Premium and Atrium Using Unity Pro Ethernet Network Modules
Contents
1. Introduction This screen separated into five zones allows debugging of an Ethernet link Figure The screen dedicated to Ethernet communication is displayed as follows 1 2 MODULE TCP IP ETHWAY CLG Run Err ADR 3 y fay TSX ETY 110 Hl Config FEDebugging S Fault 7 Channel 0 7 Pee municanone Number of connections j eee Function 196 211 185 21 Identification Counters open 0 Enter request Reset counters ai Ping Mirror Response reception Response reception AST Cycle ms Size 64 bytes lv Network link Addresses __ Station no OA ere Message traffic msg min sgn r Message errors 4 Reset counters IP Address Messages sent and notacknowledged 9 196 211 185 22 ee Messages Refused 0 Subnetwork mask Min 0 Avg 0 Max 0 Rese ra 22 255 255 255 0 Gateway Address 196 211 185 55 Xway Addr 127 5 189 TSX ETY 110 Elements and Functions This table describes the various zones that make up the configuration screen Number Zone Function 1 Tab Debug tab 2 Module Module description zone 3 Channel Channel selection zone 4 General General parameters zone parameters 5 General Debug zone containing the different parts described hereafte2. Band cl width Reset counters ASCII Hex Remote IP address l 10 Scanning F Ping Current ms Not configured 1 Scanned y O Scanning E Unscanned 48 Message traffic msg jmin activated 64 49 4000 msg min yee Global Data Not configured 16 SUB Variable YW Global Data mm Faulty sug 48 33 activated j 64 49 Min 0 Avg I330 Max 2660 Reset m eanne x mA 240 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY Elements and Functions This table describes the different zones that make up the debugging screen Number Zone Function 1 Message traffic allows the graphical display of the number of messages processed by the module 2 Messages allows you to view the number of connections and unacknowledged or rejected messages The counter values can be reset using the button Reset Counters A Bandwidth button is used to access bandwidth diagnostics 3 Address allows information e display of TCP IP utilities configuration communication testing of the TCP IP profile 4 X Way station allows UNI TE communication testing on the TCP IP profile test 5 I O Scanning allows display of the status for each remote input output module Global Data allows display of the status for Global Data variables Communication test is used to perform
3. Time Zone Description DST Available GMT 04 00 Caucasus Standard Time Baku Tbilisi Yes GMT 04 00 Afghanistan Standard Time Kabul No GMT 05 00 Ekaterinburg Standard Time Ekaterinburg Yes GMT 05 00 West Asia Standard Time Islamabad Karachi Tashkent No GMT 05 30 India Standard Time Bombay Calcutta Madras New Delhi No GMT 06 00 Central Asia Standard Time Almaty Dhaka Yes GMT 06 00 Sri Lanka Standard Time Columbo No GMT 07 00 SE Asia Standard Time Bangkok Hanoi Jakarta No GMT 08 00 China Standard Time Beijing Chongqing Hong Kong Urumai No GMT 08 00 W Australia Standard Time Perth No GMT 08 00 Singapore Standard Time Singapore No GMT 08 00 Taipei Standard Time Taipei No GMT 09 00 Tokyo Standard Time Osako Sapporo Tokyo No GMT 09 00 Korea Standard Time Seoul No GMT 09 00 Yakutsk Standard Time Yakutsk Yes GMT 09 30 Cen Australia Standard Time Adelaide Yes GMT 09 30 AUS Central Standard Time Darwin No GMT 10 00 E Australia Standard Time Brisbane No GMT 10 00 AUS Eastern Standard Time Canberra Melbourne Sydney Yes GMT 10 00 West Pacific Standard Time Guam Port Moresby No GMT 10 00 Tasmania Standard Time Hobart Yes GMT 10 00 Vladivostok Standard Time Vladivostok Yes GMT 11 00 Central Pacific Standard Time Magadan Solomon Is New Yes Caledo
4. Step Action 1 Select the address of the station to be interrogated with the help of the Addresses field 2 Select the number of bytes to be transmitted using the Size field This specifies the length of the message to be sent between 64 and 1472 bytes 3 Press the button Ping Result The reply appears in the field Time Response reception Time 7 ms Size 64 f Bytes The time returned corresponds to the turnaround time for the message in ms Type of The following table groups together the different types of response to the Ping Response request If the response isO then O positive The window indicates the turnaround time for the message in ms negative e a window with the message Timeout specifies the absence of response from the remote device e a window with the message Host unreachable specifies that the remote device has not been reached in the network architecture 193 TSX ETY 110 Debugging Parameters for Ethway Utilities Introduction The debugging parameters for the TCP IP utilities are grouped together in two windows e the Station Address window e the Station test window Station Address The window is displayed as below Xway Addr 127 58 It recalls the configuration data e Addr X Way X Way address of the station Station Test The window is displayed as below Station
5. with the NTP gt 7 NTP Configuration Configuration Page r NTP Server Configuration IP Address of Primary NTP Server 192 168 5 100 IP Address of Secondary NTP Server 0 0 0 0 Polling Period 15 sec r Time Zone GMT 05 00 Eastern Standard Time New York v y Automatically adjust clock for daylight saving change Save Cancel Disable NTP Time Service Execute the following commands mmand s Co Command Button Description Buttons Save Stores new NTP time service configuration Previous configuration is no longer valid Cancel Cancels new NTP time service configuration Previous configuration is valid Disable NTP IP of Primary and Standby set 0 NTP server not polled Time in controller not updated Changing Time To make any changes to the time synchronization service Service Ste Action Parameters p 1 Enter changes in the appropriate field on the NTP Configuration page for one or all of the configurable parameters 2 Click Save 150 Configuration Parameters Important Information about the Time Service Customizing Time Zone Parameters Note About the Time Service 1 Enable Disable Daylight Savings Time parameter If the Enable Disable check box is selected the module automatically corrects the local time to account for daylight savings time Therefore requiring no action as the daylight savings time start and
6. Home Statistics Server Bootp Data editor Graphical Editor Alarm Indicator Copyright 2000 Schneider Automation SA All rights reserved F 105 Facilities HTTP Server Data Editor Page At a Glance How to Access the Page This page is used to create animation tables containing lists of PLC variables to be displayed or modified Variables can only be accessed via addresses This function is useful when running diagnostics on an application Note Write access is managed by password For further information refer to the FactoryCast User Guide documentation The following procedure indicates how to access the data editor page from the index page Step Action 1 Click on the Data Editor link 106 Facilities Illustration The Data Editor page of a TSX ETY 4103 or an TSX ETY PORT is presented below as an example Dj lt new gt v Save Delete Find Insert cum Paste Password The name of the PLC program is STATION 0 0 Variable Address Data type Value Format Status m 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 m E PI The list of variables is not available Cannot find variables E 107 Facilities Ethernet Module Diagno
7. Display Block The display panel complies with the Premium standard RUN ERR STS ADR RX TX The COL RX and TX LEDs are managed by the line s electronics they indicate e COL a collision e RX a reception e TX a transmission Diagnostics Meaning of the diagnostics LEDs RUN ERR STS COL TX RX Meaning O O O ns ns ns No supply to module O O P ns ns ns Module running self test P O O ns ns ns Module ready O P O ns ns ns Module not operational O P P ns ns ns Software operation error Temporary state causing module reinitialization O F P F ns ns ns Module not configured or configuration in progress O P ns ns ns Module configured operational ns ns ns ns ns Module configured Diagnostics according to how the LEDs are flashing e 2 flashes module has no MAC address e 3 flashes Ethernet cable not connected on the module or Hub side e 4 flashes the module IP address is duplicated by another IP address on the network Conflicting remote device flashing in the same way e 5 flashes module configured as a BOOTP client and is waiting for a BOOTP server response P O P O F O Ethernet communication sending P O P O O IF Ethernet communication receiving P O P O F VE Ethernet communication sending receiving P O P F F O_ Module has detected collision P Permanentl
8. 0 10 20 30 40 50 60 Number of devices scanned 206 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY Global Data Utility Performances At a Glance The values presented below are given to evaluate the Global Data utility performance Definition Global Data return time This time corresponds to the time elapsed between the publication of a variable value by the local PLC application the subscription by a remote PLC application the publication of the same value by the remote PLC application and the subscription by the local PLC application Values Measurement conditions e The cycle time for local and remote PLC applications are identical e Only one variable is exchanged in each direction Result PLC cycle time Return time gt 10 ms 3 times the PLC cycle time 5ms 5 to 6 times the PLC cycle time 60 50 40 30 20 1 4 7 7 4 r 4 a Return time in ms top 1 4t L 4 L 4 t 0 5 10 15 20 Cycle time in ms 207 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 Operating Modes for the TSX ETY 4103 TSX ETY PORT and TSX ETY 5103 Modules At a Glance General Diagram Operation The following diagram describes the operating modes of the TSX ETY 4103 PORT 5103 module Module Stop Apply voltage Module configured Communicat
9. The following table displays the spaces reserved for the different IP address classes Class Range A 0 0 0 0 to 127 255 255 255 B 128 0 0 0 to 191 255 255 255 C 192 0 0 0 to 223 255 255 255 D 224 0 0 0 to 239 255 255 255 65 Facilities Sub Addressing and Subnetwork Mask Introduction Sub Addressing In an open environment after a network identifier has been obtained from the accredited body the local system administrator is able to manage several subnets This will allow local networks to be installed without changing anything for the outside world which will still only be able to see the network indicated by the network identifier This sub addressing function is possible by splitting the machine identifier into the following e a subnet identifier e a machine identifier Example sub addressing for a class B address IP address in question 140 186 90 3 16 bits 8 bits 8 bits Network identifier Subnetwork Machine 140 186 identifier 90 identifier 3 66 Facilities Mask The subnet mask is used to find out the number of bits allocated respectively to the network identifier and the subnet indicator bits to 1 and then to the machine identifier bits to 0 The value of the subnet mask must be chosen to comply with the IP address class It will have the value xxx value chosen left up to the user e for a class A address 25
10. 0 000 e eee eee 250 Ethernet Coprocessor 0000sce een n eens 251 General etere eran item Sate shade entation ae sete cult he Diese ea Pelle a a 252 ChiafacteristicS 2 0 ea Poneto nS a hth it Oh ee Rae Ree bys 254 Type of Connections Supported 0 0c eee teens 255 Performance of IO Scanning Utility n a 0 00 e eee eee 257 Global Data Utility Performances 0000 e cee eee 259 Operating Modes of the Ethernet Channel of the TSX P57 5634 260 Configuration 0 200 wisi ete Gee ita SS a Sew E 262 Configuration Screen of the Ethernet Channel of the TSX P57 5634 263 Type of Communication According to Connection Configuration 265 Configuration of TCP IP Messaging 0c eee eee eee eee eee 269 IO Scanning Utility Configuration 0 cc eee eee 271 Configuration of the other utilities of the TSX P57 5634 273 Debugging ksd menia date ies oe aie Ra ee oka Bae Eis 274 Ethernet Channel Debugging Screen 0 0 cee eee 275 General Debugging Parameters 02 00 e eee eee eee eens 277 TCP IP Address Information 000 ccc cece eee eee eens 278 How to Test the TCP IP Communication with the Ping Request 279 Debugging Parameters for the IO Scanning Utility 281 Debugging Parameters for the Global Data Utility 282 Bandwidth Control Diagnostic Parameters 00
11. 336 Electronic Mail Notification Service Error Codes 0000 0 ee eee 338 Errata Sheela 2256 cet eee 8S Eee Salo tas Rea ee 339 Safety Information Important Information NOTICE Read these instructions carefully and look at the equipment to become familiar with the device before trying to install operate or maintain it The following special messages may appear throughout this documentation or on the equipment to warn of potential hazards or to call attention to information that clarifies or simplifies a procedure The addition of this symbol to a Danger or Warning safety label indicates that an electrical hazard exists which will result in personal injury if the instructions are not followed injury hazards Obey all safety messages that follow this symbol to avoid possible injury or death A DANGER DANGER indicates an imminently hazardous situation which if not avoided will result in death serious injury or equipment damage This is the safety alert symbol It is used to alert you to potential personal A WARNING WARNING indicates a potentially hazardous situation which if not avoided can result in death serious injury or equipment damage A CAUTION CAUTION indicates a potentially hazardous situation which if not avoided can result in injury or equipment damage Safety Information PLEASE NOTE Electrical equipment should b
12. New Password Confirmation of New Password Change Write Password Home Statistics Bootp Server Rack Viewer Data Editor Copyright 2000 Schneider Automation SA All rights reserved al 101 Facilities How to Modify HTTP Access Rights How to Modify the Write Password The procedure is as follows Step Action 1 Enter the new User name Enter the new password Confirm the new password AJOJN Confirm the modification using the Change password button Result an Ethernet Configuration page appears Click on the Reboot Device button to recognize the modification in the module The procedure is as follows Step Action 1 Enter the current password using the right case i e upper or lower case Note the default value of this field is USER 2 Enter the new password Confirm the new password 4 Confirm the modification with the Change password button Result an Ethernet Configuration page appears to indicate that the password has been modified 102 Facilities Address Server Page for the HTTP Server At a Glance This page is used to display or modify the correspondence table between the MAC addresses or the Name Role Name and the IP addresses of the module if the latter is configured as a BOOTP server see p 84 This function is useful when replacing a failed remote device
13. Note In the cases of Not configured and Unscanned no Modbus request is generated towards the device 281 TSX P57 5634 Debugging Parameters for the Global Data Utility Introduction When the Global Data utility is activated the status of a Global Data variable is displayed on the screen Global Data The window is displayed as below Global Data Not configured 16 y SUB Variable 32 A Global Data gy Faulty SUB 48 activated E PUB variable 64 49 Faulty PUB A Global Data variable can have the following status Not configured white SUB variable subscribed variable received in the health timeout limit green Faulty SUB subscribed variable not received in the health time out limit red PUB variable published variable green Faulty PUB published variable not updated within the allotted period yellow 282 TSX P57 5634 Bandwidth Control Diagnostic Parameters Introduction When bandwidth control is activated the load of the coprocessor is displayed on the screen Bandwidth The window is displayed as below Bandwidth Estimated distribution 20 40 10 scanning i Messaging ij 10 30 Global data Other This graphic displays the actual load distribution between I O Scanning Global
14. Standard symbol Type Access Meaning Address NO_DEVICE BOOL R No device is working on the channel MWr m c 2 0 1 DEVICE FLT BOOL R A device on the channel is faulty MWr m c 2 1 BLK BOOL R Terminal block fault not connected MWr m c 2 2 TO_ERR BOOL R Time out error defective wiring MWr m c 2 3 INTERNAL_FLT BOOL R Internal error or channel self testing MWr m c 2 4 CONF_FLT BOOL R Different hardware and software MWr m c 2 5 configurations COM_FLT BOOL R Problem communicating with the MWr m c 2 6 PLC APPLI_FLT BOOL R Application error adjustment or MWr m c 2 7 configuration error 294 Ethernet language objects 10 3 The Language Objects and IODDTs Associated with Ethernet Communication At a Glance What s in this Section This section shows the language objects and IODDTs associated with Ethernet communication This section contains the following topics Topic Page Details of Implicit Exchange Objects of the IODDT of Type T_COM_ETY_1X0 296 Details of Explicit Exchange Objects of the IODDT of Type T_COM_ETY_1X0 297 Details of Implicit Exchange Objects of the IODDT of Type T_COM_ETYX103 298 Details of Explicit Exchange Objects of the IODDT of Type T COM_ETYX103 299 Details of Explicit Exchange Objects of the IODDT of Type T_ COM_WMY_100 301 Details of Implicit Exchange Objects of the IODDT of Type T_COM_ETHCOPRO 303 Details o
15. 249 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 Bandwidth Control Diagnostic Parameters Introduction When bandwidth control is activated the load of module TSX ETY 4103 PORT 5103 is displayed on the screen Bandwidth The window is displayed as below Distribution of Utilities oix 20 10 scanning fi 30 Global data F 40 Messaging 10 Other This graphic displays the actual load distribution between I O Scanning Global Data Messaging and other utilities lO Scanning yellow Global Data blue Messaging green Other gray Return to configuration see p 236 if you wish to modify this distribution 250 Ethernet Coprocessor At a Glance What s in this Chapter This section concerns the software installation of the Ethernet channel built into the TSX P57 5634 processors This chapter contains the following sections Section Topic Page 9 1 General 252 9 2 Configuration 262 9 3 Debugging 274 251 TSX P57 5634 9 1 General At a Glance What s in this Section This section describes the built in Ethernet communication of coprocessors This section contains the following topics Topic Page General 253 Characteristics 254 Type of Connections Supported 255 Performance of I O Scanning Utility 257 Global Data Utility Performances 259 Operating Mod
16. Temps 1 3 Press the Ping button The response appears in the Time field ms The returned time corresponds to the time it takes the message to be sent and return in ms Response Type The following table groups together the various types of possible responses to the Ping request If the response is then positive The windows records the time it takes the message to be sent and return in ms a window appears with the message Exchange successful negative a window with the message Exchange incorrect specifies that the remote device was not reached in the network architecture 244 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY Requests Available for the Communication Channel Test Introduction Test Conditions Available Requests This page describes the different possibilities for testing a communication channel from the debugging screen Sending a request to an unconnected station results in an error message The test applies to stations belonging to the same local area network The X Way station test window allows the following requests Identification prompts the Identification request to be sent to the designated remote station Mirror allows a mirror request to be sent to the designated station Selecting this function gives access to a screen that allows you to select the length of the character string to be sent a maximum o
17. This section contains the following topics Topic Page Dynamic Assignment of Addresses 85 DHCP Servers 87 84 Facilities Dynamic Assignment of Addresses At a Glance BOOTP Client DHCP Dynamic Host Configuration Protocol is a start up protocol for terminals or stations without disks via a centralized management of network parameters The DHCP servers are used to supply an IP address to a station that starts on the network The TSX ETY 4103 PORT 5103 module or the Ethernet link of the TSX P57 5634 can be configured as the DHCP server They can also have their address configured by the user or dynamically allocated from an address server configuration as BOOTP client Note the DHCP server can also respond to the BOOTP protocol In this context a module configured as a BOOTP client transmits requests on the network every second while it is starting up until it obtains a reply The remote device acting as the BOOTP DHCP server responds to this request and assigns to the client module e an IP address e the gateway IP address e the corresponding subnetwork mask Note the display of this information from a browser connected on the HTML pages of the rack display on the web server is sometimes inaccurate Therefore you must connect a Unity Proware application on the PLC concerned in order to obtain the real values Note If the absence of the address server
18. cece eee teen eee 99 HTTP Server Index Page 0 cece cette eee 100 HTTP Server Security Page 0 02 nananana ete eee 101 Address Server Page for the HTTP Server 0000 cece eee 103 HTTP Server Rack Display Page 0 cece eee eee eee eee 105 HTTP Server Data Editor Page 1 1 2 ee eee 106 Ethernet Module Diagnostic PageS 0 cece ees 108 4 10 4 11 Chapter 5 5 1 5 2 5 3 5 4 5 5 5 6 5 7 5 8 Chapter 6 Chapter 7 7 1 NTP Diagnostics Pagese cesi ricit ci rimate pii teens 114 Email Diagnostics Page cece ttt 116 HTTP Server User PageS 0 00 cee eee eet nee 117 Bandwidth Monitoring 0 0 cee tee ete 118 ETHWAY Facllity lt 045 2 ts oh bd e r oid ediiedw eid Bleed ed 119 Configuration parameters 2000ee eee 121 Configuration Parameters for TCP IP Facilities 005 122 Configuration Parameters Linked to TCP IP Utilities 123 Configuration Parameters for IP Addresses 00000 eee eee 124 Example Changing IP Parameters with SEND_REQ 126 Connection Configuration Parameters 0020 ce eee eee eee 127 Ethernet Configuration Parameters 00 0c cece eee eee 129 Configuration Parameters for the IO Scanning Facility 130 Configuration Parameters Linked to the IO Scanning Utility 131 Configuring the General P
19. Fill in the fields e Location SysLocation e Contact SysLocation If you want to set access rights fill in the commUnity Pro names e Set e Get e Trap If you want to activate transmission of an event to the module check the Activate Authentication Failure trap box 178 TSX ETY 110 Configuration of the Bridge Function Introduction The TSX ETY 110 module can be used as an X Way bridge station This guarantees transparent communication between various networks Note For installation of this function 179 TSX ETY 110 Example of ETHWAY Private Type Architecture At a Glance The following figure shows the installation of a TSX ETY 110 module in an ETHWAY private architecture Programming Supervisor terminal LLLI X Way 1 3 FRE IP 84 0 1 3 2E IP 84 0 1 4 Ethernet Premium i army E I Wi ii li Station 2 X Way 1 1 IP 84 0 1 1 Station 1 ue X Way 1 2 IP 84 0 1 2 z a 1 A i I iTi 5 l S i 1 ETHWAY or TCP IP communication 2 ETHWAY communication 180 TSX ETY 110 Recommended Operating Mode Configuration of the Local Address of the Module of Station 2 Configuration of the Connections of the Module on Station 2 Ethernet Configuration of the Module on Station 2 Configuration of the Co
20. General Built in Ethernet 252 Ethernet TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 200 Ethernet coprocessors 252 General points Ethernet 15 Global Data 91 configuration 142 H Hardware TSX ETY 4103 TSX ETY PORT TSX WMY 100 TSX ETY 5103 39 health bits for a Premium Ethernet device global data 320 I O scanner 320 how to associate a logical network Ethernet 160 163 HTTP 96 97 Address server 103 data editor 106 Ethernet module diagnostics 108 rack display 105 security 101 user pages 117 j I O scan list 320 I O scanner device control block 323 Identification Ethernet 196 246 Installation Overview 19 IO Scanning 78 Configuration 130 IODDT Communication 291 Ethernet 286 Module 307 IP parameters changing dynamic 125 344 Index L Language Objects Implicit Exchange 288 Language objects Ethernet Configuration 308 Explicit exchange 289 293 Explicit exchanges 297 299 301 305 Implicit exchange 292 Implicit exchanges 296 298 303 leap second 330 local clock offsets 330 M mail notification service for Ethernet error codes 338 MAST 94 329 Mirror Ethernet 196 246 Modbus Ethernet 69 O Operating Mode Ethernet TSX P57 5634 260 Operating mode Ethernet TSX ETY 4103 PORT 5103 208 P parameters setting daylight savings time 150 230 setting NTP server IP address 150 230 setting synchronization period 150
21. Network Address The ETHWAY data parameters are used to configure the common words by e selecting the type of service supported e the number of words allocated per station e the network address of the local station The selection of this field invalidates the management of common words in the application The module does not manage the common database The application has read only access to the common words The application has read and write access to the common words This field can be accessed when selecting Common reading words or Common reading writing words Filling in this field configures the number of common words managed by the local module Note The size of common words must be the same for each network station This field can be accessed when selecting Common reading words or Common reading writing words Filling in this field identifies the network which supports the common words service 157 Configuration Parameters 158 Method for Programming an Ethernet Network Introduction What s in this Chapter This chapter describes the method for creating an Ethernet network on Premium PLCs This chapter contains the following topics Topic Page Configuration Methodology for an Ethernet Network 160 Choosing a Logic Network Family 165 159 Programming an Ethernet Network Configuration Methodology for an
22. SSS N N N N N N N N see 164 Programming an Ethernet Network Choosing a Logic Network Family Introduction Figure Unlike other networks during the configuration phase of an Ethernet logic network it is necessary to choose the module family to be attached to the logic network in order to be able to access the different services available There are three Premium PLC families e TCP IP 10 and ETHWAY for ETY 110 and 110 WS e TCP IP 10 100 extended connection for TSX P57 5634 e TCP IP 10 100 standard connection for ETY 4103 5103 and PORT The figure below shows the family selection window E Ethernet factory 2 m Module IP address Module address _ Rack Module Channel TCP IP 10 100 Extended connection x m IP module address IP Address Subnetwork mask Gateway Address OTOT MOTOS OA 165 Programming an Ethernet Network 166 TSX ETY 110 Module Introduction What s in this Chapter This chapter describes the implementation of a TSX ETY 110 module This chapter contains the following sections Section Topic Page 7 1 General Points 168 7 2 Configuration 174 7 3 Debugging 188 167 TSX ETY 110 7 1 General Points Introduction This section introduces Ethernet communication from the TSX ETY 110 coupler and its characteris
23. Tab Function 1 Enables the configuration of IP addresses see p 124 and configuration of the type of Ethernet frame see p 129 2 Enables the configuration of TCP IP connections see p 127 Is used to configure common words Is used to configure the SNMP utility see p 140 175 TSX ETY 110 Type of Communication According to Chosen Configuration Introduction Module in Client Mode Module in Server Mode Depending on the configuration of the TSX ETY 110 module you can carry out messaging e either on the ETHWAY profile e or onthe TCP IP profile When the module is the client the ETHWAY or TCP IP profile is fixed by the configuration of stations in the moduleis connection table The following table specifies which profile is used according to the configuration of the table If the address of the remote station is O referenced in the table not referenced in the table Communication profile TCP IP ETHWAY Note f no station is recorded in the table the communication profile is ETHWAY When the module is the server the ETHWAY or TCP IP profile is fixed according to the client device e Ifthe client transmits on the ETHWAY profile the module responds on the ETHWAY profile e Ifthe client transmits on the TCP IP profile the module responds on the TCP IP profile Note Where access control is activated compatibility must be e
24. Messaging Tab IP Configuration Tab TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 VO Scanning Utility Configuration Introduction In order to use the TSX ETY 4103 5103 module to control remote I Os it is necessary to set the configuration parameters of the I O Scanning utility see p 130 How to Access The procedure for accessing the configuration parameters for the I O Scanning VO Scanning utility is as follows Step Action 1 Access the module configuration screen 2 Inthe Module utilities zone select the option YES in the O Scanning menu Module services YES x 10 Scanning NO x Global Data NO x Address Server The I O Scanning tab is no longer grayed out 3 Select the I O Scanning tab Result IP Configuration Access Con VO Scan Global Data SNMP Address Bandwidth V O Scanner configuration Health Block l IW 7IWo Device Control Block MDx 4 MD2 4 Unit ID Health Repetitive RD RD WR WR a ire Timeout rate ms Master Slave Rie ee cae Maste Slave ms Object Index g P Object Index 1 139 124 10 8 255 1500 208 MW200 0 2 Hold Last f MW100 0 2 1139 124 10 8 255 1500 208 MW202 2 2 Setto0 frl Mwiod 2 3 139 124 108 255 1500 208 MW204 4 2 S
25. Protective ground 32 TSX ETY 110 Topology Locking Illustration Sender Receiver TSX ACC2 Station i Station j The Sub D connector is equipped with a sliding lock system The connector is locked by sliding the tab to the bottom To ensure the module works properly in a disturbed environment it is essential to carry out the locking procedure Illustration Locking tab 33 TSX ETY 110 2 6 10baseT Interface 10baseT Interface General widely used in business e Shielded twisted double pair e Impedance 100 15 Q from 1 to 16 MHz e Maximum attenuation 11 5 dB 100 meters e Maximum length 100 meters Pinouts Illustration This interface has a standard type RJ45 connector These connection cables are In an industrial environment you must use a cable with the following characteristics The 10baseT connection is a point to point connection to form a star shaped network The stations are connected to concentrators or switches Reminder of pinouts Pin Signal TD TD RD not connected not connected RD not connected OlN Oo ao AJ OIN not connected 34 TSX ETY 110 Topology This link is used to create a star shaped network with connections in point to point The stations are connected to
26. When should I configure my connections to Mono Connection When this connection has to be established to a TSX ETY 110 Modbus protocol The destination PLC of my messages is a bridge Which X Way destination address should I configure in the connections table The X Way address of the first communication module of the PLC bridge if present it is the processor PCMCIA card I have changed the IP addresses in Address Server and IO Scanner configuration should I restart my client server devices Yes The devices only receive their IP address when starting up This restart should be carried out once the TSX ETY 4103 5103 module has been reconfigured fixed RUN and STS LEDs In the module configuration screens the last entry inserted into one of the grids has not been taken into account at the validation Why You need to remove the focus the scale indicator from the last cell of the grid in which new data has been entered in order to take this modification into account These processors do not manage bridge data Why is the Bridge tab grayed out when I have already changed the position of the processor After this type of modification you have to validate the new hardware configuration to access and modify the bridge data managed globally at the level of the processor The momentum 170 ENT modules do not manage to obtain their client server address from the address server of the TSX ETY 4103 TSX ETY PORT or TSX ETY 5103 modul
27. e f so enter the password associated to the address server then go to step 5 e If not go to step 5 Confirm the modification with the Change entry button Click on the Refresh Address server table button to display the modification on the screen Recognition of Configuration modifications are recognized either after a cold restart of the PLC or Modifications on the next loading of the PLC application 104 Facilities HTTP Server Rack Display Page At a Glance How to Access the Page Illustration This page allows you to carry out diagnostics on the modules in the local rack configuration that includes the Ethernet module By clicking on a module in the configuration you obtain a set of diagnostic information on this module e LED status display e the type and the version of the module as well as its position in the rack e information specific to the functions of the module Note For further information refer to the FactoryCast User Guide documentation The following procedure indicates how to access the rack display page from the index page Step Action 1 Click on the Rack Display link The TSX ETY4103 rack display page is presented below as an example nuwa xuy Lo 3300 DA OFA KHT KUH SOF Kin gt KUH
28. Client module Server Between a Premium PLC and a Quantum PLC using Modbus messaging on the TCP IP profile the TSX ETY 4103 PORT 5103 module allows e asingle connection in Modbus client mode e a single connection in Modbus server mode Example Ethernet A connection in Modbus client messaging Lil ati a I A connection in 4103 PORT 5103 module Modbus server a messaging Quantum 203 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 Connection to a Between a Premium PLC and a third party device the TSX ETY 4103 PORT 5103 Third Party module allows Device e a single connection in UNI TE or Modbus client mode e several connections in UNI TE or Modbus server mode Example Ethernet A connection in UNI TE or Modbus messaging in client mode Premium with a TSX ETY 4103 PORT 5103 module Several connections in UNI TE or Modbus messaging in server mode with different X Way addresses PC third party device 204 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY Performance of I O Scanning Utility At a Glance Restart Time for an I O Scanning Configuration Input Output Restart Time Application Response Time The performance data presented below are those of the module TSX ETY 4103 PORT 5103 while using the I O Scanning utility This time corresponds to the time between the power up of the complete configuration and the moment when all the rem
29. Ethernet Module M 7 Open page http 139 160 2 Internet zone 110 Facilities Messaging Page This page provides current information on the open TCP connection on port 502 The number of sent received messages on the port can be found at the top of this page A table provides for each connection numbered from 1 to 64 e The remote IP Address The remote TCP port The local TCP port The number of messages sent from this connection The number of messages received from this connection The error number on this connection View of the messaging diagnostics page Welcome to the Premium Web Server Microsoft Internet _ x File Edit View Goto Favorites Ea gt ales e R E Nan Back Forward Stop Refresh Home Search Favorites History Channels Addres e http 139 160 234 18 secure system index_french htm v Links Ba MESSAGING DIAGNOSTICS Number of Messages sent 150 Number of Messages received 50 Conn Remote addr Remote Local Port Mess Mess Err port sent received sent 1 192 160 10 20 1920 502 20 12 0 2 139 160 235 90 2020 502 0 30 02 3 192 160 10 21 502 3000 3 60 0 4 139 160 234 20 1050 502 15 42 0 5 139 160 234 18 5120 502 0 39 1 Home Ethernet Module _ l T Open page hitp 139 160 2 Internet zone 111 Facilities Bandwidth This page displays the load distribution of t
30. I O Scanner configuration Device Control Block MDx 4 MD2 4 Unit ID iti RD RD WR WR ja pees sue pinky Master Slave pe N Maste Slave ms Object Index Object Index 1 139 124 10 8 255 1500 208 MW200 0 2 Hold Last fy MW100 0 2 139 124 10 8 255 1500 208 MW202 2 2 SettoO0 MW103 2 3 139 124 10 8 255 1500 208 MW204 4 2 SettoO FI MW104 4 4 139 124 10 8 255 1500 208 I MW206 6 2 Hold Last f MW106 6 5 139 124 10 8 255 1500 208 MW208 8 2 Hold Last fe MW10g 8 6 139 124 10 8 255 1500 208 Mw210 10 2 Setto0 fe MW11 10 TE v 8 9 Set to 0 v 4 gt 323 Transferring Data with the I O Scanner Set the desired configuration parameters in the I O Scanner configuration dialog by entering data in appropriate fields Parameter Field Description Device Control Block check box If this box is checked the device control block is enabled and the master can send requests to a slave If the box is not checked the device control block functionality is disabled and all I O scanner table entries are active at all times MDx 4 If a Device Control Block bit is disabled the I O scanner closes the connection and sets the health bit to an unhealthy state bit value 1 Entry leftmost
31. Pin Signal 1 TD 2 TD 3 RD 4 not connected 5 not connected 6 RD 7 not connected 8 not connected Note If there is a connection via a shielded cable the connector casing on the module is linked up to the ground connection 49 Communication Ethernet Modules Speed Line Speed Adaptation The possibilities for the different speed lines for the TSX ETY 4103 PORT 5103 modules and for the TSX P57 5634 processor s integrated Ethernet channel are the following e 100 Mb in Half Duplex e 10 Mb in Full Duplex e 10 Mb in Half Duplex The speed line cannot be configured by the user The process of self adaptation is as follows 1 Each unit diffuses its possibilities on the line 2 The chosen speed is the fastest of all entity possibilities on the line In other words speed is limited by the slowest entity on the line of which the speed possibility is the weakest 50 Communication Ethernet Modules 3 6 Display Diagnostics Introduction What s in this Section This section deals with TSX ETY 4103 PORT TSX WMY 100 and TSX ETY 5103 module diagnostics using their display panel This section contains the following topics Topic Page Display Panel Modules Diagnostics 52 Display P anel Ethernet Diagnostics for TSX P57 5634 Processors 53 51 Communication Ethernet Modules Display Panel Modules Diagnostics
32. SysContact X X SNMP Manager X CommUnity Set X X Pro names Get X xX Trap X X Security Enable Authentication Failure trap X X Legend X Accessible Not accessible 139 Configuration Parameters Configuration of the SNMP Utility At a Glance Administrators IP Addresses Agent Parameters linked to the SNMP utility are divided into 4 categories the IP addresses of the SNMP utility administrative devices the agents the commUnity Pro names security Note Only 7 bit ASCII characters can be used in the character string entry fields This zone allows you to complete the SNMP administrators IP addresses The modules authorize a maximum of two administrators These addresses are used during possible transmission of events TRAP See p 89 This zone allows the localization and identification of an agent from the SNMP administrator It comprises two fields e The Location SysLocation field indicates the physical location of the device 32 characters maximum e The Contact SysLocation field indicates the person to contact for device management and the method of contact strings of 32 characters maximum e lItis preferable that this information is assigned by a SNMP Manager tool for network management rather than by Unity Proware To do this check the SNMP Manager box 140 Configuration Parameters CommUnity Pro Name Security This z
33. This value can be adjusted from 50 to 1000 ms in increments of 50ms 226 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY Configuration of the SNMP Utility Introduction In order to use the TSX ETY 4103 PORT 5103 module as an SNMP agent it is necessary to adjust the configuration parameters of the SNMP utility see p 138 How to Access The procedure for accessing the configuration parameters for the SNMP utility is as the SNMP Utility follows Step Action 1 Access the module configuration screen 2 Select the SNMP tab Result IP Configuration Messaging Common words m IP Address Managers IP address manager 1 39 150 33 A10 IP address manager2 139 150 90 20 r Agent Location SysLocation MyLocation Contact SysContact MyContact r Community name Set Get Trap S public public public Security Validation trap Authentication failure gt 227 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 Howto Configure SNMP The following procedure gives the configuration principle for the SNMP utility Step Action 1 Enter the SNMP manager addresses e Manager 1 IP addresses e Manager 2 IP addresses Fill in the fields e Location SysLocation e Contact SysLocation Or alternativ
