HE693BEM310 User Manual
Contents
1. e dete 6 CHAPTER 1 9 Tel Descriptions 9 1 2 9 1 8 Front Panel Connections 11 GHAPTER 2 OPERATION 13 2 1 Module Configuration ans osetia hie eee eae 13 2 1 1 Configuration Software 13 2 2 22 n t etna one dll dad edades 13 2 9 Module Il O Scarnnlirng odd eed tete bete ee eee 14 24 Mod le Diagnostiese ehe ehh htt 14 2 5 BUS DIEQNOSUCS ncn cedet tede 15 2 6 Device Level 16 GEIAAPTER S CONFIGURATION del dee eee eed 17 3 1 Starting Up SDSCFG Under LogicMaster 90 24 2 22 00 0 17 3 2 Starting Up SDSCFG 1 17 3 8 Checking Out the Screen 2 1000 eee ettaaaaaaaeeeeeeegegaaaaaeeeeeeee2. Scanning When a configured HE693BEM310 module powers up it scans the SDS network and makes a list of responding SDS devices Missing Node errors are placed in the Error Log for all SDS devices which did not respond and which were previously configured and enabled via the SDSCFG configuration utility For the configured devices which responded the HE693BEM310 module initializes their I O values as follows 1 The initial ON OFF states of all configured input devices are read and stored in the Input Table for subsequent transfer to the Series 90 30 CPU during ladder execution 2 If the ladder program is not running the ON OFF states of all configured output devices are initialized to OFF 3 Otherwise if the ladder program is running the ON OFF states of all configured output devices are initialized according to the Q Output Table obtained from the Series 90 30 CPU After the initial device scan described above the HE693BEM310 module communicates to SDS devices as follows 1 If the module receives an unsolicited Change of State message from a configured SDS input device the l Input Table is updated 2 If a bit in the Output Table changes the module sends a message to that bit s configured SDS output device to update the output s state 3 Every 40 mS the module interrogates one of the configured SDS devices in a round robin fashion to see if it is still available if it has come back a
3. Fanuc Series 90 30 PLC rack 2 Power up the Series 90 30 rack 3 Press MODE 4 ENTER to get into configuration mode 4 Press DOWN ARROW repeatedly until the HHP s LCD display shows the slot containing the HE693BEM310 module 5 If display does not show the slot as EMPTY press DEL ENTER to empty it 6 Press READ ENTER and optionally set the desired PLC start addresses for the module s SAI and Q registers The following sequence may be used to configure the Series 90 30 rack for an HE693BEM310 module via LogicMaster 90 1 Start up the LogicMaster 90 Configuration Package 24 10 11 31 JUL 2000 0048 02 Use the Foreign Module screen to configure the desired Series 90 30 slot for HE693BEM310 module Set number of Als to 1 or 3 and number of AQs to 1 These values must match the values previously selected during module configuration Set number of ls to the same number previously selected during module configuration Set number of Qs to the same number previously selected during module configuration Set the desired PLC start addresses for the module s Al AQ l and Q registers Set the Byte 1 parameter on right side of screen to 1 bytes 2 through 16 should be zero Download the configuration to the Series 90 30 rack Power down the Series 90 30 rack With the rack power off plug the HE693BEM310 module into the Series 90 30 slot selected during step 2 Power up the Series 9
4. Send configuration to printer Use the cursor keys to highlight the desired choice and then press enter If Store configuration to disk is selected SDSCFG will ask for a filename Type in a valid DOS filename without extension and then press enter The configuration currently shown on the PC screen will then be written to the file If the file already exists it will be overwritten otherwise it will be created If Store configuration to module is selected SDSCFG will attempt to communicate to the HE693BEM310 module and if successful will send the configuration currently shown on the PC screen to the module If Send configuration to printer is selected SDSCFG prints up to 9 pages the configuration currently shown on the PC screen IMPORTANT NOTE Note that if Send configuration to module is successful the module will store the new configuration in its EEPROM However the new configuration will not take effect until the next time the PLC rack powers up This is necessary to accommodate the rack configuration procedure described in Section 3 24 3 22 F4 Automatic ReMap Function Key The F4 key automatically adjusts SDS Device l Ref Adr and SDS Device Q Ref ADR parameters for ALL 64 SDS devices in an effort to eliminate any Overlap or Out of PLC Register Range errors that may exist and to minimize the amount of PLC I O required The remapping is done in two stages 0048 02 31 JUL 200
