Quantum with Unity Pro
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1. family ETHERNET_1 AE Model Family Modul Address p Module Utilities TCP IP 10 100 Regular Connection v ORE Kocie YES w Access Control YES w 1 0 Scanning Module IP Address YES w Global Data P Address Subnetwork Mask Gateway Address YES w SNMP OEO CEON 0 0 0 0 YES v Address Server IP Confugration Access Control 1 0 Sanning Global Data SNMP Address Server Bandwidth IP Address Configuration e Configured IP adress 139 124 10 14 Subnetwork mask 255 255 0 0 Gateway address 139 124 10 1 O Froma server O WEB Configurator Ethernet configuration e Ethernet Il 8023 Description of the selection properties Selection Description Configured Activate the IP address Subnet mask and Gateway address The data is activated after the configuration is downloaded to the PLC Client Server The Quantum NOE Ethernet module receives its IP address parameter through a BOOTP server on startup Web configuration The IP address parameter settings are made on the embedded Web page of the Quantum NOE Ethernet module Ethernet configuration Select the default protocol as Ethernet or 802 3 29 Software Settings 3 3 Messaging Quantum NOE Ethernet Messaging Con2. ETHERNET_1 B El Model Family Modul Address Module Utilities TCP IP 10 100 Regular Connection v Rack Module YES wi Access Control YES w 1 0 Scanning Module IP Address YES w Global Data P Address Subnetwork Mask Gateway Address YES v SNMP 0 0 0 0 0 0 0 0 0 0 0 0 YES Jw Address Server IP Confugration Access Control 1 0 Sanning Global Data SNMP Address Server Bandwidth IP Address Configuration Configured IP adress 139 124 10 14 Subnetwork mask 255 255 0 0 Gateway address 139 124 10 1 O Froma server WEB Configurator Ethernet configuration e Ethernet ll O 8023 Note The availability of the displayed register depends on the selected model family and can vary After selecting the Yes option in module services the tab corresponding to the module is activated 28 Software Settings 3 2 IP Configuration IP Configuration General description The IP configuration tab enables you to configure the IP address settings The settings are activated after the connection to the hardware and the configuration is downloaded to the PLC in the Quantum NOE Ethernet module The diagram shows the IP configuration for the Quantum NOE Ethernet model
3. Setting Description No Setting deactivated Yes Setting activated Parameters are set using the Unity Pro menu window Web Setting activated Parameters are set using the configured NOE Web pages Unity Pro menu window deactivated Not available for every model family Note The availability of the displayed settings depends on the selected model family and can vary The screen shot shows an example of the menu window of the Ethernet module NOE 771 x1 TCP IP 10 100 Regular connection ETHERNET 1 10 Model Family Modul Address p Module Utilities TCP IP 10 100 Regular Connection v AER Meeke YES coni YES Jw 1 0 Scanning Module IP Address YES w Global Data P Address Subnetwork Mask Gateway Address YES w SNMP CEOTTO 0 0 0 0 OOOO YES w Address Server Parameter description Parameter Description Model family Quantum NOE Ethernet Module settings Slot Not used Module services For module service configuration options see above IP address of the Overview of the IP address parameter set module 27 Software Settings After selecting the model family TCP IP 10 100 Regular Connection the following mask appears The image also displays the activated module services
4. The SetRequest shortened to Set PDU is used by the SNMP manager to assign a value to one or more objects OIDs residing in an agent The Trap PDU is used by the agentto alert the manager that a predefined event has occurred 50 Software Settings Version amp Community Identifiers What Can Be Configured The version identifies the version number of the SNMP software being used by the manager and the agent Your NOE supports Version 1 ofthe SNMP The community is an identifier that you assign to your SNMP network If community names for the manager and the agent do not agree the agent will send an authentication failure trap message to the manager If the community names and version number agree the SNMP PDU will be processed Your NOE module can be configured to send an authentication trap to two SNMP managers if it receives a community name in a Get Set request that does not match the configured name Also you can configure the SysContact and SysLocation via the configuration page in the module s Embedded Web pages After making changes in the SNMP Configuration Web page and to set those changes reboot the module using hot swap 51 Software Settings Configuring a NOE with TFE Private MIB Introduction Schneider Private MIB A MIB a Management Information Base is an element used in network management Network management services are based on the need to monitor and to manage
5. Private Traps and MIB Files Service Description profileSpecificld 14 Indicates a unique Profile Specific Identification inside the equipmentProfile object of the Schneider Transparent Factory MIB For example the PLC Premium family is 100 profilelpAddress 15 Indicates the IP address of the SNMP agent profilelpNetMask 16 Indicates the subnet mask associated with the IP address of the SNMP agent The value of the mask is an IP address with all the network bits set to 1 and all the host bits set to 0 profilelpGateway 17 Indicates the default Gateway IP address of the SNMP agent profileMacAddress 18 Indicates the Ethernet media dependent address of the SNMP agent Traps are used to signal Status Changes to the manager Using traps helps to avoid adding traffic The four status changes signaled by the trap are for the e LEDs e Communication Ports e O Scanning Health Values e Global Data Health The following list describes the characteristics of private traps which means that they can e Send messages to the two managers whose IP addresses are configured in the SNMP configuration either the PL7 or the Web page e Use the community name given to this configuration e Enable or disable each of the Transparent Factory Ethernet Private MIB groups Switch 1 Port502 Messaging 2 l O Scanning 3 Global Data 4 Web 5 Address Server 6 and Equipment Profiles 7 Private tr