34. Two polling periods elapse before an accurate time is re established 331 Time Synchronzation Service Using the R_NTPC Block for Time Synchronization R_NTPC The R_NTPC block reads Ethernet network system time and transfers it into Representation specified parameters The additional parameter EN should be configured Display NTPC Cale NTPC Status The R_NTPC block has a 16 bit status word R_NTPC Output Parameters Parameter Data Type Description Display _NTPC DT INT NTP clock value displayed as OUT1 year month day minute second in the DT format Milliseconds are displayed as INTs Calc_NTPC UDINT INT NTP clock values are displayed in OUT2 seconds as an UDINT e fractions of a second as an INT STATUS INT The low byte is managed by the CPU When the low byte is set to 0 the clock value is not available the date and time are not updated within last two minutes When the low byte is set to 1 e the date and time are updated within the last two minutes the date and time are acceptable The high byte is managed by the ETY When the high byte is set to 0 the clock value transferred to CPU is not acceptable When the high byte is set to 1 the updated date time received from server and sent to module is e within two minute time interval acceptable 10 ms or less error For a valid time in CPU the low byte and the high byte of the STATUS parameter mus
35. e g replacing a faulty Momentum module Note This page does not allow the addition of new inputs nor the modification of the Name Role name for a remote device How to Access The following procedure shows how to access the Address server page from the the Page index page Step Action 1 Click on the Address server link 103 Facilities Illustration By way of example the Address Server page of a TSX ETY4103 a TSX ETY PORT or the Ethernet link of the TSX P57 5634 is as follows i Address Server Configuration 1 192 168 2 7 00005410033A 255 255 252 0 192 168 2 1 i ENTRY_1 192 168 2 6 255 255 252 0 192 168 2 1 Update the address server table Entry modification Entry to be changed 1 New IP Address New Ethernet Address New Netmask New Gateway Address Change entry Home Statistics Security Bootp Server Rack Viewer Data Editor FactoryCast Schneider Automation SA All rights reserved ha How to Modify The procedure is as follows the Table Step Action 1 Enter the entry number to be modified in the field provided Enter the new IP address to be modified in the field provided Enter the new MAC address to be modified in the field marked New Ethernet Address 4 Is the server locked in run mode
36. the TSX ETY 5103 module offers the option of creating user Web and TCP Open pages 201 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 Characteristics Maximum Capacity of the Module VO Scanning Utility Global Data Utility Replace Faulty Equipment The maximum frame size depends on the type of transaction e In synchronous messaging the maximum frame size is 256 bytes e In asynchronous messaging the maximum frame size is 1 Kbyte The modules TSX ETY 4103 TSX ETY PORT and TSX ETY5103 allow you e to manage 64 TCP connections using the port 502 messaging utility e toscan up to a maximum of 64 devices using the I O Scanning utility e tobe the DHCP server for a maximum of 96 devices requiring this utility In conjunction with a processor dedicated to this sort of handling the module can be used e for X Way synchronous messaging on TCP IP UNI TE server e with a TSX 57 454 processor 800 messages per second e with a TSX 57 354 processor 490 messages per second e inthe case of asynchronous X Way messaging on TCP IP e between 600 and 1200 messages per second number varies depending on the size of the messages the number of clients and the time it takes to run the application The module can scan a maximum of 64 remote devices For the same station the application can process e a maximum total volume of inputs to be scanned of 2 Kwords e a maximum total volume of outputs to be scanned of
37. the module resets the current communication to zero before configuring itself terminates current exchanges shuts down TCP connections 172 TSX ETY 110 Common Functions on the ETHWAY and TCP IP Profile Duplicate MAC Address Managing IP Parameters Detecting a duplicate MAC address defined by the code selector between stations which have a Schneider MAC address is done when the device is switched on So that this detection is operational the connection cable to the network must be plugged in before being switched on The RUN and ADR LEDs light up on the front panel of the module when a duplicate is detected In a closed architecture you may choose not to configure IP parameters and to keep the default values In an open TCP IP architecture the IP parameters IP address subnet mask gateway address must be configured The default value of the local IP address is derived from the MAC address its uniqueness is not guaranteed in an open TCP IP architecture It is a class A IP address MAC Address 16 00 80 F4 00 lt network address gt lt station address gt Default IP address 16 54 00 lt network address gt lt station address gt The default value of the subnet mask is 0 0 0 0 no subnet knowledge The default value of the default gateway is 0 0 0 0 no IP gateway knowledge 173 TSX ETY 110 7 2 Configuration Introduction This sect
38. 1 IP address 139 160 65 156 Protocol UNI TE Access authorized cell checked Mode Multi e configure communication of each of the PCis client applications to the server module in the table e X Way address 1 2 and 1 3 and 1 4 IP address 139 160 65 156 Protocol UNI TE Access authorized cell checked Mode Multi This example is the same as the previous one except that access control is not configured In this case if the application 1 1 is the only server application the moduleis correspondence table only contains the following line e X Way address 1 1 IP address 139 160 65 156 Protocol UNI TE Access the cell is grayed out Mode Multi 214 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY Multi Connection In this example the PC contains four applications The server application has an in Modbus imaginary X Way address and the other client applications do not need an X Way Protocol with address Access e The module opens a connection and communicates with the server application Management with the imaginary address 1 103 e Each of the client applications has no address but is authorized to open a connection and communicates with the module Exchanges are carried out according to the Modbus protocol and the moduleis access control utility is enabled Server application 1 103 Client application 139 160 65 156 Premium 139 160 65 157 client server In order t
39. 1 Entry Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 12 l1 JO 2 Table 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 Entry Bit 15 14 13 12 11 10 9 i8 7 6 5 4 3 2 l1 JO Word 3 through Word 7 8 Table 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 Entry Bit 15 14 13 12 11 10 9 8 7 6 5 4 3 2 l1 Jo 322 Transferring Data with the I O Scanner Modicon Premium with Unity I O Scanner Configuration Use the I O scanner to transfer data between master devices and slave devices Note The I O scanner does not work if you enable the device control block with outdated versions of the firmware or software If you enable the device control block you must have Unity Pro V2 0 or higher and they must be at TSX P57 ETY 4103 or 5103 Ethernet communications modules version 3 1 or higher TSX P57 1634 2634 or 3634 ETY ports version 3 1 or higher TSX P57 4634 or 5634 high end CPUs version 2 0 or higher Introduction If you are using VO Scanner Configuration Dialog high end CPU Click the I O Scanner tab on the Network Configuration screen to display the I O Scanner configuration dialog Below is a sample view of an I O Scanner dialog for a IP Configuration Access Con VO Scan Global Data SNMP Address _ Bandwidth
40. 502 NB_RCV_MSG DINT R Number of received messages on MDr m c 9 Port 502 NB_IOS_MSG INT R Number of IOScanner messages MWr m c 11 received NB_IOS_CNX INT R Number of error free modules MWr m c 12 scanned GLBD_ERROR INT R Global Data coherence error MWr m c 13 BW_GLBD_IOS INT R Global Data and lOScanner utilities MWr m c 14 loading BW_OTHER_MSG INT R Loading of messaging utility and MWr m c 15 300 Ethernet language objects Details of Explicit Exchange Objects of the IODDT of Type T_COM_WMY_100 Introduction Notes Execution Flags of an Explicit Exchange EXCH_STS Explicit Exchange Report EXCH_RPT Standard Channel Faults CH_FLT This part introduces explicit exchange objects of the T_CoM_wMy_100 IODDT which apply to the TSX WMY 100 module there are no implicit exchange objects in this IODDT It groups word type objects whose bits have a particular meaning These objects are described in detail below Example of declaring a variable IODDT_VAR1 of type T_COM_WMy_100 e The meaning of a bit is generally given for the status of the bit when set to 1 In specific cases an explanation is given for each status of the bit e Not all bits are used The table below presents the exchange control bits of the channel EXCH_STS MWr m c 0 Standard symbol Type Access Meaning Number STS_IN_PROGR BOOL R Reading of status words of the MWr m c 0 X0 channel in pr
41. Daylight saving time DST parameter is either 1 on enabled 2 off disabled The dialog NTP Diagnostics NTP Status OK r NTP Server Status Link to the NTP Server HH Server Time Quality within 0 microsec sec Server Primary r NTP Request Statistic Number of Requests 2 Number of Errors 0 Number of Responses 2 Last Errors 0 r NTP Date and Time Date 05 Apr 2004 Time 16 51 15 DST Status ON Time Zone GMT 05 00 E astern Standard Time New York 114 Facilities Last Error Field Last Error field displays values which indicate the type of error Type of Error Value Component OK and running 0 Excessive network traffic or server overload 1 Bad parameters in the configuration 3 Component is disabled 4 Incorrect IP 9 Time zone file absent 14 Syntax error in the customrules file 15 115 Facilities Email Diagnostics Page Email Diagnostics The dialog Email Status OK Email Diagnostic Link to Server Status i SMTP Server IP Address h 00 208 84 86 Number of e mail sent 0 Number of Responses from SMTP Server 54 Number of Errors D Last Errors 0 Last Mail Header Used 0 Number of seconds elapsed since last e mail successfully sent 0 Number of times the link to the server has b
42. ETY 110 can be wired or unwired with power switched on without disrupting the operation of the station The module does not have a RAM internal backup memory function this will be erased when power is switched off The module initializes itself when power is switched on A communication break can be expected during this intervention The SUB D 15 pin connectors of the AUI interface and the RJ45 connector of the 10baseT interface can be connected or disconnected when power is on A communication break can therefore be expected in the application in progress 29 TSX ETY 110 Station Address Coding General Four thumbwheels which can be accessed from the front panel are used to encode the network number and the station number Illustration MSB e gt Number of network MSB Ls8 gt Number of station LSB least significant bit MSB most significant bit Values of coding possible in hexadecimal Network number Station number 0 to 7F 0 to 3F Example of coding Network 3 16 03 Station 27 16 1B The thumbwheels are to be adjusted as follows PF 3 Pf 1 PF B Pf Note Caution in an Ethernet network there must only be one MAC address for each station Before modifying these addresses you must check that they comply with the addressing plan of the carrier 30 TSX ETY 110 2 5 Connection via the AUI interfac
43. ETY 4103 PORT TSX P57 5634 4634 5103 Parameters Master MW zones Read Ref x Write Ref x Device Control Block X X Repetitive rate in ms in ms Master RD ref automatic automatic Slave RD ref x x Read Length x x Input fallback Fallback to 0 Maintain Fallback to 0 Maintain Master WR ref automatic automatic Slave WR ref x x WR Length x x Legend X Accessible Not accessible 131 Configuration Parameters Configuring the General Parameters for the I O Scanning Utility At a Glance For configuring the IO Scanning utility the read and write zones are general at the remote inputs outputs Master MW This sub window is used to define the ranges of internal words of the application Zones memory MW specific to the read and write zones To do this you must complete e forthe read zone Read Ref the starting address in the table of internal words for reading inputs e for the write zone Write Ref the starting address in the table of internal words for writing outputs The length of tables has a maximum exchange capacity of e 2 Kwords for the read zone e 2 Kwords for the write zone Note The tables must not overlap and an overrun check is made on global validation 132 Configuration Parameters Configuration of Scanned Peripheral Devices At a Glance The IP Address and Unit ID Fields Healt
44. Modbus Access the cell is grayed out Mode Multi 216 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY Configuration of TCP IP Messaging Introduction In order to use the TSX ETY 4103 5103 module to communicate on Ethernet it is necessary to set the Configuration Parameters Linked to TCP IP Utilities see p 123 Messaging is configured in the two windows accessible by the tabs IP Configuration and Messaging 217 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 How to Access The procedure for accessing the configuration parameters for TCP IP utilities is as the Messaging follows Step Action 1 Access the module configuration screen 2 Select the IP Configuration tab Result IP Configuration Messaging IO Scanning Global Data SNMP Address Server Bandwidth a IP Address Configuration fe Configured a aren IP Address T39 fi24 10 14 Subnetwork mask p55 255 0 0 Gateway Address 739 124 J10 1 a S C Froma server Ethernet configuration Ethernet Il C 802 3 v Ki 3 Select the Messaging tab Result IP Configuration 10 Scanning Global Data SNMP Address Server Bandwidth X Way Address Network 40 Station 4 m Configuration of connections A
45. O Scanner Below is a sample view of an I O Scanner dialog for an ETY module IP Configuration Access Con VO Scan Global Data SNMP Address Bandwidth o i Write Ref From 136 to 66 From 105 to 139 Device Control Block MDx Scanned peripherals iti RD RD WR WR la IP Address Unit ID Manti gute Master Slave pee Berra WES Seve ms ms Object Index Object Index 1 139 124 10 8 255 1500 208 MW136 0 2 Hold Last feMW109 0 2 139 124 10 8 255 1500 208 MW137 2 2 SettoO feoMW110 0 3 139 124 10 8 255 1500 208 MW138 4 2 Setto0 fevoMW111 0 4 139 124 10 8 255 1500 208 MW139 6 2 Hold Last feyoMWw112 0 5 139 124 10 8 255 1500 208 MW140 8 2 Hold Last rPeMWw113 0 6 139 124 10 8 255 1500 208 MW141 10 2 Setto0 M MW11 0 7 189 124 10 8 255 1500 208 MW142 Hold Last MW115 0 8 189 124 10 8 255 1500 208 MW143 MW 116 0 9 39 124 10 8 255 1500 208 MW144 Set to 0 MW 117 oly 4 gt The configuration parameters in this dialog are as follows Parameter Field Description Read Ref A pair of data boxes From and to The values in these boxes define the range of destination address values in the CPU for the data read from each d
46. Page 121 Bandwidth Monitoring web page diagram Active Links on Web Page Home Ethernet Module Active Links on Web Page Home Ethernet Module Configuration Ethernet Module Diagnostics 339 Premium Documentation Errata sheet Location inthe on Page Original Content is replaced with Manual Section 4 9 121 first TSX ETY 4103 TSX ETY 4103 PORT 5103 Bandwidth sentence PORT 5013 module Monitoring Page module Section 5 2 2 138 second The length of The length of tables has a Configuring the bulleted list tables has a maximum exchange capacity of General maximum e 2 Kwords for the read zone Parameters for exchange ETY4103 ETY5103 ETY the IO Scanning capacity of PORT Utility e 2Kwords for e 4 Kwords for the read zone the read zone TSX P57 4634 and TSX P57 e 2 Kwords for 5634 the write zone 2 Kwords for the write zone ETY4103 ETY5103 ETY PORT 4 Kwords for the write zone TSX P57 4634 and TSX P57 5634 Section 8 2 4 10 226 Step 310 O dialog outdated Updated screen capture Scanning Utility Scanning tab unavailable at press time Contact Configuration diagram Schneider Electric for updated documentation Section 8 2 6 231 second from 50 to from 50 to 15000 ms in 50 ms Configuring table step 4 1000 ms increments Global Data Section 9 2 4 IO 278 step 3 Updated screen capture Scanning Utility Diagram of IO unavailable at press time Contact Conf
47. Request 244 Requests Available for the Communication Channel Test 245 How to Test a Channel with the Identification and Mirror Requests 246 How to Test a Channel with Requests 247 Debugging Parameters for the I O Scanning Utility 248 Debugging Parameters for the Global Data Utility 249 Bandwidth Control Diagnostic Parameters 250 239 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 Module Debugging Screen Introduction Figure This screen separated into eight zones allows debugging via an Ethernet link The screen dedicated to Ethernet communication is displayed as follows Address IP service Address information MAC Address 00 80 F4 01 00 41 Messages IP Address 139 160 234 118 Subnetwork mask 255 255 255 0 Gateway Address 139 160 234 1 Open connections 7 Non authorized access 0 Messages Refused 0 Messages received 703 l Messages sent 70 Communication test X Way station tes Identification Local address T Mirror Station number 0 Response reception Enter request Faulty PUB
48. TCP IP Premium am 1 4 192 168 1 4 In the example opposite four TCP connections are open for communication between the terminal and the PLC stations or between two PLC stations The terminal is always able to open connections Either of two PLCs CANopen the connection between them the client PLC 75 Facilities Closing a Connection At a Glance Connections can be closed in two different ways e by the remote station deciding to end communication and sending a TCP IP connection closure e by the local PLC where the maximum number of open connections is reached the connection that has been open the longest is then closed Closure of a connection is indicated to the application by means of an error report message refused on any exchanges in progress 76 Facilities What Happens when a Connection is Broken Introduction Reconnecting the Cable Server Remote Device Client Remote Device A break in connection can be of two types e disconnection of the network cable cable disconnected or cutO e disappearance of the remote device break down power cutO Loss of connection is detected after 2 hours by the Keep Alive request If within this time the connection is re established re starting communications is different according to the type of break In this case the break in connection is caused by a network cable but the two stations remain operational When the
49. Table of consumption Voltage Current consumed Dissipated power 5 volts Typical Maximum Typical Maximum with remote power supply RJ45 0 8A 1 2A 4W 6W with remote power supply AUI 1 2A 2 5A 6W 12 5 W Note Caution Modules TSX ETY 110 on 5 volts have high consumption when the AUI connection is used Special attention should therefore be given what sort of devices are in the rack before deciding which kind of supply to choose Number of TSX ETY 110 modules which can be connected to a rack e 2 modules with AUI connection e 4 modules with RJ45 connection 37 TSX ETY 110 38 Communication 10 100 MBits s 3 Introduction This chapter deals with hardware installation of the 10 100 MB s Ethernet communication module via the TSX ETY 4103 PORT TSX WMY 100 and TSX ETY 5103 modules as well as the Ethernet 10 100 MB s communication module integrated into the TSX P57 5634 processors What s in this This chapter contains the following sections Chapter Section Topic Page 3 1 Introduction 40 3 2 Description 41 3 3 Ethernet Channel Characteristics 45 3 4 Installation of TSX ETY 4103 PORT 5103 Modules and the 46 TSX P57 5634 Processor 3 5 10 100baseT Interface 49 3 6 Display Diagnostics 51 3 7 Electrical Characteristics 54 3 8 Standards 55 3 9 Operating Conditions 56 39 Communication Ethernet Modules
50. X Way address 1 2 and 1 3 and 1 4 e IP address 139 160 65 156 e Access authorized cell checked e Mode Multi 266 TSX P57 5634 Multi Connection in UNI TE Protocol without Access Management Multi Connection in Modbus Protocol with Access Management TSX P57 5634 client server j This example is the same as the previous one except that access control is not configured In this case if the application 1 1 is the only server application the coprocessor s correspondence table only contains the following line e X Way address 1 1 e IP address 139 160 65 156 e Access the cell is grayed out e Mode Multi In this example the PC contains four applications The server application has an imaginary X Way address and the other client applications do not need an X Way address e The coprocessor opens a connection and communicates with the server application with the imaginary address 1 103 e Each of the client applications has no address but is authorized to open a connection and communicates with the Ethernet channel of the TSX P57 5634 Exchanges are carried out according to the Modbus protocol and the coprocessor s access control utility is enabled 139 160 65 156 139 160 65 157 Client application In order to implement this example you must e activate connection management by checking the coprocessor s Access control box e configure communication from the coprocessor to the PCis
51. a communication test 241 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 General Debugging Parameters Introduction The general debugging parameters are grouped together in two windows e the Message traffic window e the Messages window Message Traffic The window is displayed as below Message traffic msg min 4000 msg min mf inwa Min g 1223 Max 2285 RES It indicates graphically the number of messages per minute processed by the module send and receive For better display the scale automatically adapts to the flow rate The Reset button resets the three counters Min Av and Max to zero Messages The window is displayed as below Messages Connections open Non authorized access 0 Messages Refused Messages received 6637 Messages sent 66728 Band Reset counters width l f This window relates to TCP IP messaging and displays e the number of connections opened e the number of unauthorized accesses e the number of messages refused received and sent To reset the counters to zero simply click on the Reset counter button To view the bandwidth status click on the Bandwidth button 242 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY Debugging Parameters for TCP IP Utilities Introduction Address Information Communic
52. and the Ethernet channel of the TSX P57 5634 which can be displayed by the application program 311 Ethernet language objects Internal Constants The following table describes the internal constants Object Function Meaning KWr m c 0 Type Byte 0 11 for Ethernet communication Byte 1 reserved KWr m c 1 Physical layer Byte 0 fixed at 16 01 corresponds to GPX2 Byte 1 reserved KWr m c 2 Reserved KWr m c 3 Reserved KWr m c 4 Reserved KWr m c 5 X Way network address Byte 0 network number 0 by default Byte 1 reserved KWr m c 6 Type of Ethernet driver Byte 0 fixed at 16 01 corresponds to RJ45 for TCP IP e 16 01 RJ45 Byte 1 e 16 00 Ethernet II default value e 16 01 802 3 KWr m c 7 TCP IP configuration Byte 0 reserved address type Byte 1 inherited address 16 01 from the application specific function 16 03 from a server KWr m c 8 Local IP address Example with the address 139 160 650 109 and Byte 0 109 KWr m c 9 Byte 1 65 Byte 2 160 Byte 3 139 KWr m c 10 IP address of gateway Example with the address 139 160 65 1 and Byte 0 1 KWr m c 11 Byte 1 65 Byte 2 160 Byte 3 139 KWr m c 12 and Subnetwork mask Example with the address 255 255 255 0 Byte 0 0 least significant KWr m c 13 Byte 1 255 Byte 2 255 Byte 3 255 most significant KWr m c 14 Utilities used Byte 0 bit 0 1 the lOSc
53. automation controller monitors the system and can automatically create an electronic mail message alert with data alarms and or events Mail recipients can be either local or remote e Based on predefined events or conditions messages are created using the SEND_REQ function block e The email message is constructed from predefined headers plus variables and text a maximum of 238 bytes This message is sent directly from the automation system to the local email server e Mail headers contain common predefined items6 recipient list sender name and subject These items can be updated by an authorized administrator The ETY 4103 ETY PORT and ETY 5103 Ethernet modules and the P57 5634 4634 modules include an SMTP client When the module receives a specific request from the controller the module sends an email message to the mail server i E lea SMTP Server 95 Facilities 4 9 HTTP Onboard Server Embedded Web Pages Introduction This section describes the functions and characteristics of the onboard server or embedded web pages The Web pages offer both configuration and diagnostic information see p 121 and p 108 What s in this This section contains the following topics Section Topic Page Embedded HTTP Server 97 HTTP Server Home Page 99 HTTP Server Index Page 100 HTTP Server Security Page 101 Address Server Page for the HTTP Server 103 HTTP Ser
54. c 1 Standard symbol Type Access Meaning Address STS_ERR BOOL R Error in reading status words of MWr m c 1 X0 the channel CMD_ERR BOOL R Error when exchanging MWr m c 1 X1 command parameters ADJ_ERR BOOL R Error when exchanging MWr m c 1 X2 adjustment parameters The table below gives the meanings of the status word bits CH_FLT MWr m c 2 The reading is taken by a RI EAD_STS IODDT_VAR1 Standard symbol Type Access Meaning Address INTERNAL_FLT BOOL R Internal or channel self test fault MWr m c 2 4 APPLI_FLT BOOL R Application fault adjustment or MWr m c 2 7 configuration fault 299 Ethernet language objects Network Diagnostics The table below shows the status words or double words CH_FLT MWr m c 3 to 6 MWr m c 11 to 15 and MDr m c 7 and 9 used for diagnosing the network EAD_STS IODDT_VAR1 The reading is taken by a RI other utilities Standard symbol Type Access Meaning Address NB_P502_CNX INT R Number of Port 502 connections MWr m c 3 and bridge configuration information NB_DENIED_CNX INT R Number of denied Port 502 MWr m c 4 connections NB_P502_REF INT R Number of refused messages on MWr m c 5 Port 502 XWAY_ADDR INT R X Way address Network station MWr m c 6 NB_SENT_MSG DINT R Number of sent messages on Port MDr m c 7
55. column in the dialog valid range 1 128 Each entry represents a logical device on the network Slave IP Address second column in the dialog IP address of each scanned Ethernet device Unit ID third column in the dialog Specific ID of each device on the Modbus Modbus Plus network The device connects to the Ethernet through a bridge Health Timeout ms fourth column in the dialog Timeout period for each device specified in milliseconds Repetitive rate ms fifth column in the dialog Rate at which each deviceis data is scanned RD Master Object sixth column in the dialog Destination address in the CPU for data read from each device RD Slave Index seventh column in the dialog Source address of the I O module for the read period RD length eighth column in the dialog Number of words to read Last value Input ninth column in the dialog Status of the inputs in the event of an error WR Master Object tenth column in the dialog Source address in the CPU for write operations with each device Write operations are always performed at the word level WR Slave Object eleventh column Write destination address for each slave in the dialog WR length twelfth column in Number of words to be written the dialog Description rightmost Additional information column in the dialog 324 Transferring Data with the I
56. connections if the PLC is used in Warm Standby 1 Available for Unity Pro V2 0 or higher 47 Communication Ethernet Modules Wiring Unwiring with Power Switched On The Module The Link The TSX ETY 4103 PORT 5103 modules can be wired or unwired when switched on without disrupting the operation of the station The modules do not have an internal RAM backup memory function this will be erased when power is switched off The modules reset when switched on A communication break can be expected during these interventions AN WARNING Loss of application Wiring or unwiring while the TSX P57 5634 processor is switched on is forbidden as for the other processors Failure to follow this precaution can result in death serious injury or equipment damage The 10 100baseT interface RJ45 connector can be connected or disconnected when power is on A communication break can therefore be expected in the application in progress 48 Communication Ethernet Modules 3 5 10 100baseT interface 10 100base T Interface General This interface has a standard type RJ45 connector Refer to the Ethernet reference manual for the connection accessories that comply with environmental circumstances the PLC requires in an industrial setting Pin Assignment Illustration Reminder of pin assignment
57. contain the data in ASCII format that will be copied into the email message The first n2 characters are added to the configured email subject and the rest are part of the email body Data in ASCII n2 characters added to the message subject n1 2 2 words transferred the SMTP client and part of the message part of the message body GEST The fourth parameter of the management table must contain the size of the data buffer and must be set before you use the SEND_REQ block RECP The Received_Data request does not return any data 337 Using the Electronic Mail Notification Service Electronic Mail Notification Service Error Codes Error Codes The following error codes are available only on the diagnostic website for the electronic mail notification service Error Code hex Description 5100 Internal error 5101 SMTP component not operational 5102 Mail header not configured 5103 Invalid mail header value should be 1 2 or 3 5104 Cannot connect to SMTP server 5105 Error in transmitting content of email body to SMTP server 5106 Closing SMTP connection with the server returned an error 5107 SMTP HELO request failed 5108 SMTP MAIL request failed6 SMTP server may require authentication 5109 SMTP RCPT request failed 510A No recipient accepted by the SMTP server 510B SMTP DATA request failed 510C Send email request
58. creating and publishing user pages are delivered with these modules Note The TSX ETY5103 module is delivered with the FactoryCast V3 01 or above CD and the accompanying guide for creating and publishing user pages There are two types of pages e pages that are protected by passwords e and pages that are not protected by passwords The following procedure shows how to access the protected user pages from the home page Step Action 1 Click on the Protected user pages link Result the dialog box for entering the password appears 2 Enter your user name and password then confirm Result the first branch page on the created site appears The following procedure shows how to access the unprotected user pages from the home page Step Action 1 Click on the Unprotected user pages link Result the first branch page on the created site appears 117 Facilities 4 10 Bandwidth Monitoring Bandwidth Monitoring At a Glance Operation Ethernet Transparent Factory offers two types of utilities e Real time utilities which must have a performance guarantee and predictable behavior e periodic utilities OScanner and Global Data e non periodic utilities Messaging on port 502 UNI TE Modbus e Non real time utilities Web utilities and network management utilities Once the I O Scanner and Global Data utilities have been configured it is possib
59. data on this page reflect the old configuration Refer to the example for changing IP parameters with SEND REQ see p 126 Selecting the Client Server configuration field allows the module s IP address to be configured from a remote device acting as a BOOTP server see p 85 In this instance the IP address Subnetwork mask and Gateway Address fields are not significant and are grayed out 125 Configuration Parameters Example Changing IP Parameters with SEND_REQ Illustration The graphic shows you how to set IP parameters for the ETY module in slot 2 with the SEND_REQ block ADDR 0 2 0 SYS HIGH BYTE LOW BYTE 16 13 16 96 0 0 16 9E 16 7 16 A 16H 16 0 16 9E 16 1 E data ONO RWNDN Mgmt Note e ADR reflects the ETYis position in slot 2 e CODE reflects the value of the REQUEST CODE e EMIS contains the IP parameters in Data_to_Send e address 139 158 10 7 e subnet mask 255 255 248 0 e gateway 139 158 8 1 e GEST reflects Management_Param management parameters You have to assign a time to the third word of Management_Param The fourth word should have the INT value 18 e RECP This parameter requires a minimum INT value of 1 even when no response message is returned as in the case of an IP change request 126 Configuration Parameters Connection Configuration Parameters At a Glance Connections that Ca
60. eee eee 155 Configuration Parameters Linked to the ETHWAY Profile 156 Configuration of ETHWAY Data 0 c eee eee 157 Method for Programming an Ethernet Network 159 Configuration Methodology for an Ethernet Network 160 Choosing a Logic Network Family 00 00 eee eee eee eee 165 TSX ETY 110 Mod le scce teen hie wee ea Ag ihe Maca a 167 GeneraliPOints seanna a oe en hee renee eu ame Gate AA ee se 168 TSX ETY 110 Module General 0 000 c eect eee 169 Gharacteristi S lt marrias 425 ate Stats wate A e ee aa a ana the etre ees bh dite 170 7 2 7 3 Chapter 8 8 1 8 2 8 3 Performance e502 etd ad Seek bee ba aie Boe ei wie ed 171 Operating Modes of the TSX ETY 110 Module 00 172 Common Functions on the ETHWAY and TCP IP Profile 173 Configurator iae Saee a see tale tian wiser ty whan 8 audience wks 174 Module Configuration Screen 2 0c eee tees 175 Type of Communication According to Chosen Configuration 176 Configuration of Messaging on the TCP IP Profile or the ETHWAY Profile 177 Configuration of the SNMP Utility 20 0 0 0 ee eee eee 178 Configuration of the Bridge Function 00 0 0 e eee eee eee 179 Example of ETHWAY Private Type Architecture 00085 180 Example of ETHWAY Type Architecture Connected to TCP IP 182 Example of Connect
61. end are automatically changed each year Polling Time Parameter The time in seconds is the time between time updates from the NTP server The default is 5 Seconds Storing the Time Service Configuration The last time service configuration is saved internally in the Ethernet module Replacing the Ethernet Module If the Ethernet module has to be replaced the stored configuration is lost and the system returns to the default configuration If you want a time zone not listed in the time zone table Step Action Comment 1 Write the text rules for the custom time zone 2 Using an FTP client store your rules inthe Root directory to store customrules file is set by the FTP server as FLASHO wwwroot conf NTP customrules FLASHO wwwroot conf NTP user ID ntpupdate password ntpupdate 3 When the rules are written choose the drop The NTP component looks for down menu on the NTP Configuration web customrules calls the tz compiler and page and configure or reboot the module generates a new file called by selecting tz_custom This file is binary file and Time Zone Custom should not be edited If the tz compiler detects a syntax error in customrules the error is logged in the file FLASHO wwwroot conf NTP error log 1 NTP component is not launched 2 NTP Status field in diagnostic web page displays NOT OK 4 If you want more information the syntax to write those ru
62. in the To field e Separate each email address with a comma e 128 character maximum 3 fixed part of message in the Subject field e 32 character maximum 1 Subject field consists of two parts 1 Fixed e 32 character maximum 2 Dynamic e 206 character maximum 153 Configuration Parameters Configuration of the Electronic Mail Notification Service SMTP Configuring the Mail Service with the Email Configuration Page Mail Service Command Buttons You must use the moduleis embedded Web page to configure the electronic mail notification service No other method is available Email Configuration r Email Server Configuration IP Address of Email 192 168 3 1 Port 25 Password Authentication v Enable Login _ knight Password r Mail Header t From NOE_Pump2 To support_automation mycompany com Subject Alarm 4 water level low r Mail Header 2 From Statio_N4 To myManag er mycompany com Subject Warning big problem with Pump2 r Mail Header 3 From To Subject Save Cancel Disable Email Mail service configuration buttons Command Button Description Save Saves the new Email configuration Note Prev
63. language objects Description of Language Objects for Ethernet Communication General Types of Language Objects Ethernet communication has five IODDTs T_COM_STS_GEN which applies to all communication protocols _COM__ETY_1X0 specific to the modules ETY_110 and ETY_120 T_COM__ETY_210 specific to the module ETY_210 T_COM__ETYX103 specific to the module ETY_4103 PORT 5103 __COM__ETHCOPRO specific to the Ethernet channel of the processor TSX P 57 5634 Note ODDT variables can be created in two different ways e Using the I O objects tab e Data Editor Each IODDT has a set of language objects that is used to control and check the operation of the IODDT There are two types of language objects e implicit exchange objects which are exchanged automatically on each cycle turn of the task associated with the module e explicit exchange objects which are exchanged at the request of the application using explicit exchange instructions Implicit exchanges concern the states of modules communication signals slaves etc Explicit exchanges are used to set parameters and diagnose the module 287 Ethernet language objects Implicit Exchange Language Objects Associated with the Application Specific Function At a Glance Reminders Figure An integrated application specific interface or the addition of a module automatically enhances the language obje
64. module the modules TSX ETY 4103 TSX ETY PORT and TSX ETY5103 the Ethernet link of the TSX P57 5634 coprocessor They have several types of interface Connection can be made e to an ETHWAY profile network supporting the following utilities e common words e UNI TE messaging e toa TCP IP profile network supporting the following utilities e UNI TE and Modbus messaging e SNMP management Connection can be made e to an ETHWAY profile network supporting the following utilities e common words e UNI TE messaging e toa TCP IP profile network supporting the following utilities e UNI TE and Modbus messaging e SNMP management e with TCP direct access e access to the web user pages HTTP server Connection can be made e to an ETHWAY profile network supporting the following utilities e common words e UNI TE messaging e toa TCP IP profile network supporting the following utilities e UNI TE and Modbus messaging e SNMP management e specific to redundancy 16 General Points TSX ETY 4103 They allow connection PORT and TSX e toa TCP IP profile network supporting the following utilities P57 5634 4634 e UNI TE and Modbus messaging SNMP management electronic mail notification service SMTP input output management I O Scanner IP address management BOOTP DHCP access to the built in web server common data exchange between stations Global Data diagnostics from Web pages TSX
65. network is located by assigning it a network identifier If the type of environment is closed the uniqueness of the address is managed by the company s network manager The TSX ETY4103 PORT 5103 modules and the Ethernet link of the TSX P57 5634 can have their address dynamically allocated by an address server see p 84 or have their address configured by the user This address is made up of two identifiers one of which identifies the network the other identifies the connected machine An IP address is defined on 32 bits It is made up from 4 decimal numbers each coded on a bit example 140 186 90 3 Depending on the network span four address classes can be used e Class A applies to large span networks which have a large number of connected stations e Class B applies to medium span networks which have fewer connected stations e Class C applies to small span networks which have few connected stations e Class D is used for multicast A class D address must not be allocated to a module 64 Facilities Structure Depending on the class an address is structured in the following way Class A 7 bits 24 bits 0 Network identifier Machine identifier Class B 14 bits 16 bits 1 10 Network identifier Machine identifier Class C 21 bits 8 bits 1 1 JO Network identifier Machine identifier Class D 28 bits 1 11 1 Jo Network machine identifier