5. SDS Interface Configuration Utility start LogicMaster 90 select the User Command Menu by pressing F8 and use cursor keys to select Configure an SDS Interface Module from the User Command Menu See Chapter 3 for detailed instructions on using the SDSCFG configuration utility 2 2 Rack Configuration Rack configuration can be accomplished by either the Hand Held Programmer HHP or by LogicMaster 90 The purpose of rack configuration is mainly to specify the total number and type of PLC I O references assigned to the module I O Reference data is transferred between the module PLC CPU each sweep Rack configuration also is used to set some additional module parameters SDS network baud rate etc The I O References used by the HE693BEM310 as follows Quantity Type Size Description Direction 0 8 16 512 Bit Remote Digital Inputs CPU lt Module 0 8 16 512 Q Bit Remote Digital Outputs CPU gt Module 1 or 3 Word Fault Word CPU lt Module 1 AQ Fault Acknowledge Word CPU gt Module 14 31 JUL 2000 0048 02 2 IMPORTANT When configuring the PLC I O Rack the starting reference addresses and sizes for each I O type should EXACTLY match their equivalent global parameters previously configured into the HE693BEMS10 with the SDSCFG configuration program See Chapter 3 for detailed information on performing rack configuration via the Hand Held Programmer or LogicMaster 90 2 3 Module
6. WARRANTY SHALL BE DEEMED TO MEAN THAT PERSON FOR WHOM THE SDS Module IS ORIGINALLY INSTALLED THIS WARRANTY SHALL APPLY ONLY WITHIN THE BOUNDARIES OF THE CONTINENTAL UNITED STATES In no event whether as a result of breach of contract warranty tort including negligence or otherwise shall HE APG or its suppliers be liable of any special consequential incidental or penal damages including but not limited to loss of profit or revenues loss of use of the products or any associated equipment damage to associated equipment cost of capital cost of substitute products facilities services or replacement power down time costs or claims of original purchaser s customers for such damages To obtain warranty service return the product to your distributor with a description of the problem proof of purchase post paid insured and in a suitable package ABOUT PROGRAMMING EXAMPLES Any example programs and program segments in this manual or provided on accompanying diskettes are included solely for illustrative purposes Due to the many variables and requirements associated with any particular installation Horner APG cannot assume responsibility or liability for actual use based on the examples and diagrams It is the sole responsibility of the system designer utilizing SDS Module to appropriately design the end system to appropriately integrate the SDS Module and to make safety provisions for the end equipment as is usual and customary in indu
7. configured There are two steps associated with configuring the HE693BEM310 1 Module Configuration 2 Rack Configuration 2 1 Module Configuration The purpose of Module configuration is to specify where SDS devices are mapped on the SDS network and how much PLC I O is to be allocated to each one Module configuration is accomplished via the module s integral serial port using a personal computer based configuration program This configuration program SDSCFG EXE is included on a diskette shipped in the module box 2 1 1 Configuration Software Installation The configuration program works in conjunction with Logicmaster 90 30 BEFORE installing SDSCFG YOU MUST FIRST install LogicMaster 90 according to the instructions provided by GE Fanuc After successfully installing Logicmaster 90 30 on your personal computer hard drive you may install SDSCFG as follows Insert the diskette into the A or B drive Type A or B at the DOS prompt and press ENTER Type INSTALL m90path at the DOS prompt and press ENTER Select the PC AT serial port and parallel printer port to be used by SDSCFG when prompted for them The m90path optional parameter in step 3 is the DOS path where the LogicMaster 90 programming software was installed If omitted m90path is assumed to be C LM90 For example if LogicMaster 90 was installed in D UTIL LM90 type INSTALL D UTIL LM90 at the DOS prompt and then press ENTER To run the
