ETN1xx + Sup
Contents
1. 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 the SmartStack Ethernet Module to appropriately design the end system to appropriately integrate the SmartStack Ethernet Module and to make safety provisions for the end equipment as is usual and customary in industrial 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 SUP0341 02 03 JAN 2001 PAG2. GONFIGURATION nme 17 Si Tems A NN 17 3 2 Suggested Order of Configuration Refer to Terms Parameters in Section 3 1 18 3 3 Configuration PrOCCCUPSS aii 2 nennen erbeten 19 INDEX ivi 43 PAGE 8 03 JAN 2001 SUP0341 02 PREFACE SUP0341 02 03 JAN 2001 PAGE 9 CH 1 CHAPTER 1 INTRODUCTION 1 1 General The SmartStack Ethernet Module HE800ETN100 is designed for use with Operator Control Station OCS products in an Ethernet network An example Ethernet network containing ETN100 modules is depicted in Figure 1 1 Series 90 30 CONVEYOR Mini with CDC200 CONTROLLER ROS OCS OCS Note This device can not be used in a DeviceNet Network ren or DeviceNet Network BSR optional fl OCS Note An Ethernet Hub is required Switches are not ETN 100 recommended for Ethernet Global Data EGD mode A 10BaseT because they may not be ETHERNET Cable able to pass multicast HUB messages ETN 100 Series 90 30 PC OCS 364 CPU GroupX Figure 1 1 Example of an Ethernet Network PAGE 10 03 JAN 2001 SUP0341 02 CH 1 Table 1 1 ETN100 Specifications Network 10 BaseT Ethernet Modes Supported E Status LEDs Receive Size of a Single Exchange 1 400 Bytes Transmit Total size is the sum of data Collision type lengths of all data Link OK elements within the
3. Name Add Range Insert Range Delete Range Edit Range DK Cancel Apply Help A c ter Figure 3 7 Ethernet Global Data Screen PAGE 24 03 JAN 2001 SUP0341 02 CH 3 10 At this point in the configuration it is important to understand a How to create separate nodes Interaction between produced and consumed exchanges b How to set up an individual node in detail using IP Addresses and Group IDs Items a and b are covered step by step in the following examples 10a How to create separate nodes Interaction between produced and consumed exchanges Note This example has been purposely kept very simple to demonstrate how to set up two separate nodes Node 1 and Node 2 Step 1 Refer to Section 3 2 Items a and b They cover important terms needed to perform this configuration and the initial steps required to be taken prior to configuring the ETN100 In this example Nodes 1 and 2 are going to be configured as follows Figure 3 8 depicts how produced and consumed exchanges interact Exchange 1 produced by Node 1 Node 2 consumes Exchange 1 Exchange 1 sends 10 words of data every 100msec to 192 168 0 2 Node 1 IP Address 192 168 0 1 Exchange 2 produced by Node2 Node 1 consumes Exchange 2 Exchange 2 sends 5 words of data at least every 200msec to 192 168 0 1 Figure 3 8 Identifying Parameters for Nodes 1 and 2 prior to Configuration Step 2 Follow steps 1 6 in Section 3 3 Configuration Pro
4. and the check box enabling the protocol The ETN100 acts a Server and responds to Requests from all Clients SRTP can be used simultaneously with all other protocols available on the ETN100 1 5 ICMP Ping Mode The ICMP Ping mode is used for diagnostic purposes only It functions similarly as depicted in Figure 1 2 except that an internally generated ping signal is produced and consumed The user can then check the response time The procedures are covered in Section 3 3 Step 8a PAGE 14 03 JAN 2001 SUP0341 02 CH 1 NOTES SUP0341 02 03 JAN 2001 PAGE 15 CH 2 CHAPTER 2 INSTALLATION 2 1 General All applicable codes and standards are to be followed in the installation of this product For detailed installation information refer to Chapter Two in the Control Station Hardware Manual MANO227 A handy checklist is provided that covers panel box layout requirements and minimum clearances 2 2 Connector Ethernet Connector IN Close up of Ethernet Connection Mm 00000 000000 OCS Bottom View Figure 2 1 Ethernet Connector 2 3 Registers The ETN100 has no predefined registers All registers are defined by the user 2 4 LEDs Table 2 1 LEDs for ETN100 Pele COL Collision Red lamp indicates collisions of data on the MODULE Ethernet TX Transmit _ Yellow lamp indicates data is being transmi
5. at least every 100msec from Exchange 4 Exchange 4 is sent from 192 168 0 2 Node 1 is set to consume Exchange 5 at least every 500 msec Exchange 5 is sent from 192 168 0 16 Also Node 1 is set to consume Exchange 6 every 600msec Exchange 6 is sent from 192 168 0 30 which is a part of Group 5 In this case the user has designated 192 168 0 30 as the output device in the group Reminder Refer to Figure 3 24 to recall the desired configuration parameters for this example PAGE 42 03 JAN 2001 SUP0341 02 CH 3 NOTES SUP0341 02 INDEX Configuration Procedures 19 Configuration Suggested Order 18 Configuring Group IDs 34 Configuring IP Addresses 34 Connector Ethernet 15 Consuming Device 17 Creating Separate Nodes 24 Data Watch Window 23 EGD Exchange 17 Ethernet Global Data EGD Mode 10 Exchange Example 11 Group ID 10 O Map Tab 21 ICMP Ping Mode 13 ICMP Ping 18 IP Address 10 LEDs 15 03 JAN 2001 PAGE 43 Memory Range 18 Modes 10 Module Setup Tab 22 Overview 10 Parameters definitions 17 Produced Period 17 Producer ID 18 Producing Device 17 Specifications 10 SRTP Service Request Transport Protocol 12 Status 12 Subnet Mask 18 Technical Resources 16 Terms 17 Timestamp 11 Update Timeout 18 PAGE 44 03 JAN 2001 SUP0341 02
6. exchange is being sent to more than one consuming device click Group ID In this case IP Address is clicked In the IP Address block enter the decimal dotted address of the node that Exchange 1 is being sent to In other words enter the IP Address of the node that will consume Exchange 1 For Production Period enter the time in milliseconds to indicate how often data is produced sent on to the network Click OK PAGE 26 03 JAN 2001 SUP0341 02 CH 3 The following screen appears Add 7 Edit Exchange TE Exchange Number IP Address C Group ID IP Address 792 168 0 2 Production Period 7 00 Reply Rate caca Figure 3 12 Produced Exchange for Node 1 If it is necessary to edit Exchange 1 highlight it and click Edit Exch If it needs to be deleted click Delete Exch Step 4 If the user is satisfied with the Exchange selection memory range parameters must be provided for the selected exchange number The Ranges for Selected Exchange located on lower screen indicates the memory range for a specified produced exchange Note that numerous exchange numbers can be created However in this example only one Exchange Number has been created Highlight the Exchange Number as depicted in Figure 3 12 and then click Add Range The following screen appears Add 1 0 Range to Exchange x Type Data y Address 4001 v Number of Registers OK Cancel OK Figure 3 13 Produced Exchange Memory Range f