66. of certain configurable parameters Enabling Authentication failure Location Contact etc When there is a cold start warm restart or application download the values initially configured are then restored Failure to follow this precaution can result in injury or equipment damage 141 Configuration Parameters 5 5 Configuration Parameters of the Global Data Utility At a Glance This section introduces the configuration parameters linked to the Global Data utility What s in this This section contains the following topics Section Topic Page Configuration Parameters Linked to the Global Data Utility 143 Configuring the General Parameters for the Global Data utility 144 Configuration of the Variables Table 145 142 Configuration Parameters Configuration Parameters Linked to the Global Data Utility At a Glance List of Parameters Variables to be Published Subscribed Properties The TSX ETY4103 PORT 5103 modules and the Ethernet link of the TSX P57 5634 have configuration parameters linked to the Global Data utility Parameters Global Data configuration Group address Group name Distribution Period Validity time out Multicast Filtering Association between Global Data variables network variables and application variables is carried out in the Unity Pro variable editor Each application variabl
67. of the IO Scanning to REFRESH_IO_31 Utility from station 16 to 31 are lWr m 3 2 15 refreshed REFRESH_IO_32 BOOL R Indicates that the Inputs IWr m 3 3 0 to Outputs of the IO Scanning to REFRESH_IO_47 Utility from station 32 to 47 are lWr m 3 3 15 refreshed REFRESH_IO_48 BOOL R Indicates that the Inputs Wr m 3 4 0 to Outputs of the IO Scanning to REFRESH_IO_63 Utility from station 48 to 63 are lWr m 3 4 15 refreshed REFRESH_IO_64 BOOL R Indicates that the Inputs IWr m 3 5 0 to Outputs of the IO Scanning to REFRESH_IO_79 Utility from station 64 to 79 are lWr m 3 5 15 refreshed REFRESH_IO_80 BOOL R Indicates that the Inputs Wr m 3 6 0 to REFRESH_IO_95 Outputs of the IO Scanning Utility from station 80 to 95 are refreshed to IWr m 3 6 15 303 Ethernet language objects Standard symbol Type Access Meaning Number REFRESH_IO_96 BOOL R Indicates that the Inputs IWr m 3 7 0 to Outputs of the IO Scanning to REFRESH_IO_111 Utility from station 96 to 111 are lWr m 3 7 15 refreshed REFRESH_IO_112 BOOL R Indicates that the Inputs IWr m 3 8 0 to Outputs of the IO Scanning to REFRESH_IO_127 Utility from station 112 to 127 IWr m 3 8 15 are refreshed VALID_GD_0 BOOL R Indicates that the Global Data IWr m 3 9 0 to from the station 0 to 15 are to VALID_GD_15 refreshed IWr m 3 9 15 VALID_GD_16 BOOL R Indicates that the Global Data IlW
68. of the same type status commands or parameters that belong to a channel Note These objects provide information about the module e g type of channel fault etc can be used to command them e g switch command and to define their operating modes save and restore adjustment parameters in the process of application 289 Ethernet language objects General Principle The diagram below shows the different types of explicit exchanges that can be made for Using Explicit between the processor and module Instructions POI PLC processor Communication module Communication channel MWr m c objects or MWr m MOD r objects 1 Status parameters READ_STS Status parameters Command parameters WRITEXOMD Command parameters WRITE_PARAM ma Current adjustment READ_ PARAM parameters T SAVE_PARAM da 2 p Current adjustment parameters T 7 Ja Initial adjustment RESTORE PARAM parameters z 1 Only with READ_STS and WRITE_CMD instructions Managing During an explicit exchange it is necessary to check its performance in order that Exchanges data is only taken into account when the exchange has been correctly executed To do this two types of information is available e information concerning the exchange in progress e the exchange report The following diagram describes the management principle for an exchange Exe
69. or if there is no response the client module does not start 85 Facilities Example The following diagram shows the routing of requests during start up of a station on the network DHCP server containing the following table Remote station MAC1 Address IP1 Address MAC2 Address IP2 Address MAC3 Address IP3 Address Ethernet Bridge BOOTP relay Ethernet BOOTP request MAC1 Address ii a ND gE LLJ Be zS BOOTP 2 Client BOOTP 1 Client 86 Facilities DHCP Servers At a Glance Precautions for Use In this context the module is used as a server for starting up client stations In listen mode the server responds to the clientsi requests and sends them their IP address configuration To do this the server device has a table which groups e correspondence between the MAC addresses or the Names Role Names of the client stations and the IP addresses e the Netmask and the Gateway e The names and access paths to the parameter files see p 93 Note The server present on the TSX ETY and TSX ETY PORT modules and the Ethernet link of the TSX P57 5634 only supplies network configuration data to client stations connected to the local area network When a module is used as a server for starting scanned stations see p 78 you must avoid configuring the PLC in automatic start in RUN mode If you do not there is a risk that stations suc
70. task The publication can be performed on each cycle of the Mast task default value or every n cycles of the Mast task This zone is used to adjust the health time out value An associated status bit IW zone is linked to each Global Data item and is used to monitor whether the data has been published and received by the end of the time indicated in this window If yes the value is 1 otherwise the bit is set to 0 This check box activates multicast filtering This function is used to reduce data flow on large networks Multicast filtering requires the use of switches that support this function GMRP IEEE 802 1D protocol 144 Configuration Parameters Configuration of the Variables Table At a Glance Enet Field Group Field Data ID Field The Global Data variables table is configured in the Unity Pro data editor Three fields are specifically used for Global Data e ENet e Group e DataID This column enables you to choose the type of each variable e NO variable that is neither published nor subscribed e PUB published variable e SUB subscribed variable The name of the Distribution Group to which the variable belongs is found in this column The Global Data identifier in the same Distribution Group is found in this column numbered from 1 to 64 145 Configuration Parameters 5 6 Configuration Parameters of the Time Synchronization Service At
71. test 10 Identification Counters Enter request Reset counters Mirror Response reception Stn no ASCI O Hexa This window is used to test a communication channel by sending a request to one of the stations present on the network 194 TSX ETY 110 Requests Available for the Communication Channel Test Introduction This page describes the different possibilities for testing a communication channel from the debugging screen Test Conditions Sending a request to an unconnected station results in an error message Available Window Test station allows the following requests Requests Identification prompts the Identification request to be sent to the designated remote station Counters prompts the sending of the request for the Reading of the error counters to the designated station Counters prompts the designated stationis error counters to be reset to zero Request input allows a UNI TE request other than those provided by the command buttons to be sent to the designated station The choices available in this function give access to a screen that allows you to select the parameters that are specific to the request request code must be coded in hexadecimal Mirror allows a mirror request to be sent to the designated station Selecting this function gives access to a screen that allows you to select the length of the character string to be sent a
72. the request status 3 TER connector 8 pin mini DIN terminal port this is used to connect an FTX or PC compatible terminal or to connect the PLC to the Uni Telway bus via the TSX insulating unit TSX P ACC 01 This connector enables the peripheral connected to it to be supplied with a 5V current within the limit of the available current provided by the power supply 4 Slot for an extended memory card in PCMCIA type 1 format If there is no memory card this slot is equipped with a cover that it advisable to leave in place to protect the connectors from dust or splashes 5 Slot for a communication card in PCMCIA type 3 format enabling a Fipio Agent Uni Telway series link Modbus Modbus Plus etc communication channel to be connected to the processor This slot can also hold a SRAM data card or an ATA card in the future If there is no communication card this slot is equipped with a cover RJ 45 connector for Ethernet connection USB port 8 The RESET button activated with a pencil point that triggers a cold start of the PLC when used e Processor operating normally cold start in STOP or in RUN according to the procedure defined in the configuration e Faulty processor forced start in STOP 44 Communication Ethernet Modules 3 3 Ethernet Channel Characteristics Ethernet Channel Characteristics General The modules have a standard interface for connecting to a 10 100baseT network and on the fro
73. the dialog Each entry represents a logical device on the network IP Address second column IP address of each scanned Ethernet device in the dialog Unit ID third column in Specific ID of each device on the Modbus Modbus Plus the dialog network The device connects to the Ethernet through a bridge Health fourth columnin Timeout period for each device specified in milliseconds Timeout the dialog ms Repetitive fifth column in Rate at which each deviceis data is scanned rate ms the dialog RD Master sixth column in A read only display of the read data destination addresses Object the dialog that you chose in the Read Ref boxes above RD Slave seventhcolumn Source address of the I O module for the read period Index in the dialog RD length eighth column Number of words to read in the dialog Last value ninth column in Status of the inputs in the event of an error Input the dialog WR Master tenth column in A read only display of the write operation source addresses Object the dialog that you chose in the Write Ref boxes above Write operations are always performed at the word level WR Slave eleventh Write destination address for each slave Object column in the dialog WR length twelfth column Number of words to be written in the dialog Description rightmost Additional information column in the dialog 326 Time Synchronization Service B At a Glance Introdu
74. this function e Up to 128 remote devices can be configured in the DHCP address server utility e The 128 remote devices should share the 512 kb reserved for their parameters 254 TSX P57 5634 Type of Connections Supported At a Glance Connection to a Premium Connection to a Quantum The Ethernet channel of the TSX P57 5634 authorizes a maximum of 16 HTTP connections in parallel and a maximum of 64 connections in parallel over TCP IP Between two Premium PLCs using UNI TE messaging on the TCP IP profile the channel of the TSX P57 5634 only allows one connection in client server mode Ethernet A UNIT E client server messaging connection iil ie NT ri i TSX 57546 Premium with a TSX ETY 4103 PORT 5103 or TSX ETY 110 module Between a Premium and a Quantum PLC using Modbus messaging on the TCP IP profile the Ethernet channel of the TSX P57 5634 allows e a single connection in Modbus client mode e a single connection in Modbus server mode Example Ethernet A connection in Modbus client messaging para ae tl il 5634 A connection in Modbus server messaging Quantum 255 TSX P57 5634 Connection to a Third Party Device Between a Premium PLC and a third party device the Ethernet channel of the TSX P57 5634 allows e a single connection in UNI TE or Modbus client mode e several connections in UNI TE or Modb
75. to VALID_GD_47 IWr m c 8 15 VALID_GD_48 BOOL R Indicates that the Global Data from IWr m c 9 0 to the station 48 to 63 are refreshed to VALID_GD_63 lWr m c 9 15 298 Ethernet language objects Details of Explicit Exchange Objects of the IODDT of Type T_COM_ETYX103 At a Glance Remarks Explicit Exchange Indicators EXCH_STS Explicit Exchange Report EXCH_RPT Standard Channel Faults CH_FLT This part describes the explicit exchange objects of the IODDT of type T_COM_ETYX103 which applies to the modules TSX ETY 4103 PORT 5103 It includes word type objects whose bits have a special meaning These objects are described in detail below Example of declaring a variable IODDT_VAR1 of type T_COM_1 ETYX103 e Generally speaking the meaning of bits is given for state 1 of this bit In specific case each state of the bit is explained e Not all bits are used The table below gives the meanings of the exchange control bits of the channel EXCH_STS MWr m c 0 Standard symbol Type Access Meaning Address STS_IN_PROGR BOOL R Reading of status words of the MWr m c 0 X0 channel in progress CMD_IN_PROGR BOOL R Exchange of parameters of MWr m c 0 X1 command in progress ADJ_IN_ PROGR BOOL R Exchange of parameters of MWr m c 0 X2 adjustment in progress The table below gives the meanings of the report bits 1 EXCH_RPT MWr m
76. 000 c eee eee 283 Ethernet Language ObjectsS 2000eeeeeeennnee 285 Language Objects and IODDT of Ethernet Communication 286 Description of Language Objects for Ethernet Communication 287 Implicit Exchange Language Objects Associated with the Application Specific Function 0 0 cece eee ee 288 Explicit Exchange Language Objects Associated with the Application Specific Function s essas aaeeea aaeeea 289 The Language Objects and Generic IODDT Applicable to all Communication Protocols 0 asee eee 291 Details of IODDT Implicit Exchange Objects of Type T_COM_STS_GEN 292 Details of IODDT Explicit Exchange Objects of Type T_ COM_STS_GEN 293 The Language Objects and IODDTs Associated with Ethernet Communication 295 10 4 10 5 Chapter 11 Appendices Appendix A Appendix B Appendix C Appendix D Details of Implicit Exchange Objects of the IODDT of Type TEGOM ETY AXO cetacean a tee oe cc sheets aah ieee ume Le 296 Details of Explicit Exchange Objects of the IODDT of Type TEXGOM ETY AKO se cau ta nites eed de Gaia Ces ds Puta oe ate ml tna d skis 297 Details of Implicit Exchange Objects of the IODDT of Type T COM ETYX TOS ma a EEA teenies aE eo T does dates ht ee 298 Details of Explicit Exchange Objects of the IODDT of Type T_COM_EVTYX1033 i042 ee ph ee eid ee ae pe pee deed 299 Details of Explicit Exchange Objects of the IODDT of Type TCOM WMY_100 02
77. 02 44 220 ape ee ee ee eee 301 Details of Implicit Exchange Objects of the IODDT of Type T_COM_ETHCOPRO oa nee eee cee bee eda eee be oe eee eed 303 Details of Explicit Exchange Objects of the IODDT of Type T COM_ETHCOPRO sasi See Ae Hee a U ee eee 305 The IODDT Type T_GEN_MOD Applicable to all Modules 307 Details of the Language Objects of the IODDT of type T GEN MOD 307 Ethernet Configuration Language Objects 0 0 cece eee eee eee 308 Language Objects Associated with the Configuration of a TSX ETY 110 309 Language Objects Associated with Configuration 0 200005 311 QuestionS ANSWEIS 160 c ees 313 RAET se ok te a Soci a de leg Jost te ind a ite arent ane eh 317 VO SCANNEIS ccs xk sagt nai a Sta aeaa beans hg shy 319 VO Scanner Concepts 0 0 n e A EEA A eee e nee 320 Modicon Premium with Unity I O Scanner Configuration 323 Time Synchronization Service 0002000eeeneeenee 327 The Time Synchronization Service 000 cece eee 328 Using the Time Synchronization Service 0 c cece eee eee 331 Using the R_NTPC Block for Time Synchronization 0 332 Electronic Mail Notification Service 0000000008 333 Introducing the Electronic Mail Notification Service 2 00 5 334 Using the Electronic Mail Notification Service 0 00 eee eee 335 Using the SEND_REQ Block for Electronic Mail Notification
78. 2 Kwords Note Important when using the I O scanning utility the PLC cycle is impacted by about 1 ms per volume of 512 I O words scanned In the same way the size of the application is impacted by 6 Kbytes for each configured TSX ETY 4103 PORT 5103 module The user interface is a MW zone defined in configuration e Each module can issue a variable of between 1 and 512 words e Each module can subscribe from 1 to 64 variables The total data cannot exceed 2Kwords The module reserves a 512 kbyte zone for this function e Up to 96 remote devices can be configured in the DHCP address server utility e The 96 remote devices must share the 512 kb reserved for their parameters 202 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY Type of Connections Supported At a Glance Connection to a Premium Connection to a Quantum The TSX ETY 4103 or TSX ETY PORT modules authorize a maximum of 8 parallel HTTP connections 16 for the TSX ETY 5103 module The TSX ETY 4103 PORT 5103 modules authorize a maximum of 64 parallel connections on TCP IP Between two Premium PLCs using UNI TE messaging on the TCP IP profile the TSX ETY 4103 PORT 5103 module only allows one connection in client server mode Ethernet A UNIT E client server messaging connection ne iiil i iil il HA a TSX ETY itil with a TSX ETY 4103 4103 PORT 5103 module PORT 5103 or TSX ETY 110
79. 230 setting time zone 150 230 Performance TSX ETY 110 module 171 TSX ETY 4103 PORT 5103 module 205 TSX P57 5634 257 Ping 193 244 TSX P57 5634 279 polling period dependency 330 polling times 330 R Read IO Scanning 81 relay system electronic mail notification 334 Requests Ethernet 197 247 S send requests for electronic mail notification 334 SEND_REQ IP parameters changing 126 settling time 330 Simulator Overview 19 SMPT direct connection 334 relay system 334 SNMP 89 Configuration 138 Sub addressing Subnetwork mask 66 _COM_ETY_1X0 287 296 297 COM_ETY_ 210 287 T_COM_ETYX103 298 299 T_COM_STS _GEN 287 292 293 T_COM_WMY_100 301 T_GEN_MOD 307 TCP port numbers 335 TCP IP 60 Configuration 122 time accuracy 330 time zones 147 231 330 customizing 151 231 traps setting 150 230 T T_COM_ETHCOPRO 303 305 T T_ 345 Index TSX ETY 110 167 10baseT interface 34 Configuration objects 309 Connection by AUI interface 31 Constants 309 Diagnostics 36 Ethernet channel characteristics 26 Station address 30 TSX ETY 4103 199 10 100baseT interface 49 TSX ETY 4103 5103 199 Diagnostics 52 Operating conditions 56 TSX ETY 5103 199 10 100baseT interface 49 TSX ETY PORT 199 10 100baseT interface 49 TSX P57 5634 10 100baseT interface 49 Diagnostics 53 Operating conditions 56 TSX WMY 100 199 TSX ETY 4103 Ethernet channel characteristics 45 TSX E
80. 236 DHOP 135 223 Ethernet TSX ETY 110 174 Ethernet TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 210 Ethernet TSX P57 5634 262 Global Data 142 225 configuration IO scanning 220 271 Configuration screen Ethernet TSX ETY 110 175 Ethernet TSX ETY 4103 211 Ethernet TSX P57 5634 263 Connection closure 76 Connection opening 75 Connections Ethernet TSX ETY 4103 PORT 5103 203 ETHERNET TSX P57 5634 255 constant word 125 Consumption TSX ETY 110 37 TSX ETY 4103 PORT 5103 54 Creation of a logical network Ethernet 160 D daylight savings time DST 330 Debug Ethernet TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 239 debugging Global Data 249 282 IO Scanning 248 281 Debugging screen Ethernet TSX ETY 110 189 Ethernet TSX ETY 4103 PORT 5103 240 343 Index debugging screen Ethernet TSX P57 5634 275 Description Ethernet TSX P57 5634 43 DHCP 84 85 diagnostics bandwidth 250 283 direct connection electronic email notification 334 E error codes Ethernet mail notification service 338 Ethernet Configuration parameters 121 Facilities 59 IODDT 286 Ethernet TSX ETY 110 characteristics 170 Debugging 188 general points 168 Ethernet debugging TSX P57 5634 274 ETHWAY TCP IP 119 ETHWAY Profile Configuration 155 ETY constant word 125 F FAST 94 329 Faulty device 93 function blocks FAST 94 329 MAST 94 329 G
81. 3 1 Introduction Introduction General The TSX ETY 4103 PORT 5103 and TSX WMY 100 communication modules as well as the Ethernet channel integrated into the TSX P57 5634 4634 processor allow Premium PLCs to be integrated into an Ethernet communication architecture The principal characteristics of the proposed Ethernet connections are the following e Connection to a TCP IP network Communication in Half and Full Duplex mode by automatic recognition Transmission speed from 10 or 100 Mbits s by automatic recognition Connection to network by copper cable via an RJ45 connector These modules are used to carry out the following functions IO Scanner Service excepting TSX WMY 100 Global Data excepting TSX WMY 100 Web server Address Server excepting TSX WMY 100 X Way UNI TE and Modbus messaging service on TCP IP SNMP Service Electronic mail notification service SMTP Time synchronization service NTP Note The TSX WMY 100 module behaves like the TSX ETY 4103 module except for the IO Scanning Global Data Address Server and electronic mail notification utilities which the TSX WMY 100 does not manage For all other information concerning the TSX WMY 100 module consult the relevant sections and chapters of TSX ETY 4103 40 Communication Ethernet Modules 3 2 Description Introduction This section deals with the physical description of the TSX ETY 4103 PORT TSX WMY 100 and TSX ETY 5103 mod
82. 35006192 02 Sch a brand of neider Electric Premium and Atrium Using Unity Pro Ethernet Network Modules User Manual 2 2005 Telemecanique Table of Contents Part I Chapter 1 Part Il Chapter 2 Chapter 3 3 1 3 2 3 3 3 4 Safety Information os 26s ee coo ees Hee a Res ae Pees seeks 9 About the BOOK 2 0cc ence a nnn eens 11 Introduction to Ethernet Communication 13 Communication via Ethernet Network 22000000000 15 EL e fe AT ET E E E E EEN E TEETE A E E 16 Details of Available Services 0 0 eee eens 18 OVERVIOW et eBid a Shatter tad Pls ean he ee 19 Ethernet Communication Hardware Installation 21 Communication TSX ETY 110 Module 0000000008 23 Ata GlanGe sco esis as tee oh es De i SE E rae 24 Descriptio mN pire sedui ed ace a Raed Fe pp aA tat ee Mane gage se E we 25 Characteristics of the Ethernet Channel 0 0 0 0 ccc eee nae 26 Installing the TSX ETY 110 Module 00 0 cece eee eee 27 Selecting the Type of Processor 000 cece eee ete eee eee 28 Wiring Unwiring with Power Switched On 0000 c eee eee eee 29 Station Address Coding 0 0 0 cece eee eee ee 30 Connection via the AUI Interface 0 0 0 eee 31 TObASET Interfaces c ected cc tear decade cicada val ede densa iaee AE deal T E dual ee 34 Display Panel Diagnostics 0 0 cece tees 36 Electrical FOAtUreS E gee oe ean ace ee E SAL 2 doe 37 C
83. 4 18 secure system index_french htm e Links es GLOBAL DATA DIAGNOSTIC Global Data Status OK Number of subscriptions per sec 300 Number of publications per sec 100 Global Data Status D a 17 64 49 Not configured Sub Variable Pub Variable H Fault Home Ethernet Module eT Open page http 139 160 2 Internet zone 109 Facilities I O Scanner Page Information on the general diagnostics of the I O Scanner utility can be found at the top of this page e Status e Number of transactions per second e Number of connections per second This page also displays a summary of the status of all modules e Green for the scanned modules White for the unconfigured modules Red for faulty modules Black for the modules which are temporarily unscanned View of the IOScanner diagnostics page Welcome to the Premium Web Server fi Microsoft Internet _ x Eile Edit View Goto Favorites EJ cia gt Back Forward Stop Refresh Home Search Favorites History Channels Addresg http 139 160 234 18 secure system index_french htm x Links 4 VO SCANNING DIAGNOSTICS I O Scanning Status OK Number of transactions per sec 1000 Number of connections 20 Scanned Stations Status 16 i 1 2 E p H 17 48 33 64 E E 49 Not configured Scanned B Unscanned g Fault Home
84. 5 xxX XXX XXX e for a class B address 255 255 xxx Xxxx e for a class C address 255 255 255 xxx Example class C subnet mask IP address in question 192 186 90 3 16 bits 8 bits 8 bits Network identifier Subnetwork Machine 192 186 identifier 90 identifier 3 Subnetwork mask Machine 24 bits to 1 identifier 255 255 255 8 bits to 0 Note This division allows 254 possible subnets with 254 machines per subnet 67 Facilities UNI TE Communication At a Glance Synchronous Exchanges Asynchronous Exchanges Two data exchange utilities are offered depending on the type of server used e either synchronized data exchanges on the MAST task e or data exchanges performed as a background task in the following modes e asynchronous server mode e asynchronous client mode In server mode All the PLC s UNI TE requests are supported by the Ethernet module In client mode This type of exchange enables UNI TE requests to be sent using the functions READ_VAR WRITE_VAR SEND_REQ DATA_EXCH In server mode The consistency of the data read or written can be guaranteed guarantees that the request is sent in one cycle by setting the system bit S91 to 1 In this configuration a Jitter phenomenon of 1 5 ms can appear on the MAST task In client mode This utility allows messages to be exchanged using the requests READ_ASYN enables u
85. 64 Sub Addressing and Subnetwork Mask 2 0000 0c e eee eee 66 UNI TE Communication 0 0 0 0 ccc cee eens 68 Modbus Communication on the TCP IP Profile 00 0 eee 69 Architecture Supported by a Modbus Communication on the TCP IP Profile 71 Modbus Messaging on the TCP IP Profile 000 eee eaeuee 72 Managing the TCP Connections for X Way UNI TE and Modbus 74 Opening a Connection ieta d ek Daae a t eee 75 Closing a Connection cossy eraa g oa na e e ae a tenets 76 What Happens when a Connection is Broken 20000ee ares 77 lO Scanning Facility 0 0 0 a e eee 78 IO Scanning Service maraena e ea cee RE Ee ee ed 79 Read and Write ZoneS 000 0c tee 81 Scanning PeriOd 2 pc anne gta Wia Piece SY ia e RE SE sacs 83 DHCP Utility cs etek eae obey ee Mee Ge ek 84 Dynamic Assignment of Addresses 0 0 0 c eee eee 85 DHCP Serner Sm ict 5S ish ieee nes Oth Seok toed apiece Theol cae be 87 SNMP Facilitye cst E foe end ENE acess a atone ea naar Sia aoete cscs ta ne ane 2 89 Global Data Utility ina ence yet Bees See Pe T 91 Managing Faulty Devices 0 0 cece tees 93 Time Synchronization Service 0 0 0 eee 94 Electronic Mail Notification Service 0 0 00 c eee 95 HTTP Onboard Server Embedded Web PageS 0 00e ee ee eee 96 Embedded HTTP Server 0 00 e cece cece eee ete e eens 97 HTTP Server Home Page
86. 9 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 Configurable Time Service Parameters Changing Time Service Parameters Important Information about the Time Service Configure or change the following parameters on the NTP Configuration page 1 IP address of primary NTP server e Enter a valid IP address 2 IP address of secondary NTP server e Enter a valid IP address 3 Polling Period in seconds Enter a value e min 1sec e max 120sec e default 5 sec 4 Time Zone e Select from drop down menu Universal Time Coordinated GMT default e Custom time zone 5 Automatically adjust clock for daylight saving change e Parameter is selected by default check mark appears if daylight saving time is chosen To make any changes to the time synchronization service Step Action 1 Enter changes in the appropriate field on the NTP Configuration page for one or all of the configurable parameters 2 Click Save Note About the Time Service 1 Enable Disable Daylight Savings Time parameter If the Enable Disable check box is selected the module automatically corrects the local time to account for daylight savings time Therefore requiring no action as the daylight savings time start and end are automatically changed each year 2 Polling Time Parameter The time in seconds is the time between time updates from the NTP server The default is 5 Seconds 3 Storing the Time Service
87. Configuration The last time service configuration is saved internally in the Ethernet module 4 Replacing the Ethernet Module If the Ethernet module has to be replaced the stored configuration is lost and the system returns to the default configuration 230 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY Customizing Time Zone Parameters Time Zone Parameters If you want a time zone not listed in the time zone table Step Action Comment 1 Write the text rules for the custom time zone 2 Using an FTP client store your rules in the Rootdirectory to store customrules is file set by the FTP server as FLASHO wwwroot conf NTP customrules FLASHO wwwroot conf NTP user ID ntpupdate password ntpupdate 3 When the rules are written choose the drop The NTP component looks for down menu on the NTP Configuration web customrules calls the tz compiler and page and configure or reboot the module generates a new file called by selecting tz_custom This file is binary file and Time Zone Custom should not be edited If the tz compiler detects a syntax error in customrules the error is logged in the file FLASHO wwwroot conf NTP error log 1 NTP component is not launched 2 NTP Status field in diagnostic web page displays NOT OK 4 lf you want more information the syntax to write those rules along with a few examples are found in the module in FLASHO wwwr
88. Data Messaging and other utilities Global Data blue Messaging green Other gray IO Scanning yellow Return to configuration see p 236 if you wish to modify this distribution 283 TSX P57 5634 284 Ethernet Language Objects 10 At a Glance This section describes the language objects associated with the Ethernet communication modules What s in this This chapter contains the following sections 2 Chapter Section Topic Page 10 1 Language Objects and IODDT of Ethernet Communication 286 10 2 The Language Objects and Generic IODDT Applicable to all 291 Communication Protocols 10 3 The Language Objects and IODDTs Associated with Ethernet 295 Communication 10 4 The IODDT Type T_GEN_MOD Applicable to all Modules 307 10 5 Ethernet Configuration Language Objects 308 285 Ethernet language objects 10 1 Language Objects and IODDT of Ethernet Communication At a Glance This section provides a general overview of language objects and IODDT of Ethernet communication What s in this This section contains the following topics ion Section Topic Page Description of Language Objects for Ethernet Communication 287 Implicit Exchange Language Objects Associated with the Application Specific 288 Function Explicit Exchange Language Objects Associated with the Application Specific 289 Function 286 Ethernet
89. ETY 5103 Connection can be made e toa TCP IP profile network which is necessary when using FactoryCast and which supports the following utilities UNI TE and Modbus messaging SNMP management electronic mail notification service SMTP time synchronization service NTP input output management I O Scanner IP address management BOOTP DHCP access to the built in web server common data exchange between stations Global Data diagnostics from Web pages access to the web user pages HTTP server TCP direct access TSX WMY 100 They allow connection e toa TCP IP profile network supporting the following utilities UNI TE and Modbus messaging SNMP management access to the built in web server diagnostics from Web pages 17 General Points Details of Available Services Introduction be accessible Depending on the type of Ethernet module selected certain functions will or will not Selection Guide The summary table below shows the various selections possible Service TSX ETY TSX ETY TSX ETY TSX ETY 4103 TSX ETY TSX P57 110 110 WS 210 TSX ETY PORT 5103 5634 4634 Connection at 10 Mbits s Half Full Half Full Half Full Half Full Duplex Half Full Half Full Duplex Duplex Duplex Duplex Duplex Connection at 100 Mbits s Half Full Duplex Half Full Half Full Duplex Duplex TCP IP ut
90. Ethernet Network Introduction How to Create a Logical Ethernet Network Creation and configuration of an Ethernet network involves 4 major stages e creation of an Ethernet logic network e configuration of an Ethernet logic network e declaration of the module e association of the module with the logic network These four stages are described in the remainder of this documentation for an Ethernet TSX ETY 4103 module These stages are also necessary for the Ethernet channels integrated in the processors Note the benefit of this method is that from the second step onwards you can design your communication application you do not have to have the hardware to start working and use the simulator to test its operation Note the first two phases are run from the project browser and the next two from the hardware configuration editor The following table introduces the procedure to follow for creating a logical Ethernet network Step Action 1 With the right mouse button click the Network subdirectory of the Communication directory of the Project browser and select the Add Network option Result Add Network Network Comment List of available networks None selected v Change name OK Cancel Help 160 Programming an Ethernet Network Step Action Choose Ethernet in the li
91. OL R Internal error module failure MWr m MOD 2 0 CH_FLT BOOL R Faulty channel s MWr m MOD 2 1 BLK BOOL R Terminal block fault MWr m MOD 2 2 CONF_FLT BOOL R Hardware or software MWr m MOD 2 5 configuration fault NO_MOD BOOL R Module missing or off MWr m MOD 2 6 307 Ethernet language objects 10 5 Ethernet Configuration Language Objects At a Glance This section describes the configuration language objects associated with the Ethernet communication modules on Premium and Atrium PLCs What s in this This section contains the following topics Section Topic Page Language Objects Associated with the Configuration of a TSX ETY 110 309 Language Objects Associated with Configuration 311 308 Ethernet language objects Language Objects Associated with the Configuration of a TSX ETY 110 At a Glance This page describes the language objects for the configuration of a TSX ETY 110 module These objects can be read by the application program 309 Ethernet language objects Internal Constants The following table describes the language objects for the configuration of a TSX ETY 110 module Object Function Meaning KWr m 0 0 Type Byte 0 11 for ETHWAY communication Byte 1 reserved KWr m 0 1 Physical layer Byte 0 reserved Byte 1 reserved KWr m 0 2 Utilities supported Byte 0 common data e x0 1 activa
92. P DHCP requests to obtain another IP address These requests are sent untila BOOTP DHCP server responds or until configuration by Unity Pro If the module detects a duplicated IP address the STS LED flashes 4 times during one minute the same applies for the module that has the same IP address 209 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 8 2 Configuration Introduction This section describes the implementation of a TSX ETY 4103 TSX ETY PORT TSX WMY 100 or TSX ETY 5103 module during its configuration What s in this This section contains the following topics Section Topic Page Module Configuration Screen 211 Type of Communication According to Connection Configuration 213 Configuration of TCP IP Messaging 217 1 0 Scanning Utility Configuration 220 Address Server Configuration 223 Configuring the Global Data Utility 225 Configuration of the SNMP Utility 227 Configuring the Time Synchronization Service 229 Configuring the Electronic Mail Notification Service 234 Bandwidth Checking Utility 236 Configuration of the Bridge Function 238 210 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY Module Configuration Screen Introduction This screen separated into two zones is used to declare the communication channel and to configure the
93. PLC application Values Measurement conditions e The cycle time for local and remote PLC applications are identical e Only one variable is exchanged in each direction Result PLC cycle time Return time gt 10 ms 3 times the PLC cycle time 5ms 5 to 6 times the PLC cycle time 60 50 40 30 20 1 4 r 4 F 4 ZASS Return time in ms a aee a E E a t 0 5 10 15 20 Cycle time in ms 259 TSX P57 5634 Operating Modes of the Ethernet Channel of the TSX P57 5634 At a Glance General Diagram Operation The following diagram describes the operating modes of the Ethernet channel of the TSX P57 5634 Stopping the processor Processor Power up off Ethernet link Communication Self test phase configured function Reset Ethernet link Configuration not configured Self tests OK e After power up the coprocessor carries out self testing During this phase the STS LED is lit After the self tests the STS LED switches off e When the configuration is received the Ethernet channel resets the current communication to zero before configuring itself terminates current exchanges shuts down TCP connections The channel is then operational The STS LED is lit e The I O Scanning and Global Data functions start when the PLC transfers to RUN mode They stop when it switches to
94. STOP mode 260 TSX P57 5634 Special Cases Channel not Configured If the Ethernet channel is not configured in the Unity Pro application it takes the IP address built from its MAC address 085 016 xxx yyy where xxx and yyy are the last two numbers of the MAC address Example The MAC address is in hexadecimal 00 80 F4 01 12 20 In this case the default IP address is in decimal 085 016 018 032 The channel also transmits BOOTP requests to obtain another IP address These requests are sent until a DHCP server responds or until configuration via Unity Pro An Ethernet channel not configured allows you e to receive a connection from Unity Pro loading application etc e to receive Modbus messaging If the STS LED flashes 5 times then the IP address of the Ethernet channel is taken from the MAC address If the STS LED stays permanently on then an IP address has been served by another network device This IP address can be read in the channel s IP address language objects 261 TSX P57 5634 9 2 Configuration At a Glance This section describes the installation of the Ethernet channel of the TSX P57 5634 during its configuration What s in this This section contains the following topics Section Topic Page Configuration Screen of the Ethernet Channel of the TSX P57 5634 263 Type of Communication According to Connection Configuration 265 Configuration of TCP IP Messagin
95. TION A Successful exchange OK The send return time of the message in ms appears in the Period field Period i ms 279 TSX P57 5634 Response Type The following table groups together the various types of possible responses to the Ping request If the response is then positive The windows records the time it takes the message to be sent and return in ms a window appears with the message Exchange successtul negative a window with the message Exchange incorrect specifies that the remote device was not reached in the network architecture 280 TSX P57 5634 Debugging Parameters for the I O Scanning Utility At a Glance When the I O Scanning utility is activated the status of each configured device is displayed on the screen IO Scanning The window is displayed as below 10 Scanning Not configured 2 EE AHAA Ea v Scanned 32 17 lO Scanning gm unscanned 48 activated p Faulty or missing 80 65 96 71 112 97 128 113 A device referenced in the I O Scanning configuration tab can have the following states Scanned green Not configured white Unscanned black caused by I O Scanning utility not being activated none selected in configuration Faulty or absent red
96. TY 5103 Ethernet channel characteristics 45 TSX ETY PORT Ethernet channel characteristics 45 TSX P57 5634 Ethernet channel characteristics 45 tz compilers 151 231 U UNI TE Ethernet 68 W Web pages NTP Configuration 150 229 Write IO Scanning 81 346
97. Type Access Meaning Address STS_IN PROGR_ BOOL R Reading of status words of the MWr m c 0 0 channel in progress CMD_IN_PROGR BOOL R Exchange of parameters of MWr m c 0 1 command in progress ADJ_IN_PROGR BOOL R Exchange of parameters of MWr m c 0 2 adjustment in progress The table below gives the meanings of the report bits 1 EXCH_RPT MWr m c 1 Standard symbol Type Access Meaning Address STS_ERR BOOL R Error in reading status words of the MWr m c 1 0 channel CMD_ERR BOOL R Error when exchanging command MWr m c 1 1 parameters ADJ_ERR BOOL R Error when exchanging adjustment MWr m c 1 2 parameters The table below gives the meanings of the status word bits CH_FLT MWr m c 2 The reading is taken by a RI EAD_STS IODDT_VAR1 Standard symbol Type Access Meaning Address INTERNAL_FLT BOOL R Internal or channel self test fault MWr m c 2 4 APPLI_FLT BOOL R Application fault adjustment or MWr m c 2 7 configuration fault 297 Ethernet language objects Details of Implicit Exchange Objects of the IODDT of Type T_COM_ETYX103 Introduction List of Implicit Exchange Objects T_COM_ Example of declaring a variable IODDT_VAR1 of type T_COM_1 This part describes the implicit exchange objects of the IODDT of type ETYX103 which applies to the modules TSX ETY 4103 PORT 5103 It in