6. 36 Software Settings 3 5 Global Data Configuration Ata Glance Introduction This chapter contains a description about Global Data configuration What s in this This section contains the following topics Section Topic Page Planning the Global Data Publish Subscribe System 38 Quantum NOE Global Data Configuration 42 37 Software Settings Planning the Global Data Publish Subscribe System Overview Key Features of Global Data Global Data service is a real time Publisher Subscriber mechanism providing the most efficient data exchange for PLC application coordination Devices supporting Global Data are arranged in a distribution group for the purpose of application variable exchange and synchronization Each Global Data device can publish up to one network application variable and subscribe up to 64 network application variables The Quantum NOE s embedded Global Data Configuration Web page provides a configuration screen to determine which and how many application variables are exchanged with this service After configuration the exchanges between all stations belonging to the same distribution group are done automatically The Global Data service uses MW 4x registers for Global Data exchanges The main features for Global Data are e One publisher and many subscribers e Adevice can publish one network variable of up to 512 MW words 4x registers e
7. but this list contains at least the No_Link field The following figure shows the window for the Ethernet link for the Quantum NOE module 3 UNITY Station 3 Variables 3 Communication Ee 3 Network i I Ethernet 1 l Ethemet 2 tit 1 4 SubsetENETLF Bel 3 Configur ENETFE Ep Sy 0 X Bus x 0 PremiumDrop i 3 0 TSX RKY 12EX Overview A General STER i CPU 534 Please choose a Network i a i LD 2 No Link v i p 3 ink D 4 GEE l 5 vestir Gs When a network is attached to a module the icon of the corresponding node is changed and the network editor displays the address of the module in the rack The Icon in the Network folder indicates whether the link is attached to a module or not Icon when no communication module is attached to the NetLink uu Icon when a communication module has been attached to the NetLink 23 Start Communication with Unity Pro Link between data and communication Network The groups of Ethernet network variables are created in the Ethernet network Variables and communication folders An IP domain determines a group In Unity Pro one network Groupes can support only one group In Data Editor the list of all current groups is provided to select in whi
8. Maximum size of the configuration file per device 4K bytes Total size of Faulty Device Replacement storage 512K bytes Maximum Role Name size 16 Characters Note For the DHCP Server to work correctly the following must be observed e Address class and subnet class configured for the devices has to match e Address class of the NOE and of the devices has to be the same Operating on a Corporate Network Note Operating on a corporate network e Before placing the NOE on a corporate network Schneider Automation recommends that you discuss the installation with your MIS department It is likely that your company s corporate network has at least one DHCP Server running already If the NOE s DHCP server is running on the same network it may disturb the network e To avoid any possible problem related to the NOE s DHCP server on the corporate network you have to ensure that the DHCP server is not running in the NOE by not having address entries in the configuration If there are no configured devices in the Address Server Configuration page then the NOE will not start the DHCP server Available FDR Three FDR agents are available Agents e Momentum ENT e Micro ETZ e ATV58 Available 2002 The role name prm configuration files are stored in the NOE in non volatile memory Therefore after a power failure all configurations will be available BOOTP and Use either the MAC Address or the Role Name to assign IP add
9. A device can subscribe of up to 64 network variables of up to 2048 MW words 4x registers A device subscribes to the complete network variable One distribution group per network IP address Application defined publication rate Up to 64 Global Data Network variables numbered from 1 to 64 can be part of the data distribution group e A NOE has only one multicast address consequently it can only publish and subscribe inside the group e A device can participate in several distribution groups by using multiple NOEs in the rack Global Data has an advantage over Client Server services when more than one subscriber is receiving the same data since only one transaction is necessary for all subscribers to receive the data This advantage offers two benefits e Reduce overall network traffic e Ensure tighter synchronization of multiple subscribers 38 Software Settings Planning Your System Configuration The Global Data Publish Subscribe utility is a powerful function incorporated into the NOE product line Implementing Global Data requires a configuration that spans many PLCs throughout the system Therefore we recommend preplanning your installation before implementation Work spent on preplanning saves time and money by reducing errors and unnecessary debugging time Preplanning also serves as an aid to ensuring consistency throughout the system Go to paper before computer We offer the following table to help w
10. Configuration At a Glance Introduction What s in this Section This chapter contains a description of the I O Scanner configuration This section contains the following topics Topic Page I O Scanner Concepts 32 Quantum NOE l O Scanner Configuration 36 31 Software Settings l O Scanner Concepts Overview Introduction I O Scan List The following information describes how to configure the l O scanner The NOE 771 Ox x1 and CPU 651 x0 modules provide an I O scanner It will be configured with the Schneider Electric programming packages or directly by using the internal NOE I O Scanner Web site NOE 771 Ox and x1 only In both ways the user can configure data and transfer it between network nodes without using the MSTR instruction The I O Scanner is a feature of the NOE module which allows repeated reading and or writing to Input Output devices The I O scan list is a configuration table that identifies the targets with which repetitive communication is authorized The list contains enough information to enable each target to construct the MODBUS message addressed to the specified remote device and to designate where on the local controller the input and output data are to be mapped at the end of the scan While the controller is running the NOE module transfers data to and from the controller s registers and coils as indicated by the I O scan list The user con