8. will be available for mapping to SDS inputs The value of this parameter will be from 1 to 505 and must be byte aligned If the user enters a value which is out of range or is not byte aligned it will be adjusted automatically to the nearest legal value When this happens the user will be notified 3 7 Editing the PLC Size Parameter To change the PLC Size use the number keys to type in the new number of ls and then press the enter key The PLC Size parameter determines the total number of PLC ls which will be available for mapping to SDS inputs The value of this parameter will be from 0 to 512 and must be byte aligned If the user enters a value which is out of range or is not byte aligned it will be adjusted automatically to the nearest legal value When this happens the user will be notified 3 8 Editing the PLC Ref Adr Parameter To change the PLC Ref Adr use the number keys to type in the new reference address and then press the enter key The PLC Ref Adr parameter points to a block of PLC 0 registers which will be available for mapping to SDS outputs The value of this parameter will be from 1 to 505 and must be byte aligned If the user enters a value which is out of range or is not byte aligned it will be adjusted automatically to the nearest legal value When this happens the user will be notified 3 9 Editing the PLC 0 Size Parameter To change the PLC Q Size use the number keys to
9. 0 30 rack
10. 0 PAGE 23 All multiple input and or output SDS I O Devices are remapped first since their reference addresses must be byte aligned Then all single input and or output SDS I O Devices are remapped The single point SDS devices fill gaps caused by the multiple point SDS device s byte alignment requirement When remapping is complete a summary is displayed showing the highest PLC and Q which now mapped to SDS I O CAUTION The function key should be used primarily during initial application development Since F4 has the ability to change ALL SDS Device Map parameters it should be used with caution as a maintenance tool It s a good idea to save the previous configuration on disk and get a printout of it before using F4 3 28 F10 Zoom Into SDS Device I O Map Function Key Pressing the F10 key when one of the 64 SDS Device Map edit boxes is highlighted zooms into the Device s map for editing 8 Download the configuration to the Series 90 30 rack 3 24 Rack Configuration As mentioned previously rack configuration can be accomplished via the Hand Held Programmer HHP of via LogicMaster 90 In either case it is important to perform module configuration first The following sequence may be used to configure the Series 90 30 rack for an HE693BEM310 module via the Hand Held Programmer HHP 1 With the rack power off plug the HE693BEM310 module into an open I O slot of a GE
11. D STATE DESCRIPTION Green OFF Ladder Program is not Running Green ON Ladder program is running and the HE693BEM310 module s self test passed Red FLASHING The HE693BEM310 s SDS to PLC I O map is empty or no mapped SDS devices are responding Red OFF One or more unacknowledged SDS device faults have been logged Red OFF SDS device faults log is empty BUS FAULT _ MODULE OKC SDS CONTROLLER O RS 485 Communications The module RS 485 Comms port utilizes the standard GE Fanuc pinout The same communications adapters may be utilized to communicate to the SDS module as are used to communicate to the Series 90 30 during Logicmaster configuration and programming ZZOO oomnou SD SDS Network Wiring For network distances wire selection termination and other network wiring instructions see the SDS installation information provided by GE Micro Switch Bt SDS Table 1 3 SDS Network Wiring Terminal Signal Description Color 1 SHLD Cable Shield B SDS Signal White B SDS Signal Black V SDS Power Blue V SDS Power Brown 12 31 JUL 2000 0048 02 1 5 0048 02 31 JUL 2000 PAGE 13 CH 2 CHAPTER 2 OPERATION Before the HE693BEM310 can be used in a Series 90 30 PLC installation it must first be properly