98. Variables Configuring Global Data In order to configure the Global Data variables you must previously go to the Unity Pro variable editor Step Action 1 Go to the Unity Pro variable editor View of the editor Variables Variable types Function blocks Function block types Filter W Name x WEDT pmmDDT flODDT Data Content Type Address Value JBNet Group Data ID Comment Table 1 33 of Int 0 GD MW893 Table 1 33 of Int MW893 0 PUB Group 2 7 Temperature_X_ Int MW22 0 PUB Group 1 8 Valvel2 Valve MW381 0 SUB Group 1 7 temperature r Counterx Int MW100 0 SUB Group 2 10 0 P_xl Int MW200 100 NO MM Data Editor 2 For each Global Data variable define whether it is published PUB or subscribed SUB in the ENet field Give the Global Data group a name in the Group field Fill in the DatalD field identifier of a remote station in a distribution group To configure the Global Data utility take the following steps in the Global data configuration zone Step Action 1 Indicate the Distribution Group Address to which the station belongs between 224 0 0 0 and 239 255 255 255 Adjust the Distribution Period to between 1 and 50 PLC cycles Fill in the group name defined in the Unity Pro data editor see above Define the Health time out
99. a M internal bits Ox memory area IW input words 3x memory area l input bits 1x memory area 73 Facilities Managing the TCP Connections for X Way UNI TE and Modbus Introduction The connection can be opened either by the local PLC or by a remote station which wants to communicate with the local PLC A connection is characterized by the pair local TCP port local IP address remote TCP port remote IP address Note Managing the connections is transparent for the user 74 Facilities Opening a Connection Introduction With a Remote Device With a Local PLC Examples A connection can be opened e either by a request from a remote device e or by a request from the local PLC The module prepares for a connection coming from a remote device When the connection is received verification of the IP address of the remote machine is done if and only if access check is activated This test consists of checking that this address is on a list of remote machines authorized to connect If the test is positive the connection is opened If not the connection remains closed When a message is sent out by a communication function if there is no connection with the remote device this is opened automatically internally by the module to the remote 502 port Example of connections Premium bear iit Poe Ethernet
100. a Glance This section introduces the configuration parameters linked to the time synchroni zation service which uses the Network Time Protocol NTP What s in this This section contains the following topics ion Section Topic Page Configuration Parameters Linked to the Time Synchronization Service NTP 147 Configuration of the Time Synchronization Service NTP 150 146 Configuration Parameters Configuration Parameters Linked to the Time Synchronization Service NTP List of Parameters Time Zones Available Configure or change the following parameters on the NTP Configuration page 1 IP address of primary NTP server e Enter a valid IP address 2 IP address of secondary NTP server e Enter a valid IP address 3 Polling Period in seconds Enter a value e min 1sec e max 120sec e default 5 sec 4 Time Zone e Select from drop down menu Universal Time Coordinated GMT default e Custom time zone 5 Automatically adjust clock for daylight saving change e Parameter is selected by default check mark appears if daylight saving time is chosen Select one from drop down menu Time Zone Description DST Available Custom Yes GMT 12 00 Dateline Standard Time Eniwetok Kwajalein No GMT 11 00 Samoa Standard Time Midway Is Samoa No GMT 10 00 Hawaiian Standard Time Hawaii Honolulu No GMT 09 00 Alaskan Standard Time An
101. a concentrator Hub The concentrators can also be connected in cascade to increase network size Illustration Concentrator 1 Stations Station 1 Station 2 Concentrator 2 Stations 35 TSX ETY 110 2 7 Display Panel Diagnostics Display Panel Diagnostics General Diagnostics The display panel complies with the Premium standard RUN ERR COL ADR RX TX Meaning of the diagnostics LEDs RUN ERR COL ADR TX RX Meaning O P ns ns ns ns Module not operational O F O O O O Module not configured or configuration error F F O O O O Module running self test P O O O F O Ethernet communication sending P O O O O F Ethernet communication receiving P O O O F F Ethernet communication in sending receiving P O F O F O Module has detected collision P O O P O O Duplicate MAC address O O O P O O Network address beyond limits P Permanently on F flashing O Off ns not significant 36 TSX ETY 110 2 8 Electrical Features Electrical Characteristics General Module TSX ETY 110 can be inserted in any rack slot of a Premium Atrium station except in an X Bus offset rack The module consumption from the supply depends on the selection made from the transceiver remote power supply option
102. a processor is chosen Howto Associate The following table introduces the procedure to be followed to associate the logical Ethernet network with the module you have just declared the Logic Network Step Action 1 Open the hardware configuration editor 2 Click twice on the module slot Result Module TCP IP 10 100 TSX ETY 4103 Ae Channel 0 Fi Contig Function None v 163 Programming an Ethernet Network Step Action 3 In the Function zone select the network to be associated with the card then in the Network link zone select the logic network you wish to associate with the Ethernet channel of the module Result Module TCP IP 10 100 Fy TSX ETY 4103 Contig eeeefZ Channel 0 Function Intranet_LE v Task MAST v Network link Ethernet factory_2 v lt gt 4 Confirm your choice and close the window Result the Ethernet factory_2 logic network is associated with the Ethernet TSX ETY 4103 module The module address is written in the logic network s configuration window The icon associated with this logic network changes and indicated the links with a PLC pzsnsaressan 4 Communication veer SX Networks ae AE Ethernet factory Oo Ethernet factory_2
103. able 15 every 200 ms The value to be entered is 150 ms arithmetic mean 150 100 200 3 To view the bandwidth distribution estimation click the button Update distribution estimation penige ensen Estimated distribution Distribution estimation update 0 l0 Scanning 3 Global data HZ7 Messaging M35 Other If the module load overflows the message Module load cannot exceed 100 appears Repeat steps 1 to 3 to adjust the configuration parameters until the module load is correct 237 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 Configuration of the Bridge Function Introduction The TSX ETY 4103 PORT 5103 module can be used as an X Way bridge station This guarantees transparent communication between various networks Note the installation of this function is described in the manual Communication architecture and services 238 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 8 3 Debug At a Glance What s in this Section This section describes the implementation of a TSX ETY 4103 TSX ETY PORT TSX WMY 100 or TSX ETY 5103 module during its configuration This section contains the following topics Topic Page Module Debugging Screen 240 General Debugging Parameters 242 Debugging Parameters for TCP IP Utilities 243 How to Test TCP IP Communication with the Ping
104. ading is taken by a READ_STS IODDT_VAR1 Standard symbol Type INTERNAL_FLT Access Meaning BOOL R Address MWr m c 2 4 Internal or channel self test fault APPLI_FLT BOOL R Application fault adjustment or MWr m c 2 7 configuration fault 305 Ethernet language objects Network Diagnostics The table below shows the status words or double words CH_FLT MWr m c 3 to 6 MWr m c 11 to 15 and MDr m c 7 and 9 used for diagnosing the network EAD_STS IODDT_VAR1 The reading is taken by a RI Standard symbol Type Access Meaning Address NB_P502_CNX INT R Number of connections on the Port MWr m c 3 502 and bridge configuration information NB_DENIED_CNX_ INT R Number of denied Port 502 MWr m c 4 connections NB_P502_REF INT R Number of refused messages on MWr m c 5 Port 502 XWAY_ADDR INT R X Way address Network station MWr m c 6 NB_SENT_MSG DINT R Number of sent messages on Port MDr m c 7 502 NB_RCV_MSG DINT R Number of received messages on MDr m c 9 Port 502 NB_IOS_MSG INT R Number of IOScanner messages MWr m c 11 received NB_IOS_CNX INT R Number of error free modules MWr m c 12 scanned GLBD_ERROR INT R Global Data coherence error MWr m c 13 BW_GLBD_IOS INT R Global Data and lOScanner utilities MWr m c 14 loading BW_OTHER_MSG INT R Loading o
105. ameters linked to the DHCP address server What s in this This section contains the following topics ion Section Topic Page Configuration Parameters Linked to the Address Server Utility 136 Configuration of the Address Server 137 135 Configuration Parameters Configuration Parameters Linked to the Address Server Utility At a Glance The TSX ETY4103 PORT 5103 modules and the Ethernet link of the TSX P57 5634 have configuration parameters linked to the address server utility These parameters are given below List of The following table shows the parameters that can be accessed from the Parameters configuration screen and the values that they can have Parameters HTTP modification Locked when executing Password Client server address table 136 Configuration Parameters Configuration of the Address Server At a Glance HTTP Modification Address Tables Parameters linked to the address server are divided into 2 categories e rights to modify the utility via the HTTP server e the client server address table This field is used to define the access rights to the address table via the HTTP server The access rights are configured by two parameters e the Locked in operation check box which activates or deactivates access control to the table e the Password field the table is accessed via the HTTP server by means of a password of no more tha
106. anner utility is used bit 1 1 BOOTP server utility is used bit 2 1 the Global Data utility is used bit 3 1 the utility to adjust bandwidth is used Byte 1 reserved KWr m c 15 TCP utilities used Byte 0 bit 0 1 Modbus communication on TCP IP is used bit 1 1 access control is activated Byte 1 reserved 312 Questions Answers 17 Questions Answers General Below you will find a list of the most frequently asked questions and answers regarding communication by Ethernet network 313 Questions Answers Can a Momentum be searched by several ENT at a time Yes in read only Only one IO Scanner at a time should access the ENT in write mode Do I have to configure the IO Scanner connections in the connections table Messaging tab No What should do if the TSX ETY 4103 PORT5103 module displays the LED status Not configured Flashing ERR e Check that it is configured in Unity Pro e Check that there is no other module with the same X Way network number in the PLC configuration e Ifthe module is configured in Servie address make sure that a BOOTP server is operational and accessible What should I do if the module displays a correct LED status STS RUN ON but does not respond to requests Try a Ping command to this IP address from a device on the same network e No response e Check the network configuration wiring hubs status IP ad
107. arameters for the IO Scanning Utility 132 Configuration of Scanned Peripheral Devices 0 0 e sees 133 Configuration Parameters for the Address Server Utility 135 Configuration Parameters Linked to the Address Server Utility 136 Configuration of the Address Server 000 cee eee eee eens 137 Configuration Parameters for the SNMP Facility 005 138 Configuration Parameters Linked to the SNMP Utility 139 Configuration of the SNMP Utility 0 0 00 ee eee eee eee 140 Configuration Parameters of the Global Data Utility 142 Configuration Parameters Linked to the Global Data Utility 143 Configuring the General Parameters for the Global Data utility 144 Configuration of the Variables Table 1 0 0 0 00 c eee 145 Configuration Parameters of the Time Synchronization Service 146 Configuration Parameters Linked to the Time Synchronization Service NTP 147 Configuration of the Time Synchronization Service NTP 150 Configuration Parameters of the Electronic Mail Notification Service 152 Configuration Parameters Linked to the Electronic Mail Notification Service SMTP re soo ecb oes PEE ee Lan ee N aga tae alae acne eel 153 Configuration of the Electronic Mail Notification Service SMTP 154 ETHWAY Profile Configuration Paramaters 000 0 eee
108. aration of modules Offline Module channel configuration Entry of configuration parameters Association Association of IODDTs with the modules configured Offline 1 variable editor Generation Project generation analysis and editing of links Offline Transfer Transfer project to simulator Online Simulation Program simulation without inputs outputs Online Adjustment Project debugging from debug screens animation tables Online Debugging Modifying the program and adjustment parameters Key 1 These various phases can also be performed in the other mode 20 Ethernet Communication Hardware installation II At a Glance What s in this Part This part describes Ethernet communication hardware installation for Premium and Atrium PLCs This part contains the following chapters Chapter Chapter Name Page 2 Communication TSX ETY 110 Module 23 3 Communication 10 100 MBits s 39 21 Ethernet Hardware Installation 22 Communication TSX ETY 110 Module At a Glance What s in this Chapter This chapter deals with installing the Ethernet network module TSX ETY 110 ina Premium Atrium PLC This chapter contains the following sections Section Topic Page 2 1 At a Glance 24 2 2 Description 25 2 3 Characteristics of the Ethernet Channel 26 2 4 Installing the TSX ETY 110 Module 27 2 5 Connecti
109. ating Modes for the TSX ETY 4103 TSX ETY PORT and TSX ETY 5103 208 Modules 200 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY General At a Glance The communication channel of the Ethernet TSX ETY 4103 PORT 5103 module offers connection to a TCP IP network supporting the UNI TE and Modbus messaging utility on a TCP IP profile The three modules TSX ETY 4103 TSX ETY PORT and TSX ETY 5103 also offer the following utilities Thanks to their SNMP agent functionality the modules can be supervised by one or two SNMP managers They are able to perform the role of DHCP server or the BOOTP client Because of its I O Scanning facility they can drive remote inputs outputs on the Ethernet network They integrate an embedded HTTP server Thanks to the Global Data utility the modules allow the exchange of data between IEC standard PLC stations The Bandwidth monitoring utility which allows the repair of the module utilities to be verified The Replace faulty device utility which allows the device configuration to be saved in the module In case of breakdown another installed blank module can be restarted with the configuration parameters of the previous one Electronic Mail Notification Service which sends alarms and events messages from controller to designated recipient Time synchronization service which updates controller clocks with Universal Time Coordinated UTC from a referenced source In addition
110. ation Test The debugging parameters for the TCP IP utilities are grouped together in two windows e the Address information window e the Communication test window The window is displayed as below Address information _ IP service MAC Address 00 80 F4 01 000 08 address p Address 222 111 388 Subnetwork mask 255 255 255 0 Gateway Address 772 111 3 0 It specifies the configuration data of the IP address e MAC address unique fixed address for a module e IP Address e Subnetwork mask e Gateway Address address of the gateway Once the Ping button has been pressed the window is displayed as follows Communication test Remote IP address 222 111 3 88 Ping Period T ms This window is used to test IP communication towards another station 243 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 How to Test TCP IP Communication with the Ping Request At a Glance This page indicates the procedure for testing TCP IP communication from a Ping request Procedure The following procedure is used to send the Ping request and therefore to test the correct routing of information between two devices Step Action 1 From the main screen click on the Ping button 2 Enter the address of the station to be queried using the Remote IP address field Result
111. ation of IODDT type variables for the application Offline 1 variables specific modules and variables of the project Programming Project programming Offline 1 Configuration Declaration of modules Offline Module channel configuration Entry of configuration parameters Association Association of IODDTs with the channels configured Offline 1 variable editor Generation Project generation analysis and editing of links Offline Transfer Transfer project to PLC Online Adjustment Project debugging from debug screens animation tables Online Debugging Modifying the program and adjustment parameters Documentation Building documentation file and printing miscellaneous Online 1 information relating to the project Operation Displaying miscellaneous information necessary for Online Diagnostic supervisory control of the project Diagnostic of project and modules Key These various phases can also be performed in the other mode 19 General Points Implementation Phases with Simulator Note the simulator is only used for the discrete or analog modules The following table shows the various phases of installation with the simulator Phase Description Mode Declaration of Declaration of IODDT type variables for the application Offline 1 variables specific modules and variables of the project Programming Project programming Offline 1 Configuration Decl
112. ay profile has not been checked the station cannot participate in X Way exchanges It may however be connected to Unity Pro or to Modbus applications 128 Configuration Parameters Ethernet Configuration Parameters Introduction This field is used to define the format of the Ethernet frame via TCP IP e the Ethernet II format complying with the FRC 894 standard the most commonly used e the 802 3 format complying with the FRC 1042 standard This format is to be selected if the remote devices use this format 129 Configuration Parameters 5 2 Configuration Parameters for the IO Scanning Facility Introduction This section introduces the configuration parameters linked to the I O Scanning facility What s in this This section contains the following topics Section Topic Page Configuration Parameters Linked to the IO Scanning Utility 131 Configuring the General Parameters for the IO Scanning Utility 132 Configuration of Scanned Peripheral Devices 133 130 Configuration Parameters Configuration Parameters Linked to the I O Scanning Utility At a Glance List of Parameters The TSX ETY4103 PORT 5103 modules and the Ethernet link of the TSX P57 5634 have configuration parameters linked to the I O Scanning utility These are given below The following table gives the list of parameters to be configured for I O Scanning TSX
113. cable is reconnected communication between the ETY module and the remote device will start again on the TCP IP connection that was opened previously The remote device that disappeared was the server Remote device 4 Server 1 The client ETY module is still sending out data on the old connection which remains half open 2 The server receiving the information without associated connection sends out a Reset command and closes the old connection 3 The client ETY module opens a new connection The remote device that disappeared was the client Remote device Client The client opens a new connection The server ETY module receives the request to open a new connection The server ETY module closes the old connection if there is nothing in progress and authorizes the new one 77 Facilities 4 2 IO Scanning Facility Introduction What s in this Section This section presents the functions and characteristics of the IO Scanning facility This section contains the following topics Topic Page IO Scanning Service 79 Read and Write Zones 81 Scanning Period 83 78 Facilities IO Scanning Service At a Glance Recommen dations for Use The input output scanner is used periodically to read or write remote inputs outputs on the Ethernet network without specific programming This service comprises the following essentia
114. ccess control Access IP Address rth Mode r IV 1f v 914 101 401 MULTI 2 Ww 100 32 0 12 61 10 MONO 3 i 100 32 0 11 MULTI gt 4 y 100320 2 45x MULTI 5 w 10320 14 MULTI 6 w 139 124 10 12 40 2 MULI 7 i 139 124 10 13 40 3 MONO a w 100 320 127 MULTI gt g w 10320 18 60 63 MULTI W 100 32 0 18 57 x MULTI W 39 124 10 15 MUET gt 12 vy 100 32 0 18 LTT iy Vv Ki gt 218 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY Howto Configure The following procedure gives the configuration principle the Messaging Start of messaging N configuration e Enter the X Way Address by filling in the numbers relating to the network and station Fill in the fields of the connection table for each remote server device X Way Addr IP Address Mode If the module is a server do you want to set access control Yes No Select the check box Access control In the connection table select the Access check box of each remote client device Is the module a BOOTP client Yes y Select the radio button From a server Select the radio button Configured Fill in the fields IP Address Subnetwork mask Gateway Address it y Select the Ethernet configuration y End of messaging configuration
115. ccess the communication test 277 TSX P57 5634 TCP IP Address Information At a Glance The window is displayed as below Address information Address MAC address IP served IP Address 222111388 Subnetwork mask 255 255 255 0 Gateway Address 272 111 3 0 It specifies the configuration data of the IP address MAC address unique fixed address for a module IP Address Subnetwork mask Gateway Address address of the gateway A box indicates if the IP address is served or configured 278 TSX P57 5634 How to Test the TCP IP Communication with the Ping Request At a Glance Procedure This page indicates the procedure for testing TCP IP communication from a Ping request The following procedure is used to send the Ping request and therefore to test the correct routing of information between two devices Step Action 1 From the main screen click on the Ping button The following window appears Communication test i Communication test Remote IP address 192 168 123 246 Ping Cyce 1 ms O Click on the Ping button and enter the address of the station to be queried using the Remote IP address field Press the OK button The following window appears Request in progress Press ESC to interrupt the request Result If the exchange is successful the following window appears COMMUNICA
116. ces YES 10 Scanning NO wj Global Data NO Address Server The I O Scanning tab is no longer grayed out 3 Select the VO Scanning tab Result IP Configuration Messaging 10 Scanning Global Data SNMP Address Server Bandwidth a Scanned peripherals IP Address Unit Health Repetitior Master Slaveindex Length Fallback Master Slave index Length Description Unit Timeout period variable read read values index write write write ms ms read read 1 139 124 10 81 255 1500 100 MW 104 MW 0 1 Maintain w MW 380 MW 1 1 2 139 124 10 82 0 0 80 MW 105 MW1 2 RESET w MW 381 MW 0 0 Equation no 3 139 124 10 83 100 65535 60 MW 107 MW1 0 RESET w MW 381 MW 0 2 Equation no 4 139 124 10 84 255 20000 240 MW 107 MW 0 2 Maintain w MW 383 MW 1 0 5 139 124 10 85 28 100 0 MW 109 MW0 2 maintain w MW 383 MW 0 0 Ethernet My 6 139 124 10 86 255 0 0 MW 111 MWO 1 RESET w MW 383 MW 1 1 MIE 7 255 1500 60 v 8 ainta 4 RESET Vv a g 271 TSX P57 5634 Howto Configure VO Scanning Howto Configure a Specific Read and Write Scenario The following procedure gives the configuration principles for the I O Scanning utility S
117. changes additional explanations are given in the section UNI TE on TCP IP see p 68 All common words represent a database distributed amongst all or part of the devices on the same network Depending on the number of stations issuing common words on the network there can be a maximum of e 4common words per station for 64 active stations e 8common words per station for 32 active stations e 16 common words per station for 16 active stations e 32 common words per station for 8 active stations e 64 common words per station for 4 active stations Note The common words facility can in itself take up a large part of the module s messaging bandwidth if there are many stations connected and if the configured PLC cycle time is very short In fact common words are issued on each PLC cycle if there are changes in status and every 10 cycles if their value is not changed You must therefore ensure not to exceed the maximum capacity of the module Updating of common words NW is done automatically The application program simply involves writing or reading these words Examples e NW 1 7 0 MW10 writing a value for sending e MW50 N 1 8 2 receiving a value 119 Facilities 120 Configuration Parameters Introduction This chapter introduces the configuration parameters for the different facilities used by the modules What s in this This chapter contains t
118. chorage Yes GMT 08 00 Pacific Standard Time Los Angeles Tijuana Yes GMT 07 00 Mexican Standard Time Chihuahua La Paz Mazatlan Yes GMT 07 00 Mountain Standard Time Arizona Phoenix No GMT 07 00 Mountain Standard Time Denver Yes GMT 06 00 Central Standard Time Chicago Yes GMT 06 00 Mexico Standard Time Tegucigalpa No GMT 06 00 Canada Central Standard Time Saskatchewan Regina No GMT 06 00 Central America Standard Time Mexico_city Yes GMT 05 00 SA Pacific Standard Time Bogota Lima Quito No GMT 05 00 Eastern Standard Time New York Yes 147 Configuration Parameters Time Zone Description DST Available GMT 05 00 Eastern Standard Time Indiana East Indianapolis No GMT 04 00 SA Western Standard Time Caracas La Paz No GMT 04 00 Pacific SA Standard Time Santiago Yes GMT 03 30 Newfoundland Standard Time Newfoundland St Johns Yes GMT 03 00 E South America Standard Time Brasilia Sao_Paulo Yes GMT 03 00 SA Eastern Standard Time Buenos Aires Georgetown No GMT 02 00 Mid Atlantic Standard Time South_Georgia No GMT 01 00 Azores Standard Time Azores Cape Verde Island Yes GMT Universal Coordinated Time Casablanca Monrovia No GMTO Greenwich Mean Time Dublin Edinburgh Lisbon London Yes GMT 01 00 Romance Standard Time Amsterdam CopenHagen Mad
119. cludes word type objects whose bits have a special meaning These objects are described in detail below ETYX103 The table below shows the implicit exchange objects of the IODDT of type T_COM_ETYX103 which applies to the modules TSX ETY4103 PORT 5103 Standard symbol Type Access Meaning Number CH_ERROR EBOOL R Line error bit lr m c ERR REFRESH_IO_0 BOOL R Indicates that the Inputs Outputs of lWr m c 1 0 to the IO Scanning Utility from station to REFRESH_IO_15 0 to 15 are refreshed IWr m c 1 15 REFRESH_IO_16 BOOL R Indicates that the Inputs Outputs of lWr m c 2 0 to the lO Scanning Utility from station to REFRESH_IO_31 16 to 31 are refreshed IWr m c 2 15 REFRESH_IO_32 BOOL R Indicates that the Inputs Outputs of lWr m c 3 0 to the lO Scanning Utility from station to REFRESH_IO_47 32 to 47 are refreshed IWr m c 3 15 REFRESH_IO_48 BOOL R Indicates that the Inputs Outputs of lWr m c 4 0 to the lO Scanning Utility from station to REFRESH_IO_63 48 to 63 are refreshed IWr m c 4 15 VALID_GD_0O BOOL R Indicates that the Global Data from IWr m c 6 0 to the station 0 to 15 are refreshed to VALID_GD_15 lWr m c 6 15 VALID_GD_16 BOOL R Indicates that the Global Data from IWr m c 7 0 to the station 16 to 31 are refreshed to VALID_GD_31 lWr m c 7 15 VALID_GD_32 BOOL R Indicates that the Global Data from IWr m c 8 0 to the station 32 to 47 are refreshed
120. contains an invalid length 510D Authentication failed 510E A Reset component request was received while the connection was open 338 Errata Sheet D User Manual Errata Sheet Summary The following technical and typographical errors have been identified in this manual Location in the Manual on Page Original Content is replaced with Diagnostic web page diagram Ethernet Module throughout the TSX P57 5634 TSX P57 5634 4634 manual Section 4 7 Time 102 Function NOE ETY eae Block Diagram Modicon Quantum Premium System ervice System Section 4 8 103 Function NOE ETY Electronic Mail Block Diagram Notification Service Section 4 9 1 105 second JDK 1 1 4 JRE 1 4 2_04 or higher Embedded HTTP paragraph Server Section 4 9 118 Global Active Links on Active Links on Web Page Home Global Data Page Data web page Web Page Home Ethernet Module Configuration diagram Ethernet Module Ethernet Module Diagnostics Section 4 9 I O 119 I O Active Links on Active Links on Web Page Home Scanner Page Scanning Web Page Home Ethernet Module Configuration Ethernet Module Diagnostics Section 4 9 Messaging Page 120 Messaging Diagnostics web page diagram Active Links on Web Page Home Ethernet Module Active Links on Web Page Home Ethernet Module Configuration Ethernet Module Diagnostics Section 4 9 Bandwidth Monitoring
121. ction The time synchronization service establishes an accurate local clock by referencing a network time protocol NTP server What s in this This chapter contains the following topics 2 Chapters Topic Page The Time Synchronization Service 328 Using the Time Synchronization Service 331 Using the R_NTPC Block for Time Synchronization 332 327 Time Synchronzation Service The Time Synchronization Service Introduction Features of the Service The time synchronization service established accuracy among computer clocks on an Ethernet system For example the time of one client may be synchronized either with another server or to a referenced time source such as a radio or satellite receiver Typical time service configurations use redundant servers and diverse network paths to establish high accuracy and reliability Time service accuracy can be within a millisecond on LANs and within tens of milliseconds on WANs Use the time synchronization service for e event recordingo e g tracking a sequence of events e event synchronization e g triggering simultaneous events e alarm and I O synchronization6 e g time stamping alarms The time synchronization service offers e periodic time corrections obtained from the reference standard6 e g the NTP server e automatic switchover to a backup time server if a problem occurs with the normal server system e local time zone configurable and customizable inclu
122. cts application used to program this interface or module These objects correspond to the input output images and software data of the module or integrated application specific interface The module inputs l and IW are updated in the PLC memory at the start of the task the PLC being in RUN or STOP mode The outputs Q and QW are updated at the end of the task only when the PLC is in RUN mode Note When the task occurs in STOP mode either of the following are possible depending on the configuration selected e Outputs are set to fallback position fallback mode e Outputs are maintained at their last value maintain mode The following diagram shows the operating cycle of a PLC task cyclical execution y Internal processing Y Acquisition of inputs RUN STOP y Execution of the program Y Update of outputs 288 Ethernet language objects Explicit Exchange Language Objects Associated with the Application Specific Function At a Glance Explicit exchanges are exchanges performed at the user program s request and using instructions READ_STS read status words WRITE_CMD write command words WRITE_PARAM write adjustment parameters READ_PARAM read adjustment parameters SAVE_PARAM save adjustment parameters RESTORE_PARAM restore adjustment parameters These exchanges apply to a set of MW objets
123. cution of an Exchange in Exchange explicit exchange progress report 290 Ethernet language objects 10 2 The Language Objects and Generic IODDT Applicable to all Communication Protocols At a Glance This section presents the language objects and generic IODDT applicable to all communication protocols What s in this This section contains the following topics ion Section Topic Page Details of IODDT Implicit Exchange Objects of Type T_COM_STS_GEN 292 Details of IODDT Explicit Exchange Objects of Type T_COM_STS_GEN 293 291 Ethernet language objects Details of IODDT Implicit Exchange Objects of Type T_COM_STS_GEN At a Glance The following table presents the IODDT implicit exchange objects of type T_COM_STS_GEN applicable to all communication protocols except Fipio Error Bit The table below presents the meaning of the error bit CH_ERROR lr m c ERR Standard symbol Type Access Meaning Address CH_ERROR EBOOL R Communication channel error bit lr m c ERR 292 Ethernet language objects Details of IODDT Explicit Exchange Objects of Type T_ COM_STS_GEN At a Glance Observations Execution Flags of an Explicit Exchange EXCH_STS Explicit Exchange Report EXCH_RPT This section presents the T_COM_STS_GI EN type IODDT explicit exchange objects applicable to all communication protoc
124. d on the front panel of the module It is defined in the following way 00 80 F4 00 lt network number gt lt station number gt Note Given the risk of possible duplicate addresses you must ensure that it conforms to the companyis addressing scheme General case You define this address yourself when configuring the module On the same local network this address must be unique Exception For the TSX ETY 110 module this address can be derived from the MAC address For the TSX ETY 4103 TSX ETYPORT and TSX ETY 5103 modules and the Ethernet link of the TSX 57 5664 and in the absence of confirmation by Unity Pro this address is by default derived from the MAC address 62 Facilities X Way Address General case All devices have an X Way address linked to the IP address by the module configuration This address must be unique within the entire X Way architecture Special Cases For the TSX ETY 110 module the X Way address is defined using the code selectors on the module These selectors code the network number and the station number The Ethernet link built into the processors does not require an X Way address 63 Facilities IP Address At a Glance Address Composition Each device connected to the network should have a unique IP address When the type of network environment is open the uniqueness of the address is guaranteed by the authorized organism in the country where the
125. ding daylight savings time adjustments e web page diagnostics for the time synchronization service Controller projects use a function block to read the clock a feature that allows events or variables in the project to be time stamped Time stamping is accurate to e 5 ms for the TSX P57 4634 and 5634 high end CPUs e 10 ms for other CPUs 328 Time Synchronzation Service Time Synchronization and Time Stamps The ETY Ethernet communications modules send a source time synchronization signal to a CPU The ETYis firmware includes an NTP client which provides time synchronization The synchronization process occurs as follows The NTP Client Result 1 requests a time synchronization signal The NTP server sends a signal from the NTP server over an Ethernet network stores the time sends a message to the clock system The CPU updates its internal clock at 1 ms counter in the CPU for high end CPUs or 5 ms for other CPUs Use the R_NTPC function block see p 332 in either MAST FAST or Interrupt sections to read the clock from the PLC application All the CPUs on an Ethernet network should be synchronized with the same NTP server NTP Server Clock System Counter Ethernet Network NTP Request NTP Response Premium System 329 Time Synchronzation Service Time Synchroni zation Terms Term Description of Servic
126. dress server the Address utility is as follows Server Step Action 1 Access the module configuration screen Module services YES 10 Scanning NO Global Data NO Address Server The Address Server tab is no longer grayed out 2 Inthe Module utilities zone select the Address Server check box 3 Select the Address Server tab Result IP Configuration Messaging 10 Scanning Global Data SNMP Address Server Bandwidth HTTP modification a Z Locked when executing BISCUIT Password m Address Table MAC Address Name IP Address Netmask Gateway E 1 00 00 54 00 1D B7 139 124 10 50 255 255 0 0 139 124 10 1 2 device ES_1 139 124 10 51 255 255 0 0 139 124 10 1 3 device ES_1 139 124 10 52 255 255 0 0 139 124 10 5 4 00 00 54 00 1D EC 139 124 10 53 255 255 0 0 139 124 10 1 5 00 00 54 00 1F 85 139 124 10 60 255 255 0 0 139 124 10 5 6 7 8 l Z A F lt gt 4 Fill in all the fields with information on the devices Note the MAC address is coded on 6 bytes and is of the form 00 00 54 F6 E3 2F 223 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 Howto Configure The following procedure gives the server configuration principle the Server Fill in the fields of the table for each device requ
127. dresses masks and gateways if there are routers in the configuration e Correct response to the Ping e Check the module s X_WAY address e Check whether access control is activated or not e Try to connect to the Rack Viewer page by http If this connection works check the X Way address of the client application Can I change the MAC address of the module No This is fixed for every Ethernet device to guarantee its unicity How can l find out the speed with which the module communicates Via an internet browser by connecting to the Ethernet Module Statistics page What should do if the messaging EFs do not get a response e Check that the X Way destination address is part of the IP X Way connections table e Check that the configuration of the destination module does not prohibit this connection access control e In debug mode try the Ping command towards the IP address of the destination PLC then try an Identification request towards the destination address if it is part of the same X Way network What should I do if receive the OxFF12 refusal code on the messaging EFs This code indicates that the module is full Reduce the transition rate 314 Questions Answers What should do if the READ_ASYNC WRITE_ASYN messaging EFs do not get a response time out Check that the mast tasks of the client and server PLCs are configured to periodic with a sufficient period to ensure that the PLCs are not overrun
128. e Connection by AUI Interface General This interface is used to connect all types of devices which comply with the physical layer defined in the OSI 802 3 standard 10base5 10base2 FOIRL etc through a transceiver Module TSX ETY 110 can provide a remote power supply for the transceiver through the Sub D connector with the following characteristics e Imax 0 5mA e 12 V 6 lt Usupply lt 15 V 15 The module is connected to the main cable via a transceiver and by the following branch cables e TSX ETY CB 005 Length 5 m e TSX ETY CB 010 Length 10m e TSX ETY CB 020 Length 20 m The maximum length of a branch may be 50 m This length can be achieved by connecting several branch cables end to end Note It is essential to use transceivers TSX ETH ACC2 to connect two modules in point to point 31 TSX ETY 110 Connector Pinouts Sub D 15 pins according to the OSI 802 3 standard Pin number Designation according to ISO 802 3 Use 1 CI S Control In Shield GND 2 CI A Control In A COLL 3 DO A Data Out A TD 4 DI S Data In Shield GND 5 DI A Data in A RD 6 VC Voltage Common GND 7 not used 8 not used 9 CI B Control In B COLL 10 DO B Data Out B TD 11 DO S Data Out Shield GND 12 DI B Date In B RD 13 VP Voltage Plus 12V 14 VS Voltage Shield GND 15 not used Sub D connector body PG Protective Ground