7. list Maximum Exchanges 127 possible Maximum Open 32 Open Connections per ETN100 exchanges Connections per ETN100 produced consumed or any produced consumed or any combination thereof An Open Connection is an IP Address or Group that is produced or consumed combination thereof General Specifications Required Power Steady State CE Pending Required Power Inrush UL Pending Relative Humidity 5 to 95 Non condensing Terminal Type Shielded RJ 45 Operating Temperature 0 to 60 Celsius Weight 1 9 g 9 5 oz 1 2 Overview Modes of Operation Figure 1 1 depicts an overview of an Ethernet network The ETN100 has three modes of configuration EGD Ethernet Global Data SRTP Service Request Transport Protocol and ICMP Ping a IP Address Each node in the network is assigned a unique IP Address which is represented by 4 dotted decimal numbers In existing networks IP Addresses are assigned by Network Administrators For users who need to build a network the recommended IP Address is 192 168 0 x where x 01 254 addressable nodes These are IP Addresses that are set aside for private internal IP Addresses per InterNIC b Group ID In some instances a group of 2 or more devices are configured to consume or receive an exchange from a producer A group consists of any node that produces or transfers exchanges to 2 or more nodes
8. 3 2 ltems a and b They cover important terms needed to perform this configuration and the initial steps required to be taken prior to configuring the ETN100 In the following configuration example Node 1 needs to produce or send various exchanges to different IP Addresses and to Group ID 5 Node 1 also needs to consume or receive various exchanges from different IP Addresses and Group ID 5 For this example Figure 3 24 depicts how the nodes need to be configured to interact with one another in terms of Produced Exchanges and Consumed Exchanges Exchange 1 produced by Node 1 Node 2 consumes Exchange 1 Exchange 1 sends 20 words of data every 100msec to 192 168 0 2 NODE 2 Exchange 4 produced by Node2 Node 1 consumes Exchange 4 IP Address Exchange 4 sends 5 words of data at least every 200msec to 192 168 0 2 192 168 0 1 Exchange 2 produced by Node 1 Node 3 consumes Exchange 2 Exchange 2 sends 10 words of data every 250msec to 192 168 0 16 NODE 3 IP Address 192 168 0 1 Exchange 5 produced by Node2 Node 1 consumes Exchange 5 IP Address Exchange 5 sends 8 words of data at least every 500msec to 192 168 0 16 192 168 0 1 Group 5 consists of Nodes 1 4 and 5 Each node in the group is assigned its own unique IP Address Note A group consists of any node that produces sends to 2 NODE 4 or more nodes OR is a node that receives consumes the data IP Address 192 168 0 26 Ex
9. E 5 PREFACE Revisions to this Manual This version SUP0341 02 of the SmartStack Ethernet Module Supplement contains the following revisions additions and or deletions 1 Revised Table 1 1 2 Added a new mode of operations SRTP to Sections 1 2 and 1 4 Relabeled Section 1 3 and 1 5 Revised Section 3 1 to include the SRTP mode 4 Revised Section 3 3 Steps 6 and 7 to include SRTP mode Revised Figure 3 4 PAGE 6 03 JAN 2001 SUP0341 02 PREFACE SUP0341 02 03 JAN 2001 PAGE 7 PREFACE Table of Contents PREFACE cita Boshi e O iS Sa Ts 3 LIMITED WARRANTY AND LIMITATION OF LIABILITY 0 ccssssceeceeeeesnnssseeeeeeeeesnnsesseeeeseeeennneesaees 4 ABOUT PROGRAMMING EXAMPLES ccccccsssssseeeeeeeeeesneensceeeeeeeennnsseaneesseeeesansesnaeeeseeeesanessseeeeaenees 4 CHAPTER 1 INTRODUCTION A A I ee ee 9 FE e Sd DO 9 1 2 Overview Modes of Operation sisi i e e cnn ana rnnnnnnnnnns 10 1 3 Ethernet Global Data EGD Mode ikiii siini a a a i a i ieia 10 1 4 SRTP Service Request Transport ProtoCol oooocccnnccnnnnccocccccnnncconancnannccnnnnconnnnnn cnn cnnnnccnnnnnnnn nn 12 1 9 IEMRAPINQ Mode biota AE A doo 13 GHAPTER 2 INSTALEATION coin 15 ANNO 15 22 YGONMECION asta aia Ma a a a a a a a a a e RE 15 PA O 15 BEA HEED Se rio da end e a A a AA a A Aa a a e 15 2 5 Additional Technical ResSOurces cccccccnccnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnninnnss 16 CHAPTER 3
10. HORNER APG User Manual for HE800ETN100 SmartStack Ethernet Module January 03 2001 SUP0341 02 SUP0341 02 03 JAN 2001 PAGE 3 PREFACE PREFACE This manual explains how to use the Horner APG SmartStack Ethernet Module Copyright C 2001 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 Inc 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 Cscape SmartStack and CsCAN are trademarks of Horner APG DeviceNet is a trademark of the Open DeviceNet Vendor Association OVDA Inc For user manual updates contact Horner APG Technical Support Division at 317 916 4274 or visit our website at www heapg com PAGE 4 03 JAN 2001 SUP0341 02 PREFACE LIMITED WARRANTY AND LIMITATION OF LIABILITY Horner APG LLC HE APG warrants to the original purchaser that the SmartStack Ethernet Module manufactured by HE APG is free from defec
11. If the exchange is being sent to more than one consuming receiving device Click Group ID as depicted in the screen that follows In the Group ID block enter the decimal dotted address of the node that the Exchange 3 is being sent to In other words enter the IP Address of the node that will consume Exchange 3 Add Edit Exchange EZ Exchange Number 3 IP Address Group ID Group ID E Production Period 301 Reply Rate Cancel Figure 3 28 Adding a Produced Exchange using a Group ID for Node 1 After entering the IP Address or Group ID enter the time in milliseconds to indicate how often data is produced sent on to the network Production Period Click OK Repeat the above procedures for each Produced exchange for Node 1 SUP0341 02 03 JAN 2001 PAGE 37 CH 3 After adding produced exchanges for Node 1 the following screen appears Produced Exchanges Consumed Exchanges Exchanges Exchange Type Address Prod Period Reply Rate IP Address 192 168 0 2 0 2 IP Address 192 168 0 16 250 0 3 Group ID 5 300 0 Edit Exch dile Delete Exch Ranges for Selected Exchange Offset Reference Start End Length Name Add Range Insert Range Delete Range ih Edit Range OK Cancel Eje Help Figure 3 29 Node 1 Adding a Range for Exchange 1 If itis necessary to add another exchange press Add Exch and repeat the previous steps If it is necessary to edit an exchange highlig