12. HORNER APG User Manual for the HE693BEM310 SDS Interface for the GE Fanuc Series 90 30 PLC Second Edition 31 July 2000 0048 02 0048 02 31 JUL 2000 PAGE 3 PREFACE This manual explains how to use the Horner APG SDS Interface Module This manual describes the manner in which this module interfaces with the GE Fanuc Series 90 PLC and a network of SDS devices This document does not provide all the necessary details regarding the SDS network or the Series 90 30 PLC Documentation from GE MicroSwitch and GE Fanuc is necessary in order to successfully install a complete system Copyright C 2000 Horner APG LLC 640 North Sherman Drive Indianapolis Indiana 46201 All rights reserved No part of this publication may be reproduced transmitted transcribed stored in a retrieval system or translated into any language or computer language in any form by any means electronic mechanical magnetic optical chemical manual or otherwise without the prior agreement and written permission of Horner APG LLC All software described in this document or media is also copyrighted material subject to the terms and conditions of the Horner Software License Agreement Information in this document is subject to change without notice and does not represent a commitment on the part of Horner APG LLC Series 90 and Logicmaster are trademarks of GE Fanuc North America SDS is a trademark of Honeywell MicroSwitch Divisi
13. LC Qs to be mapped SDS I O devices 3 Individually maps each SDS I O Device to up to 32 PLC ls and 32 PLC Qs 4 Stores loads complete I O configurations to from disk file or to from the HE693BEM310 module 5 Prints complete configurations to printers with standard parallel interfaces or to network printers 1 2 Product Features Interfaces to SDS Remote I O Devices 1 through 64 Supports single and multiple point digital SDS I O Devices Maps SDS remote I O directly into Series 90 30 I O Reports SDS bus diagnostics with three or one and one AQ References up to 512 ls and 512 Qs in 8 point increments Configurable SDS Baud Rate from 125 KHz to 1 MHz Configuration utility integrated with LogicMaster 90 Two diagnostics LEDs El EI EI ELE EI EI RI 10 31 JUL 2000 CH 1 Table 1 1 Module Specifications Parameter MIN MAX UNITS l O Connector Specifications SDS Power Voltage 11 25 VDC SDS Power Load 15 MA SDS Signal Baud Rate 125 1000 KHz SDS Signal Driver Fanout 0 64 Devices Power Load Specifications 5VDC Logic 175 mA 24VDC Relay 0 mA 24VDC Isolated 0 mA Environmental Specification Operating Temperature 0 60 C Storage Temperature 40 85 C Humidity non condensing 5 95 RH 0048 02 0048 02 31 JUL 2000 PAGE 11 CH 1 1 3 Front Panel Connections Indications Table 1 2 Front Panel Indications LE
14. alue it will be adjusted automatically to the nearest legal value When this happens the user will be notified 3 19 1 Function Key As mentioned before the F1 function key gives a brief description and editing information for any highlighted parameter 22 31 JUL 2000 0048 02 3 20 2 Configuration Function Key The F2 key is used to get a complete configuration from a disk file or from an HE693BEM310 module When the F2 function key is pressed it brings up the following sub menu Load configuration from disk Load configuration from module Use the cursor keys to highlight the desired choice and then press enter If Load configuration from disk is selected SDSCFG will ask for a filename Type in the name of a file previously created via the F3 key without extension and then press enter If in and the screen will be updated with the new configuration If Load configuration from module is selected SDSCFG will attempt to communicate to the HE693BEM310 module and if successful will read in the module s current configuration and will update the PC screen with the new configuration 3 24 F3 Store Configuration Function Key The key is used to store a complete configuration to a disk file or to an HE693BEM310 module or to print a configuration When the F3 function key is pressed it brings up the following sub menu Store configuration to disk Store configuration to module
15. appears in the low byte 2 The device s error code in the Error Log is cleared 3 If the Error Log contains no more non zero error codes is set to zero and the red LED is turned OFF 4 Otherwise AI1 is loaded with Error Log fault information for the next device which has a non zero error code and the red LED remains ON In this manner the fault acknowledges word may be used to scroll the faults in the Error Log through the Al fault word Of course if the cause of a fault persists it may show up again after all other faults have been acknowledged 16 31 JUL 2000 0048 02 2 2 6 Device Level Diagnostics The BEM310 can support device level diagnostics provided that the module and rack have been configured for 3 AI analog input registers The fault data is reported in the following format Table 2 1 Fault Data High Byte Low Byte Register Byte 2 Byte 1 12 4 3 PAI Byte 1 of Al2 is contains the identical error code as Al1 Bytes 2 3 4 contain the device level diagnostic data Because the meaning of this data varies from device to device consult the SDS device manufacturer s documentation for more details 0048 02 31 JUL 2000 PAGE 17 CHAPTER 3 CONFIGURATION To configure the HE693BEM310 module a PC compatible computer is required The supplied SDSCFG EXE utility may be run from floppy disk or