129. e local clock offset Accurate local time adjustments are made via a local clock offset The local clock offset is calculated as T4 T1 T3 T2 2 where e T1 time when NTP request is transmitted from the module e T2 time when NTP server receives the request provided by the module in response e T3 time when the NTP server transmits the response provided to the module in the response e T4 time when NTP response is received by the module time accuracy The local time error is lt 10 ms compared to the referenced NTP serveris time typical under 5 ms e worst case lt 10 ms settling time Maximum accuracy is obtained after 2 updates from the NTP server polling period Accuracy depends on the polling period Less than 10 ms of error is dependency guaranteed for polling periods of 120 s or less To obtain the best possible accuracy when your network bandwidth allows reduce the polling period to a small valued e g a polling time of 5s provides better accuracy than a time of 30 s time zone The default format is universal time coordinated UTC Optionally you may configure the service to use a local time zone e g GMT 1 for Barcelona or Paris daylight savings time The module automatically adjusts the time change in the spring and fall leap second To compensate for the deceleration of the earthis rotation the module automatically inserts a leap second in the UTC time
130. e the module address appears in the Module address zone specific allows the display of the module address enables the configuration of TCP IP services see p 122 allows configuration of the I O Scanning utility see p 130 allows configuration of the address server see p 135 allows selection of the utilities used by the module allows configuration of the SNMP utility see p 138 allows configuration of the Global Data utility see p 142 oloo NI OD Om AJ OIN allows you to check that the utilities configured are compatible with the processing capacity of the Ethernet channel 264 TSX P57 5634 Type of Communication According to Connection Configuration At a Glance Configuration Rules Depending on the connection configuration of the Ethernet channel of the TSX P57 5634 you can carry out messaging see p 127 e in mono connection e in multi connection According to the type of protocol and access control management multi connection mode requires a specific configuration of the correspondence table Note In the following only examples of multi connection will be dealt with Furthermore the emphasis is placed on communication between the coprocessor and a remote PC device containing several applications Several connections can be configured with the same IP address They must be defined with the same protocol the same acc
131. e on front panel of the module comprising an RJ45 connector which is used for a point to point link via a linking cable made up of two twisted pairs of impedance 100 Q 15 Q e A 10base5 or AUI interface on front panel of module comprising a SUB D 15 pin connector used to link to network by branching This interface is also used to supply active connection devices Taps It complies with the IEC 802 3 standard and is used to connect any device which complies with this standard The type of connection is recognized automatically as soon as connection is made to the network Services and operations supported by the module TCP IP services UNI TE e Client server mode Synchronous requests of 256 bytes Asynchronous requests of 1 Kbyte Ethway services UNI TE Client server mode Asynchronous requests of 1 Kbyte Common words Shared database of 256 words e e e Synchronous requests of 256 bytes e e e Application to Message exchange in point to point 256 bytes application max Common services X Way inter network routing e X Way UNI TE routing e Module diagnostics Note The Ethernet driver supports the Ethernet II and LCC SNAP 802 3 formats on TCP IP and LCC 802 3 on Ethway 26 TSX ETY 110 2 4 Installing the TSX ETY 110 module At a Glance What s in this Section General This section deals with installing module TSX ETY 170 in a PLC This s
132. e published or subscribed ENet field in a Distribution Group Group field is link to a Global Data item network variable Each Global Data item has a unique identification Data ID within a Distribution Group The rank of the status bit in the HealthBit zone of Global Data corresponds to the identifier Data ID of the Global Data The following table provides the Global Data utility properties Type Value Max number of publications 1 Size of a variable at publication 1 to 512 words Max number of subscriptions 64 Maximum variable size at subscription Total of 2K words 143 Configuration Parameters Configuring the General Parameters for the Global Data Utility At a Glance Group Address Group Name Distribution Period Health Time Out Multicast Filtering The following parameters can be entered in the Global Data Configuration zone of the configuration see p 225 screen e Group address Group name Distribution period Health time out Multicast filtering This zone is used to enter the multicast IP address class D for the group to which the station belongs The value 239 255 255 255 is the default value This field is used to fill in the group name associating a variable from the variable editor with a module This zone is used to select the distribution period of the publication The publication is synchronized with the PLC master
133. e same as the utilities described in the previous example This example only describes communication between the factory level supervisor and a Premium PLC at cell level As the IP addresses must be managed the configured IP address mode is selected IP address configuration Default IP address Configured IP address 140 25242 H2 Subnetwork mask 255 255 255 0 140H252 2 255 Gateway Address OClient S erver configuration You must enter the IP parameters given above These values are taken from the installation global addressing plan managed by the network manager The network manager can ensure their uniqueness by having their network ID 140 252 allocated by an authorized body The cell network is an IP subnetwork This enables a unique network ID 140 252 to be allocated for the whole architecture The subnetworks are then defined by the user of the subnetwork mask 255 255 0 0 The address class chosen in this case class B depends on the number of machines and the number of installation networks You must enter both the X Way address and the IP address of the devices with which the module must communicate Click on the Access control button to activate this control then check the corresponding box in the Access column The maximum number of connections in the application can be adjusted The Ethernet frame format selected for TCP IP is Ethernet II because in the example the ter
134. e serviced only by qualified personnel No responsi bility is assumed by Schneider Electric for any consequences arising out of the use of this material This document is not intended as an instruction manual for untrained persons 2005 Schneider Electric All Rights Reserved 10 About the Book At a Glance Document Scope This manual describes the implementation of an Ethernet network on Premium and Atrium PLCs using Unity Pro Version 2 0 or later software Validity Note The data and illustrations found in this documentation are not binding We reserve the right to modify our products in line with our policy of continuous product development The information in this document is subject to change without notice and should not be construed as a commitment by Schneider Electric Related Documen i ceuments Title of Documentation Reference Number Communication architectures and services Included in the documentation CD ROM 11 About the Book Product Related Warnings User Comments Schneider Electric assumes no responsibility for any errors that may appear in this document If you have any suggestions for improvements or amendments or have found errors in this publication please notify us No part of this document may be reproduced in any form or by any means electronic or mechanical including photocopying without express written permission of Schneider Electric A
135. ection contains the following topics Topic Page Selecting the Type of Processor 28 Wiring Unwiring with Power Switched On 29 Station Address Coding 30 The communication module TSX ETY 110is mounted in the rack slot of a Premium Atrium PLC station It can be installed in any available slot except in the offset X Bus racks on condition that the supply constraints of the rack are observed see Electrical characteristics p 37 27 TSX ETY 110 Selecting the Type of Processor Selection Guide Selecting the processor to control the PLC station will depend on the number of network connections required Processors Number of network connections Number of ETY 4103 5103 per station TSX P57 104 1 1 TSX P57 154 1 1 TSX P57 204 TSX PCI 57 204 mn TSX P57 254 1 s TSX P57 2634 TSX P57 2834 1 ol oj TSX P57 304 TSX P57 354 1 TSX P57 3634 TSX P57 454 TSX PCI 57 454 1 TSX P57 4834 1 TSX P57 554 1 TSX P57 5634 1 2 3 3 3 4 4 4 4 4 TSX P57 4634 4 w A wo BR AINI OJ O amp O Compatible with 5V power supply Supports two network connections if the PLC is used in Warm Standby 1 Available for Unity Pro V2 0 or higher 28 TSX ETY 110 Wiring Unwiring with Power Switched On The Module The Link Module TSX
136. ed objects from the agent TSX ETY via the SNMP protocol The MIB II allows management of TCP IP communication layers On the TSX ETY 4103 PORT 5103 module and on the Ethernet link of the TSX P57 5634 it is also possible to access objects from the MIB Ethernet Transparent Factory which provide specific information on Global Data I O Scanning and Messaging utilities Branching view of the MIB Ethernet Transparent Factory H private enterprises qschneidergroup HHA transparentFactoryEthernet switch FT port502Messaging ioScanning globalData web S addressServer FH HHH H a deviceProfile The source file of the private MIB Ethernet Transparent Factory is available on the TSX ETY 4103 PORT 5103 module and on the Ethernet link of the TSX P57 5634 It can be downloaded from an internet navigator by clicking on the Download MIB file link on the HTTP server index page see p 108 This file may be compiled by the main SNMP Managers on the market 89 Facilities The SNMP Protocol Description of the Utilities The SNMP protocol defines 5 types of message between the agent and the manager These messages are encapsulated in the UDP datagrams Messages from the manager to an agent Get_Request message used to obtain the value of one or more variables e Get_Next_Request obtains the value of the next variables e Set_Request sets the value of a variable Messages from an agent to the manager Get_Res
137. een detected down 0 Electronic mail notification service parameters Parameter Description Email status Email service is correctly configured Ok Link to Server Status Ethernet module is connected to the SMTP server Status is checked at start up and at least every 30 minutes after start up e Green module connected to server e Red module NOT connected to server SMTP Server IP Address IP address of the SMTP server Number of e mails sent Total number of emails sent successfully Number of Responses from SMTP Server Total number of SMTP messages received from the SMTP server Number of Errors Total number of e mails NOT sent because of an error Last Errors Reason for the last error with a code in hexadecimal 0 displays if no error occurs Last Mail Header Used Last header used by giving the number Number of seconds elapsed since last e mail successfully sent Counts the number of seconds since the last email was successfully sent Number of times the link to the server has been detected down Number of times the SMTP server could not be reached Link checked every 30 minutes 116 Facilities HTTP Server User Pages At a Glance How to Access Protected User Pages How to Access Unprotected User Pages It is possible to create complete pages about certain modules To do this the FactoryCast software and a guide for
138. ely check the SNMP Manager box to indicate that the information will be completed by the SNMP Manager If you want to set access rights fill in the commUnity Pro names e Set e Get e Trap If you want to activate transmission of an event to the module check the Activate Authentication Failure trap box 228 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY Configuring the Time Synchronization Service Configuring the You must use the moduleis embedded Web page to configure the time service No Time Service other method is available with the NTP Configuration NTP Configuration Page Polling Period r NTP Server Configuration IP Address of Primary NTP Server IP Address of Secondary NTP Server 192 168 5 100 0 0 0 0 15 sec r Time Zone GMT 05 00 Eastern Standard Time New York v Automatically adjust clock for daylight saving change Save Cancel Disable NTP Time Service Execute the following commands mman z C ang Command Button Description Buttons Save Stores new NTP time service configuration Previous configuration is no longer valid Cancel Cancels new NTP time service configuration Previous configuration is valid Disable NTP IP of Primary and Standby set 0 NTP server not polled Time in controller not updated 22
139. ent in Description 221 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 Howto Configure When scanned certain devices such as TSX ETY modules do not support a Specific Read simultaneous read write requests In this case to read write inputs outputs the and Write following procedure must be performed Scenario Step Action 1 Enter the IP Address of the device 2 If necessary enter the deviceis Unit ID Modbus slave address 3 Select the scanning period of the slave 4 Enter the address of the read variables of the slave Slave index read 5 Enter the number of words to be sent in read format in Length read 6 Enter 0 in Slave index write 7 Enter 0 in Length write 8 On the following line enter the same IP Address 9 Enter if necessary the same Unit ID Modbus slave address 10 Select the same period 11 Enter 0 in Slave index read 12 Enter 0 in Length read 13 Enter the write destination address in Slave index write 14 Enter the number of words to be sent in read format in Length write 222 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY Address Server Configuration Introduction In order to use the TSX ETY 4103 PORT 5103 module as an address server it is necessary to set the configuration parameters of the address server see p 135 How to Access The procedure for accessing the configuration parameters of the ad
140. es e Check in the TSX ETY 4103 or TSX ETY PORT module configuration that the subnetwork mask agrees with the IP address class e Check the software version of the 170 ENT module The Global Data utility does not work Why Make sure that the network switches are not configured in multicast filtering 315 Questions Answers 316 Appendices At a Glance Overview What s in this Appendix The following appendixes contain material that was missing from the manual that was originally released with Unity 2 0 They describe Ethernet services supported by the Premium devices An errata sheet is also provided This material will be incorporated into the next release of this user manual The appendix contains the following chapters Chapter Chapter Name Page A 1 0 Scanner 319 B Time Synchronization Service 327 C Electronic Mail Notification Service 333 D Errata Sheet 339 317 Appendices 318 VO Scanner At a Glance Introduction What s in this Chapter This chapter discusses the Ethernet modulesi I O scanner capabilities This chapter contains the following topics Topic Page I O Scanner Concepts 320 Modicon Premium with Unity I O Scanner Configuration 323 319 Transferring Data with the I O Scanner I O Scanner Concepts Introduction VO Scan List Health Block Bits An I O sca
141. es of the Ethernet Channel of the TSX P57 5634 260 252 TSX P57 5634 General At a Glance The Ethernet communication channel built into the processors concerns the following references e TSX P 57 264 TSX P 57 284 TSX P 57 364 TSX P 57 484 TSX P57 5634 The characteristics of the Ethernet channel of the first four processors called TSX ETY PORT in the previous sections are the same as those of the Ethernet channel of the module TSX ETY 4103 see p 199 In section we will describe the special features of the Ethernet channel of the TSX P57 5634 processor This channel offers connection to a TCP IP network supporting the UNI TE and Modbus messaging utilities on a TCP IP profile It also offers the following utilities e Thanks to its SNMP agent functionality it can be supervised by one or two SNMP managers e t can perform the role of an address server e Because of its I O Scanning facility the module can control remote inputs outputs on the Ethernet network e thas an embedded HTTP server e Thanks to the Global Data utility it allows data to be exchanged between IEC standard PLC stations e The Bandwidth monitoring utility which is used to verify the distribution of utilities in the processor e The Replace faulty device utility which allows the remote device configuration to be saved in the module In case of breakdown another installed blank module can be restarted with the config
142. ess and the IP address of the devices with which the module must communicate Click on the Access control button to activate this control then check the corresponding box in the Access column The maximum number of connections which can be opened in the application can be adjusted The Ethernet frame format selected for TCP IP is Ethernet Il because in the example the terminals use this format ConfigurationE thernet Ethemetll 802 3 185 TSX ETY 110 Example of Communication between Premium and Quantum At a Glance Recommended Operating Mode The following figure shows the installation of a TSX ETY 110 for communicating with a Quantum PLC Programming and debugging terminal 1 3 140 252 2 11 Gateway 140 252 2 255 Ethernet TCP IP 1 101 140 252 2 8 1 2 140 252 2 10 Modbus Plus Fipway e P addressing is managed due to the risk of duplicating IP addresses with default values e Inter PLC communication uses the Modbus utilities on TCP IP 186 TSX ETY 110 Configuration of the Local Address of the Module Configuration of the Connections of the Module Ethernet Configuration of the Module The IP addresses must be managed the Configured IP address mode is selected you must enter the IP parameters IP address configuration Default IP address Configured IP address 140H252H2 _H10 Subnetwork mask 255 255H0 HO Gateway Add
143. ess rights and the same connection mode In the case of a Modbus connection only two connections can be configured with the same IP address Addresses associated with these connections are e an X Way address greater than 100 for example 2 103 for the Modbus client connection e no X Way address for the server Modbus connections 265 TSX P57 5634 Multi Connection In this example the PC contains four applications with a unique X Way address and in UNI TE one single IP address Protocol with e The coprocessor opens a connection and communicates with the address server Access application 1 1 Management e Each of the other client applications with the address 1 2 1 3 1 4 is authorized to open a connection and communicate with the coprocessor Exchanges are carried out according to the UNI TE protocol and the coprocessor s access control utility is enabled Server application 1 1 Client application 1 2 TSX P57 5634 139 160 65 156 client server 139 160 65 157 In order to implement this example you must e activate connection management by checking the coprocessor s Access control box e configure communication from the coprocessor to the PCis server application in the table e X Way address 1 1 e IP address 139 160 65 156 e Access authorized cell checked e Mode Multi e configure communication of each of the PCis client applications to the server coprocessor in the table e
144. essing the configuration parameters of the bandwidth the Utility checking utility is as follows Step Action 1 Access the module configuration screen 2 Select the Bandwidth tab Result P Configuration Messaging IO Scanning Global Data SNMP Address Server Bandwidth Global Data Information Messaging information meea E55 100 Estimation of number of transactions per second Configuration checking Eee Estimated distribution Estimated distribution update B0 10 Scanning fis Global data Z7 Messaging B5 Other q gt 236 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY Using the Bandwidth Utility To use the Bandwidth utility proceed in the following way Step Action 1 Once you have configured the I O scanning and Global Data utilities enter in the Messaging data zone the estimated number of transactions per second In the Global Data information zone indicate the estimated publication periods The value entered must be the estimated average publication frequency of the distribution group stations local and remote stations Example your application publishes the variable 5 and subscribes variables 12 and 15 published by a PLC 1 and a PLC 2 Your publication is configured at 150 ms PLC 1 publishes variable 12 every 100 ms PLC 2 publishes vari
145. etto0 fel MWwi04 4 4 139 124 10 8 255 1500 208 MW206 6 2 Hold Last fe MWwi0e 6 5 139 124 10 8 255 1500 208 MW208 8 2 Hold Last fe MWw10d 8 6 139 124 10 8 255 1500 208 MW210 10 2 Setto0 fe MW11 10 r fe 8 9 Set to 0 v KI gt 220 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY Howto Configure The following procedure gives the configuration principles for the I O Scanning IO Scanning utility Step Action 1 Set the address of the beginning of the internal words in the application memory which are dedicated to I O scanning e Read zone e Write zone For each device enter the IP Address Enter for each device if necessary the Unit ID Modbus slave address Enter if required a health Time out value in ms Enter the repetition periods of the remote device scanning period of the slave oO oo AJ OJN For each device enter the address of the variables read in each slave Slave index read For each device enter the number of words to be sent in read format in Length read Select the input fallback mode in Fallback value read For each device enter the address of the variables written in each slave Slave index write 10 For each device enter the number of words to be sent in write format in Length write 11 For each device enter if necessary a comm
146. every 18 months via an international earth rotation service IERS Leap seconds are inserted automatically as needed When needed they are inserted at the end of the last minute in June or December as commanded by the NTP server 330 Time Synchronzation Service Using the Time Synchronization Service Establishing Accuracy at Power Up Obtaining and Maintaining Accuracy Reinitializing the Time Service Register Before starting a system the Ethernet network must be configured for a predefined interval within which the accuracy is established Accuracy is established at power upo the Ethernet module boots and then obtains the time from the NTP server see p 229 Several updates may be required to achieve peak accuracy Once an accurate time is obtained the time synchronization service sets the STATUS see p 332 in the associated time service register The time service clock starts at 0 and increments until the Ethernet network time is fully updated from the module Model Starting Date Premium with Unity January 1st 1980 00 00 00 00 e Clock accuracy is not affected by issuing Stop Run commands on the PLC e Clock updates are not affected by issuing Stop Run commands on the PLC e Mode transitions do not affect the accuracy of the Ethernet network After a download or an NTP server swap the status clock value associated with the time service register in the CPU is reinitialized
147. evice The addresses you enter here are displayed in the RD Master Object column the sixth column of the dialog In the example above the Read Ref values range from 136 to 166 notice that these values are displayed as MW136 MW137 in the Master Object column Write Ref A pair of data boxes From and to The values in these boxes define the range of source address values in the CPU for the Device Control Block parameters and for write operations data The first four addresses you enter here registers MW105 MW106 MW107 and MW108 in the example above are used for Device Control Block parameters The remaining registers are displayed in the WR Master Object column the tenth column of the dialog In the example above values starting at MW109 are shown in the WR Master Object column Device Control Block check box If this box is checked the device control block is enabled and the master can send requests to a slave If the box is not checked the device control block functionality is disabled and all I O scanner table entries are active at all times MDx 4 If a Device Control Block bit is disabled the I O scanner closes the connection and sets the health bit to an unhealthy state bit value 1 325 Transferring Data with the I O Scanner Parameter Field Description Entry leftmost column valid range 1 128 in
148. f 80 characters The PLC then sends this character string ABCD to the destination device This device automatically returns the string of characters received to the sender Request input allows a UNI TE request other than those provided by the command buttons to be sent to the designated station If this function is chosen a screen appears allowing you to select the parameters specific to the request the request code must be coded in hexadecimal Note The first two requests are sent to the UNITE server of the TSX ETY module The third is sent to the server of the processor 245 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 How to Test a Channel with the Identification and Mirror Requests Introduction This page indicates the procedure for testing a communication channel using the Identification and Mirror requests How to Identify a The following procedure is used to identify a designated station Station Step Actions 1 Select the address of the station to be queried using the Station number field 2 Press the Identification button Result The response appears in the Receive Response field Response reception ASCII Hex How to Send the The following procedure is used to send the Mirror request and therefore to test the Mirror Request correct routing of information between two devices Step Action 1 Select the address
149. f Explicit Exchange Objects of the IODDT of Type T_COM_ETHCOPRO 305 295 Ethernet language objects Details of Implicit Exchange Objects of the IODDT of Type T_COM_ETY_1X0 At a Glance The IODDT of type T_COM_ETY_1x0 has implicit exchange objects which are described below This type of IODDT applies to the modules TSX ETY 110 and TSX ETY 120 Example of declaring a variable TODDT_VAR1 of type T_COM_ETY_1X0 Generally speaking the meaning of bits is given for state 1 of this bit In specific cases the two states of the bit are explained List of Implicit The table below shows the implicit exchange objects of the IODDT of type Exchange T_COM_ETY_1X0 which applies to the two modules TSX ETY110 120 Objects Standard symbol Type Access Meaning Address CH_ERROR EBOOL R Line error bit lr m c ERR NET_STS BOOL R Reception bit of common words of lr m c 0 0 at least one of the remote stations REFRESH_ID_0 BOOL R Indicates that the common words of lr m c 1 0 to the station 0 to 15 are refreshed to REFRESH_ID_15 lr m c 1 15 REFRESH_ID_16 BOOL R Indicates that the common words of lr m c 2 0 to the station 16 to 31 are refreshed to REFRESH_ID_31 lr m c 2 15 REFRESH_ID_32 BOOL R Indicates that the common words of lr m c 3 0 to the station 32 to 47 are refreshed to REFRESH_ID_47 lr m c 3 15 REFRESH_ID_48 BOOL R Indicates that the common words of lr m c 4 0 to the statio
150. f messaging utility and MWr m c 15 other utilities IP_ADDR DINT IR IP Address MDr m c 16 IP_NETMASK DINT R IP subnetwork mask MDr m c 18 IP_GATEWAY DINT IR Default gateway MDr m c 20 MAC_ADDR1 INT R MAC address 1 MWr m c 22 MAC_ADDR2 INT R MAC address 2 MWr m c 23 MAC_ADDR3 INT R MAC address 3 MWr m c 24 FW_VERSION INT R Embedded software version MWr m c 25 BOARD_STS INT R Board status MWr m c 26 NET_TIME DINT R Network time MDr m c 27 306 Ethernet language objects The IODDT Type T_GEN_MOD Applicable to all Modules List of Objects Details of the Language Objects of the IODDT of Type T_GEN_MOD All the modules of Premium PLCs have an associated IODDT of type T_GEN_MOD e The meaning of a bit is generally given for the status of the bit when set to 1 In specific cases an explanation is given for each status of the bit e Not all bits are used The table below shows the objects of the IODDT Standard symbol Type Access Meaning Number MOD_ERROR BOOL R Module error bit Ir m MOD ERR EXCH_STS INT R Module exchange control word MWr m MOD 0 STS_IN PROGR BOOL R Reading of status words of the MWr m MOD 0 0 module in progress EXCH_RPT INT R Exchange report word MWr m MOD 1 STS_ERR BOOL R Fault when reading module MWr m MOD 1 0 status words MOD_FLT INT R Internal error word of the MWr m MOD 2 module MOD_FAIL BO
151. favorable for operation of the module in server mode 127 Configuration Parameters Correspondence This table is used Table e to list the remote devices to which the local modules wishes to open a TCP connection and then transmit module operating in client mode e to provide correspondence between the X Way address network station and the IP address e the network number must be less than or equal to 127 e the station number is between 0 and 63 for a UNITE connection or between 100 and 163 for a Modbus connection e for each remote device of type TSX ETY 110 or TSX ETY 210 to specify the communication protocol during connection using a drop down menu e UNI TE default value e Modbus e inthe case of access control management to designate the remote devices authorized to open a TCP connection and then to transmit to the local module module operating in server mode e for each remote IP address to choose the connection mode using a drop down menu e Mono connection the module only allows one connection with the same remote IP address e Multi connection the module allows just one connection in client mode with the same remote IP address and several connections in server mode with the same remote IP address X Way Profile This field is specific to the TSX P57 5634 and allows you to choose whether or not to use an X Way profile Check the box and complete the X Way network station address If the X W
152. figure the Messaging The following procedure gives the configuration principle Start of messaging configuration Enter the X Way Address by filling in the network and station number Fill in the fields of the connection table for each remote server device X Way Addr IP Address Mode if X Way profile selected If the module is a server do you want to set access control Yes Select the check box Access control In the connection table select the Access check box of each remote client device Is the module a BOOTP Select the radio button Ethernet configuration y End of messaging configuration client Configured Select the radio button Piane fords Client Server configuration oe era mask Gateway Address e y Select the Messaging Tab IP Configuration Tab 270 TSX P57 5634 VO Scanning Utility Configuration Introduction In order to use the Ethernet coprocessor to control remote I Os it is necessary to set the configuration parameters of the I O Scanning utility see p 130 How to Access The procedure for accessing the configuration parameters for the I O Scanning IO Scanning utility is as follows Step Action 1 Access the module configuration screen 2 In the Module utilities zone select the I O Scanning check box Module servi
153. g 269 1 0 Scanning Utility Configuration 271 Configuration of the Other Utilities of the TSX P57 5634 273 262 TSX P57 5634 Configuration Screen of the Ethernet channel of the TSX P57 5634 Introduction This screen separated into two zones is used to declare the communication channel and to configure the necessary parameters for an Ethernet link Figure The screen dedicated to Ethernet communication is displayed as follows E Ethernet_1 _ JL Family Module address Module services a 1 l Rack Module Channel ees TCP IP 10 100 Extended connection M NO w l0 Scanning wj Global Data IP module address No E ri 2 TP Address Subnetwork mask Gateway Address No E es OOOO OOO ORONO 6 v IP Configuration Messaging O Scanning Global Data SNMP Address Server Bandwidth 3 IP Address Configuration He Configured 4 T 9 8 A thernet configuration t t_ 7 AN f Ethernet Il 802 3 5 263 TSX P57 5634 Elements and Functions This table describes the various zones that make up the configuration screen Zone Number Function common 1 Common part of the Ethernet communication configuration screens This part enables you to choose the network family to be configured When the network is associated with a modul
154. g to Connection Configuration 213 Configuration of TCP IP Messaging 6 0c eects 217 IO Scanning Utility Configuration 0 0 c eee 220 Address Server Configuration 000 c eects 223 Configuring the Global Data Utility 0 00 2 225 Configuration of the SNMP Utility 0 0 0 0 e eee eee 227 Configuring the Time Synchronization Service 2 00055 229 Configuring the Electronic Mail Notification Service 5 234 Bandwidth Checking Utility 0 0 0 cee eee 236 Configuration of the Bridge Function 00 00 e eee eee 238 DGDUG iae Sate een ig Boe Bald ae E E A aod EAE Sade haan E A a EEE 239 Chapter 9 9 1 9 2 9 3 Chapter 10 10 1 10 2 10 3 Module Debugging Screen 2 0 0 c teens 240 General Debugging Parameters 0 00 e eee eee ee eee eee 242 Debugging Parameters for TCP IP Utiliies 2 000055 243 How to Test TCP IP Communication with the Ping Request 244 Requests Available for the Communication Channel Test 245 How to Test a Channel with the Identification and Mirror Requests 246 How to Test a Channel with Requests 00 0c ee eee eee eee 247 Debugging Parameters for the IO Scanning Utility 248 Debugging Parameters for the Global Data Utility 249 Bandwidth Control Diagnostic Parameters
155. h Time Out Repetitive Rate Scanned peripheral devices are configured in a table which is used e to list remote devices to be scanned using the IP address e for each remote device to specify the time out e to specify the scanning period allotted to it for each remote device e to configure for each device the amount of space the input and output words take up in the read and write zones for each device to set the output fallback mode e to add comments for each device The IP Address field is used to list the devices which must be scanned by the Ethernet module The Unit ID field is used to associate the slave address of the device connected to an Ethernet Modbus gateway with the IP address see p 77 e Values are from 0 to 255 e The default value is 255 The Health Time out field is used to set the maximum time out for waiting for the response from the remote device Beyond this time limit the Health bit switches to 0 The Repetitive rate field is used to associate an IP address with its scanning period see p 83 The scanning time value is entered in ms 133 Configuration Parameters Master RD Ref and Master WR Ref Slave RD Ref and Slave WR Ref Input Fallback Description These parameters give the addresses of the beginning of each range reserved for the device These parameters cannot be accessed They are calculated automatically as the sum of e the address of
156. h as the Momentum 170s will not be able to obtain their IP address when the DHCP server restarts 87 Facilities Example of The following diagram shows the routing of requests when responding to a start up DHCP Server request from the server DHCP 2 Client Hal Pe DHCP response Ethernet DHCP request BOOTP 1 Client l Un iE 4 Te al A Bi Response to BOOTP request Ti af y IP1 Address Fii l H Subnetwork mask D Gateway address DHCP server containing the following table MAC1 Address IP1 Address Role Name2 IP2 Address MAC3 Address _ IP3 Address Note The subnetwork mask and the address of the gateway belong to the DHCP server 88 Facilities 4 4 SNMP Facility SNMP Communication on UDP AP Introduction The SNMP Simple Network Management Protocol standard defines network management solutions in terms of protocol and the exchange of supervised data The SNMP structure relies on the following essential elements e The Manager allows entire or partial network supervision e One or more Agents Each supervised device has a software module named Agent used by the SNMP protocol e A MIB Management Information Base is a data base or collection of objects The SNMP utility agent is implemented on the TSX ETY modules and on the Ethernet link of the processors This allows a Manager to access MIB II standardiz
157. he TSX ETY 4103 PORT 5013 module Monitoring Page or the Ethernet link of the TSX P57 5634 between the Global Data OScanner and Messaging utilities and other utilities View of the Bandwidth monitoring page Welcome to the Premium Web Server fi Microsoft Internet _ x File Edit View Goto Favorites gt gt 7 Back Forward Stop Refresh Home Search Favorites History Channels Address2 http 139 160 234 18 secure system index_french htm w Links E BANDWIDTH MONITORING Global data 30 I O Scanner 20 Messaging 40 Others 10 Home Ethernet Module T Open page http 139 160 2 Internet zone 112 Facilities At a Glance This page shows the Ethernet network statistics It is used to perform diagnostics on a disturbed network View of the statistics page of aTSX ETY4103 a TSX ETY PORT or the Ethernet link of the TSX P57 5634 J Premium Ethernet Module Statistics Microsoft Internet Explorer IDX File Edit View Goto Favorites EJ e gt A Back Forward Stop Refresh Home Search Favorites History Channels Fullscr Mail Print Addres http 139 160 234 18 secure system Ether
158. he configuration screen They are either not shown on the screen or are grayed out The following table shows for each type of Ethernet channel the parameters that can be accessed from the configuration screen and the values that they can have Parameters TSX ETY TSX ETY TSX P57 110 4103 PORT 4634 5634 5103 X Way Address By thumb By Unity Pro Optional wheels IP Address Default IP address X X X Configured IP Address X X dynamic X Subnetwork X X dynamic X mask Gateway X X dynamic X address Client Server configuration X X Connections Connections which can be opened from 1to 32 Access control X X X Correspondence X Way Address X X X tanie IP Address X X x Protocol UNI TE or UNI TE or UNI TE or Modbus Modbus Modbus Access X X xX Mode Mono or Multi Mono or connections Multi connections Ethernet Ethernet II x X X 802 3 xX X xX Key xX Accessible Not accessible 123 Configuration Parameters Configuration Parameters for IP Addresses At a Glance By Default Configured This zone allows the IP address of a module to be defined in three distinct ways e either using a default configuration e by manual configuration e or by using a configuration supplied by a server device Selecting the IP Address by default field allows the module s IP address to be calculated from the code se
159. he following sections Chapter Section Topic Page 5 1 Configuration Parameters for TCP IP Facilities 122 5 2 Configuration Parameters for the IO Scanning Facility 130 5 3 Configuration Parameters for the Address Server Utility 135 5 4 Configuration Parameters for the SNMP Facility 138 5 5 Configuration Parameters of the Global Data Utility 142 5 6 Configuration Parameters of the Time Synchronization Service 146 5 7 Configuration Parameters of the Electronic Mail Notification 152 Service 5 8 ETHWAY Profile Configuration Paramaters 155 121 Configuration Parameters 5 1 Configuration Parameters for TCP IP Facilities Introduction This section introduces the configuration parameters linked to the TCP IP facility What s in this This section contains the following topics Section Topic Page Configuration Parameters Linked to TCP IP Utilities 123 Configuration Parameters for IP Addresses 124 Example Changing IP Parameters with SEND_REQ 126 Connection Configuration Parameters 127 Ethernet Configuration Parameters 129 122 Configuration Parameters Configuration Parameters Linked to TCP IP Utilities At a Glance Availability of Parameters The TSX ETY modules of the Ethernet link of the TSX P57 4634 5634 have configuration parameters linked to TCP IP services Depending on the Ethernet channel selected some configuration parameters cannot be accessed on t
160. here are updates and user downloads O P ns Ethernet link configured operational O P F Ethernet communication sending receiving P Permanently on F flashing O Off ns not significant 53 Communication Ethernet Modules 3 7 Electrical Characteristics Electrical Characteristics General The TSX ETY 4103 5103 modules can be inserted in any rack slot of a Premium Atrium station except in the X Bus offset rack Table of consumption Voltage Power Consumption Power Dissipation 5 volts Typical Maximum Typical Maximum TSX ETY 4103 PORT 5103 360 mA 400 mA 1 8W 2 1W Note The electrical characteristics of the TSX P57 5634 Ethernet processors are given in the processor presentation manual 54 Communication Ethernet Modules 3 8 Standards Norms and Standards Compliance with The TSX ETY 4103 PORT and TSX ETY 5103 modules as well as the Ethernet link Standards of the TSX P57 5634 processor comply with the following standards e UL 508 e CSA e IEC 61131 2 e Marine classification 55 Communication Ethernet Modules 3 9 Operating Conditions Operating Conditions Applicable e Conditions of use Conditions e Temperature from 0 to 60 C e Relative humidity between 10 and 95 without condensation at 60 C e Altitude of between 0 and 4500 meters e ImmUnity Pro to vibrations comp