11. Data network Only by using the Microsoft Excej M spreadsheet Information per device Total Publication Size per Node Publication size for the specific node The maximum publication size is 512 words registers per node Total Subscription Size per Node Subscription size for the specific node The maximum subscription size is 2048 words registers per node Group IP Address Enabled IP address for multicast networking Identifies the stations distribution group The address range is from 224 0 0 0 to 239 255 255 255 Multicast Filtering Enabled A check box for Ethernet switches that support multicast filtering 40 Software Settings Parameter Description Default Address for Health MW 4x register MW 4x register address for the Health bits This is the memory area where the Health bits are stored It has the size of 4 words registers Distribution Period Is the minimum number of controller scan times before an update will occur Health Timeout Is the maximum time between received subscriptions before a subscription is declared unhealthy faulty The value is measured in milliseconds and can be set to a value that ranges from 50 through 1000 ms increase in units of 50 ms Data Zone The starting address for the data This are the registers where the data information are stored 41 Software Settings Quantum NOE Global Data Con
12. Monitoring Load Rates The Bandwidth Monitoring service checks once a second and computes four 4 values in private data e Percentage of NOE s CPU allocated to Global Data e Percentage of NOE s CPU allocated to the I O Scanner e Percentage of NOE s CPU allocated to Messaging e Percentage of NOE s CPU allocated to other services and idle Results are returned as percentages CPU time spent in other services is shown as Other or Free Bandwidth Monitoring uses the same functions as used by SNMP The three service rates Global Data I O Scanner and Messaging are computed using the following formula Current load 100 Maximum Load Table of Maximum Load Rates Diagnostic Service Workload Data Returned Maximum load for NOE 771 x1 Global Data Number of published variables per second 800 1 O Scanner Number of transactions per second 4200 Messaging Number of messages treated per second 410 The current load is computed dynamically Note The loads are dependent on controller scan time Each application has an expected scan time Therefore when evaluating the loads the user should ensure that the controller scan time is set to the expected scan time for the application being modelled 70 Software Settings Quantum NOE Bandwidth Monitor Configuration Introduction Using the program window of the Bandwidth monitor the user can display the distribution of the ne
13. e Performance e Fault occurrences e Security Each MIB contains a finite number of objects Manage your MIB with a management station running an SNMP management application The management application uses GETs and SETs to retrieve system information and to set system environment variables Note The TFE private MIB is available only in the 140 NOE 771 01 11 and 140 NWM 100 00 the Transparent Factory Real Time modules The 140 NOE 771 00 and 10 the Transparent Factory modules use the previous MIB Schneider Automation obtained a Private Enterprise Number PEN from the Internet Assigned Numbers Authority IANA That number represents a subtree in the SNMP MIB a number that is a unique identifier used for Groupe Schneider The object identifier for the root of the Groupe Schneider subtree is 1 3 6 1 4 1 3833 and represents a path to the subtree as follows iso 1 org 3 dod 6 internet 1 private 4 enterprise 1 GroupeSchneider 3833 Transparent Factory Ethernet 1 Under the GroupeSchneider private MIB is a Transparent Factory Ethernet TFE private MIB Transparent Factory Ethernet 1 52 Software Settings TFE Private MIB The Transparent Factory SNMP embedded component controls the Schneider private MIB function The Schneider private MIB and associated services perform Network Management on all components of the system The Transparent Factory private MIB provides the data to
14. org Web pages Search for the combination of comp protocols snmp and FAQ e A list of print books about SNMP appears in the SNMP FAQs In addition a search of most online retail book sites will yield a substantial list of titles ASN 1 Naming Scheme ASN 1 Overview X Abstract Syntax Notation One ASN 1 is a formal language for abstractly describing messages to be exchanged between distributed computer systems 48 Software Settings An Example Objects in a MIB are defined with the ASN 1 naming scheme that assigns each object a long prefix that guarantees that the name will be unique For example an integer that counts the number of IP datagrams that a device has received is named iso org dod internet mgmt mib ip ipinReceives The following figure depicts the ASN 1 Naming Scheme example TD iso 1 org 3 dod 6 internet 1 directory 1 mgmt 2 experimental 3 mib 2 system 1 interfaces 2 address ip 4 translation 3 ipForwarding 1 ipDefaultTTL 2 ipinReceives 3 This object name is represented in an SNMP message by assigning each part an integer So the above message would appear as 1 3 6 1 2 2 4 3 Each integer has the following meaning e 1 ISO International Organization for Standardization e 3 identified organization one of branches under the ISO root e 6 U S Department of Defense DOD one of the children under branch1 3 e 1 the Internet subtree