16. aults The value of this parameter will be from 1 to 256 If the user enters a value which is out of range it will be adjusted automatically to the nearest legal value When this happens the user will be notified 3 13 Editing the PLC Size Parameter The number of AQs is fixed at one and can t be edited 3 14 Editing SDS Device Maps All SDS Devices which have mapped I O are marked with arrows lt gt question marks or upside down question marks as follows gt SDS Device s I O Map is OK SDS Device s I O overlaps another SDS Device s I O e SDS Device s I O is out of PLC I O Register range When F10 is pressed the PLC I O Registers edit box changes to the SDS Device I O Map for the highlighted SDS device At this point the UP and DOWN cursor keys select the SDS Device I O Map parameter to be edited while the RIGHT and LEFT cursor keys change which SDS Device s I O Map is being displayed 0048 02 31 JUL 2000 PAGE 21 3 15 Editing the SDS Device l Ref Adr Parameter To change the SDS Device l Ref Adr use the number keys to type in the new reference address and then press the enter key The SDS Device l Ref Adr parameter points to the first PLC l register which is mapped to the SDS Device s inputs The value of this parameter will be from 1 to 512 and must be byte aligned only if SDS Device l Size gt 1 multiple inputs If the user enters an illegal value it will be adjuste
17. d automatically to the nearest legal value When this happens the user will be notified 3 16 Editing the SDS Device l Size Parameter To change the SDS Device l Size use the number keys to type in the new number of ls and then press the enter key The SDS l Size parameter determines the number of PLC ls which are mapped to the SDS Device s inputs and will be from 0 to 32 If the user enters an illegal value it will be adjusted automatically to the nearest legal value When this happens the user will be notified 3 17 Editing the SDS Device Q Ref Adr Parameter To change the SDS Device Ref Adr use the number keys to type in the new reference address and then press the enter key The SDS Device Ref Adr parameter points to the first PLC Q register which is mapped to the SDS Device s outputs The value of this parameter will be from 1 to 512 and must be byte aligned only if SDS Device Q Size gt 1 multiple outputs If the user enters an illegal value it will be adjusted automatically to the nearest legal value When this happens the user will be notified 3 18 Editing the SDS Device Q Size Parameter To change the SDS Device Q Size use the number keys to type in the new number of Qs and then press the enter key The SDS Q Size parameter determines the number of PLC Qs which are mapped to the SDS Device s outputs and will be from 0 to 32 If the user enters an illegal v
18. eMap Function nnn 22 3 23 F10 Zoom Into SDS Device I O Map Function 23 3 24 E 23 8 31 JUL 2000 0048 02 5 0048 02 31 JUL 2000 PAGE 9 CH 1 CHAPTER 1 INTRODUCTION 1 1 Description HE693BEM310 is an intelligent remote I O option module for the GE Fanuc Series 90 30 Programmable Logic Controller PLC The HE693BEM310 interfaces to standard Honeywell SDS devices sensors and actuators which may be up to 1500 feet away and maps them directly into the Series 90 30 I O space The ladder programmer can treat the HE693BEM310 as a very high density e g 512 and 512 Q digital I O module In addition to the digital I O the HE693BEM310 reports SDS bus diagnostics via one and three For backwards compatibility with Rev A G the default number of diagnostic registers is one The additional two diagnostic registers contain device specific diagnostics not previously available on Rev A G Included with the HE693BEM310 module is a diskette containing the SDS Interface Module Configuration Utility SDSCFG EXE After installation SDSCFG runs as a menu item under the LogicMaster 90 User Command Menu and is used to configure the HE693BEM310 module as follows 1 Connects to the HE693BEM310 s integral serial port using the same PC AT COM port used by LogicMaster 2 Selects ranges of PLC ls and P