161. hronization Service 94 4 8 Electronic Mail Notification Service 95 4 9 HTTP Onboard Server Embedded Web Pages 96 4 10 Bandwidth Monitoring 118 4 11 ETHWAY Facility 119 59 Facilities 4 1 TCP IP Messaging Introduction What s in this Section This section mentions the functions and characteristics of the TCP IP profile This section contains the following topics Topic Page Summary of TCP IP Characteristics 61 Address Management 62 IP Address 64 Sub Addressing and SubNetwork Mask 66 UNI TE Communication 68 Modbus Communication on the TCP IP Profile 69 Architecture Supported by a Modbus Communication on the TCP IP Profile 71 Modbus Messaging on the TCP IP Profile 72 Managing the TCP Connections for X Way UNI TE and Modbus 74 Opening a Connection 75 Closing a Connection 76 What Happens when a Connection is Broken 77 60 Facilities Summary of TCP IP Characteristics TCP IP The following diagram illustrates the make up of a typical TCP IP stack Communication Profile OSI Model Ethernet ETHWAY 7 Application Access UNI TE Modbus HTTP BOOTP SNMP UNI TE layer access X Way COM addressing 4 Transport TCP UDP layer 3 Network IP X Way layer addressing 2 Link layer Ethernet II 802 3 1 Physical layer Communication The communication port reserved f
162. iguration Scanning tab Schneider Electric for updated documentation 340 Premium Documentation Errata sheet Location inthe on Page Original Content is replaced with Manual Section 9 1 1 259 first The Ethernet The Ethernet communication General bulleted list communication channel built into the processors channel built into the processors concerns the following references TSX P 57 264 TSX P 57 284 TSX P 57 364 TSX P 57 484 TSX P57 5634 The characteristics of the Ethernet channel of the first four processors called TSX ETY PORT in the previous sections are the same as those of the Ethernet channel of the module TSX ETY 4103 concerns the following references e TSX P57 1634 M ETY PORT e TSX P57 2634 M ETY PORT e TSX P57 3634 M ETY PORT e TSX P57 4634 M Copro Premium e TSX P57 5634 M Copro Premium The characteristics of the Ethernet channel of the first three processors called TSX ETY PORT in the previous sections are the same as those of the Ethernet channel of the module TSX ETY 4103 341 Premium Documentation Errata sheet 342 Index yp A Accessing configuration Ethernet 162 address IP 64 Address server 137 B bandwidth 118 BOOTP 85 Broken connection 77 C Characteristics Ethernet TSX ETY 4103 PORT 5103 202 Ethernet TSX P57 5634 254 TCP IP 61 Configuration Bandwidth
163. iguration link on the home page Result a window requesting the user name and password appears 2 Enter the user name and password using the correct case i e upper or lower case Note the default values of the fields are e for the user name USER e for the password USER 3 Confirm with OK By way of example the index page of a TSX ETY 4103 a TSX ETY PORT or the Ethernet link of the TSX P57 5634 is as follows Schneider Automation Web Server Home Address Server Security Rack Viewer Data Editor Email Configuration Ethernet Module Support Copyright 1998 2003 Schneider Automation All rights reserved 100 Facilities HTTP Server Security Page At a Glance This page can be used to modify e the user name and the password for accessing the index page e the password for writing variables in the data editor The size of the user name and passwords is a maximum of 15 characters in non extended ASCII How to Access The following procedure shows how to access the security page from the index the Page page Step Action 1 Click on the Security link Illustration By way of example the security page of a TSX ETY4103 a TSX ETY PORT or the Ethernet link of the TSX P57 5634 is as follows El Access Rights User New Password Confirmation of Password Change Password Data Editor Write Password User
164. igured with the Modbus protocol it is advisable to give an X Way station address that is the same as the number of the local station incremented by 100 When communication functions are sent by the application to a remote device connected to a Modbus bus via a serial link Ethernet Modbus gateway the function address must be as follows ADDR network number station number 0 0 Modbus address of destinationi The network number and station number correspond to the X Way address of the corresponds to the Modbus slave address Example a READ_VAR function is sent to slave 10 on the Modbus serial bus The gateway IP address is 139 160 2 8 and the X Way address 2 108 READ_VAR ADDR i 2 108 0 0 0 101 72 Facilities Data Exchange The following requests are addressed to the device with which you wish to perform variable read or write operations Modbus requests Function code Communication function Read bits 16 01 EAD_VAR Read words 16 03 EAD_VAR Write a bit or n bits 16 05 or 16 0F R R WRITE_VAR W S S Write a word or n words 16 06 or 16 10 RITE_VAR Read input bits 16 02 END_REQ Read input words 16 04 END_REQ Correspondence This table describes object type correspondence between a Premium PLC and a of Object Types Momentum or Quantum PLC Premium objects Quantum or Momentum objects MW internal words 4x memory are
165. ility X X X X X X SNMP utility Standard MIB X X X X X X MIB Ethernet Transparent Factory X X X IO Scanner Utility gt X 1 X X Address Server utility BOOT 4 i X 1 X X DHCP UNI TE messaging X X X X X X Modbus Messaging X X X X xX xX ETHWAY profile X X X Software loading via FTP X X X X X X firmware Installed HTTP server 7 X X X Global Data X 1 X X Diagnostics from Web pages X X X User WEB pages HTTP server X xX Redundancy X TCP direct access X z i X Electronic mail notification service z lt X X X Time synchronization service 7 X Legend xX Available Not available 18 General Points Overview Introduction Installation Phases with Processor The software installation of the application specific modules is carried out from the various Unity Pro editors e in offline mode e in online mode If you do not have a processor to connect to Unity Pro allows you to carry out an initial test using the simulator In this case the installation see p 20 is different The following order of installation phases is recommended but it is possible to change the order of certain phases for example starting with the configuration phase The following table shows the various phases of installation with the processor Phase Description Mode Declaration of Declar
166. ion Auto testing Reset i Configuration Module not configured Auto tests OK e After power up the module carries out self testing During this phase the STS LED is lit After the self tests the RUN LED lights up e The module does not operate with a default configuration It must be sent this configuration by the application of the local PLC The configuration values are given in the list of language objects KW and in particular provide the IP address and the X Way address of the module The configuration is retransmitted upon every PLC restart warm or cold e When the configuration is received the module resets the current communication to zero before configuring itself terminates current exchanges shuts down TCP connections The module is now operational The RUN and STS LEDs are lit up e The I O Scanning and Global Data functions start when the PLC transfers to RUN mode They stop when it switches to STOP mode 208 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY Special Cases Ifa TSX ETY 4103 PORT 5103 module is not configured in the Unity Pro application RUN LED off and ERR LED blinking it takes the IP address built from its MAC address 085 016 xxx yyy where xxx and yyy are the last two numbers of the MAC address Example The module s MAC address is in hexadecimal 00 80 F4 01 12 20 In this case the default IP address is in decimal 085 016 018 032 The module also transmits BOOT
167. ion describes the implementation of the TSX ETY 110 module during its configuration What s in this This section contains the following topics Section Topic Page Module Configuration Screen 175 Type of Communication According to Chosen Configuration 176 Configuration of Messaging on the TCP IP Profile or the ETHWAY Profile 177 Configuration of the SNMP Utility 178 Configuration of the Bridge Function 179 Example of ETHWAY Private Type Architecture 180 Example of ETHWAY Type Architecture Connected to TCP IP 182 Example of Connection to a Non Private TCP IP Network 184 Example of Communication between Premium and Quantum 186 174 TSX ETY 110 Module Configuration Screen Introduction Figure Elements and Functions This screen separated into six zones is used to declare the communication channel and to configure the necessary parameters for an Ethernet link The screen dedicated to Ethernet communication is displayed as follows 1 IP Configuration Messaging Common words SNMP IP Address Configuration Default IP address e Configured IP Address T39 124 10 14 Subnetworkmask 755 7550 JO Gateway Address T39 124 10 2 3 4 Ethernet configuration Ethemet Il C 802 3 Ld This table describes the various zones that make up the configuration screen
168. ion to a Non Private TCP IP Network 184 Example of Communication between Premium and Quantum 186 Debugging tornani hed See ea ea ee ease dea be Pe ee 188 Module Debugging Screen 000 cece tenes 189 General Debugging Parameters 0 0c cece eee eee eee ee 191 Debugging Parameters for TCP IP Utiliies 00000000s 192 How to Test TCP IP Communication with a Ping Request 193 Debugging Parameters for Ethway Utiliies 2 0 05 194 Requests Available for the Communication Channel Test 195 How to Test a Channel with Identification and Mirror Requests 196 How to Test a Channel with Requests 0 0 c eee eee eee eee 197 Modules TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY S103 if 5 ps eh os 2 tina ES ee ORE TS RE a 199 General tere Be a an tints Pans a eae Ae ener A tg hoe Tek ea 2g 200 Characteristics care sextet cette each hice Wao ah ie i ed 202 Type of Connections Supported 0000 cee eee eens 203 Performance of IO Scanning Utility 0 0 0 eee eee 205 Global Data Utility Performances 0000 ccc eens 207 Operating Modes for the TSX ETY 4103 TSX ETY PORT and TSX ETY 5103 Modules icco cedir raeo cece eee tees 208 CONTIQUIATION aa vse a ee eke aaah EAE eke AE apd ade ee a eel ae 210 Module Configuration Screen 000 e cette eee 211 Type of Communication Accordin
169. ious configuration is not valid Previous configuration is not stored Cancel Cancels the entries in the fields Previous configuration is valid Disable Email Clears the stored configuration and disables the email service Note Next time the service is enabled a new configuration is required 154 Configuration Parameters 5 8 ETHWAY Profile Configuration Paramaters Introduction What s in this Section This section introduces the configuration parameters linked to the ETHWAY profile This section contains the following topics Topic Page Configuration Parameters Linked to the ETHWAY Profile 156 Configuration of ETHWAY Data 157 155 Configuration Parameters Configuration Parameters Linked to the ETHWAY Profile At a Glance The TSX ETY110 modules have configuration parameters linked to the ETHWAY profile These parameters are listed below List of The following table shows the parameters that can be accessed from the Parameters configuration screen and the values that they can have Parameters ETHWAY data None common words Common read words Common read write words Word size station 4 16 32 64 Network address 156 Configuration Parameters Configuration of ETHWAY Data Introduction None Common Reading words Common Reading Writing Words Size of Words Station
170. iring the module as DHCP server MAC Address or Name IP Address Netmask Gateway Do you want modification by the HTTP server to be subject to a password Yes Check the box Locked when executing i Enter the password C End of server configuration 224 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY Configuring the Global Data Utility Introduction In order to use the TXS ETY 4103 PORT 5103 module to use the Global Data utility it is necessary to set the configuration parameters see p 143 How to Access the Global Data Utility To access the Global Data utility proceed in the following way Step Action 1 Access the module configuration screen 2 Module services YES xj 10 Scanning NO j Global Data NO w Address Server In the Module utilities zone select the Global Data check box The Global Data tab is no longer grayed out Select the Global Data tab Result IP Configuration Messaging IO Scanning Global Data SNMP Address Server Bandwidth Global Data Configuration al Health timeout 300 ms Group address 239 255 255 255 Distribution Period 2 cycle Groupname Group_1 Z Multicast Filtering lv gt 225 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 Table of
171. l Asia Standard Time Almaty Dhaka Yes GMT 06 00 Sri Lanka Standard Time Columbo No GMT 07 00 SE Asia Standard Time Bangkok Hanoi Jakarta No GMT 08 00 China Standard Time Beijing Chongqing Hong Kong Urumai No GMT 08 00 W Australia Standard Time Perth No GMT 08 00 Singapore Standard Time Singapore No GMT 08 00 Taipei Standard Time Taipei No GMT 09 00 Tokyo Standard Time Osako Sapporo Tokyo No GMT 09 00 Korea Standard Time Seoul No GMT 09 00 Yakutsk Standard Time Yakutsk Yes GMT 09 30 Cen Australia Standard Time Adelaide Yes GMT 09 30 AUS Central Standard Time Darwin No GMT 10 00 E Australia Standard Time Brisbane No GMT 10 00 AUS Eastern Standard Time Canberra Melbourne Sydney Yes GMT 10 00 West Pacific Standard Time Guam Port Moresby No GMT 10 00 Tasmania Standard Time Hobart Yes GMT 10 00 Vladivostok Standard Time Vladivostok Yes GMT 11 00 Central Pacific Standard Time Magadan Solomon Is New Yes Caledonia GMT 12 00 New Zealand Standard Time Auckland Wellington Yes GMT 12 00 Fiji Standard Time Fiji Kamchatka Marshall Is No 149 Configuration Parameters Configuration of the Time Synchronization Service NTP Configuring the You must use the moduleis embedded Web page to configure the time service No Time Service other method is available
172. l elements e aread zone which groups together all the values of remote inputs e awrite zone which groups together all the values of remote outputs e scanning periods which are independent of the PLC cycle and are specific to each remote device Scanning is only performed when the PLC is in Run mode This service operates with all devices supporting Modbus communication on the TCP IP profile in server mode The exchange mechanism which is transparent to the user is carried out with the following requests e read requests e or write requests e or read and write requests Note Certain types of scanned devices such as TSX ETY modules only support read requests or write requests simultaneous read write requests are not supported 79 Facilities Operation Summary of Functionality The following diagram shows how the scanning of remote inputs outputs works Application memory MW Read zone Write zone pme i a I Al Device input words Device output words 1 As soon as the PLC switches to Run mode the module opens up one connection for each scanned device one connection for each line entered in the table of scanned elements 2 Then the module periodically reads inputs words and periodically writes output words for each device 3 If the PLC switches to Stop mode the connections to each device are closed The IO scan
173. le The Client Server modes are exclusive to a given remote device in order to improve communication performance PLC applications and network architectures must be designed to ensure that switching from one mode to another between the same two devices is as rare as possible Furthermore frequent switching could lead to messages being lost e Ifthe Premium PLC communicates in server mode with a Quantum PLC that has opened the TCP IP connection the issuing of a message by the client Unity Pro application will cause the server TCP IP connection to close down after any server transactions in progress have been processed e lf the Premium PLC that has opened the TCP IP connection communicates in client mode with a Quantum PLC a request to open the connection from the Quantum will cause the client TCP IP connection to close down with the possible loss of any client transactions in progress 70 Facilities Architecture Supported by a Modbus Communication on the TCP IP Profile Introduction The following diagram illustrates the architecture supported d 5 Programming terminal Scheduler bM Modbus Communication UNI TE Communication Ethernet Bridge Quantum Ethernet Modbus Modbus serie Premium Saw Modbus La PI nX A Modbus Slave n Fipway Accessibility The Modbus protocol guarantees interoperability between the Premium station and the Quantum station on a TCP IP Ethernet network On the other hand acces
174. le to estimate the load percentage of the module for each of these utilities The Bandwidth Monitoring function carries out this estimation during configuration In online mode it shows the actual distribution of the utilities on the module diagnostics screen as well as on the Diagnostic Services Bandwidth Monitoring website In order to estimate this load the Unity Proware asks you to complete two pieces of information during configuration see p 236 e anestimation of the number of messaging transactions per second e the PLC cycle time Using this information the software is able to display the load percentage of the module for the OScanner the load percentage of the module for the Global Data the load percentage of the module for the messaging services the load percentage of the module for the remaining non real time utilities Note During the configuration phase these pieces of information are only estimates The actual distribution is displayed in online mode 118 Facilities 4 11 ETHWAY Facility ETHWAY Profile At a Glance The ETHWAY profile offers the following data exchange facilities Common Words e data exchanges synchronized on the MAST task e or data exchanges in e asynchronous server mode e asynchronous client mode e or common data exchanges common words Only common data exchanges will be described below For a description of synchronous and asynchronous ex
175. lect the box lq address the module Configured by default Yes y Y Fill in the fields IP Address Select the box Subnetwork mask Default IP address Gateway Address 4 Vv Select the Ethernet configuration y a End of messaging N C configuration D 177 TSX ETY 110 Configuration of the SNMP Utility Introduction How to Access the SNMP Utility Howto Configure SNMP In order to use the TSX ETY 110 module as an SNMP agent it is necessary to set the configuration parameters of the SNMP utility The procedure for accessing the configuration parameters for the SNMP utility is as follows Step Action 1 Accessing the configuration screen module Network directory of the Project browser Click on the SNMP tab Result The following window appears IP Configuration Messaging Common words IP Address Managers IP address manager1 139 150 33 10 IP address manager2 139 150 90 20 Agent Location SysLocation MyLocation Contact SysContact MyContact m Community names Security Set public Get public lt T Validation trap Authentication failure Trap public v K E The procedure for configuring the SNMP utility is as follows Step Action 1 Enter the SNMP manager addresses e Manager 1 IP addresses e Manager 2 IP addresses
176. lectors see p 173 In this instance you must code the network and station numbers on the code selectors located on the front of the module With this coding the IP address is automatically derived by the system and the IP Address Subnetwork mask and Gateway Address fields are not significant and are grayed out Note The default parameters should not be selected when the module is connected to a closed or private network Selecting the Configured field allows manual configuration according to your own requirements e module IP address e the subnetwork mask which defines the part allocated to the subnetwork identifier in the IP address e the IP address of the default gateway to which messages for other networks are transmitted Note f the module is connected to an existing TCP IP network the IP addresses are administered globally therefore the IP parameters must be configured Otherwise there is a risk of disturbance on the existing network caused by possible double allocation of the IP addresses 124 Configuration Parameters Dynamic Modification Client Server Configuration You can change the IP parameters IP address subnet mask and default gateway of the ETY module with the SEND_REQ function block Refer to the Unity Pro Communication Block Library documentation The dynamic Ethernet address function enables an ETY module configured in a Unity 2 0 compatible PLC applica
177. les along with a few examples are found in the module in FLASHO wwwroot conf NTP instructions txt 151 Configuration Parameters 5 7 Configuration Parameters of the Electronic Mail Notification Service At a Glance What s in this Section This section introduces the configuration parameters linked to the electronic mail notification service which uses SMTP This section contains the following topics Topic Page Configuration Parameters Linked to the Electronic Mail Notification Service 153 SMTP Configuration of the Electronic Mail Notification Service SMTP 154 152 Configuration Parameters Configuration Parameters Linked to the Electronic Mail Notification Service SMTP Configurable Mail Service Parameters Configure the following parameters Parameter Description IP address of Email Enter a valid IP address This parameter identifies SMTP server Port Default 25 If needed enter a new value Password Authentication If security is needed enable Password Authentication To enable enter a check mark in the box Enter values for e Login e Any printable character allowed e 12 character maximum e Password e Any printable character allowed e 12 character maximum 3 mail headers Each header must contain 1 senderis ID in the From field e 32 character maximum no spaces 2 list of recipients
178. lies with the IEC 68 2 6 standard Fc test e ImmUnity Pro to shocks complies with the IEC 68 2 27 standard Ea test e ImmUnity Pro to free fall hardware dealt with as per the IEC 68 2 32 standard method 1 IP 20 protection index e Storage conditions Temperature from 40 C to 85 C Relative humidity between 0 and 95 without condensation at 60 C 56 Software Installation for Ethernet Communication Ili At a Glance What s in this Part This part describes the software installation of communication on an Ethernet network using Unity Proware This part contains the following chapters Chapter Chapter Name Page 4 Facilities 59 5 Configuration Parameters 121 6 Method for Programming an Ethernet Network 159 7 TSX ETY 110 Module 167 8 Modules TSX ETY 4103 TSX ETY PORT TSX WMY 100 and 199 TSX ETY 5103 9 Ethernet Coprocessor 251 10 Ethernet Language Objects 285 11 Questions Answers 313 57 Ethernet Software Installation 58 Facilities Introduction This chapter introduces the main points of the different facilities used by the modules What s in this This chapter contains the following sections Chapter Section Topic Page 4 1 TCP IP Messaging 60 4 2 IO Scanning Facility 78 4 3 DHOP utility 84 4 4 SNMP Facility 89 4 5 Global Data Utility 91 4 6 Managing Faulty Devices 93 4 7 Time Sync
179. lity see p 138 allows configuration of the Global Data utility see p 142 o o NI OD Om BR OJIN allows you to check that the utilities configured are compatible with the processing capacity of the Ethernet channel allows configuration of the Time Service utility see p 146 allows configuration of the Mail Service utility see p 152 Note if you have configured the I O Scanning Global Data or Address Server utilities for the TSX WMY 100 module the project generation will fail as these utilities are not available for this module Nor is the bandwidth configuration available for this module 212 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY Type of Communication According to Connection Configuration At a Glance Configuration Rules Depending on the connection configuration of the TSX ETY 4103 PORT 5103 module you can carry out messaging see p 127 e in mono connection e in multi connection According to the type of protocol and access control management multi connection mode requires a specific configuration of the correspondence table Note In the following only examples of multi connection will be dealt with Furthermore the emphasis is placed on communication between the module and a remote PC device containing several applications Several connections can be configured with the same IP address They must be defined with the
180. ll pertinent state regional and local safety regulations must be observed when installing and using this product For reasons of safety and to ensure compliance with documented system data only the manufacturer should perform repairs to components When controllers are used for applications with technical safety requirements please follow the relevant instructions Failure to observe this product related warning can result in injury or equipment damage We welcome your comments about this document You can reach us by e mail at techpub schneider electric com 12 Introduction to Ethernet Communication At a Glance What s in this Part This part describes Ethernet communication This part contains the following chapters Chapter Chapter Name Page 1 Communication via Ethernet Network 15 Ethernet Introduction 14 Communication via Ethernet Network 1 Introduction What s in this Chapter This chapter introduces communication via Ethernet network and its facilities This chapter contains the following topics Topic Page General 16 Details of Available Services 18 Overview 19 15 General Points General Introduction TSX ETY 110 TSX ETY 110 WS TSX ETY 210 Ethernet network communication is available for Premium PLCs using e TSX ETY 110 and TSX ETY 110 WS modules the TSX ETY 210
181. lowing procedure shows you how to access the web site home page the Home Page Step Action 1 Open your usual browser 2 Enter the IP address of the Ethernet module in the line provided Illustration By way of example the home page of a TSX ETY 4103 a TSX ETY PORT or the Ethernet link of the TSX P57 5634 is as follows Schneider Automation Web Server Diagnostics and Online Configurations French German Italian Spanish Copyright 1998 2003 Schneider Automation All rights reserved Note the TSX ETY 5103 home page has several differences The heading is FactoryCast Web Server e Two hypertext links accessing client pages are offered e Protected user pages e Unprotected user pages See the FactoryCast documentation for information on creating pages Language The site is multilingual The language is selected by clicking on the link in the home Management page and it remains the language for subsequent connections Note Some displays are in the language of the Windows installation e g address bar etc 99 Facilities HTTP Server Index Page At a Glance How to Access the Page Ilustration This page displays the various utilities supported by the Ethernet modules and the link to access the required utility The following procedure shows how to access the index page from the home page Step Action 1 Click on the Diagnostics and Conf
182. maximum of 80 characters The PLC then sends this character string ABCDO to the destination device This automatically sends the character string that was received back to the sender 195 TSX ETY 110 How to Test a Channel with Identification and Mirror Requests Introduction How to Identify a Station How to Send the Mirror Request This page indicates the procedure to follow to test a communication channel by means of Identification and Mirror requests The following procedure allows the identification of a designated station Step Actions 1 Select the address of the station to be interrogated with the help of the field Station 2 Click on the button Identification Result The response appears in the window Receive Response Response reception ASCII Hex The following procedure allows the sending of the Mirror request and thus tests the routing of information between two devices Step Action 1 Select the address of the station to be interrogated with the help of the field Station 2 Click on the button Mirror Result The following window appears Mirror Request x Length of data to be sent B Input the length of data to be sent maximum 80 characters Click on the button Send Result The response appears in the window Receive Response Response reception ASCII Hex The response contain
183. minals use this format ConfigurationE thernet Ethemetll 802 3 183 TSX ETY 110 Example of Connection to a Non Private TCP IP Network At a Glance Recommended Operating Mode The following figure shows the installation of a TSX ETY 110 connected to an existing TCP IP network Supervisor Programming and fe debugging terminal 1 4 Gateway 140 252 2 9 140 252 2 255 Ethernet TCP IP 1 2 140 252 2 10 1 1 G 140 252 2 8 ii ri Hi ii ii eh on 8 Fipway 1 TCP IP Communication e IP addressing must be managed because connection is made to a non private TCP IP network e Inter PLC communication uses the UNI TE utilities on TCP IP e Communication between the PLC and the supervisor or the programming terminal uses UNI TE utilities on TCP IP e The frame format used is Ethernet II 184 TSX ETY 110 Configuration of the Local Address of the Module Configuration of the Connections of the Module Ethernet Configuration of the Module The IP addresses must be managed the Configured IP address mode is selected you must enter the IP parameters IP address configuration Default IP address Configured IP address 140 252H2_ 10 Subnetwork mask 255H255H0 H0 Gateway Address T40H252H2 H255 OClient S erver configuration You must enter both the X Way addr
184. mmon Words of the Module of Station 2 e P addressing is not managed default value It is taken from the values displayed on the thumbwheels of the module e Inter PLC communication uses the ETHWAY utilities COM UNI TE e Communication between the PLC and the supervisor or the programming terminal uses ETHWAY utilities or UNI TE on TCP IP e The frame format used is Ethernet Il Note In the following examples it is assumed that the communication with the terminals is done on TCP IP In aclosed environment it is possible to not manage the IP addresses the Default IP address mode is selected IP address configuration Default IP address Configured IP address 0 po Subnetwork mask 0 HO HO WO Gateway Address J U0 O Client Server configuration The field to be entered is the X Way address of the remote stations with which dialog is to be established X Way address 1 3 the other fields are automatically initialized Access protection is inhibited by default and the maximum number of connections is 32 Note Since the PLC is still the server vis vis the programming terminal the latter does not have to be declared The Ethernet frame format selected for TCP IP is Ethernet Il because in the example the terminals use this format ConfigurationE thernet Ethemetil 802 3 Station 2 exchanges 16 common write read words
185. n 48 to 63 are refreshed to REFRESH_ID_63 lr m c 4 15 A WARNING The update bit switches to 1 at the beginning of the PLC cycle if it receives common words from the corresponding station At the end of the cycle the update bits automatically return to 0 Consequently common words can only be considered valid if the update bit of the corresponding station is set to 1 After power up common words are set to value 0 Failure to follow this precaution can result in death serious injury or equipment damage 296 Ethernet language objects Details of Explicit Exchange Objects of the IODDT of Type T_COM_ETY_1X0 At a Glance Remarks Explicit Exchange Indicators EXCH_STS Explicit Exchange Report EXCH_RPT Standard Channel Faults CH_FLT This part describes the explicit exchange objects of the IODDT of type T_COM_ETY_1xX0 which applies to the two modules TSX ETY 110 and TSX ETY 120 It includes word type objects whose bits have a special meaning These objects are described in detail below Example of declaring a variable IODDT_VAR1 of type T_COM_1 ETY_1X0 e Generally speaking the meaning of bits is given for state 1 of this bit In specific case each state of the bit is explained e Notall bits are used The table below gives the meanings of the exchange control bits of the channel EXCH_STS MWr m c 0 Standard symbol
186. n 8 ASCII characters The address table can be used e to list by the MAC address or by their name 16 ASCII characters the remote stations that need the DHCP server to start up e to provide a correspondence between the MAC address or the Name and the IP address of the remote station the subnetwork mask and the Gateway 137 Configuration Parameters 5 4 Configuration Parameters for the SNMP Facility Introduction This section introduces the configuration parameters linked to the SNMP facility What s in this This section contains the following topics Section Topic Page Configuration Parameters Linked to the SNMP Utility 139 Configuration of the SNMP Utility 140 138 Configuration Parameters Configuration Parameters Linked to the SNMP Utility At a Glance The TSX ETY modules or the Ethernet link of the TSX P57 5634 have configuration parameters linked to the SNMP utility Depending on the Ethernet channel selected some configuration parameters cannot be accessed on the configuration screen They are either not shown on the screen or are grayed out Availability of The following table shows for each Ethernet module the parameters that can be Parameters accessed from the configuration screen Parameters TSXETY TSX ETY 4103 PORT 5103 110 TSX P57 5634 IP Address Managers X X Agent Location SysLocation X X Contact
187. n be Opened Access Control This field is used e to configure the number of connections that can be opened by the module e to activate an access control utility e to list the remote devices that can connect to the module according to a communication protocol The Connections which can be opened field gives the maximum number of remote devices that can be connected in parallel onto the module e The default value is 8 connections e The value is between 1 and 32 connections Note You are recommended to set this parameter to the useful value in order to optimize the communication resources for each connection point The Access control box is used to activate or not control of the remote devices wishing to open a TCP connection towards the module e f the box is checked access control management is activated and the Access column of the table is no longer grayed out active Where the module operates in server mode only the remote devices selected by the Access box of the table are authorized to connect as clients and then to communicate e f the box is unchecked access control management is inoperative and the Access column of the table is grayed out not active Where the module operates in server mode remote third party devices can connects as clients and then communicate with the module without having to be declared in the table Note Access control is only effective on the TCP IP profile and
188. n between two PLCs equipped with TSX 57 30 processors The values are expressed in ms and represent an average duration of the time described in the table Opening time of a TCP IP connection 10 ms Transaction time of a 128 byte UNI TE request in periodic mode of 50 ms 150 ms MAST task Transaction time of a 128 byte UNI TE request in cyclic mode of 4 ms 80 ms MAST task Transfer time of common words out in in periodic mode 50 ms 250 ms Module crossing time 15 to 30 ms The transaction time takes into account the time to send the message and to receive the response 171 TSX ETY 110 Operating Modes of the TSX ETY 110 Module At a Glance The following diagram describes the operating modes of the TSX ETY 110 module General Diagram Stop module Module off Power up Module configured Communication Module in self test function phase Reset Configuration Module not configured Self tests OK Operation e After power up the module carries out self testing During this phase the LED indicators blink e The module does not operate with a default configuration It must be sent this configuration by the Unity Pro application with a terminal connected to the terminal port of the PLC containing the module The configuration values are given in the list of language objects KW The network station address is given by the thumbwheels on the front panel e When the configuration is received
189. necessary parameters for an Ethernet link Figure The screen dedicated to Ethernet communication is displayed as follows E Ethernet_1 _ m Model Family Module Address Module services 4 1 l Rack Module Channel TCP IP 10 100 Standard connection xj NO j 10 Scanning NO Global Data IP module address NO W a A 2 _ 771 IP Address Subnetwork mask Gateway Address No le ree aT an 0 ARES RS me 6 v IP Configuration Messaging 10 Scanning Global Data SNMP Address Server Bandwidth 3 m IP Address Configuration thernet configuration Ethernet II 211 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 Elements and Functions This table describes the various zones that make up the configuration screen Zone Number Function common 1 Common part of the Ethernet communication configuration screens This part enables you to choose the network family to be configured When the network is associated with a module the module address appears in the Module address zone specific allows the display of the module address enables the configuration of TCP IP services see p 122 allows configuration of the I O Scanning utility see p 130 allows configuration of the address server see p 135 allows selection of the utilities used by the module allows configuration of the SNMP uti
190. net htm w Links E Ethernet MODULE STATISTICS Status Name 139 160 234 18 Reference TSX ETY 410 MAC Address 00 80 f4 01 00 41 Rack 0 IP Address 139 160 234 18 Slot 2 Subnetwork mask 255 255 255 0 Software version 0 6 Gateway 139 160 234 1 Send statistics Receive statistics Other faults Sent 887 Received 883999 Missing packets 0 Re Sent 0 Frame errors 0 Collisions 0 Loss of data carrier 0 Overflow errors 0 Transmission timeouts 0 Late collisions 0 CRC errors 0 Memory errors 0 Buffer errors 0 Buffer errors 0 Resets 0 Underflow 0 Zero Counters Home _Bootp Server Rack Viewer Data Editor Graphical Editor Alarm Indicator Copyright 2000 Schneider Automation SA All rights reserved eT Applet launched e Internet zone 113 Facilities NTP Diagnostics Page NTP Diagnostic Time synchronization service parameters Dialog Parameter Description NTP status Service is correctly configured OK NTP server status NTP client is connected to the NTP server and if the server is Primary or Standby NTP requests Total number of client requests sent to the NTP server NTP responses Total number of server responses sent from the NTP server Number of errors Total number of unanswered NTP requests Last error code Last error code received from the NTP client Date Date in d m y format Time Time Time zone Time zone plus or minus Universal Time Coordinated UTC DST
191. nia GMT 12 00 New Zealand Standard Time Auckland Wellington Yes GMT 12 00 Fiji Standard Time Fiji Kamchatka Marshall Is No 233 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 Configuring the Electronic Mail Notification Service Configuring the You must use the moduleis embedded Web page to configure the electronic mail Mail Service with notification service No other method is available the Email Configuration Email Configuration Page r Email Server Configuration IP Address of Email 192 168 3 1 Port 25 Password Authentication v Enable Login _ knight Password r Mail Header t From NOE_Pump2 To support_automation mycompany com Subject Alarm 4 water level low r Mail Header 2 From Statio_N4 To myManager mycompany com Subject Warning big problem with Pump2 r Mail Header 3 From To Subject Save Cancel Disable Email 234 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY Mail Service Command Buttons Configurable Mail Service Parameters Mail service configuration buttons Command Button Description Save Saves the new Email configuration Note Previous configuration is not valid Previ