12. ONFIG button to the right of the desired module or double click on the EMPTY slot Either method invokes the SmartStack Module Selection Dialog Caution For proper functioning and to avoid possible damage do not install more than four SmartStack Modules per controller PAGE 20 03 JAN 2001 SUP0341 02 CH 3 4 The Add I O Screen appears Press Other and use the mouse to select the ETN100 as shown in Figure 3 2 address OK Add 1 0 Module x Mixed Digital Digital In Digital Out Mixed Analog Analog In Analog Out Other HE8004CM200 AC Power Monitor HE8004CM200 12 AC Power Monitor with high current overload option HE8004SC100 ASCII Basic Coprocessor HESOODETN100 Ethernet Module HES00HSC600 High Speed Counter 8 in and 8 neg out HE800H5C601 High Speed Counter 8 in and 8 pos out HESOOSTPI00 Single Axis Stepper Controller HE800TSTOOO Smart Stack bus tester in 8 bit mode HE800T5T000 16 Smart Stack bus tester in 16 bit mode HESDOTSTO00p2 Smart Stack bus tester phantom slot 2 module HESOOTSTOOOP3 Smart Stack bus tester phantom slot 3 module HESOOTSTOOOP4 Smart Stack bus tester phantom slot 4 module Figure 3 2 Selecting ETN100 5 The ETN100 is now installed as shown in Figure 3 3 Click on the Config button next to the ETN100 or double click on the slot 170 Configure Xx HESODOCS100 CsCAN ocs mart tackm Ethernet Module Ethernet Empty A EMPTY eee Config Config Confi
13. Produced Exchanges screen and Consumed Exchanges screen appears Produced Exchanges Consumed Exchanges Exchanges Exchange Type Address Prod Period Reply Rate 2 IP Address 192 168 0 1 D Add Exch Edit Exch itl Delete Exch Ranges for Selected Exchange Offset Reference Start End Length Name 0 ZAQ 1 5 5 Add Range Insert Range Aira esi eros Dolte Fer Delete Range OK Cancel Soply Help Figure 3 22 Produced Exchanges Configuration for Node 2 i Interpretation of Figure 3 22 Thus far Node 2 has been configured to indicate that Exchange 2 will send 5 words of data every 100msec to 192 168 0 Node 1 s IP Address SUP0341 02 03 JAN 2001 Produced Exchanges Consumed Exchanges Exchanges Exchange Prod ID Group ID Update Timeout 192 168 0 1 Add Exch Edit Exch di Delete Exch Ranges for Selected Exchange Offset Reference Start End Length Name 0 al 1 10 10 Insert Range Delete Range Edit Range OK Cancel Apr Help Figure 3 23 Consumed Exchanges Configuration for Node 2 Interpretation of Figure 3 23 PAGE 33 CH 3 Thus far Node 2 has been configured to indicate that Node 2 is set to consume receive 10 words of data at least every 200msec from Exchange 1 Exchange 1 is sent from 192 168 0 1 PAGE 34 03 JAN 2001 SUP0341 02 CH 3 10b How to Set up a Node using IP Addresses and Group IDs Step 1 Refer to Section
14. anges Tab Also set the memory range for each consumed exchange See Section 3 3 Configuration Parameters required to configure Produced Exchanges Refer to Section 3 1 Terms Parameters Exchange Type Address Produced Reply Rate Ranges for Selected Exchange Period Reserved for Future Use Parameters required to configure Consumed Exchanges Refer to Section 3 1 Terms Parameters Exchange Producer ID Group Update Ranges for Selected Exchange ID Timeout Assign Group IDs if a producing device is going to produce send an exchange to more than one SUP0341 02 03 JAN 2001 PAGE 19 CH 3 3 3 Configuration Procedures The following procedures are used to configure the SmartStack ETN100 using Cscape Software 1 Goto the Main Screen of Cscape and press Controller Select I O Configure 2 The following screen appears Ensure that the proper controller is selected The OCS100 CsCAN is shown as the selected controller in this example If a different controller is desired press the Config button located next to the controller shown and select the appropriate controller HESODOCS100 CsCAN ocs mart tackim Empty Empty Empty Empty Auto Config f Cancel Figure 3 1 Configure Controller Type Dialog 3 After the proper controller has been selected place the ETN100 into the first slot or replace the first slot if already occupied To add the ETN module click on the C
15. ap needs to be viewed after an option is selected and configured to determine where the module is located in the point map Once an option has been configured the Module Configuration screen reappears and the user can then select the I O Map tab to review the settings PAGE 22 03 JAN 2001 SUP0341 02 CH 3 b Module Setup Tab Shown in Figure 3 4 The Module Setup Tab is used for defining parameters 8 After pressing the Module Setup Tab set the IP Address Net Mask Status Register and Version Register The IP Address is the address of the ETN100 that is being configured In this example the IP Address is 192 168 0 1 The Subnet Mask is 255 255 255 0 and allows up to 254 devices on the subnet The Status Register is a 16 bit register written by the module to indicate operational status The Version Register is a 16 bit register written by the module to indicate the module firmware version 9 Use the mouse to select either ICMP Ping or EGD Ethernet Global Data by clicking the desired box When appropriate both items can be selected Figure 3 5 The ICMP Ping is used for diagnostic purposes A ping signal is sent to another device and then the ping is sent back to the originating device The EGD Ethernet Global Data allows peer to peer or peer to group data sharing a If the ICMP Ping box is selected press the Config button next to it The following screen appears The Ping Timeout indicates how often a ping signal is