19. ependently To start SDSCFG as a stand alone utility type the following at the DOS prompt SDSCFG Cd Ld Vxx lt cr gt Where Cd Optional COMd port where d 1 to 4 defaults to COM1 Ld Optional LPTd port where d 1 to 3 defaults to LPT1 Vx Optional color settings where x 0 to 7F hexadecimal video attribute value defaults to 1E bright yellow on blue lt CR gt Carriage Return Enter 18 31 JUL 2000 0048 02 Esp sd eo smi E IESIESICSIESIERI SIE imc VEL ZZ IIo na Ref dr Agee 0 a2H as 46 4s met LH soll tH s2H sH sH sHs F2 Load Configuration 52H 5 se exH e2H 63H 64 Store Conf iguration F4 Automatic 1 0 ReMap Figure 3 1 Default Configuration 3 3 Checking Out the Screen When SDSCFG starts it shows a screen containing the HE693BEM310 module s default configuration and is ready for editing see above The box in the upper left hand corner of the screen contains the SDSCFG utility s title and version number The edit box just below the title box contains the global SDS Baud Rate parameter Note that this parameter s value is highlighted indicating that it may be edited Below the SDS Baud Rate box is an edit box containing the eight PLC I O Register global parameters On the right side of the screen are 64 edit boxes which represent SDS Dev
20. fter an absence or if it has any faults to report Each configured SDS device is interrogated once every 2 56 seconds 2 4 Module Diagnostics The SDS Interface module in addition to monitoring changes of state of SDS devices also periodically polls each device on the network to determine its status This round robin polling takes a maximum of 2 5 seconds to poll all the devices on the network The polling continues as long as all devices are healthy but is halted when a device is encountered which reports an error The SDS Interface module contains an error log which is 1 default or 3 registers long This error log is maintained in the registers assigned to the module The first register assigned to the module contains the Bus Diagnostics information If the module is assigned 3 registers the second two registers contain the device specific diagnostic data 0048 02 31 JUL 2000 PAGE 15 CH 2 2 5 Bus Diagnostics When an error is encountered the module reports the faulted device s address along with an error code to the first Al register called 96Al1 for the purposes of this discussion assigned to the module error code is reported to the high byte bits 9 16 of AI1 and the device number is reported to the low byte bits 1 8 Listed below are the definitions of the 8 error bits which may be reported by a device Bit 9 The SDS device s ROM checksum test failed Bit 10 The SDS device s watc
21. hdog timer has expired Bit 11 The SDS device has detected an idle bus Bit 12 The SDS device is not healthy Bit 13 The SDS device does not respond when interrogated Bit 14 Future diagnostic bit Bit 15 Future diagnostic bit Bit 16 The SDS device s EEPROM is not working properly To acknowledge the fault the AQ register assigned to the module should be toggled to a 1 If other SDS devices are in error 11 will scroll to the next faulted device If no other devices are faulted Al1 will clear provided the error condition has been corrected If all error codes in the Error Log are zero 11 will contain zero and the red LED will be OFF indicating that there are no SDS bus faults to report If the Error Log contains non zero error codes for one or more SDS devices AI1 will contain fault information for one of the devices and the red LED will be ON In this case AI1 will contain the error code in its high byte and the SDS device number in its low byte as discussed previously At power up AI1 will contain 0400H until the auto baud rate algorithm has completed and the HE693BEM310 module has successfully communicated to at least one SDS device The application ladder program running on the PLC changes the fault acknowledge word from 0 to 1 to acknowledge the fault indicated by the register This action performs the following 1 A Clear All Errors message is sent to the SDS device whose address