192. ning service functionality is e to manage the connection with each remote device one connection per device scanned e toscan the inputs outputs of the device using Modbus read write requests on the TCP IP profile e to update the read and write zones in the application memory e to refresh the status bits for each remote device Note These bits show whether the module s input output words have been refreshed 80 Facilities Read and Write Zones At a Glance These two zones in the application memory managed by the Ethernet module are tables of internal words MW which contiguously group all input and output word values for connected remote devices Remote input and output type of devices are supplied with e input words used to send back the values of the inputs to the module e output words used to assign the value of the outputs to the remote device Note Refer to the documentation for each device for the number and details of input and output words to be managed 81 Facilities Example The Ethernet module scans three devices e a Momentum at the address IP1 type 170 AA1 140 00 16 analogue inputs this module has 16 input words and 4 output words e a Momentum at the address IP2 type 170 AA1 340 00 16 discrete inputs this module has one input word e a Premium PLC at the address IP3 with the zone MW1000 to MW1125 reserved as input words The read zone begi
193. nner resides in the TSX P57 ETY 4103 and 5103 Ethernet modules and in the TSX P57 x634 CPUs It transfers data between network devices and allows a CPU to regularly read data from and write data to scanned devices The I O scanner needs to be configured with Unity Pro An I O scan list is a configuration table that identifies the targets with which repetitive communication is authorized While the CPU is running the Ethernet module transfers data to and from the CPUis registers as dictated by the I O scan list Each health block bit corresponds to an entry in the I O scanner table Each entry in the table represents one logical device The bits contain the health status for the Premium I O scanner The bits in the health block correspond to the different data types as follows Bit Data Type l IW 1 l1 IW1 0 16 l16 IW1 15 17 l17 IW2 0 320 Transferring Data with the I O Scanner VO Scanner parameters Parameter Value Max Number of Devices 64 TSX P57 ETY 4103 or 5103 64 TSX P57 1634 i2634 or 3634 ETY port CPU 128 TSX P57 4634 or 5634 high end CPU Max Number of Input Words 4096 for high end CPUs 2000 for ETY modules and ETY port CPUs Max Number of Output Words 4096 for high end CPUs 2000 for ETY modules and ETY port CPUs Health Timeout Value User configurable between 1 ms 2 s in 1 ms increments Last Value In
194. ns at MW100 and the write zone at MW400 Application memory Read zone Write zone MW100 MW400 4 output words for 165 input moles tor to to ASA Bi address device at IP 1 address MW115 4 MW403 1 input word for device x MW116 at IP 2 address MW117 to MW241 125 input words for device at IP 3 address Note The fields dedicated to remote devices must not have any overlap Equally the read and write zones must not have any overlap Note scanned devices read or write must be located on the same network as the scanner device Crossing a bridge is not allowed Note a Momentum 170 can be read scanned by several modules but only one module is allowed to write scan it 82 Facilities Scanning Period At a Glance Remote input outputs are scanned periodically depending on the application requirements A scanning period is defined for each device through configuration according to the update speed Note The lower the scanning period the faster the input outputs are updated However this speed increases the network load Note SW8 and SW9 do not stop remote station scanning but inhibit the copying of I Os to and from the application variables 83 Facilities 4 3 DHCP utility At a Glance What s in this Section This section describes the functions and characteristics of the DHCP utility
195. nsured between the client and serveris connection tables If the clientis address is referenced in the serveris table the client must communicate on the TCP IP profile 176 TSX ETY 110 Configuration of Messaging on the TCP IP Profile or the ETHWAY Profile At a Glance In order to use the TSX ETY 110 module to communicate on Ethernet it is necessary to set the configuration parameters HowtoConfigure Before configuring the module access the configuration screen and click on the the Module various tabs corresponding to your choices Messaging Tab Start of messaging configuration Do you want Select the number of TCP IP profile the module to P Connections which can communicate be opened onthe O 4 ETHWAY Fill in the fields of the connection table for each remote server device Common Words tab X Way Adar IP Address Does the module No Protocol exchange common words x If the module is a Select the check box Yes Access control server do you want to Select the common words set access control exchanges as read or ii read write t In the connection table select No the Access check box of each remote client device IP Configuration Tab Select the number of words exchanged for each station and the network number Do you wish to No Se
196. nt panel there is a RJ45 connector for a pin to pin link via a link cable comprising two independent twisted pairs Utilities and functions supported by the modules Support Utility Protocol Functions TCP IP Messaging UNI TE e Client server mode Services Synchronous requests of 256 bytes Asynchronous requests of 1 Kbyte Modbus e Data exchange I O Scanner Modbus e Access to inputs outputs Network SNMP e Agent SNMP MIB II MIB Schneider management Web HTTP e Preset non modifiable website on TSX ETY 4103 PORT e Website which can be modified and increased by increments within the limit of 7 5 Mb on TSX ETY 5103 Management BOOTP e Client and address server of IP DHCP addresses Global Data UDP e Exchange of data between stations Electronic SMTP e Reports alarms or events using emails Mail e Define and update text and variable information Notification Service Time NTP e Synchronizes clocks over Internet to synchronizati referenced time source on service e Event recording e Event synchronization e Alarm and I O synchronization 45 Communication Ethernet Modules 3 4 Installation of TSX ETY 4103 PORT 5103 Modules and the TSX P57 5634 Processor Introduction What s in this Section General This section deals with installation of the TSX ETY 4103 PORT TSX WMY 100 and TSX ETY 5103 modules in a PLC and the installation of a TSX P57 5634 processo
197. o implement this example you must e activate connection management by checking the moduleis Access control box e configure communication from the module to the PCis server application in the table X Way address 1 103 address between 100 and 163 IP address 139 160 65 156 Protocol Modbus Access the cell is grayed out Mode Multi e configure communication of all the PCis client applications to the server module in the table e X Way address x x this address allows you to specify that other applications exist for the same IP address e IP address 139 160 65 156 Protocol Modbus e Access authorized allows you to specify that other applications are authorized to connect and communicate e Mode Multi 215 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 Multi connection in Modbus Protocol without Access Management Note If you want to prevent connection by client applications you must configure e X Way address x x this address allows you to specify that other applications exist for the same IP address IP address 139 160 65 156 Protocol Modbus Access not authorized cell unchecked Mode Multi This example is the same as the previous one except that access control is not configured In this case if the application 1 103 is the only server application the moduleis correspondence table only contains the following line e X Way address 1 103 IP address 139 160 65 156 Protocol
198. ock for Electronic Mail Notification SEND_REQ Representation ADR CODE To send an email message from the application use a SEND_REQ block SEND_REQ Address ADR RECP Received_Data Request_Code CODE Data_to_Send EMIS Management_Param GEST GEST Management_Param The ADR must use the following address format network station rack module channel SYS For example if an ETY module has the Xway address 10 1 and resides in slot 4 in the rack its ADR would be 10 1 0 4 0 SYS Note An ADR of 0 254 0 4 0 SyYS also works where 0 254 represents my address For the TSX P57 5634 or 4634 use the ADR 0 254 0 0 3 SYS The ADR may be used to convert from the string format to the INT array expected by the block Use the write object request function code 0x37 for a SEND_REQ block The expected success code is OxFE and the error code is OxFD 336 Using the Electronic Mail Notification Service EMIS The Data_to_Send contains the address of the buffer with the data to put in the body of the email This information is preceded by a header with the following information Header Information Value Byte Register Segment 0x96 1 1 Type 0x15 2 Address N A 3 2 4 Number n1 of characters in the email 0 5 3 lt 240 6 Mail header 1 2 3 7 4 lt nt 2 8 The following n1 2 2 words up to a maximum of 119
199. odule Common Words The TSX ETY 110 module supports e maximum 32 parallel connections on TCP IP e but only one connection to a remote device The maximum frame size depends on the type of transaction e In synchronous messaging the maximum frame size is 256 bytes e In asynchronous messaging the maximum frame size is 1 Kbyte The number of communication functions handled simultaneously depends on the type of profile e where a TCP IP profile is used maximum 16 simultaneous messages e where an ETHWAY profile is used maximum 16 simultaneous messages The module provides the following capacities e inthe case of ETHWAY messaging 130 messages per second e inthe case of X Way messaging on TCP IP 140 messages per second e inthe case Modbus messaging on TCP IP 100 messages per second Note A message can be e sending a communication function e the response to a communication function A common word message is equivalent to 0 5 data messages Example of application dimensioning 5 stations exchange common words every 100 ms and X Way messaging on TCP IP The flow of common words received by each module is 50 messages per second of common words around 25 messages per second on TCP IP So the remaining maximum capacity on each module on TCP IP is 140 25 115 messages per second 170 TSX ETY 110 Performance Example The performance data below are given for a communicatio
200. of the station to be queried using the Station field 2 Press the Mirror button Result The following window appears Mirror Request Length of data to be sent 8 ransmission Cance Enter the length of the data to be sent maximum 80 characters Press the Send button Result The response appears in the Receive Response field Response reception ASCII Hex The response contains e the character string ABCDEFGH corresponding to a length of data sent of 8 246 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY How to Test a Channel with Requests Introduction This page indicates the procedure to follow to test a communication channel from the debugging screen through different requests How to Senda The following procedure allows a request other than those provided by the Request command buttons to be sent to a designated station In this example the request sent is used to read 10 words from MW1 to MW10 Step Action 1 Select the address of the station to be interrogated with the help of the field Station 2 Click on the button Input Request Result The following window appears Enter Request x Request code hexadecimal 36 Data hexadecimal EE Cancel The data sent in this example is coded on 6 bytes Input the function code coded in hexadecimal on one b
201. ogress CMD_IN_PROGR BOOL R Exchange of parameters of MWr m c 0 X1 command in progress ADJ_IN_ PROGR BOOL R Exchange of parameters of MWr m c 0 X2 adjustment in progress The table below presents the meaning of the exchange report bits 1 MWr m c 1 EXCH_RPT Standard symbol Type Access Meaning Number STS_ERR BOOL R Error in reading status words of the MWr m c 1 X0 channel CMD_ERR BOOL R Error when exchanging command MWr m c 1 X1 parameters ADJ_ERR BOOL R Error when exchanging adjustment MWr m c 1 X2 parameters The table below presents the meaning of the status word CH_FLT MWr m c 2 Reading is carried out by a READ_STS IODDT_VAR1 Standard symbol Type Access Meaning Number INTERNAL_FLT BOOL R Internal or channel self test fault MWr m c 2 4 APPLI_FLT BOOL R Application fault adjustment or MWr m c 2 7 configuration fault 301 Ethernet language objects Network Diagnostics The table below shows the status words or double words CH_FLT MWr m c 3 to 6 MWr m c 11 to 15 and MDr m c 7 and 9 used for diagnosing the network Reading is carried out by a RI EAD_STS IODDT_VAR1 other utilities Standard symbol Type Access Meaning Number NB_P502_CNX INT R Number of Port 502 connections and MWr m c 3 bridge configuration informati
202. ols except Fipio It includes the word type objects whose bits have a specific meaning These objects are presented in detail below Sample Variable Declaration IODDT_VAR7 of type T_COM_STS_GEN e In general the meaning of the bits is given for bit status 1 In specific cases an explanation is given for each status of the bit e Not all bits are used The table below shows the meaning of channel exchange control bits from channel EXCH_STS MWr m c 0 progress Standard symbol Type Access Meaning Address STS_IN PROGR BOOL R Reading of channel status words in MWr m c 0 0 progress CMD_IN_PROGR BOOL R Current parameter exchange in MWr m c 0 1 progress ADJ_IN PROGR_ BOOL R Adjustment parameter exchange in MWr m c 0 2 The table below presents the meaning of the exchange report bits EXCH_RPT MWr m c 1 Standard symbol Type Access Meaning Address STS_ERR BOOL R Reading error for channel status MWr m c 1 0 words CMD_ERR BOOL R Error during command parameter MWr m c 1 1 exchange ADJ_ERR BOOL R Error during adjustment parameter MWr m c 1 2 exchange 293 Ethernet language objects Standard Channel Faults CH_FLT The table below shows the meaning of the bits of the status word CH _FLT MWr m c 2 Reading is performed by a READ_STS IODDT_VAR1
203. ommunication 10 100 MBitS S 00 39 IMTFOGUCTOM e E EE nt aS Sind Grint amp weithed acini ET de den AE ET E 40 Description srice 28 cnn Sch pena engi Se ai eae mle a E AEA are one i 41 Physical Description of the TSX P57 5634 Processors 2 0005 43 Ethernet Channel Characteristics 0 0 0 ccc eee eee ee eee 45 Installation of TSX ETY 4103 PORT 5103 Modules and the TSX P57 5634 Proc SSO cisa nice eee ees oy Peete A PE ed Adee ee 46 Selecting the Type of Processor 00 cece eee eee eee eee 47 Wiring Unwiring with Power Switched On 00000 e eee eee eee 48 Part Ill Chapter 4 4 1 4 2 10 100baseT Interface 2 0 0 eee eee 49 Display Diagnostics gt ss mesedea rala i a ne e pond E etch chin tec AE dbo 51 Display Panel Modules Diagnostics 0 0 cece eee eee 52 Display Panel Ethernet Diagnostics for TSX P57 5634 Processors 53 Electrical Characteristics 0 0 cect eee 54 SANGALO pe enen Sop ads Sethe Sie a sees Sandee Manag eee eee ei 55 Operating Conditions 0 0 0 0 eet tte 56 Software Installation for Ethernet Communication 57 FACHIUOS 2 5 6 5 ssa eG re ea ee nee Ras EER oe ES 59 TCP IP Messaging 0 cece cette teens 60 Summary of TCP IP Characteristics 0 0 00 cece eee eee ee 61 Address Management 00 e eee ett teens 62 IPPAdGresSia 2 ae canines cus aceite het che Sarina huet ee kar atte ae es tte
204. on NB_DENIED_CNX INT R Number of denied Port 502 MWr m c 4 connections NB_P502_REF INT R Number of refused messages on MWr m c 5 Port 502 XWAY_ADDR INT R X Way address Network station MWr m c 6 NB_SENT_MSG DINT R Number of sent messages on Port MDr m c 7 502 NB_RCV_MSG DINT R Number of received messages on MDr m c 9 Port 502 BW_OTHER_MSG INT R Loading of messaging utility and MWr m c 15 302 Ethernet language objects Details of Implicit Exchange Objects of the IODDT of Type T_COM_ETHCOPRO Introduction List of Implicit Exchange Objects This part shows the implicit exchange objects of the IODDT of type T_COM_ETHCOPRO which applies to the Ethernet channel of the TSX P57 5634 channel 3 It concerns those word type objects whose bits have a particular meaning These objects are described in detail below Example of declaring a variable IODDT_VAR1 of type T_COM_1 ETHCOPRO The table below shows the implicit exchange objects of the IODDT of type T_COM_ETHCOPRO which applies to the Ethernet channel of the TSX P57 5634 Standard symbol Type Access Meaning Number CH_ERROR EBOOL R Line error bit lr m 3 ERR REFRESH_IO_0 BOOL R Indicates that the Inputs Wr m 3 1 0 to Outputs of the IO Scanning to REFRESH_IO_15 Utility from station 0 to 15 are IWr m 3 1 15 refreshed REFRESH_IO_16 BOOL R Indicates that the Inputs lWr m 3 2 0 to Outputs
205. on via the AUI interface 31 2 6 10baseT Interface 34 2 7 Display Panel Diagnostics 36 2 8 Electrical Features 37 23 TSX ETY 110 2 1 At a Glance At a Glance General Communication module TSX ETY 110 is used to communicate in an Ethernet architecture It is made up of a communication channel which offers two types of connections e Connection to an ETHWAY network supporting common words and X Way UNI TE message handling services on an ETHWAY profile e Connection to a TCP IP network supporting the X Way UNI TE message handling service This module also ensures transparent routing of X Way UNI TE messages from a TCP IP network to an X Way network and vice versa Please refer to the Ethernet reference manual for wiring an ETHWAY architecture 24 TSX ETY 110 2 2 Description Description General Module TSX ETY 110 is a single half size module which is inserted in a rack slot of a Premium PLC station Description 1 Display panel indicating state of module 2 Standard connector for 10baseT RJ45 interface 3 Standard connector for 10base5 AUI interface 4 Thumbwheel to define station number and network number Illustration 25 TSX ETY 110 2 3 Characteristics of the Ethernet Channel Characteristics of Ethernet Channel General The module is made up of two standard interfaces for connecting to a network e One 10baseT interfac
206. one is used to define a commUnity Pro name by utility family Set Get and Trap It comprises three fields e The Set field defines the commUnity Pro name for the Set utility strings of 16 characters maximum The default value of the field is Public e The Get field defines the commUnity Pro name for the Get utility strings of 16 characters maximum The default value of the field is Public e The Trap field defines the commUnity Pro name for the Trap utility strings of 16 characters maximum The default value of the field is Public The purpose of these fields is to define the access rights for the MIB objects of the SNMP agent local module in relation to requests sent by the administrator Example If the administrator sends a SetRequest request with the commUnity Pro name Test and the module has the commUnity Pro name Public the request will not be executed This zone contains the Enable Authentication Failure trap check box Checking this box allows you to validate the transmission of an authentication failure event TRAP from the SNMP agent to the administrator that originally posted the request In this way the agent warns the administrator that the request has been refused following an identification error commUnity Pro name configured in the administrator is different from the one configured in the agent A CAUTION Modifications to the SNMP parameters The SNMP administrator is able to modify the value
207. oot conf NTP instructions txt Select one from drop down menu Time Zone Description DST Available Custom Yes GMT 12 00 Dateline Standard Time Eniwetok Kwajalein No GMT 11 00 Samoa Standard Time Midway Is Samoa No GMT 10 00 Hawaiian Standard Time Hawaii Honolulu No GMT 09 00 Alaskan Standard Time Anchorage Yes GMT 08 00 Pacific Standard Time Los Angeles Tijuana Yes GMT 07 00 Mexican Standard Time Chihuahua La Paz Mazatlan Yes GMT 07 00 Mountain Standard Time Arizona Phoenix No GMT 07 00 Mountain Standard Time Denver Yes GMT 06 00 Central Standard Time Chicago Yes GMT 06 00 Mexico Standard Time Tegucigalpa No 231 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 Time Zone Description DST Available GMT 06 00 Canada Central Standard Time Saskatchewan Regina No GMT 06 00 Central America Standard Time Mexico_city Yes GMT 05 00 SA Pacific Standard Time Bogota Lima Quito No GMT 05 00 Eastern Standard Time New York Yes GMT 05 00 Eastern Standard Time Indiana East Indianapolis No GMT 04 00 SA Western Standard Time Caracas La Paz No GMT 04 00 Pacific SA Standard Time Santiago Yes GMT 03 30 Newfoundland Standard Time Newfoundland St Johns Yes GMT 03 00 E South America S
208. or the TSX ETY or TSX ETY PORT module or Port Timeout on TCP Connection Keep Alive Frame the Ethernet link of the TSX P57 5634 is port TCP 502 When a client wishes to access the server of these modules it must send towards this port If a TCP connection cannot be established when the destination is absent for example the timeout error occurs after 80 seconds Each communication function timeout must be set to a value higher than 80 seconds if the first exchange was not successfully completed The TCP layer sends a frame almost every 2 hours so that breaks in connection can be detected i e cable disconnection detection of power outage from the client by a server etc The use of this mechanism is explained further on in this chapter see p 77 61 Facilities Address Management At a Glance MAC Address IP Address When implementing Ethernet modules you can manage the following addresses e MAC address A CAUTION Address duplication e IP address e X Way address Two devices with the same address can result in unpredictable events on the network Failure to follow this precaution can result in injury or equipment damage General case This address is unique for each Ethernet module It is defined in the factory by the module manufacturer Exception For the TSX ETY 110 module this address is derived from the X Way address using the code selectors situate
209. ote inputs outputs become operational the status bits are activated the word bits IWr M c 1 to YlWr m c 4 1 Values are given in seconds e T 35s if the TSX ETY 4103 PORT 5103 module is used as a BOOTP server to connect the scanned devices e T 17 s if the scanned devices use another BOOTP DHCP server This time corresponds to the time between the power up of the remote input output and the moment when all the status bits are activated word bits IWxy i l to IWxy i 4 1 The value is given in seconds e T 5s This time corresponds to the elapsed time between the acquisition of a remote input and the positioning of a remote output This is a logic response time which does not take filtering time and actuator and sensor interface response times into account This is an example of time elapsed from acquiring an input to the positioning of an output CAOR Response time MAST cycle time 20 i Gg 1 ms or 80 ms T 205 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 Response time with a cycle of 20 ms 100 r r r r r r r r 7 90 80 70 60 Response time in ms 50 0 10 20 30 40 50 60 Number of devices scanned Response time with a cycle of 80 ms 220 210 200 190 180 Response time in ms 170
210. ous configuration is not stored Cancel Cancels the entries in the fields Previous configuration is valid Disable Email Clears the stored configuration and disables the email service Note Next time the service is enabled a new configuration is required Configure the following parameters Parameter Description IP address of Email Enter a valid IP address This parameter identifies SMTP server Port Default 25 If needed enter a new value Password Authentication If security is needed enable Password Authentication To enable enter a check mark in the box Enter values for e Login e Any printable character allowed e 12 character maximum e Password e Any printable character allowed e 12 character maximum 3 mail headers Each header must contain 1 senderis ID in the From field e 32 character maximum no spaces 2 list of recipients in the To field e Separate each email address with a comma e 128 character maximum 3 fixed part of message in the Subject field e 32 character maximum 1 Subject field consists of two parts 1 Fixed e 32 character maximum 2 Dynamic e 206 character maximum 235 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 Bandwidth Checking Utility Introduction The TSX ETY 4103 PORT 5103 module offers a utility for checking the bandwidth used How to Access The procedure for acc
211. p to 507 words MW or 8112 bits M to be read through the asynchronous messaging channel WRITE_ASYN enables up to 510 words MW or 8160 bits M to be written through the asynchronous messaging channel 68 Facilities Modbus Communication on the TCP IP Profile At a Glance This utility enables communication to be established through the Modbus protocol between a Premium PLC and a Quantum PLC or another Premium PLC and supervisor software on PC or other device complying with the Modbus protocol Client supervisor Modbus Protocol TCP IP Ethernet Modbus Modbus Protocol Protocol Premium 1 Premium 2 Client Server Client Server Quantum Server The same module can communicate with a remote device in client mode for example a Quantum PLC and another remote device in server mode for example a supervisor PC The Premium PLC 1 is the client to the Quantum PLC It opens the TCP IP connection and sends Modbus messages to the Quantum The Premium PLC 2 is the server to the supervisor The supervisor has opened a TCP IP connection and sends Modbus messages to the Premium 2 69 Facilities Precautions for Use The UNI TE and Modbus double profile is not supported on the same Premium remote station In other words a station A cannot at a given moment have Modbus communication and Uni TE communication towards a station B Special case for the TSX ETY 110 modu
212. ponse allows the agent to re send the value of the requested variable e Trap allows asynchronous event signaling by the agent The SNMP manager transmits read or write requests Set_Request Get_Request Get_Next_Request etc for objects defined in the MIB II SNMP and the SNMP agent of the TSX ETY module responds SNMP Manager Ein mz Get_Response Trap Tat SNMP Agent TSX ETY PLC Station The module s SNMP agent transmits events Traps to the Manager The managed Traps systems are as follows e Coldstart Trap e For the TSX ETY 110 module the event is transmitted following a module supply Reset e For the TSX ETY 4103 PORT 5103 modules and the Ethernet link of the TSX P57 5634 the event is transmitted following a module supply Reset or following a processor Reset or following the downloading of an application to the PLC e Authentication Failure Trap event transmitted following an authenti cation problem The CommUnity Pro Name field in the received message is different to the one configured on the module This trap can be enabled when configuring the module Set_Request Get_Request Get_Next_Request 90 Facilities 4 5 Global Data Utility Global Data Utility At a Glance Operation The aim of the Global Data utility which is supported by the TSX ETY 4102 PORT 5103 modules and the Ethernet link of the TSX P57 5634 is to provide an automa
213. put User configurable go to 0 or hold last value IP Address User configurable IP address of scanned device Slave IP Local and Remote Register User configurable Reference Repetition Rate User configurable Unit ID User configurable d only when you are using a bridge Operation through a bridge Modbus bridge supported Modbus Plus bridge supported Use the I O Scanner configuration dialog see p 323 in Unity Pro to set the scanneris operating parameters Using the I O Frisia eae Note The I O scanner can scan devices through an IP router with a TTL of 10 321 Transferring Data with the I O Scanner Device Control The device control block is a block of registers that supports either 8 words or 4 Block double words The content of the registers is mapped in the CPUis memory Each bit corresponds to an entry in the table Each I O scanner device can be disabled To disable an individual scanner device Step Action 1 Select the Device Control Block option in the I O Scanner configuration dialog see Ip 323 Put a check mark in the box Set the associated bit to 1 e g MD2 4 Note A value of 0 in the device control block bit enables the device A value of 1 in the device control block bit disables the device The following table shows how the device control block bits are mapped to I O scanner entries Word 1 Table 16 15 14 13 112 11 10 9 8 7 J6 5 4 3 2
214. r parameters Message traffic allows the graphical display of the number of messages processed by the module Message errors allows the display of the number of unacknowledged or refused messages Communicatio n tests allows e display of TCP IP utilities configuration communication testing of the TCP IP profile Station tests allows e display of ETHWAY utilities configuration communication testing of the ETHWAY profile 190 TSX ETY 110 General Debugging Parameters Introduction Message Traffic Message Errors The general debugging parameters are grouped into two windows e the Message traffic window e the Message errors window The window looks like this Message traffic msg min Soo msgmin NNO ee Oe ANAN A Min 493 Avg 849 Max 1206 Rese It shows graphically the number of messages per minute handled by the module sending and receiving This number can be compared to the maximum flow rate offered by the module 7800 or 8400 messages of 128 bytes per minute in order to determine whether the latter is working in a normal use range or in overload The Reset button resets to zero the three countersMin Av and Max The window looks like this Message errors Reset counters Messages sent and not 1 acknowledged Messages refused 2 The message erro
215. r with an integrated Ethernet port This section contains the following topics Topic Page Selecting the Type of Processor 47 Wiring Unwiring with Power Switched On 48 TSX ETY 4103 PORT 5103 communication modules are mounted in the rack slot of a Premium Atrium PLC station They can be installed in any available slot except in an offset X Bus rack on condition that the supply constraints of the rack are observed The TSX P57 5634 processors are mounted in slots 0 or 1 in the base rack according to the power supply selected They occupy two slots 46 Communication Ethernet Modules Selecting the Type of Processor Selection Guide Selecting the processor to control the PLC station with one or more Ethernet modules will depend on the number of network connections required Processors Number of network connections Number of ETY 4103 5103 per station TSX P57 104 1 a 1 TSX P57 154 1 1 TSX P57 204 1 TSX PCI 57 204 n TSX P57 254 1 ik TSX P57 2634 oO TSX P57 2834 1 fo TSX P57 304 TSX P57 354 1 TSX P57 3634 TSX P57 454 TSX PCI 57 454 1 TSX P57 4834 1 TSX P57 554 1 BR RL RI BR BR WO wo wo rm TSX P57 5634 WwW wo A wo BR BR MM WwW ow TSX P57 4634 4 Compatible with 5V power supply Supports two network
216. r m 3 10 0 to from the station 16 to 31 are to VALID_GD_31 refreshed IWr m 3 10 15 VALID_GD_32 BOOL R Indicates that the Global Data IlWr m 3 11 0 to from the station 32 to 47 are to VALID_GD_47 refreshed IWr m 3 11 15 VALID_GD_48 BOOL R Indicates that the Global Data IlWr m 3 12 0 to from the station 48 to 63 are to VALID_GD_63 refreshed IWr m 3 12 15 304 Ethernet language objects Details of Explicit Exchange Objects of the IODDT of Type T_COM_ETHCOPRO At a Glance Remarks Explicit Exchange Indicators EXCH_STS Standard Channel Faults CH_FLT This part shows the explicit exchange objects of the IODDT of type T_COM_ETHCOPRO which applies to the Ethernet channel of the TSX P57 5634 It includes word type objects whose bits have a special meaning These objects are described in detail below Example of declaring a variable IODDT_VAR1 of type T_COM_ETHCOPRO e Generally speaking the meaning of bits is given for state 1 of this bit In specific case each state of the bit is explained e Not all bits are used The table below gives the meanings of the exchange control bits of the channel EXCH_STS MWr m c 0 Standard symbol Type STS_IN_PROGR Access Meaning BOOL R Address MWr m c 0 X0 Reading of status words of the channel in progress The table below gives the meanings of the status word bits CH_FLT MWr m c 2 The re
217. receiver are Email messages are sent to host connection connected to the same transport service Relay system sender and receiver are Email messages are relayed from one server to connected to different another The SMTP server must be supplied with transport services the address of both the destination host and the destination mailbox Because the project sends the email request a controller cannot send an email message either while in the stopped mode or while downloading a project As soon as the controller is in run mode the function block sends a request during the first project scan Diagnostic counters are reset to 0 after either a power up a project download or a reconfiguration of the electronic mail notification service 334 Using the Electronic Mail Notification Service Using the Electronic Mail Notification Service Configuring the Service Message Creation and Delivery Header Examples Security Authentication System Diagnostics An authorized administrator may use the SMTP configuration web page to e configure the electronic mail notification service e set the IP address of the mail server Note The default TCP port number for SMTP is 25 Ensure that you configure the port specified by your local mail server see p 234 A user defined event or condition triggers the SEND_REQ block to create a message see p 336 Each message uses one of three u
218. ress 140H252H2 H255 O Client Server configuration You must enter both the X Way address and the IP address of the devices with which the module must communicate Click on the Access control button to activate this control then check the corresponding box in the Access column The maximum number of connections in the application can be adjusted Note Communication with the Quantum PLC requires the Modbus protocol to be configured The Ethernet frame format selected for TCP IP is Ethernet Il because in the example the terminals use this format ConfigurationE thernet Ethemetll 802 3 187 TSX ETY 110 7 3 Debugging Introduction What s in this Section This section describes the debugging of the TSX ETY 110 module This section contains the following topics Topic Page Module Debugging Screen 189 General Debugging Parameters 191 Debugging Parameters for TCP IP Utilities 192 How to Test TCP IP Communication with a Ping Request 193 Debugging Parameters for Ethway Utilities 194 Requests Available for the Communication Channel Test 195 How to Test a Channel with Identification and Mirror Requests 196 How to Test a Channel with Requests 197 188 TSX ETY 110 Module Debugging Screen
219. rid Yes Paris Vilnius GMT 01 00 Central European Standard Time Belgrade Sarajevo Skopje Yes Sofija Zagreb GMT 01 00 Central Europe Standard Time Bratislava Budapest Ljubljana Yes Prague Warsaw GMT 01 00 W Europe Standard Time Brussels Berlin Bern Rome Yes Stockholm Vienna GMT 02 00 GTB Standard Time Athens Istanbul Minsk Yes GMT 02 00 E Europe Standard Time Bucharest Yes GMT 02 00 Egypt Standard Time Cairo Yes GMT 02 00 South Africa Standard Time Johannesburg Harare Pretoria No GMT 02 00 FLE Standard Time Helsinki Riga Tallinn Yes GMT 02 00 Israel Standard Time Israel Jerusalem Yes GMT 03 00 Arabic Standard Time Baghdad Yes GMT 03 00 Arab Standard Time Kuwait Riyadh No GMT 03 00 Russian Standard Time Moscow St Petersburg Volgograd Yes GMT 03 00 E Africa Standard Time Nairobi No GMT 03 30 Iran Standard Time Tehran Yes GMT 04 00 Arabian Standard Time Abu Dhabi Muscat No GMT 04 00 Caucasus Standard Time Baku Tbilisi Yes GMT 04 00 Afghanistan Standard Time Kabul No GMT 05 00 Ekaterinburg Standard Time Ekaterinburg Yes GMT 05 00 West Asia Standard Time Islamabad Karachi Tashkent No 148 Configuration Parameters Time Zone Description DST Available GMT 05 30 India Standard Time Bombay Calcutta Madras New Delhi No GMT 06 00 Centra
220. rs window shows the number of unacknowledged messages on ETHWAY and the number of refused messages on ETHWAY or TC IP You can reset these counters to zero by clicking on the Init counters button 191 TSX ETY 110 Debugging Parameters for TCP IP Utilities Introduction IP Address Communication Test The debugging parameters for the TCP IP utilities are grouped together in two windows e the IP Address window e the Communication test window The window is displayed as below P Address 196 211 185 22 Subnetwork mask 255 255 255 0 Gateway Address 196 211 185 55 It specifies the configuration data of the IP address e IP Address e Subnetwork mask e Gateway Address address of the gateway The window is displayed as below Communication tes Number of connections 196 211 185 21 open iE Ping Response reception Cycle ms Size 64 FA bytes Addresses This window allows you to test IP communication towards another declared station in the remote devices grid 192 TSX ETY 110 How to Test TCP IP Communication with a Ping Request Introduction This page indicates the procedure to be followed to test a TCP IP communication by means of a Ping request Steps to Follow The following procedure allows the sending of the Ping request and thus tests the routing of information between two devices
221. s e the character string ABCDEFGH that corresponds to the length of data sent 8 196 TSX ETY 110 How to Test a Channel with Requests Introduction This page indicates the procedure to follow to test a communication channel from the debugging screen through different requests How to Senda The following procedure allows a request other than those provided by the Request command buttons to be sent to a designated station In this example the request sent is used to read 10 words from MW1 to MW10 Step Action 1 Select the address of the station to be interrogated with the help of the field Station 2 Click on the button Input Request Result The following window appears Enter Request Request code hexadecimal Be Data Hexadecimal ee i Cancel The data sent in this example is coded on 6 bytes Input the function code coded in hexadecimal on one byte corresponding to the request that you want to send For this example the read request code is 16 36 Input the data to be sent by coding all the data in hexadecimal The data is sent non stop without any time intervals between them When the data is coded on one word the most significant and least significant bytes are reversed For this example the data is as follows 16 68 on one byte defines the segment internal data e 16 07 on one byte defines the object t
222. s IP Configuration and Messaging How to Access The procedure for accessing the configuration parameters for TCP IP utilities is as the Messaging follows Step Action 1 Access the module configuration screen 2 Select the IP Configuration tab Result IP Configuration Messaging K Scanning Global Data SNMP Address Server Bandwidth m IP Address Configuration e Configured IP Address T39 T2410 14 Subnetwork mask P55 75510 10 Gateway Address 39 124 10 1 From a server Ethernet configura ion f Ethernet II C 8023 3 Select the Messaging tab Result IP Configuration Messaging 10 Scanning Global Data SNMP Address Server Bandwidth X Way Address a Network 40 Station 7 m Configuration of connections Access control Access IP Address Xway Mode Iv W 139 124 10 11 40 1 MULT 100 32 0 12 61 10 MONO 100 32 0 11 MULT 100 32 0 12 45 x MULTI 100 32 0 14 MULT 139 124 10 12 40 2 MULTI 139 124 10 13 40 3 MONO 100 32 0 12 MULT 100 32 0 18 60 63 MULTI 100 32 0 18 57 x MULT 139 124 10 15 MULT 58 x_ MULTI a ko Joo Joo Jun jn Pan ey ee ee ee ee eg E RRRRRERRRER 12 269 TSX P57 5634 Howto Con
223. s from a Premium PLC to a Modbus Plus network connected to the Quantum PLC is not possible via TCP IP In the same way the Modbus protocol cannot cross X Way Premium bridges Communication between a Premium PLC on the Ethernet network with a remote device connected to a Modbus series bus is possible if you use a series linked Ethernet Modbus gateway type 174 CEV 300 10 Special Case for Fora TSX ETY 110 module communication between a Premium PLC on the the TSX ETY 110 Ethernet network with a device connected to the Modbus series bus is not possible Module 71 Facilities Modbus Messaging on the TCP IP Profile Introduction Installation Principle Sending Communication Functions The communication functions are the same as those described in the communication functions on Modbus Although a remote Modbus station does not have an X Way format address each communication function will use an X Way format address to designate a remote IP station For each remote Modbus station you must configure the pair in the correspondence table IP address network station X Way where e network network number of the local X Way station e station 100 to 164 logical number of the X Way station Example the X Way address 2 108 is associated with the IP address 139 160 2 8 This address will only be used by the local Premium module It is not sent over the network In the case of a remote Premium station conf
