locations The RTD Module occupies locations 002, 003, 004, and 005. This example reads a block of data from module locations DM01 thru DM18 and stores it ...

Page 56

Programming Examples of 4-Word Mode 5- -6- -3 Setting and Resetting, Enables and Resets Example 1 Reset Low/High Alarm C-Series Example 2 Enable Write from Serial Port CV-Series 5- -6- -4 Programming Note Most programs will contain programming for both ...

Page 57

Using the Heartbeat 5- -7 Using the Heartbeat The Module Good Flag, in both 2-word and 4-word modes, pulses rate (0.5 second ON, 0.5 second OFF) with a 45-55% duty cycle. This is the heartbeat. It indicates ...

Page 58

Using the Heartbeat 52 Section 5- -7 ...

Page 59

Standard Models and Manuals Name C500-TS502 8 Point RTD Input Module Manual for C500 TS502 CV Installation Manual -- CV Operation Manual: -- Ladder Diagram C Installation Manual -- C Operation Manual -- CVSS CV Support Software LSS Ladder Support ...

Page 60

Standard Models and Manuals 54 Appendix A ...

Page 61

... Signed BCD 2’s Complement binary Configurable from CV or serial port (jumper selectable) Intelligent I/O read/write instructions for OMRON C, CV, CVM1 series RAM EEPROM for memory map storage Run, error, range, comm error, transmit/receive 32 point terminal block ...

Page 62

Specifications 56 Appendix B ...

Page 63

C500-TS502 RTD Module Unit: mm (inch) APPENDIX C Dimensions 34.5 127 (1.36) (5.00) 250 (9.84) 57 ...

Page 64

Dimensions 58 Appendix C ...

Page 65

C500-TS502 8-Point RTD Input Module Configuration Worksheet Bit 15 Data Module Input point 8 memory memory memory memory Function map Input point 25 enable bits Input point peak hold enable bits 26 Input point binary/BCD select enable bits Input point ...

Page 66

Configuration Worksheet Data Module Function memory memory map 46 Filtering time constant -- input point 1 47 Filtering time constant -- input point 2 48 Filtering time constant -- input point 3 49 Filtering time constant -- input point 4 ...

Page 67

Module Memory Map Values and Functions Data/flag Module Read/ memory write Input point alarm 00 R and invalid data error flags Input point conversion data Input point alarm flags Input point peak ...

Page 68

Module Memory Map Values and Functions 62 Appendix E ...

Page 69

A manual revision code appears as a suffix to the catalog number on the front cover of the manual. The following table outlines the changes made to the manual during each revision. Page numbers refer to the previous version. Revision ...

Page 70

... Cat. No. H03TAZ1 1095-250 For Information Call: 1- -800- -55- -OMRON (1- -800- -826- -6766) OMRON E LECTRONI CS LLC One East Commerce Drive Schaumburg, IL 60173 Authorized Distributor: Specifications subject to change without notice.  Printed in U.S.A. ...