15. the total number of error messages built by the Port502 messaging entity and sent to the network port502AddStackStat 12 Indicates the support of additional port502 stack statistics 1 Disabled 2 Enabled port502AddStackStatTable 13 Indicates additional stack statistics for Port502 optional 56 Software Settings 1 O Scanning Thel O Scanning 3 subtree or group contains the objects related to l O Scanning Subtree device management and associated MODBUS communications on Port502 Service Description ioScanStatus 1 Indicates the global status of the I O Scanning service 1 Idle 2 Operational 3 Stopped ioScanMaxDevice 2 Indicates the maximum number of devices supported by the I O Scanning entity ioScanPolledDevice 3 Indicates the number of devices currently polled by the 1 0 Scanning entity ioScanTransSend 4 Indicates the total number of transactions sent by the 1l O Scanning entity ioScanGlbHealth 5 Indicates the global status of health for the I O Scanning service 2 OK Every remote I O device is responding 4 Warning At least one remote I O device is not responding ioScanDeviceTable 6 Displays a table containing information on each remote devices polled by the I O Scanning entity 57 Software Settings Global Data Subtree The Global_Data 4 subtree or group contains the objects related to the Glo
16. under 1 3 6 e 2 the mgm branch one of seven of the Internet subtree It is managed by the Internet Assigned Numbers Authority and includes the standard MIBs 2 mib 2 1 group of managed objects 4 ip the mib 2 1 IP group one of 11 e 3 ipinReceives the MIB object 49 Software Settings Configuring a NOE with SNMP The Object Identifier OID SNMP Protocol Data Units GetRequest PDU SetRequest PDU Trap PDU In the ASN 1 Naming Scheme example the MIB object identified by the notation 1 3 6 1 2 2 4 3 is referred to as the Object Identifier or OID All OIDs can be envisioned as part of a tree structure which begins at the root ISO and branches out with each subtree identified by an integer SNMP uses Protocol Data Units PDUs to carry the requests and responses between the manager and the agents for the information contained in an OID As the following figure shows the SNMP message is the innermost part of a typical network transmission frame Local Local IP UDP SNMP Network Header Message Network Header Trailer Header GetRequest SetRequest The PDUs within the SNMP initiate the communication between the manager and the agents The SNMP installed on your NOE module uses the following three PDUs e GetRequest e SetRequest e Trap The GetRequest shortened to Get PDU is used by the SNMP manager to retrieve the value of one or more objects OIDs from an agent
17. 33002467 00 Quantum with Unity Pro TCP IP Configuration User Manual eng Document Set Document Set Presentation This package contains the following manuals Quantum and Premium Communication Architecture Reference Manual 140 EIA 921 00 Quantum AS i Bus Interface Module User Manual Quantum TCPIP IP Configuration User Manual Quantum Modbus Plus Network Modules Quantum Ethernet Network Modules User Manual 140 ESI 062 10 Quantum ASCII Interface Module User Manual Document Set Table of Contents Ky Safety Information 2 000 c eee eee 7 About the BOOK ssuau auk REOR WRERAAKETRWREAARERA NEAR 9 Chapter 1 Ethernet General Information o ooooooo 11 Ethernet and 802 9 cedi esee sU chao pel gaude acp odes 11 Chapter2 Start Communication with Unity Pro 15 Ata GlanGe ici ri e EE EIE PERG Rud E SD Ede da 15 2 1 Howto configure the communication 0 0 0 eee eee 17 OVOIVIOW es iu meii e noe dle odo dde ERES 17 Add a new network to the Communication folder o ooooo 18 Configure NetWork ocre ceire ci d bbb eee der ee RR ERR E 19 Properties of anetwork 0 0 cee e 19 Delete an existing network folder 0 0 0 cece ee oo 20 2 2 Unity Soft Communication Links 1 0 0 lees 21 At a Glanoe ios tae Oe Dae ER Daria ee a Oe iaa eee ox 21 Communication Configuration Principle 0 00 eee 22 Link between Con
18. Configuration llis 63 Ata Glance o eerta URBE RUE ee A 63 Address Server Configuration Faulty Device Replacement 64 Quantum NOE Address Server Configuration llle 67 Bandwidth Monitor Configuration llle 68 Ata Glance vcio eh m ike a ER XGA xn pa Da oec 68 Bandwidth Monitoring sseeee RII 69 Quantum NOE Bandwidth Monitor Configuration o ooooooooooo 71 AAA Cru Rai da d dus EE Ead ua da dE Fra cet at 73 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 A that an electrical hazard exists which will result in personal injury if the instructions are not followed This is the safety alert symbol It is used to alert you to potential personal A 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 A WARNING WARNING indicates a potentially hazardous situat
19. SUB oup EJ GD MW893 Array 1 10 MW893 O PUB E 1 4 amp X temperature Int MW22 0 PUB Group_1 E Valve12 Valve MW381 O SUB Group 1 4 amp X Counter Int MW100 0 SUB Group 2 10 7 P xl Int MW200 100 NO Ey Ethernet wW Data Editor i Ethernet 24 Software Settings for Ethernet Communication Ata Glance Introduction What s in this Chapter This chapter contains all information required for configuring Ethernet communication software settings This chapter contains the following sections Section Topic Page 3 1 Selecting the Ethernet Module 27 3 2 IP Configuration 29 3 3 Messaging 30 3 4 I O Scanner Configuration 31 3 5 Global Data Configuration 37 3 6 SNMP Configuration 44 3 7 Address Server Configuration 63 3 8 Bandwidth Monitor Configuration 68 25 Software Settings 26 Software Settings 3 1 Selecting the Ethernet Module Selecting the Quantum NOE Ethernet Module General description After configuring Ethernet communication see Add a new network to the Communication folder p 18 the Ethernet module parameters can be configured When you select the model family all the corresponding communication module configuration options are displayed automatically The module services allow the following settings to be made Table of module service configuration options