224. same protocol the same access rights and the same connection mode In the case of a Modbus connection only two connections can be configured with the same IP address Addresses associated with these connections are e an X Way address for example 2 103 for the Modbus client connection e an X Way address equal to x x for Modbus server connections 213 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 Multi Connection in UNI TE Protocol with Access Management Premium client server Multi Connection in UNI TE Protocol Without Access Management In this example the PC contains four applications with a unique X Way address and one single IP address e The module opens a connection and communicates with the server application with the address 1 1 e Each of the other client applications with the address 1 2 1 3 1 4 is authorized to open a connection and communicate with the module Exchanges are carried out according to the UNI TE protocol and the moduleis access control utility is enabled 139 160 65 156 139 160 65 157 Server application I Client application 1 2 Client application 5 1 3 Client application 1 4 In order to implement this example you must e activate connection management by checking the moduleis Access control box e configure communication from the module to the PCis server application in the table X Way address 1
225. ser defined headers Each message sent from the controller can contain text and variable information up to a maximum of 238 bytes The project selects the appropriate header Each header contains e sender name e list of recipients e subject An authorized administrator can define and update the text and variable information via an embedded SMTP Configuration web page Define mail headers to indicate different levels of importance For example e header 1 could be Urgent problem reported by PLC 10 e header 2 could be Notification from substation 10 e header 3 could be Info message from water system Listing different recipients in each of the three headers assures that information flows quickly to the right recipients The project adds pertinent information such as the specific device process or location This information is added to the body of the mail message Then the complete message is sent to an electronic mail server for distribution to recipients Recipients may be engineers managers or process owners An optional login system ID and password can be used to authenticate the connection to the SMTP mail server The SMTP supported authentication method is LOGIN The SMTP diagnostic web page displays the status of the service Diagnostic information is also available for remote management using the SNMP network management standard 335 Using the Electronic Mail Notification Service Using the SEND_REQ Bl
226. server application in the table e X Way address 1 103 address between 100 and 163 for the Modbus protocol e IP address 139 160 65 156 e Access the cell is grayed out e Mode Multi e configure communication of all the PCis client applications to the server coprocessor in the table e X Way address empty e IP address 139 160 65 156 e Access authorized allows you to specify that other applications are authorized to connect and communicate e Mode Multi 267 TSX P57 5634 Multi Connection in Modbus Protocol without Access Management Note If you want to prevent connection by client applications you must configure X Way address empty e IP address 139 160 65 156 e Access not authorized cell unchecked e Mode Multi This example is the same as the previous one except that access control is not configured In this case if the application 1 103 is the only server application the coprocessor s correspondence table only contains the following line X Way address 1 103 address between 100 and 163 for the Modbus protocol IP address 139 160 65 156 Access the cell is grayed out Mode Multi 268 TSX P57 5634 Configuration of TCP IP Messaging Introduction In order to use the channel of the TSX P57 5634 module to communicate on Ethernet it is necessary to set the messaging configuration parameters see p 123 Messaging is configured in the two windows accessible by the tab
227. slave address olol o NI oIa BR Ww Pp Select the same period i ar Enter 0 in Slave index read M Enter 0 in Length read wo Enter the write destination address in Slave index write A Enter the number of words to be sent in read format in Length write 272 TSX P57 5634 Configuration of the Other Utilities of the TSX P57 5634 Introduction The other available utilities of the Ethernet channel of the TSX P57 5634 are configured using screens that are entirely the same as those of the modules TSX ETY 4103 PORT 5103 These utilities are as follows e Address Server see p 223 utility e Global Data see p 225 utility e SNMP see p 227 utility e Bandwidth monitoring see p 236 utility 273 TSX P57 5634 9 3 Debugging At a Glance This section describes the installation of the Ethernet channel of the TSX P57 5634 during its debugging What s in this This section contains the following topics Section Topic Page Ethernet Channel Debugging Screen 275 General Debugging Parameters 277 TCP IP Address Information 278 How to Test the TCP IP Communication with the Ping Request 279 Debugging Parameters for the I O Scanning Utility 281 Debugging Parameters for the Global Data Utility 282 Bandwidth Control Diagnostic Parameters 283 274 TSX P57 5634 Ethernet Channel Deb
228. st of available networks and choose a meaningful name for your selection Result Add Network Network Comment List of available networks Ethernet v Change name Ethernet factory 2 OK Cancel Help Note if desired a comment may be added by clicking on the Comment tab Click OK and a new logic network is created Result we have just created the Ethernet network that appears in the project browser Communication Ebene ZY Networks fee Ze Ethernet factory ee Routing table Note as you can see a small icon indicates that the logic network is not associated with a PLC device 161 Programming an Ethernet Network How to Access The following table introduces the procedure to follow for accessing the logical Logical Ethernet Ethernet network configuration Network Configuration Step Action 1 Open the project browser in order to see the logic networks of your application Result Be Communication oe Networks es 4 Ethernet factory ey 4 Ethernet factory 2 r veel Routing table 2 Right click the Ethernet logic network to be configured and select Open Result the Ethernet configuration screen is displayed E Ethernet factory _2 _ Famil
229. stic Pages Home Page This page contains a list of links for accessing the different diagnostic pages for the Ethernet module e Global Data Utility e lOScanner Utility e Messaging utility e Bandwidth monitoring utility e Ethernet module statics A link also allows the downloading of the private MIB source file View of the Diagnostics Utilities home page Ethernet Link Diagnostic Global Data 10 Scanning Messaging Bandwidth Monitoring Statistics Email Diagnostics Properties Upload MIB file Home Index Copyright 1998 2003 Schneider Automation All rights reserved Click on a link to access the desired diagnostics page 108 Facilities Global Data Page Information on the general diagnostics of Global Data can be found at the top of this page e Status e Number of publications per second e Number of subscriptions per second This page also shows a table that regroups all published and subscribed variables in the same distribution group Each variable is identified by its Identifier e Green for the subscribed variables e Yellow for the published variables e White for all unconfigured variables e Red for variables with communication faults View of the Global Data diagnostics page Welcome to the Premium Web Server Microsoft Internet _ x File Edit View Goto Favorites Ka gt Eaj Back Forward Stop Refresh Home Search Favorites History Channels Addres http 139 160 23
230. synchronized at the start of the PLC cycle Subscribed variables are copied in the PLC application memory at the end of the cycle The PLC memory zones that receive the various subscribed variables should not be recovered A Health bit Status bit is associated to each application variable This status bit indicates the validity of each subscribed variable it is 1 if the variable has been published and received in the configured validity time limit see p 226 otherwise it is 0 The Global Data utility uses Multicasting On account of this broadcasting principle the multicast frames transmitted by a module are repeated on all switch ports which generates network congestion When the switches possess this function Multicast Filtering allows multicast frame spreading to be limited to only the ports that require it The protocol used to establish the list of ports involved in data traffic is GMRP The operating modes are as follows e Stopping the PLC stops Global Data exchanges e The use of the I O forcing system bits S9 SW8 SW9Y does not stop Global Data exchanges There are no theoretical limits for the number of stations sharing a Distribution Group The main limitation is the number of variables exchanged in the Distribution Group 64 variables 92 Facilities 4 6 Managing Faulty Devices Replacing Faulty Remote Stations At a Glance Objective Operation The objective of this
231. t be set to 1 332 Electronic Mail Notification Service C At a Glance Overview What s in this Chapter The electronic mail notification service uses the simple mail transport protocol SMTP to enable a controlleris project to send e mail messages This chapter contains the following topics Topic Page Introducing the Electronic Mail Notification Service 334 Using the Electronic Mail Notification Service 335 Using the SEND_REQ Block for Electronic Mail Notification 336 Electronic Mail Notification Service Error Codes 338 333 Using the Electronic Mail Notification Service Introducing the Electronic Mail Notification Service Introduction Mail Service Client Mail System Types Operating Modes and Sending Requests The electronic mail notification service allows controller based projects to report alarms or events The controller monitors the system and dynamically creates an electronic mail message to alert local or remote users The TSX P57 ETY 4103 and 5103 and the TSX P57 x634 modules include an SMTP client When the module receives a specific request from the project the module sends an email message to the mail server SMTP Server SEND_REQ OK or NOK SMTP provides two mechanisms for the transmission of email messages6 direct connection and a relay system Mechanism Condition Result Direct sender and
232. tandard Time Brasilia Sao_Paulo Yes GMT 03 00 SA Eastern Standard Time Buenos Aires Georgetown No GMT 02 00 Mid Atlantic Standard Time South_Georgia No GMT 01 00 Azores Standard Time Azores Cape Verde Island Yes GMT Universal Coordinated Time Casablanca Monrovia No GMTO Greenwich Mean Time Dublin Edinburgh Lisbon London Yes GMT 01 00 Romance Standard Time Amsterdam CopenHagen Madrid Yes Paris Vilnius GMT 01 00 Central European Standard Time Belgrade Sarajevo Skopje Yes Sofija Zagreb GMT 01 00 Central Europe Standard Time Bratislava Budapest Ljubljana Yes Prague Warsaw GMT 01 00 W Europe Standard Time Brussels Berlin Bern Rome Yes Stockholm Vienna GMT 02 00 GTB Standard Time Athens Istanbul Minsk Yes GMT 02 00 E Europe Standard Time Bucharest Yes GMT 02 00 Egypt Standard Time Cairo Yes GMT 02 00 South Africa Standard Time Johannesburg Harare Pretoria No GMT 02 00 FLE Standard Time Helsinki Riga Tallinn Yes GMT 02 00 Israel Standard Time Israel Jerusalem Yes GMT 03 00 Arabic Standard Time Baghdad Yes GMT 03 00 Arab Standard Time Kuwait Riyadh No GMT 03 00 Russian Standard Time Moscow St Petersburg Volgograd Yes GMT 03 00 E Africa Standard Time Nairobi No GMT 03 30 Iran Standard Time Tehran Yes GMT 04 00 Arabian Standard Time Abu Dhabi Muscat No 232 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY
233. tep Action 1 For each device enter the IP Address 2 Enter for each device if necessary the Unit ID Modbus slave address 3 Enter if required a health Time out value in ms 4 Enter the repetition periods of the remote device scanning period of the slave 5 For each device enter the address of the variables read in each slave Slave index read 6 For each device enter the number of words to be sent in read format in Length read 7 Select the input fallback mode in Fallback value read For each device enter the address of the variables written in each slave Slave index write 9 For each device enter the number of words to be sent in write format in Length write 10 For each device enter if necessary a comment in Description When scanned certain devices such as TSX ETY modules do not support simultaneous read write requests In this case to read write inputs outputs the following procedure must be performed Step Action 1 Enter the IP Address of the device If necessary enter the device s Unit ID Modbus slave address Select the scanning period of the slave Enter the address of the read variables of the slave Slave index read Enter the number of words to be sent in read format in Length read Enter 0 in Slave index write Enter 0 in Length write On the following line enter the same IP Address Enter if necessary the same Unit ID Modbus
234. the beginning of the Read Ref table and the Write Ref table e and the length of the Read Length and Write Length fields Example The Ethernet module scans two devices e a Momentum at the address IP1 which has 4 input words e a Momentum at the address IP2 which has one input word Furthermore the read field address starts at MW100 In this case master RD ref for the address IP1 equals 100 The internal word range reserved for the address IP1 starts at MW100 and is made up of 4 words Therefore master RD ref for the address IP2 equals 104 The internal word range reserved for the address IP2 starts at MW104 MW100 4 input words These fields correspond to the indices of the first word to be read and written for remote devices to be scanned e slave RD ref specifies the address of the first word to be read e slave WR ref specifies the address of the first word to be written e Read Length and Write Length This field is used to configure the behavior of inputs in the event of an access error in relation to the remote device example cut off of the device etc e Fallback to 0 e Maintain This field is not used by the module It is only used to locate the device in the configuration more easily It has a maximum size of 32 characters 134 Configuration Parameters 5 3 Configuration Parameters for the Address Server Utility At a Glance This section describes the configuration par
235. tic data exchange for the coordination of PLC applications The communication modules are regrouped in a Distribution Group to exchange the variables used for PLC co ordination Each communication module publishes a local application variable for the other communication modules in the Distribution Group Each communication module can also subscribe to the application variables published by all other modules sharing the Distribution Group whatever its location An Application Variable is a group of contiguous words from a PLC The Global Data utility should be configured see p 225 to determine the slot and the number of application variables published and subscribed by each communication module Once the modules are configured exchanges between the communication modules sharing the same Distribution Group are automatically carried out when the PLC is in RUN mode Distribution Group IP multicast 255 255 255 251 Distribution Group IP multicast 255 255 255 250 91 Facilities Health Bits Multicast Filtering Operating Modes Limits A Distribution Group is a group of communication modules identified by the same multicast IP address Exchanges in multicasting are used to distribute Global Data Several independent Distribution Groups can co exist on the same subnetwork with their own multicast address A Publication Subscription protocol on UDP IP is used for data distribution The publication of a variable is
236. tics What s in this This section contains the following topics Section Topic Page TSX ETY 110 Module General 169 Characteristics 170 Performance 171 Operating Modes of the TSX ETY 110 Module 172 Common Functions on the ETHWAY and TCP IP Profile 173 168 TSX ETY 110 TSX ETY 110 Module General Introduction Architecture Type The communication channel of the Ethernet TSX ETY 110 module offers two connection types e connection to an ETHWAY network with common word and X Way UNI TE messaging facilities on an ETHWAY profile e connection to a TCP IP network with X Way UNI TE and Modbus messaging facility on a TCP IP profile Because it functions as an SNMP agent the module can be supervised by one or two SNMP managers This module can be used in three different situations e in a closed proprietary ETHWAY architecture e in a proprietary ETHWAY architecture connected to a TCP IP network by an intermediate gateway e in open TCP IP architecture via direct connection to the network According to your choice of architecture the recommended method of use is different see p 180 Note When the Ethernet network load passes 30 it is recommended that you use e the TCP IP profile instead of the ETHWAY profile e switch type accessories routers to reduce the load 169 TSX ETY 110 Characteristics Messaging Maximum Capacity of the M
237. tion to dynamically assign itself new IP parameters The Premium ETY moduleis dynamic Ethernet address facility allows you to e install a single common PLC application into multiple physical installations reducing the need for multiple copies of similar programs or rebuilding the application for each location that uses a new IP address e use the PLC application code to assign an IP address and associated parameters to an ETY To ensure that the ETY module is ready for operation allow the PLC to run in run mode for 15 seconds after the last stop mode before issuing the SEND_REQ function After the user issues the CHANGE IP PARAMETERS command and the ETY module accepts the new parameters the ETY module resets and begins operations with the new parameters Note FDR clients that use the ETY module for a server must be rebooted after the ETY s IP address change is completed Otherwise these FDR clients can not update their parameter files on the FDR server the ETY module Note Constant words contain the original configuration parameters not those that were updated after the IP address change Note You can see the new configuration IP parameters subnet mask and gateway address in the Unity Pro ETY debug screen see p 240 You can also see the newly assigned IP address in the Ethernet Module Statistics web page see p 113 however you must be aware that the IP Address Subnetwork mask and Gateway
238. tion of ETHWAY common words e x1 0 reserved x2 1 common words read only x3 1 common words read write e x4 to x7 0 reserved Byte 1 reserved KWr m 0 4 Common words Byte 0 number of common words Byte 1 reserved KWr m 0 5 X Way network address Byte 0 network number 0 by default Byte 1 reserved KWr m 0 6 Type of Ethernet driver for TCP IP Byte 0 e 16 00 AUI default value e 16 01 RJ45 Byte 1 e 16 00 Ethernet II default value 16 01 802 3 KWr m 0 7 TCP IP configuration address type Byte 0 reserved Byte 1 inherited address e 16 00 default address e 16 01 from the application specific function e 16 03 from a server KWr m 0 8 and KWr m 0 9 Local IP address Example with the address 139 160 650 109 Byte 109 0 least significant Byte 1 65 Byte 2 160 Byte 3 139 most significant KWr m 0 10 IP address of gateway Example with the address 139 160 65 1 and Byte 0 1 KWr m 0 11 Byte 1 65 Byte 2 160 Byte 3 139 KWr m 0 12 Subnetwork mask Example with the address 255 255 255 0 and Byte 0 0 KWr m 0 13 Byte 1 255 Byte 2 255 Byte 3 255 310 Ethernet language objects Language Objects Associated with Configuration Introduction This page describes all the configuration language objects for Ethernet communication with the TSX ETY 4103 PORT 5103 module
239. tton A Ping button is used to access the communication test 3 Addresses _ is used to display the various TCP IP addresses 4 I O Scanning allows display of the status for each remote input output module 5 Global Data allows display of the status for Global Data variables 6 Bandwidth is used to display the Bandwidth diagnostics 276 TSX P57 5634 General Debugging Parameters Introduction Message Traffic Messages The general debugging parameters are grouped together in two windows e the Message traffic window e the Messages window The window is displayed as below Message traffic msg min 4000 msg min mf ve Min 1243 Max 2486 Reset It indicates graphically the number of messages per minute processed by the module send and receive For better display the scale automatically adapts to the flow rate The Reset button resets the three counters Min Av and Max to zero The window is displayed as below Messages Open connections p Reset counters Non authorized access p lt n D Messages Refused p lt Messages received p Messages sent p This window relates to TCP IP messaging e the number of connections opened e the number of unauthorized accesses e the number of messages refused received and sent You can reset these counters to zero by clicking on the Init counter button The Ping see p 279 button is used to a
240. ugging Screen Introduction Figure This screen separated into six zones allows debugging via an Ethernet link The screen dedicated to Ethernet communication is displayed as follows m Bandwidth Bandwidth distribution estimate p IO Scanning WE Global data m 67 Messaging Ez Other EE l0 Scanning T a Open connections p Reset counters N Non authorized access p gt d 32 17 Ping canne 48 33 Messages Refused 10 Scanning ggUnscanned 64 49 Messages received 0 activated E F aulty or absent 80 65 Messages sent p 96 112 Message traffic msg min 128 113 2000 msg min T m Global data JL il ll Vv SUB Variable 17 Global data ae ne 3 Min D Avg I Max J Reset active i iy PUB 5 4 275 TSX P57 5634 Elements and Functions This table describes the different zones that make up the debugging screen Number Zone Function 1 Message allows the graphical display of the number of messages traffic processed by the module 2 Messages allows the display of the number of unacknowledged or refused messages and connections The counter values can be reinitialized using the Init Counters bu
241. ules and the Ethernet solution of the TSX P57 5634 processor What s in this This section contains the following topics ion Section Topic Page Description 42 Physical Description of the TSX P57 5634 Processors 43 41 Communication Ethernet Modules Description General Modules TSX ETY 4103 5103 are single format modules which are inserted in a slot on the main or extension rack of a Premium PLC station The TSX ETY PORT solution is a TSX ETY 4103 module built into the processor and has the same characteristics as the TSX ETY 4103 module Description 1 Display panel indicating module Illustration status e One green RUN LED e Two red LEDs ERR and COL e Three yellow LEDs STS TX and RX 2 Standard connector for 10 100baseT RJ45 interface 42 Communication Ethernet Modules Physical Description of the TSX P57 5634 Processors Illustration The illustrations below show the different elements of a TSX P57 5634 processor 43 Communication Ethernet Modules Description This table describes the elements of a processor module Number _ Function 1 Display block consisting of 6 LEDs 2 Button for requesting removal of the PCMCIA SRAM card and a DOS file or ATA in the future This button must be pressed before removing the card an LED shows
242. uration parameters of the previous one 253 TSX P57 5634 Characteristics Maximum Capacity VO Scanning Utility Global Data Utility Replace Faulty Equipment The maximum frame size depends on the type of transaction e In synchronous messaging the maximum frame size is 256 bytes e In asynchronous messaging the maximum frame size is 1 Kbyte The Ethernet channel of the TSX P57 5634 is used e to manage 64 TCP connections using the port 502 messaging utility e toscan up to a maximum of 128 devices using the I O Scanning utility e tobe the address server for a maximum of 128 devices The processor is used e for X Way synchronous messaging on TCP IP UNI TE server e 800 messages per second e inthe case of asynchronous X Way messaging on TCP IP e between 600 and 1200 messages per second number varies depending on the size of the messages the number of clients and the application execution time The channel can scan a maximum of 128 remote devices For the same station the application can process e a maximum total volume of inputs to be scanned of 4 Kwords e a maximum total volume of outputs to be scanned of 4 Kwords The user interface is a PLC variable zone defined in configuration The Ethernet link e can publish a variable of between 1 and 512 words e can subscribe between 1 and 64 variables The total data cannot exceed 2Kwords The coprocessor reserves a 512 Kbytes zone for
243. us server mode Example i i rome i mi 10 liila TSX P57 5634 Ethernet A connection in UNI TE or Modbus messaging in client mode Several connections in UNI TE or Modbus A messaging in server mode PC third party device with different X Way addresses Note It is optional to give an X Way address to the Ethernet link of the TSX P57 5634 Without an X Way address it cannot participate in message exchanges with other X Way stations It can nevertheless be connected to P Unit and receive Modbus messaging 256 TSX P57 5634 Performance of I O Scanning Utility At a Glance Restart Time for an I O Scanning Configuration Input Output Restart Time Application Response Time MAST cycle time 20 ms or 80 ms F The performance data given below are those of the Ethernet channel of the TSX P57 5634 when using the I O Scanning utility This time corresponds to the time between the power up of the complete configuration and the moment when all the remote inputs outputs become operational the status bits are activated the word bits IWr m c to lWr m c 4 1 Values are given in seconds e T 35s if the module the channel is used as a DHCP server to connect the scanned devices e T 17 s if the scanned devices use another DHCP server This time corresponds to the time between the power up of the remote input output and the moment
244. uter clocks over the Internet For example the time of one client is synchronized either with another server or to a referenced time source like a radio or satellite receiver Typical time service configurations utilize multiple redundant servers and diverse network paths to achieve high accuracy and reliability Time service accuracy can be within a millisecond on LANs and up to a few tens of milliseconds on WANs Use the time service for e event recording sequence events e event synchronization6 trigger simultaneous events e alarm and I O synchronization time stamp alarms On an Ethernet network all controllers should be synchronized with the same clock time which is provided by an NTP server In each application program events or application data IO values for example can be time stamped using the application stacks The Premium Ethernet interface module an ETY 5103 connects to an NTP time server and provides the source time synchronization signal which is sent to the CPU To read the clock a function block is used in the controlleris project application program NTP Server Ethernet Network NTP Request NTP Response Modicon Quantum System 94 Facilities 4 8 Electronic Mail Notification Service Electronic Mail Notification Service General Mail Service Client The electronic mail notification service allows controller based projects to report alarms or events The
245. utility is to provide automatic recovery of remote I O module parameters or intelligent modules connected to a Transparent Factory Ethernet sub segment When exchanging a faulty module with a functioning module The objective of this utility is e to supply an IP address to a remote station from the Name given to this station Role Name e to give a remote station the capacity to store parameters and also to recover them if required This utility requires the use of the DHCP server see p 87 and the FTP TFTP server of the TSX ETY 4103 PORT 5103 modules or the Ethernet link of the TSX P57 5634 It can manage up to 96 remote stations Utility operating principle Initially 1 The valid remote station obtains an IP address from the name that has been given to it Role Name 2 The valid station gives its configuration parameters to the server Secondly This station breaks down It is replaced with a non configured device of the same type which has the same name as the station it replaces 1 It then transmits a DHCP request to the server 2 It receives its configuration file which was saved first on the server 3 The remote station restarts automatically Note The Role Name is limited to 16 characters in ASCII 93 Facilities 4 7 Time Synchronization Service Time Synchronization Service General Time Synchronization and Time Stamps The time service synchronizes comp
246. ver if the module is used as an address server this page enables you to display and modify the server table e displaying the rack this page enables you to display the configuration of the PLC which is controlling the module e data editor this page allows you to display PLC data e diagnostics functions these pages allow network diagnostics 97 Facilities Connections toa TSX ETY Module The module web site shows static and dynamic pages PLC data To refresh dynamic pages an X Way connection is automatically created between the web browser and the module Note The browser connection X Way address is automatically derived from the moduleis address by taking the same network number and a station number between 54 and 63 It is therefore essential to leave at least one X Way address free in this range of values The number of connections is regulated e itis not possible to connect several browsers on a given PC to the same TSX ETY module e up to 10 PCs connected simultaneously to one module e on a TSX ETY 4103 PORT 5103 and on the Ethernet link of the TSX P57 5634 it is possible to connect a browser and another application e g an XIP driver 98 Facilities HTTP Server Home Page At a Glance This page is the Web site home page It allows you to select e the site language by default the page is displayed in English e to access the site utilities page How to Access The fol
247. ver Rack Display Page 105 HTTP Server Data Editor Page 106 Ethernet Module Diagnostic Pages 108 NTP Diagnostics Page 114 Email Diagnostics Page 116 HTTP Server User Pages 117 96 Facilities Embedded HTTP Server At a Glance Embedded Server Functions Some modules include an embedded Web server which allows e access to PLC data e diagnostics to be carried out on the entire configuration All the processor or module data is presented as standard Web pages in HTML format Access Web pages with Internet Explorer 4 0 or higher running JDK 1 1 4 or higher None of the functions supplied by the Web site require any prior configuration or programming within the module The summary table below shows the various selections possible According to the type of module the availability of these functions changes Function TSX TSX ETY TSX ETY 4103 TSXETY TSX ETY 110 110 WS TSX ETY PORT 5103 ETY 210 TSX P57 5634 Server x X X Predefined pages X X Client pages X X Client site size 1 2 Mb 6 5 Mb Minimum FactoryCast 7 V 3 0 V 3 01 version Legend x Available Not available The functions available on an embedded server are generally as follows e statistics this page shows the Ethernet network statistics e security this page is used to modify the user name and the password to access the site e address ser
248. when all the status bits are activated word bits IWr m c to Wr m c 4 1 The value is given in seconds e T 5s This time corresponds to the elapsed time between the acquisition of a remote input and the positioning of a remote output This is a logic response time which does not take filtering time and actuator and sensor interface response times into account This is an example of time elapsed from acquiring an input to the positioning of an output LCAN Response time a me O4 257 TSX P57 5634 Response time with a cycle of 20 ms 100 90 80 70 F 60 Response time in ms 50 220 210 200 190 180 Response time in ms 170 0 10 20 30 40 50 60 Number of devices scanned 258 TSX P57 5634 Global Data Utility Performances At a Glance The values shown below are given to evaluate the Global Data utility performance on the Ethernet channel of the TSX P57 5634 Definition Global Data return time This time corresponds to the time elapsed between the publication of a variable value by the local PLC application the subscription by a remote PLC application the publication of the same value by the remote PLC application and the subscription by the local
249. window is displayed as below 10 Scanning Not configured 2 papap AS IS ee y Scanned is X 10 Scanning 4 activated E Hee 2 missing A device referenced in the I O Scanning configuration tab can have the following states Scanned green Not configured white Unscanned black caused by I O Scanning utility not being activated none selected in configuration Faulty or absent red Note In the cases of Not configured and Unscanned no Modbus request is generated towards the device 248 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY Debugging Parameters for the Global Data Utility Introduction Global Data When the Global Data utility is activated the status of a Global Data variable is displayed on the screen The window is displayed as below m Global Data Not configured 16 a y SUB Variable 32 Global Data wm FautysuB 48 i activated W PUB variable 64 i Faulty PUB A Global Data variable can have the following status Not configured white SUB variable subscribed variable received in the health timeout limit green Faulty SUB subscribed variable not received in the health time out limit red PUB variable published variable green Faulty PUB published variable not updated within the allotted period yellow
250. with the other PLCs connected to the network The utility therefore requires configuration e of the type of utility e the size of common words e the network number 181 TSX ETY 110 Example of ETHWAY Type Architecture Connected to TCP IP At a Glance The following figure shows the installation of aTSX ETY 110 module in an ETHWAY architecture connected to a TCP IP network Supervisor f 1 3 140 252 1 11 Ethernet Network 1 140 252 factory level Programming terminal Gateway 140 252 2 255 140 252 2 4 Subnetwork 140 252 2 0 cell level Station 2 Station 1 Ba 140 252 2 2 140 252 2 1 1 ETHWAY or TCP IP communication 2 ETHWAY communication 182 TSX ETY 110 Recommended Operating Mode Configuration of the Local Address of the Module of Station 2 Configuration of the Connections of the Module on Station 2 Ethernet Configuration of the Module on Station 2 e P addressing is globally managed because connection is made to an existing TCP IP factory network e Atcell level inter PLC communication uses the ETHWAY utilities COM UNI TE e Communication between the PLC and the supervisor or the programming terminal at cell level uses ETHWAY utilities or UNI TE on TCP IP e Communication between the PLC and the supervisor uses the UNI TE utilities on TCP IP e The frame format used is Ethernet Il Note Cell level ETHWAY utilities are th
251. y Module address Module services al f Rack Module Channel Sae TCP IP 10 100 Extended connection xj NO w l0 Scanning wj Global Data m IP module address NO a te i IP Address Subnetwork mask Gateway Address YES FI See aA COTO O ire ieee v IP Configuration Messaging Global Data SNMP Bandwidth IP Address Configuration Configured IP Address 05205 01 0 Subnetworkmask 0 0 0 0 Gateway Address 0 0 0 0 Froma server m Ethernet configuration fe Ethernet Il C 8023 3 Choose the model family of your network to help you a popup menu appears when you place your mouse over the selection menu Note The network can then be configured following the instructions given in the rest of this document by consulting the chapters describing the configuration procedures for each module type 162 Programming an Ethernet Network How to Declare the Module The following table describes the procedure for declaring an Ethernet module Step Action 1 Open the hardware configuration editor 2 Click twice on the empty slot in which you wish to place the module Result the module catalog window appears Choose the Communication family 4 Choose the desired Ethernet module from the list of Communication family modules Result the module appears in the rack Note in the case of Ethernet solutions integrated in the processors the Ethernet communication channel is automatically declared when
252. y on F flashing O Off ns not significant 52 Communication Ethernet Modules Display Panel Ethernet Diagnostics for TSX P57 5634 Processors Display Block The display block for the TSX P57 5634 processors complies with the Premium standard it has two LEDs specific to the integrated Ethernet channel the STS and ACTLEDs RUN ERR TER VO STS ACT The dedicated Ethernet LEDs define e Line activity for ACT this LED groups the indications of the two RX and TX LEDs e Module status for the STS LED Ethernet Meaning of the diagnostics LEDs Channel F vo Diagnostics STS ACT Meaning O O O No supply to module P ns Ethernet link not operational ns ns Module configured Diagnostics according to how the LEDs are flashing e Steady flashing Ethernet link awaiting configuration or configuration in process e 2 flashes no MAC address e 3 flashes Ethernet cable not connected on the module or Hub side e 4 flashes the IP address is duplicated by another IP address on the network Conflicting remote device flashing in the same way e 5 flashes the Ethernet channel is configured as a BOOTP client and is waiting for a BOOTP server response 7 flashes the version of the Ethernet firmware is incompatible with the PLC processor firmware version in cases where t
253. ype words e 16 0100 on one byte defines the first word to read 16 0A00 on one byte defines the number of words to read Click on the button Send Result The response appears in the Receive Response window Response reception Ossi The response from the example has data on 21 bytes 16 07 corresponds to object type words 16 00C2 corresponds to the value of the first word the most significant and least significant bytes are reversed its value is 16 C200 e 197 TSX ETY 110 198 Modules TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 8 Introduction What s in this Chapter This chapter describes the installation of the modules TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 This chapter contains the following sections Section Topic Page 8 1 General 200 8 2 Configuration 210 8 3 Debug 239 199 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 8 1 General Introduction This section introduces Ethernet communication from a TSX ETY 4103 TSX ETY PORT TSX WMY 100 or TSX ETY 5103 module and their properties What s in this This section contains the following topics Section Topic Page General 201 Characteristics 202 Type of Connections Supported 203 Performance of I O Scanning Utility 205 Global Data Utility Performances 207 Oper
254. yte corresponding to the request that you want to send For this example the read request code is 16 36 Input the data to be sent by coding all the data in hexadecimal The data is sent non stop without any time intervals between them When the data is coded on one word the most significant and least significant bytes are reversed For this example the data is as follows e 16 68 on one byte defines the segment internal data e 16 07 on one byte defines the object type words e 16 0100 on one byte defines the first word to read e 16 0A00 on one byte defines the number of words to read Click on the Send button Result The response appears in the Receive Response window Response reception CASCIl Hex The response from the example has data on 21 bytes e 16 07 corresponds to object type words 16 00C2 corresponds to the value of the first word the most significant and least significant bytes are reversed its value is 16 C200 e 247 TSX ETY 4103 TSX ETY PORT TSX WMY 100 and TSX ETY 5103 Debugging Parameters for the I O Scanning Utility At a Glance Note No I O Scanning for TSX WMY 100 When the I O Scanning utility is activated the status of each configured device is displayed on the screen VO Scanning The
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