22. ice Addresses 1 through 64 The space to the left of each SDS Device Address is initially blank indicating that none of the devices has yet been mapped to any PLC NOTE SDS Device Addresses 65 through 126 are NOT supported The bottom left of the screen shows function keys F1 through F4 along with brief descriptions of what they do 3 4 Moving Around and Getting Help The PC s cursor keys are used to change which parameter is highlighted and therefore ready to be edited The TAB key switches between the edit boxes 2 on left side of the screen and the edit boxes 64 on the right side of the screen The ESCape key is used to escape or abort the current activity Pressing the 1 function key gives a brief description and editing information for the highlighted parameter 0048 02 31 JUL 2000 PAGE 19 3 5 Editing the SDS Baud Rate Parameter To change the SDS Baud Rate repeatedly press spacebar until the desired value is displayed The SDS Baud Rate parameter determines the maximum distance remote I O devices may be located from the HE693BEM310 according to the following table SDS Baud Rate Maximum Distance 125 KHz 1500 Feet 250 KHz 600 Feet 500 KHz 300 Feet 1 MHz 75 Feet 3 6 Editing the PLC l Ref Parameter To change the PLC Ref Adr use the number keys to type in the new reference address and then press the enter key The PLC Ref Adr parameter points to a block of PLC l registers which
23. may be copied to the PC s hard disk and run from there See page 20 for information on how to install SDSCFG so that it may be run as a User Command Menu item under LogicMaster 90 Using SDSCFG complete HE693BEM310 module configurations may be created offline without connecting the PC to the module and may be printed or saved to disk files for later retrieval To send a configuration to the HE693BEM310 module or to get a configuration from the module it is necessary to connect the PC to the module as follows 1 With the rack power off plug the HE693BEM310 module into an open I O slot of a GE Fanuc Series 90 30 PLC rack 2 Plug an SNP to RS232 adapter g HE693SNP232 into the 15 pin female D RS485 port on the HE693BEM310 module 3 Use a 9 pin female D to 9 pin female D straight through cable to connect the adapter to one of the PC s RS232 COM ports If the PC is equipped with 25 pin COM ports use a standard 25 pin female to 9 pin male adapter at the PC end 4 Power up the Series 90 30 rack 3 1 Starting Up SDSCFG Under LogicMaster 90 If SDSCFG was installed according to the instructions in Chapter 2 it may be run as a User Command Menu item under LogicMaster 90 In this case start SDSCFG by first starting LogicMaster 90 then select the User Command Menu by pressing F8 and finally use cursor keys to select Configure an SDS Interface Module from the User Command Menu 3 2 Starting Up SDSCFG Ind
24. on For user manual updates contact Horner APG Technical Support Division at 317 916 4274 or visit our website at www heapg com 4 31 JUL 2000 0048 02 LIMITED WARRANTY AND LIMITATION OF LIABILITY Horner APG LLC HE APG warrants to the original purchaser that the SDS Module manufactured by HE APG is free from defects in material and workmanship under normal use and service The obligation of HE APG under this warranty shall be limited to the repair or exchange of any part or parts which may prove defective under normal use and service within two 2 years from the date of manufacture or eighteen 18 months from the date of installation by the original purchaser whichever occurs first such defect to be disclosed to the satisfaction of HE APG after examination by HE APG of the allegedly defective part or parts THIS WARRANTY IS EXPRESSLY IN LIEU OF ALL OTHER WARRANTIES EXPRESSED OR IMPLIED INCLUDING THE WARRANTIES OF MERCHANTABILITY AND FITNESS FOR USE AND OF ALL OTHER OBLIGATIONS OR LIABILITIES AND HE APG NEITHER ASSUMES NOR AUTHORIZES ANY OTHER PERSON TO ASSUME FOR HE APG ANY OTHER LIABILITY IN CONNECTION WITH THE SALE OF THIS SDS Module THIS WARRANTY SHALL NOT APPLY TO THIS SDS Module OR ANY PART THEREOF WHICH HAS BEEN SUBJECT TO ACCIDENT NEGLIGENCE ALTERATION ABUSE OR MISUSE HE APG MAKES NO WARRANTY WHATSOEVER IN RESPECT TO ACCESSORIES OR PARTS NOT SUPPLIED BY HE APG THE TERM ORIGINAL PURCHASER AS USED IN THIS