20. after which the data is received or sent Minimum scan time of the PLC Group name Logical name Defines the varibale allocation to different communication configurations in the variablen editor Status bit block Address for retrieving the status information of the global data procedure Multicast filtering Activates an Ethernet switch on connection that supports Multicast filtering 42 Software Settings The screen shot shows an image of the data editor Variables DDT Types Function Blocks DFB Types Filter Name hi Y EDT M DDT Iv IODDT Name Type Address Global Group Enet ID ME VALVE STATUS ARRAY 0 19 OF Word MW200 PUB plantgrp 1 ME VALVE CONTROL ARRAY 0 9 OF Word MW220 SUB plantgrp 2 4 PUMP STATUS ARRAY 0 99 OF Word MW230 SUB plantgrp 3 Parameter description Parameter Description Name Variables ID Type Variable type Address Variable address Enet Type of Global Data Variable Options No Publish Subscribe Group Group name for allocating the variables of the existing network description When creating the different Ethernet networks a logical connection is arranged here between the network and the variable declaration Enet ID Ethernet ID Representation of the administr
21. aps are described in the MIB ASN 1 description which is contained in a mib text file 61 Software Settings Quantum NOE SNMP Configuration Introduction The SNMP settings described are entered in the following mask The screen shot shows an image of the SNMP configuration IP Configuration Access Control 1 O Scanning Global Data SNMP Address Server Bandwidth IP Address Managers IP Adress Managerl 139 150 33 10 IP Adress Manager2 139 150 90 20 Agent Location SysLocation MyLocation SNMP manager Contact SysContact MyContact Community names Security Set public Get public Enable Authentification Failure trap Trap public Parameter description Parameter Description IP address manager1 IP Address Computer of the SNMP responsibility IP address manager2 Alternative IP Address Computer of the SNMP responsibility e g substitute Location SysLocation Information about module location Contact SysContact Information about the system administrator SNMP manager Reserved Setting Security setting for rights to modify the configuration Public Secret Getting Security setting for rights to view the configuration settings Public Secret Trap Security setting for ri
22. ative order 43 Software Settings 3 6 SNMP Configuration Ata Glance Introduction This chapter contains a description about how to configure a Simple Network Management Protocol SNMP Note Simple Network Management Protocol SNMP is not supported by the CPU 651 x0 modules What s in this This section contains the following topics Section Topic Page SNMP 45 ASN 1 Naming Scheme 48 Configuring a NOE with SNMP 50 Configuring a NOE with TFE Private MIB 52 Quantum NOE SNMP Configuration 62 44 Software Settings SNMP Overview Introduction Manager Agent Paradigm Simple Network Management Protocol The MIB The Private MIB This following information describes the Simple Network Management Protocol SNMP which is configured on your NOE Network management software allows a network manager to e Monitor and control network components e Isolate problems and find their causes e Query devices such as a host computer routers switches and bridges to determine their status Obtain statistics about the networks to which they attach Network management software follows the conventional client server model To avoid confusion with other network communication protocols that use the client server terminology network management software uses the following terms e Manager For the client application that runs on the manager s computer
23. bal Data service Service Description glbDataStatus 1 Indicates the global status of the Global Data service 1 Idle 2 Operational 3 Stopped glbDataMaxPub 2 Indicates the maximum number of published variables configured by the Global Data entity glbDataMaxSub 3 Indicates the maximum number of subscribed variables configured by the Global Data entity glbDataPub 4 Indicates the total number of publications sent to the network glbDataSub 5 Indicates the total number of subscriptions received from the network glbDataPubErr 6 Indicates the total number of publication errors detected by the local entity glbDataSubErr 7 Indicates the total number of subscription errors detected by the local entity glbDataGibSubHealth 8 Indicates the global status of health for the Global Data subscribed variables 2 OK The health status of all subscribed variables are OK 4 Warning At least one subscribed variable has a health fault glbDataPubTable 9 Displays a table containing information on each published variable the number of publications the source IP address the number of errors glbDataSubTable 10 Displays a table containing information on each subscribed variable the number of subscriptions the source IP address the number of errors Health 58 Software Settings Web Subtree Address Server Subtree The Web 5
24. cation with Unity Pro Ata Glance Introduction What s in this Chapter This chapter presents how to start the configuration of an Ethernet network within Unity Pro This chapter contains the following sections Section Topic Page 2 1 How to configure the communication 17 2 2 Unity Soft Communication Links 21 15 Start Communication with Unity Pro 16 Start Communication with Unity Pro 2 1 How to configure the communication Overview Overview This section describes how to configure the communication What s in this This section contains the following topics Section Topic Page Add a new network to the Communication folder 18 Configure Network 19 Properties of a network 19 Delete an existing network folder 20 17 Start Communication with Unity Pro Add a new network to the Communication folder Add a new network to the Communication folder After starting a new application the Communication folder under Station tree branches the Network folder and the Routing table folder only on Premium platform These two folders are empty Under the Network folder the user can insert the networks by menu A click on the right mouse button above Network pops up a contextual menu The user selects the type of network he wants to add For easier use a network name will be suggested with the prefix of the network type Ethern