16. btain a status the user can select the status feature see Screen 3 13 and Screen 3 18 The following tables provide status descriptions Table 1 2 Produced Exchange Status State Value Description INVALID 0 Specifed exchange is not defined on consuming node HEALTHY 1 Exchange is defined Valid data was recently received UNHEALTHY 2 Exchange is defined but the last data sample received was invalid or A sample was not received within a specific time period Consumed Exchange Status Condition Description INVALID_ERROR Producer indicates that data in the produced exchange is invalid SHORT_ERROR Produced exchange was received but its length was less than expected REFRESH_ERROR Consumer did not successfully receive the exchange within a pre configured time period PROTOCOL_ERROR Consumer received the exchange but the protocol version was incompatible with version implemented on the consuming node SIGNATURE_ERROR The format of the user data in the produced exchange did not match the expected configuration on the consuming node LONG_EXCHANGE The exchange was received successfully but was larger than expected NOT_TIMESYNCED The producer has indicated that the data is valid but the timestamp included in the exchange may not be accurate This condition forces a transition to the UNHEALTHY State These values are set by the producer node and are included
17. cedures In step 6 the following screen appears In order to create a node a unique address must be entered into this screen Node 1 is given an IP Address depicted in Figure 3 9 Note that the EGD Ethernet Global Data box is selected Press the Config button located to the right of the EGD box x 170 Map Module Setup IPAddress 192 168 0 1 NetMask 255 255 255 o Protocol Support T ICMP Pina Config gt gt gt IV EGD Ethernet Global Data Config gt gt gt r catar c Cancel Help Figure 3 9 Node 1 IP Address SUP0341 02 03 JAN 2001 PAGE 25 CH 3 The following screen appears Click the Produced Exchanges Tab Click the Add Exch button Ethernet Global Data x Produced Exchanges Consumed Exchanges Exchanges Exchange Type Address Prod Period Reply Rate Edit Exch Delete Exch Ranges for Selected Exchange Offset Reference Start End Length Name di Add Range Gt BE Dee Range Enero Insert Range Delete Range Edit Range Figure 3 10 Ethernet Global Data Screen Step 3 The following screen appears Add Edit Exchange x Exchange Number P Address C Group ID IP Address 168 0 Production Period 7 00 Reply Rate 0 Cancel Figure 3 11 Adding a Produced Exchange for Node 1 To configure enter a unique Exchange Number If the exchange a block of data is being sent to only one consuming device click IP Address If the
18. change 3 produced by Node 1 Group 5 consumes Exchange 3 Exchange 3 sends 16 words of data every 300msec to Group 5 NODE 5 Exchange 6 produced by Group 5 Node 1 consumes Exchange 6 Exchange 6 sends 5 words of data at least every 600msec to IP Address 192 168 0 1 and 192 168 0 26 In this case the programmer has 192 168 0 30 designated Node 5 to be the device that will output Exchange 6 to SE Node 1 and Node 4 Figure 3 24 Identifying Configuration Parameters for Node 1 Step 2 Follow steps 1 6 in Section 3 3 Configuration Procedures In step 6 the screen in Figure 3 25 appears Reminder At this point Node 1 is going to be the first node to be created and configured In order to create a node a unique IP Address must be entered into this screen After Node 1 is created and configured it will be necessary to eventually return to this screen and create a new IP Address for Nodes 2 5 Note A new Cscape configuration program must be opened for each node SUP0341 02 03 JAN 2001 PAGE 35 CH 3 Node 1 is given an IP Address depicted in Figure 3 25 Select the EGD Ethernet Global Data box Press the Config button located to the right of the EGD box Module Cond gee aliun 140 Map Mocks Setup 12 5 12 18 4 I T a CAN IC fe hat Dicta Neil Mako E do a p Staus Rega Weison Plegjates Frataro Support I ICMP Frag Corgan E EGD Ethernet Goba Dais En 2 Figure 3 25 No
19. de 1 IP Address It is now appropriate to configure the Node 1 s Produced and Consumed Exchanges The following screen appears Click the Produced Exchanges Tab Click the Add Exch button Ethernet Global Data x Produced Exchanges Consumed Exchanges Exchanges Exchange Type Address Prod Period Reply Rate Edit Exch Delete Exch Ranges for Selected Exchange Offset Reference Start End Length Name Add Range Insert Range Delete Range Edit Range Figure 3 26 Ethernet Global Data Screen A Produced Exchange is a block of data that is produced or sent to one node s IP Address or it is sent to a Group ID containing two or more nodes PAGE 36 03 JAN 2001 SUP0341 02 CH 3 Step 3 The Add Edit Exchange screen appears To configure enter a unique Exchange Number An example is provided to show the configuration using an IP Address Figure 3 27 and one example depicts using a Group ID Figure 3 28 e Ifthe exchange a block of data is being sent to only one consuming device Click IP Address as depicted in the screen that follows In the IP Address block enter the decimal dotted address of the node that Exchange 1 is being sent to In other words enter the IP Address of the node that will consume Exchange 1 Exchange Number IP Address C Group ID IP Address Production Period 7 00 Reply Rate Carcel Figure 3 27 Adding a Produced Exchange using an IP Address for Node 1 e
20. decimal numbers When a user intends to build a network the recommended IP Address is 192 168 0 x x 01 254 addressable nodes This is an IP Address that is set aside for private internal IP Addresses per InterNIC When an Exchange Number is produced it can be transferred to a consuming device or a group of consuming devices Up to 32 separate groups are supported Each group is assigned a unique group number between 1 and 32 When setting parameters for Consumed Exchanges the value 0 is entered into the Group ID block when there is no group This is a value in milliseconds that indicates how often data is transferred on to the network PAGE 18 03 JAN 2001 SUP0341 02 CH 3 Ranges for Selected Indicates the memory range for a specified produced or consumed exchange Exchange Offset This parameter is automatically determined by Cscape Assists in determining byte locations inside the exchange packet Reference Specifies the specific memory type AQ Q R for a Produced Exchange Specifies the specific memory type Al l R for a Consumed Exchange Start Indicates the first point for this range in the selected Reference Memory End Indicates the last point for this range in the selected Reference Memory Update Timeout A value that specifies the time limit in which an exchange packet must be received by The value needs to be set at least double the producer s Produced Period Subnet Mask A Subnet is a