25. seensaaeeeeeees 18 3 4 Moving Around and Getting 18 3 5 Editing the SDS Baud Rate 2 nnne nnns 19 3 6 Editing the PLC l Ref Adr 2 19 37 Editing the l Size nnne nnn 19 38 Editing the PLC Q Ref Adr 19 3 9 Editing the PLC Q Size Parameter 19 3 10 Editing the PLC Ref Adr 20 3 11 Editing the PLC AI Size 20 3 12 Editing the PLC AQ Ref Adr Parameter 2 20 3 13 Editing the PLC AQ Size Parameter nnne nnne 20 3 14 Editing SDS Device I O 20 3 15 Editing the SDS Device l Ref Adr Parameter 21 3 16 Editing the SDS Device l Size 21 3 17 Editing the SDS Device Q Ref Adr 21 3 18 Editing the SDS Device Size 21 3 19 maus EET 21 3 20 F2 Load Configuration Function nennen nnn nnn 22 3 21 Store Configuration Function 22 3 22 F4 Automatic I O R
26. strial applications as defined in any codes or standards which apply Note The programming examples shown in this manual are for illustrative purposes only Proper machine operation is the sole responsibility of the system integrator 0048 02 31 JUL 2000 PAGE 5 WHAT S NEW This manual describes Release of the HE693BEM310 SDS Remote I O Interface Module Also defined is Version 2 2 of the SDSCFG EXE Configuration Utility which is used to configure HE693BEM310 modules The following notes may be of interest to users of previously released HE693BEM310 modules Release H of the HE693BEM310 module conforms to MicroSwitch Specification GS 052 103 Issue 2 which is entitled SDS Application Layer Protocol Specification Second Edition dated February 15 1995 1 above version of the SDS specification differed from previous versions its definition of SDS device attribute 0 Object Model Data Descriptor This disparity affected the compatibility between previously released HE693BEM310 modules and SDS I O devices which have multiple inputs and or multiple outputs MIMO per SDS device address With release H this incompatibility has been resolved 2 HE693BEM310 release now supports SDS I O devices with up to 32 binary inputs and or 32 binary outputs 3 HE693BEM310 release H also supports extended attribute 9 SDS I O device diagnostics as defined MicroSwitch Specification GS 052 107 Issue 1 0 which is en
27. titled SDS Component Modeling Specification First Issue dated January 29 1995 This is accomplished by configuring the HE693BEM310 module for up to two additional Series 90 30 AI registers The default number of registers is 1 for backward compatibility with earlier modules 4 The new SDSCFG EXE Configuration Utility Version 2 2 MUST be used to configure an HE693BEM310 Release module and also supports HE693BEM310 Releases C through G In addition configuration files created using SDSCFG EXE Versions 2 0 or 2 1 are compatible with SDSCFG EXE Version 2 2 thus ensuring backward compatibility in this area 5 The behavior of the diagnostic LEDs has been altered to be more straightforward and to better assist the user in network troubleshooting 6 The firmware which supports the 5485 configuration serial port has been improved for greater reliability 6 31 JUL 2000 0048 02 Revisions to This Manual This version 0048 02 of the SDS Module User Manual contains the following revisions additions and deletions 1 Converted manual into Word format 2 Changed company name from Horner Electric Inc to Horner APG LLC 0048 02 31 JUL 2000 PAGE 7 Table of Contents PREFA CE Dd Out 3 ABOUT PROGRAMMING 4 Revisions to 77018 Manual 4
28. type in the new number of Qs and then press the enter key 20 31 JUL 2000 0048 02 The PLC 0 Size parameter determines the total number of PLC Qs which will be available for mapping to SDS outputs The value of this parameter will be from 0 to 512 and must be byte aligned If the user enters a value which is out of range or is not byte aligned it will be adjusted automatically to the nearest legal value When this happens the user will be notified 3 10 Editing the PLC Ref Adr Parameter To change the PLC AI Ref Adr use the number keys to type in the new reference address and then press the enter key The PLC Ref Adr parameter points to the PLC 96AI register s which will be used to report SDS bus faults The value of this parameter will be from 1 to 1024 If the user enters a value which is out of range it will be adjusted automatically to the nearest legal value When this happens the user will be notified 3 11 Editing the PLC AI Size Parameter The number of Als is either 1 or 3 The default number is 1 for backward compatibility with module Rev A G The value must be changed to 3 for device level diagnostics to be supported 3 12 Editing the PLC Ref Adr Parameter To change the PLC Ref Adr use the number keys to type in the new reference address and then press the enter key The PLC Ref Adr parameter points to the PLC which will be used to acknowledge SDS bus f
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