25. ch group each Ethernet network variables is included Nevertheless the group field is also a free entry editing box in order to give a group name not yet defined in communication folder The build step checks this link The illustration shows corresponding fields in Communication configuration and the Data Editor Ts Structural view Global data configuration X Station 3 Configuration Health time out 300 ms Group address 239 255 255 255 E Derived Data Types Distribution period 2 El scan Group name Group 1 1 Derived FB Types 3 Variables 3 Communication lolx QI Networks L Messaging 10 Scanning Address Server SNMP Global data Bandwidth MP Ethernet plant AS M Ethernet PLC obal data configuration Program Health time out 250 gt ms Group address 239 255 255 255 3 Animation Tables tees y i Distribution period 5 lt scan Group name Group_2 5 Operator Screens P P P 3 Documentation Data Edito Pils ES Variables DDT Types Function Blocks DFB Typss r Filter F Name i EDT MDDT M 0DDT Name Typ Address Value Global Enpt ID La oD 00 Arra MW500 0
26. e Agent For the application that runs on a network device The manager uses conventional transport protocols e g TCP or UDP to establish communication with the agent Managers and agents then exchange requests and responses according to the network management protocol Your NOE module is configured with the Simple Network Management Protocol SNMP which is the standard protocol used to manage a local area network LAN SNMP defines exactly how a manager communicates with an agent The SNMP defines the format of the requests that a manager sends to an agent and the format of the replies that the agent returns to the manager Each object SNMP has access to has to be defined and given a unique name Both the manager and agent program must agree on the names and the meanings of the fetch and store operations The set of all objects SNMP can access is known as a Management Information Base MIB Schneider obtained a private MIB Groupe_Schneider 3833 Under the Groupe Schneider private MIB is a Transparent Factory Ethernet TFE private MIB The Transparent Factory SNMP embedded component controls the Schneider private MIB function 45 Software Settings Choosing a If you have a SNMP Manager already working you may continue to use that SNMP SNMP Manager Manager If you are selecting a SNMP Manager there are many SNMP Managers on the market and you may use any of these managers You must use a SNMP Version 1 complia
27. e subnet mask determines the size of a network The combination of the subnet mask and the IP addresses results in the combination composition of the subnets and the number of possible network nodes in the subnet A part of the IP address is therefore defined as the Subnet This is defined via the Subnet mask The Gateway address determines where the data packets are to be sent This can depend on the local network card or a Gateway Router in the local subnet 13 Ethernet General Information Cabling There are different ways to create Ethernet LANs They differ considerably in the type of cable and method of connection The following table shows the most common types of cabling Type Description 10BaseT Twisted Pair 100BaseT The most heavily used form of Ethernetis the 10xBaseT 10BaseT was developed in 1986 as shielded 1000BaseT cables A constant development has occurred since then The standard today is the 100BaseT The first character in the label stands for the transmission speed in MBits s A disadvantage of the 10xBaseT is the low maximum extension of the network Only a maximum expansion of 205 m between two stations can be achieved A station can be situated 100 m from the hub The distance between two hubs can be 5 m 10BaseF Fiber Optic Connection of Ethernet components using fiber optic cables The distance between the fiber optic module and hub can be up to 500 m 14 Start Communi
28. er profileGlobalStatus 4 Indicates the global status of the communication module 1 nok 2 ok profileConfigMode 5 Indicates the IP configuration mode of the communication module 1 Local The IP configuration is created locally 2 dhcpServed The IP configuration is created by a remote DHCP server profileRoleName 6 Indicates the role name for the IP address management if it exists Empty string if there is none profileBandwidthMgt 7 Indicates the status of Bandwidth Management 1 Disabled 2 Enabled profileBandwidthDistTable 8 Indicates the CPU time distribution between Global Data Port502 Messaging I O Scanning profileLedDisplayTable 9 Displays a table giving the name and the state of each module s LEDs profileSlot 10 Indicates the position of the communication module inside the rack if there is one If there is no rack the profileSlot value will be zero profileCPUType 1 1 Indicates that if the CPU type exists this variable identifies the host for which that communication module is a part If there is no host the string is empty profileTrapTableEntriesMax 12 Indicates the maximum numbers of entries in the Trap Table This entry equals the number of possible remote managers profileTrapTable 13 Displays a table allowing you to enable or disable the private traps for each of the communication services 60 Software Settings
29. ernet and 802 3 General description Ethernet was introduced in 1980 as Ethernet 1 and developed by the DEC Intel and Xerox companies This Ethernet later formed the basis of the 802 3 LAN from IEEE that was published as the ISO standard in 1990 Since 1990 Ethernet products have been produced almost exclusively according to the 802 3 standard The topology of an Ethernet corresponds to that of a bus system However the physical cabling can be made in point to point form Hubs Switches form the logical bus of the Ethernet from a physical point 11 Ethernet General Information Framework Ethernet LAN und 802 3 LAN haben unterschiedliche Rahmenformate The formats different formats are shown below Ethernet frame format Preamble Destination Source Protocol Data FCS 8 Bytes 6 Bytes 6 Bytes 2 Bytes n Bytes 4 Bytes 802 3 frames MAC frame format Preamble SFD Dest Source Length Logical Link Control FCS DSAP SSAP CTL DATA and PAD Field 8 Bytes 1 Bytes 6 Bytes 6 Bytes 2 Bytes 1 Byte 1 Byte 1 2 Byte nBytes 4 Bytes The following table contains a description of the frame parameters for Ethernet and 802 3 Parameter Description Preamble Identifies the prefix of an Ethernet 802 3 frame Used for synchronizing the destination SFD The SFD field has the bit pattern 10101011 and identifies the start of the frame Des