21. e Click the Consumed Exchanges tab located on the screen in Figure 3 32 Step 6 The following screen appears Click Add Exch Produced Exchanges Consumed Exchanges Exchanges Exchange Prod ID Group ID Update Timeout Add Exch Edit Exch il Delete Exch Ranges for Selected Exchange Offset Reference Start End Lenath Name Add Range Insert Range Delete Range Bass ei SF Bez Edit Range Cancel App Help Figure 3 32 Consumed Exchanges Tab Screen Step 7 Refer to Figures 3 33 and 3 34 To configure enter a unique Exchange Number The Producer ID is the IP Address or Group ID from which the exchange is received from Add Edit Exchange FT Exchange Number 4 A 192 168 0 q Address Group IDJo Update Timeout 00 Cancel Figure 3 33 Adding a Consumed Exchange for a Single IP Address PAGE 40 03 JAN 2001 SUP0341 02 CH 3 e If the exchange a block of data is going to be received from one device enter the IP Address of the node that will send the exchange Figure 3 33 e f the exchange is going to be received from more than one device enter the Group ID Figure 3 34 For this example the IP Address of Node 5 192 168 0 30 is going to be entered as the Producer ID The user in this particular case has designated that Node 5 will send out the exchange to all the group members Node 1 Node 4 and Node 5 Refer to Figure 3 24 to see how group members interact In th
22. e Update Timeout enter the value that specifies the time limit in which an exchange packet must be received by The value needs to be set at least double the producer s Produced Period Add 7 Edit Exchange Exchange Number6 Producer IP 192 168 0 30 Address Group ID 5 Update Timeout od Cancel Figure 34 Adding a Consumed Exchange for a Group Click OK and repeat the process for each consumed exchange The following screen appears If it is necessary to edit Exchange 2 highlight it and click Edit Exch If it needs to be deleted click Delete Exch Step 4 If the user is satisfied with the Exchange selection memory range parameters must be provided for the selected exchange number The Ranges for Selected Exchange located on lower screen indicates the memory range for a specified consumed exchange Note that numerous exchange numbers can be created However in this example only one Exchange Number has been created Highlight the Exchange Number as depicted in Figure 3 35 and then click Add Range The following screen appears Type Data y Address 28101 m Number of Registers El Cancel Figure 3 35 Consumed Exchange for Node 1 SUP0341 02 03 JAN 2001 PAGE 41 CH 3 Using the pull down menu select the type of information that is to be consumed data timestamp or status To verify whether the data is new the user can select timestamp For a status select status Data consistency is handled on a
23. g Empty EMPTY See Config Config Cancel BREE E Empty Auto Config Figure 3 3 Ethernet Module Selected SUP0341 02 03 JAN 2001 PAGE 21 CH 3 6 The Module Configuration Screen appears Two tabs are available for selection Module Configuration 170 Map Module Setup IP Address 132 168 000 001 Use CAN ID for last Octet NetMask 299 255 255 0 Status Register 2R45 16 BIT Version Register 45 16 BIT Protocol Support M ICMP Ping Config gt gt gt M EGD Ethernet Global Data Config gt gt gt Y SATP 90 30 Service Request Es i Fi NN cana Figure 3 4 Module Configuration Screen Module Setup Tab Selected 7 Use the mouse to select either ICMP Ping or EGD Ethernet Global Data by clicking the desired box The ICMP Ping is used for diagnostic purposes A ping signal is sent to another device and then the ping is sent back to the originating device The EGD Ethernet Global Data allows peer to peer or peer to group data sharing The SRTP Service Request Transport Protocol allows a remote client to request services from an OCS RCS containing the ETN100 Ethernet module If this mode is desired select the SRTP box No further selection is required a 1 O Map Tab Screen Not Shown The I O Map describes which I O registers are assigned to a specific SmartStack Module Although there are no user defined parameters the I O M
24. ht it and click Edit Exch If it needs to be deleted click Delete Exch Step 4 If the user is satisfied with the Exchange selection memory range parameters must be provided for each exchange number The Ranges for Selected Exchange located on Figure 3 29 s lower screen indicates the memory range for a specified produced exchange At the top end of the screen highlight one of the Exchange Numbers Then go to the lower part of the screen and click Add Range Figure 3 30 appears Using the pull down menu select the type of information that is to be produced Then select the specific memory reference type Then enter in the number of registers Parameters are explained below Press OK Add 120 Range to Exchange Ea Type Data y Address 2401 0 v Number of Registers 20 Cancel Figure 3 30 Node 1 Adding a Range for Exchange 1 PAGE 38 03 JAN 2001 SUP0341 02 CH 3 After configuring the produced exchanges for Node 1 the screen in Figure 31 appears Note At any given time only one memory range appears on screen depending upon which exchange is highlighted at the top of the screen It is not possible to view all memory ranges at the same time Ethernet Global Data x Produced Exchanges Consumed Exchanges Exchanges Exchange Type Address Prod Period Reply Rate IP Address 192 168 0 2 0 Add Exch 2 IP Address 192 168 0 16 250 0 3 Group ID 5 300 0 Delete Exch Ranges for Selected E
25. iguration parameters for this example PAGE 28 03 JAN 2001 SUP0341 02 CH 3 Step 5 Now that the Produced Exchange parameters have been configured it is now necessary to configure the Consumed Exchange parameters Again as a reminder refer to Figure 3 9 to recall the desired configuration parameters for this example Click the Consumed Exchanges tab located on the screen in Figure 3 14 Step 6 The following screen appears Click Add Exch Produced Exchanges Consumed Exchanges Exchanges Exchange Prod ID Group ID Update Timeout Add Exch Edit Exch Delete Exch il Ranges for Selected Exchange Offset Reference Start End Length Name Add Range Insert Range Delete Range Edit Range ESTA Inst Rare Sen E Pero Cancel Figure 3 15 Consumed Exchanges Tab Selected d Help The following screen appears Add 7 Edit Exchange x Exchange Number 2 DE 152 168 0 2 Address Group IDJo Update Timeout 200 Cancel Figure 3 16 Adding a Consumed Exchange for Node 1 SUP0341 02 03 JAN 2001 PAGE 29 CH 3 Step 7 To configure enter a unique Exchange Number If the exchange a block of data is going to be received from one device enter the IP Address that will send the exchange If the exchange is going to be received from more than one device enter the Group ID The IP address is entered in this case In the Update Timeout enter the value that specifies the time limit in