30. escription is created in the ASN 1 format The ASN 1 file s are then given to producers of SNMP manager software for inclusion in their products 55 Software Settings Port502 Messaging Subtree The Port502_Messaging 2 subtree or group provides connection management and data flow services The following list describes the function of each object Service Description port502Status 1 Indicates the status of the service Idle Operational port502SupportedProtocol 2 Indicates the supported protocols MODBUS Xway port502IpSecurity 3 Indicates the status of the Port502 IP Security service enabled disabled port502MaxConn 4 Indicates the maximum TCP connection number supported by the Port502 entity port502LocalConn 5 Indicates the TCP connection number currently opened by the local Port502 entity port502RemConn 6 Indicates the TCP connection number currently opened by the remote entity to the local Port502 entity port502IpSecurityTable 7 Indicates a table containing the number of unsuccessful TCP connection open tries from a remote TCP entity port502ConnTable 8 Indicates a table containing Port502 TCP specific information Msgln MsgOut port502Msgin 9 Indicates the total number of Port502 messages received from the network port502MsgOut 10 Indicates the total number of Port502 messages sent from the network port502MsgOutErr 11 Indicates
31. et_1 or ModbusPlus_1 By choosing a new network the next available number for the network is chosen automatically like e g Ethernet_1 then Ethernet_2 and so on At any moment the user may rename any NetLink The user can also attach a comment that describes each configured network The OK button adds the network as subfolder The names of network nodes are also called NetLink These are the names of logical networks lt j Station 3 Configuration 3 Derived Data Types 3 Derived FB Types E Variables amp FB instances C Communication 5 eors 3 Program 3 Animation Add User Directory j Operator Add Hyperlink H QA HE E d Documen zmot Lt Add Network Network Comment 43 Station List of available Networks j Configuration v E Derived Data Types 3 Derived FB Types 3 Variables amp FB instances Ethernet_1 y Communication O E 1 EH E __ Ethernet 1 OK Cancel Help 3 Program Animation Tables 3 Operator Screens J Documentation ie HE is cmm EE 18 Start Communication with Unity Pro Configure Network Configure On the network folder by a double clicking action or by the Open item on contextual Network menu the editor of the corre
32. figuration Introduction Global data configuration is carried out in the network configuration as well as the data editor The variables for the Publish Subscribe procedure are configured in the data editor The screen shot shows the network configuration Global data configuration settings ETHERNET_1 all Model Family Modul Address Module Utilities TCP IP 10 100 Regular connection v Rae Module YES oL Cono YES 1 0 Scanning Module IP Address YES J Global Data P Adresse Subnetwork Mask Gateway Address YES w SNMP ONENE 0 0 0 0 0 0 0 0 YES Jw Address Server IP Configuration Access Control 1 0 Scanning Global Data SNMP Address Server Bandwidth Global data configuration HealthTimeout 10007 ms Group address 239 10 10 10 Distribution period 10 Sj scan Group name plantgrp Health bit block 961 WIW 9IW1 v Multicast Filtering Parameter description Parameter Description Health timeout After this time period has run out the data received becomes invalid Group address Class D Multicast IP address All nodes in the global data procedure use the same Multicast address for distributing or receiving data The address range is 224 0 0 0 to 239 255 255 255 Distribution time Time
33. figuration Introduction Ethernet Messaging gives the user the opportunity to send and receive Ethernet messages Data traffic is handled by the Client Server procedure The illustration shows the Ethernet Messaging dialog box ETHERNET_1 Model Family Modul Address Module Utilities TCP IP 10 100 Regular Connection v kac Moue 1E d YES w Module IP Address YES v P Address Subnetwork Mask Gateway Address YES w OOOO OT CUERO RR DEEE SCN SEEO YES Iw IO Access Control 1 0 Scanning Global Data SNMP Address Server IP Configuration Access Control 1 0 Scanning Global Data SNMP Address Server Bandwidth Connection configuration Access Slave IP Address A 139 124 10 11 RR 100 32 0 12 100 32 0 11 100 32 0 10 100 32 0 14 139 124 10 12 139 124 10 13 co e OT uu o a 100 32 0 12 100 32 0 18 100 32 0 10 139 124 10 15 AR RR RR RR Parameter description Setting Description Connection Activates general data transfer configuration Access Activates data transfer between specific nodes Slave IP address Defines the node for the Ethernet Messaging procedure 30 Software Settings 3 4 I O Scanner
34. figuration and Communication oo ooocooooooo 23 Link between data and communication llle 24 Chapter 3 Software Settings for Ethernet Communication 25 Aba Glance 2 aia ed aka x ae eee ds aoa in RGG ark ale we he we aks 25 3 1 Selecting the Ethernet Module 0 0 cece tee 27 Selecting the Quantum NOE Ethernet Module 22 005 27 3 2 IP CorflgUratlon msi tc x edo Bee ae ee a eee SOR 29 IP Configurations xsv niii a MEO add PR a odd 29 3 3 Messaging c eter da carne Od ake dH dd 30 Quantum NOE Ethernet Messaging Configuration o oooooooo o 30 3 4 I O Scanner Configuration 00 cee ee ee 31 RC AA a aa y a eer de alee dba Reate ee 31 V O Scanner Concepts 32 Quantum NOE I O Scanner Configuration 00 e eee eee 36 3 5 3 6 3 7 3 8 Global Data Configuration 0 ssaa sanaca 37 Ata Glance o oe ees Rie ee EO o gee o cente Se eC RC en Me ete 37 Planning the Global Data Publish Subscribe SysteM 38 Quantum NOE Global Data Configuration lessen 42 SNMP Configuration llle Ih 44 Ata Glance s iiem aer ex ems RR eek ctii o hk dt ARCET 44 nmm 45 ASN 1 Naming Scheme o ooooocoocconcr eene 48 Configuring a NOE with SNMP seeeesee e I 50 Configuring a NOE with TFE Private MIB 0 0 eee enn 52 Quantum NOE SNMP Configuration llle eere 62 Address Server