26. in the produced data exchange 1 4 SRTP Service Request Transport Protocol Note The SRTP mode is available starting with the following versions Ethernet Module Version 1 44 or greater Cscape 4 0 and OCS RCS Firmware 9 0 SRTP is a GE Fanuc proprietary protocol This allows a remote client to request services from an OCS RCS containing the ETN100 Ethernet module SRTP Service Request Transport Protocol is a Client Server Request Reply Protocol and the ETN100 provides the Server side of the protocol As the SRTP was designed to provide the services available on the GE Series 90 PLC not all services are available from the OCS RCS This implementation of SRTP is mainly limited to those services required in the transport of PLC register data The following are Service Requests processed by the ETN100 Req Code Service Name 0 PLC_SSTAT 1 PLC_LSTAT 4 READ_SMEM 7 WRITE_SMEM 33 CHG_PRIV_LEVEL 67 RET_CONTROL_INFO 79 SESSION_CONTROL 97 PLC_FEATURES_SUPP SUP0341 02 03 JAN 2001 PAGE 13 CH 1 The READ_SMEM and WRITE_SMEM requests are used for that Register Data Transfers and Following Register Types are valid Sel Register Type 8 R 10 Al 12 AQ 16 l 18 Q 20 T 22 M 30 S 70 l 72 Q 74 T 76 M 84 S 16 bit 16 bit 16 bit 8 bit 8 bit 8 bit 8 bit 8 bit 1 bit 1 bit 1 bit 1 bit 1 bit There is No configuration of the ETN100 module required to use SRTP other than the IP Address Net Mask
27. lect the Consumed Exchanges Tab to configure the consumed exchanges Example of Producing and Consuming Exchanges Figure 1 2 depicts an example where Node 1 is configured to produce or transfer a block of data Exchange 1 to Node 2 at a regularly scheduled transfer rate Node 2 consumes the block of data a consumed exchange In addition to being configured to consume Exchange 1 Node 2 is also configured to produce transfer a different block of data Exchange 2 on the network to Node 1 Node 1 is configured to consume Exchange 2 Exchange 1 produced by Node 1 Node 2 consumes Exchange 1 Exchange 1 sends Exchange 1 to 192 168 0 2 Exchange 2 produced by Node2 Node 1 consumes Exchange 2 Exchange 2 sends Exchange 2 to 192 168 0 1 Figure 1 2 Example of Exchange Interaction C PLC Timing Using Timestamp Feature The PLC scan time and the exchange time settings are asynchronous The exchange time settings are the Produced Period for produced exchanges and the Update Timeout for consumed exchanges Producing a data sample occurs as specified by the Produced Period However the update of the data sample to the CPU is not necessarily guaranteed to occur at that interval due to the PLC sweep time To verify whether the data is new the user can select to use the Timestamp feature see Figure 3 18 Data consistency is handled on a per exchange basis PAGE 12 03 JAN 2001 SUP0341 02 CH 1 d Obtaining a Status Status Feature To o
28. lect timestamp For a status select status Data consistency is handled on a per exchange basis Then select the specific memory reference type Then enter in the number of registers Parameters are explained below Press OK The following screen appears Produced Exchanges Consumed Exchanges Exchanges Exchange Prod ID Group ID Update Timeout i 192 168 0 2 0 200 Add Exch Edit Exch Delete Exch Ranges for Selected Exchange Offset Reference Start End Length Name 0 bl 1 5 A A Insert Range Delete Range Edit Range OK Cancel 5 Help Figure 3 19 Produced Exchange Memory Range for Node 1 This parameter is automatically determined by Cscape Assists in determining byte locations inside the exchange packet Reference Specifies the specific memory type AI l R for a consumed exchange Start End Indicates the first point for this range in the selected reference memory Indicates the last point for this range in the selected reference memory If it is necessary to edit the range highlight it and click Edit Range or double click If it needs to be deleted click Delete Range To insert a new range press Insert Range Interpretation of Figure 3 19 Thus far Node 1 has been configured to indicate that Node 1 is set to consume receive 5 words of data at least every 200msec from Exchange 2 Exchange 2 is sent from 192 168 0 2 Reminder Refer to Figure 3 8 to recall the desi
29. or Node 1 SUP0341 02 03 JAN 2001 PAGE 27 Offset CH 3 Using the pull down menu select the type of information that is to be produced Then select the specific memory reference type Then enter in the number of registers Parameters are explained below Press OK The following screen appears Produced Exchanges Consumed Exchanges Exchanges Exchange Type Address Prod Period Reply Rate Address 92 168 0 2 0 Add Exch Edit Exch Delete Exch Ranges for Selected Exchange Offset Reference Start End Length Name 0 ZAQ 1 10 10 Insert Range Delete Range Edit Range OK Cancel Help Figure 3 14 Produced Exchange Memory Range for Node 1 This parameter is automatically determined by Cscape Assists in determining byte locations inside the exchange packet Reference Specifies the specific memory type AQ Q R for a produced exchange Start End Indicates the first point for this range in the selected reference memory Indicates the last point for this range in the selected reference memory If it is necessary to edit the range highlight it and click Edit Range If it needs to be deleted click Delete Range To insert a new range press Insert Range Interpretation of Figure 3 14 Thus far Node 1 has been configured to indicate that Exchange 1 will send 10 words of data every 100msec to 192 168 0 2 Node 2 s IP Address Reminder Refer to Figure 8 to recall the desired conf
30. or is a node that is configured to consume those particular exchanges Up to 32 separate groups are supported Each group is assigned a unique Group ID between 1 and 32 A Group ID is considered an IP Address Note however that each node in a group is assigned a unique IP Address When setting parameters for Consumed Exchanges the value 0 is entered into the Group ID block when there is no group 1 3 Ethernet Global Data EGD Mode a EGD Functions Ethernet Global Data EGD exchanges are designed for simple efficient communication of sampled data between devices EGD is not intended for event notification where the possible loss of a sample of data would be significant SUP0341 02 03 JAN 2001 PAGE 11 CH 1 In the EGD mode a device can be configured to function as 1 A producing device which sends or transfers an exchange a block of data to one consuming device or a group of consuming devices 2 A consuming device which receives exchanges from a producing device 3 Both a producing and consuming device Note An Exchange is a block of data that is assigned a numerical value by the user b Exchange Configuration and Interaction Producing and consuming devices operate asynchronously to each other For each device both the data that it produces and the data that it consumes must be separately configured During configuration the user needs to select the Produced Exchanges Tab to configure the produced exchanges and then se
31. ously to each other For each device both the data that it produces and the data that it consumes must be separately configured During configuration the user needs to select the Produced Exchanges Tabto configure the produced exchanges and then select the Consumed Exchanges Tab to configure the consumed exchanges A device that produces transfers exchanges to a consuming receiving device A device that consumes or receives exchanges from a producing sending device EGD exchanges are designed for simple efficient communication of sampled data between devices It is not intended for event notification where the possible loss of a sample of data would be significant A block of data that is assigned a numerical value by the user The exchange number consists of a Producer ID and the Exchange number This is a numerical value assigned by the user to indicate a specific block of data that a producing device produces sends Each produced exchange must have a unique number When an Exchange Number is produced register data is transmitted to a consuming device or a group of consuming devices This is a numerical value assigned by the user to indicate a specific block of data that is consumed received by a consuming device or a group of consuming devices When an Exchange number is received by a consuming device s data is received from a producing device This is the unique id for a device on a network and is represented by 4 dotted
32. per exchange basis Then select the specific memory reference type Then enter in the number of registers Parameters are explained below Press OK Repeat procedures for each exchange The following screen appears Produced Exchanges Consumed Exchanges Exchanges Exchange Prod ID GroupID Update Timeout 5 192 168 0 16 0 500 Add Exch 6 192 168 0 30 0 600 Edit Exch Delete Exch Ranges for Selected Exchange Offset Reference Start End Length Name Insert Range Delete Range Edit Range OK Cancel Help Figure 3 36 Consumed Exchange Memory Range for Node 1 Note Only one memory range is displayed on the screen at a time depending upon which exchange is highlighted at the top of the screen Itis not possible to view all memory ranges at one time Offset This parameter is automatically determined by Cscape Assists in determining byte locations inside the exchange packet Reference Specifies the specific memory type AI l R for a consumed exchange Start End Indicates the first point for this range in the selected reference memory Indicates the last point for this range in the selected reference memory If itis necessary to edit the range highlight it and click Edit Range If it needs to be deleted click Delete Range To insert a new range press Insert Range Interpretation of Figure 3 36 Node 1 has been configured such that Node 1 is set to consume receive 5 words of data
33. portion of a network which shares a network address with other portions of a network Subnets are distinguished from one another by a Subnet Number The subnet defines the size of the subnet The default Subnet Mask is 255 255 255 0 Producer ID This is the source IP Address or Group ID from which a particular exchange is received from ICMP Ping Used for diagnostics only A ping signal is produced and consumed to test an ETN100 3 2 Suggested Order of Configuration Refer to Terms Parameters in Section 3 1 Prior to configuration it is recommended that a programmer use a spreadsheet and or a drawing package to organize the required information It is also recommended that the physical layout of the network be d 1 2 etermined to include devices on the network and their locations Assign all IP addresses There is one IP address per node All devices require a unique IP Address even if the device is part of a group consuming receiving device A group includes all producing and consuming devices Determine the type of data that is going to be sent by each device Assign Exchange Numbers for each produced exchange block of data in Cscape Configuration by pressing the Produced Exchanges Tab Also set the memory range for each produced exchange See required parameters below Section 3 3 Configuration Assign Exchange Numbers for each consumed exchange block of data in Cscape Configuration by pressing the Consumed Exch
34. red configuration parameters for this example SUP0341 02 03 JAN 2001 PAGE 31 CH 3 Configuring Node 2 At this time Node 1 has been configured for Produced and Consumed Exchanges The user needs to write the Ladder Code for Node 1 When the user is ready to configure Node 2 begin a new Cscape configuration using the steps outlined in Section 3 3 Reminder In this example Nodes 1 and 2 are going to be configured as follows Exchange 1 produced by Node 1 Node 2 consumes Exchange 1 Exchange 1 sends 10 words of data every 100msec to 192 168 0 2 Node 1 IP Address 192 168 0 1 Exchange 2 produced by Node2 Node 1 consumes Exchange 2 Exchange 2 sends 5 words of data at least every 200msec to 192 168 0 1 Figure 3 20 Identifying Set up Parameters for Nodes 1 and 2 Reminder Be sure to assign a unique IP Address for Node 2 such as the address in Figure 3 21 In order to create a new node a unique address must be entered into this screen Module Configuration x 170 Map Module Setup IP Address 192 160 0 2 Use CAN ID for last Octet Net Mask 255 255 255 0 Status Register Version Register Protocol Support ICMP Ping Config gt gt gt 7 EGD Ethernet Global Data Config gt gt gt A 4 T r Cancel Apply Help Figure 3 21 Assigning a New IP Address for Node 2 PAGE 32 03 JAN 2001 SUP0341 02 CH 3 Upon completing configuration for Node 2 the following
35. sent out in milliseconds The range available for selection is 100 100 000 milliseconds Figure 3 5 The IP Address register is a 32 bit register read by the module to determine the IP Address to pins The Ping Time register is a 32 bit register written by the module indicating the time millisecond the last ping took After setting the ping timeout it is necessary to go to the ladder program and write the ping address to the registers To view the ping response time go to the Ladder Program or Cscape s Data Watch Window or an OCS screen and view the ping time register ICMP Configuration IP Address Reg RO005 32 BIT Ping Time Reg R0020 16 BIT Ping Timeout ho 4 mec 00 Cancel Figure 3 5 ICMP Configuration Screen SUP0341 02 03 JAN 2001 PAGE 23 CH 3 To test the ICMP functionality use the watch window to modify the IP address and view the ping time Watch untitled1 253 al ES Memory Value Type A0005 192168423 IPADDA 2R0020 4 DINT pint_time Add Running Figure 3 6 Data Watch Window b If the EGD box Ethernet Global Data is selected the following screen appears Two tabs are available for selection Produced Exchanges and Consumed Exchanges Ethernet Global Data x Produced Exchanges Consumed Exchanges Exchanges Exchange Type Address Prod Period Reply Rate Edit Exch Delete Exch Ranges for Selected Exchange Offset Reference Start End Length
36. ts 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 SmartStack Ethernet Module THIS WARRANTY SHALL NOT APPLY TO THIS SmartStack Ethernet 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 WARRANTY SHALL BE DEEMED TO MEAN THAT PERSON FOR WHOM THE SmartStack Ethernet 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
37. tted RX Receive Yellow lamp indicates data is being received LNK LINK Green lamp indicates that the link connectivity to OK the Ethernet is OK Figure 2 2 Ethernet Connector PAGE 16 03 JAN 2001 SUP0341 02 CH 2 2 5 Additional Technical Resources It is assumed that the user has working knowledge of Ethernet networks There are several references available to assist the user in learning more about Ethernet For a technical summary of Ethernet and other information refer to www techfest com networking lan ethernet htm SUP0341 02 03 JAN 2001 PAGE 17 CH 3 CHAPTER 3 CONFIGURATION 3 1 Terms and Parameters It is essential that the user understand the following key terms and parameters in order to configure the ETN100 Ethernet Global Data EGD Service Request Transport Protocol SRTP Producing and Consuming Devices Producing Device Consuming Device EGD Exchange Exchange Number Produced Exchanges Consumed Exchanges IP Address Recommended IP Address to Build a Network Group ID Produced Period Allows a device producer to transfer exchange data to one or more consuming devices at a regularly scheduled transfer rate Allows a remote client to request services from an OCS RCS containing the ETN100 Ethernet module SRTP is a Client Server Request Reply Protocol and the ETN100 provides the Server side of the protocol Producing and consuming devices operate asynchron
38. which an exchange packet must be received by The value needs to be set at least double the producer s Produced Period Click OK The following screen appears Produced Exchanges Consumed Exchanges Exchanges Exchange Prod ID GroupID Update Timeout 2 192 168 0 2 0 Add Exch Edit Exch Ranges for Selected Exchange Offset Reference Start End Lenath Name Add Range Insert Range Delete Range Edit Range DK Cancel By Help Figure 3 17 Consumed Exchange for Node 1 If it is necessary to edit Exchange 2 highlight it and click Edit Exch If it needs to be deleted click Delete Exch Step 4 If the user is satisfied with the Exchange selection memory range parameters must be provided for the selected exchange number The Ranges for Selected Exchange located on lower screen indicates the memory range for a specified consumed exchange Note that numerous exchange numbers can be created However in this example only one Exchange Number has been created Highlight the Exchange Number as depicted in Figure 3 17 and then click Add Range The following screen appears Type Data y Address za 01 a Number of Registers Cancel Figure 3 18 Consumed Exchange for Node 1 PAGE 30 03 JAN 2001 SUP0341 02 CH 3 Offset Using the pull down menu select the type of information that is to be consumed data timestamp or status To verify whether the data is new the user can se
39. xchange Offset Reference Start End Length Name 0 ZAQ 10 29 20 Add Range Insert Range Delete Range Edit Range Figure 3 31 Produced Exchange Memory Range for Node 1 Offset This parameter is automatically determined by Cscape Assists in determining byte locations inside the exchange packet Reference Specifies the specific memory type AQ Q R for a produced exchange Start Indicates the first point for this range in the selected reference memory End Indicates the last point for this range in the selected reference memory Interpretation of Figure 3 31 Thus far Node 1 has been configured to indicate that Exchange 1 will send 20 words of data every 100msec to 192 168 0 2 Node 2 s IP Address Exchange 2 will send data every 250msec to 192 168 0 16 Node 3 IP Address Because Exchange 2 is not selected in this example screen the user is unable to see how many words will be sent Also Exchange 3 will send data every 300msec to Group ID 5 Again the user is unable to see how many words will be sent because Exchange 3 is not selected Reminder Refer to Figure 3 24 to recall the desired configuration parameters for this example SUP0341 02 03 JAN 2001 PAGE 39 CH 3 Step 5 Now that the Produced Exchange parameters have been configured it is now necessary to configure the Consumed Exchange parameters Again as a reminder refer to Figure 25 to recall the desired configuration parameters for this exampl
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