35. figures the I O scan list with the Schneider Electric programming packages There can be multiple instances of the I O scan list Peer Cop restrictions apply The individual scan lists for each module are identified by the Quantum backplane slot number where the NOE is installed 32 Software Settings 1 0 Scanner Definitions Quantum Status Word Information Health Bits Peer Cop and Enhanced MODBUS TCP Scanners Note Health bits run differently e O Scanner health bits run left to right e Global Data health bits run right to left The following table lists and defines the terms that are used to describe the I O Scanner operation Term Definition Scan List The list of input and or output devices that the NOE module is configured to scan Specific Input Input to the controller on the backplane where the NOE resides Specific Output from the controller on the backplane where the NOE resides Output Peer Cop Legacy I O Scanner support to upgrade MODBUS Plus l O applications to Ethernet Ethernet I O Provides high performance cyclic communication service to the controller Scanner For a better diagnostic of the Quantum CPU status the programmer has the possibility to analyze the Quantum status words For detailed information refer to Quantum System Objects in the Unity Pro Reference Manual The following bits contain the health status for the Quantum I O Sca
36. ghts to receive SNMP information Public Secret Activate Authentication error trapping device Message for faulty login 62 Software Settings 3 7 Address Server Configuration Ata Glance Introduction What s in this Section This chapter contains a description about the Quantum NOE Address Server configuration This section contains the following topics Topic Page Address Server Configuration Faulty Device Replacement 64 Quantum NOE Address Server Configuration 67 63 Software Settings Address Server Configuration Faulty Device Replacement Overview Identifying a Role Name The Address Server provides 2 capabilities 1 Standard BOOTP Server Behavior Enter the MAC Address and IP Configuration The NOE BOOTP server will provide the IP configuration when the device sends a BOOTP request 2 Faulty Device Replacement FDR Behavior Enter the Role Name or the MAC Address of the device The device will send its Role Name or the MAC Address with its DHCP request With the DHCP response from the NOE the device will receive its IP Configuration plus the name and location of a configuration file The next step for a FDR compliant device is to download its configuration from the NOE Consult your Schneider Automation Sales Representative for the current list of FDR Compliant devices The Address Server in the NOE supports both modes at the
37. he new device and the task is completed You have a new configuration scheme for I O and smart devices which allows e Creating an automatic network configuration e Managing automatic application parameters Faulty Device Replacement is implemented using the combination of DHCP and FTP TFTP standard protocols The device implements a DHCP client and an FTP or TFTP client Choosing between FTP and TFTP has no direct impact on your system The choice depends only on device memory footprint TFTP is much smaller than FTP Faulty Device Replacement offers the following functionality e FDR Manager e FDR Agent Faulty Device Replacement management is based on three entities e Agent device embedding the DHCP client and FTP TFTP client e DHCP server e FTP TFTP server The logical Role Name should be written on devices The technician can get the new device from stores enter the corresponding Role Name into the device and place the device in the system The device automatically gets its configuration and starts running with no further input from the technician This process is designed to get your machine up and running quickly All the technician has to do for any FDR compliant device is to enter the Role Name into the new device 65 Software Settings Address Server This table displays the parameters and limits of the Address Server Limits Parameter Limit Maximum number of Address Server entries 128
38. ion which if not avoided can result in death serious injury or equipment damage N 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 be 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 O 2003 Schneider Electric All Rights Reserved About the Book Ata Glance Document Scope This documentation describes hardware and software installation procedures for the TCP IP bus This documentation is valid for Unity Pro from version 1 0 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 Documents Title of Documentation Reference Number Quantum Hardware Reference Manual UNY USE 10010V10E Quantum Discrete and Analog I O Reference Manual UNY USE 10010V10E Quantum Experts and Communication Reference Manual UNY USE 10010V10E Grounding and Electromagnetic Compatibility of PLC System
39. ith your system planning The table below is a graphic representation of a recommended configuration table for system planning which we call the Global Data Planning Spreadsheet You may create your own table using the format below or you may download a Microsoft Excel M spreadsheet template which is available on the Schneider public Web site Here is the graphic representation of the Global Data Planning Spreadsheet Parameter Variable ID Symbol Length Device Number Variable Checking Registers Public Status 1 2 api 3 VALVE_STATUS 20 PUB SUB NONE OK VALVE_CONTROL 10 SUB NONE PUB OK 64 PUMP_CONTROL 50 SUB PUB NONE OK Device Publication Status OK OK OK Total Publication Size per Node 20 50 10 Total Subscription Size per Node 60 20 0 Group IP Address 239 255 255 0 Multicast Filtering Enabled OFF Default 4x Address for Health 400100 Distribution Period 10 Health Timeout 1000 Data Zone 400200 1 Entries or changes to the symbol description do NOT affect or change a variable or the system The Symbol used in the Quantum product line has no relation to the Concept Unity product line symbol 39 Software Settings Table of Global Data Limits Parameter Limit Maximum number of publish variables per device 1 Maximum size for the publish variable 512 Registers 512 Words 16 bits 1024 Bytes Maximum number of subscripti
40. links between different devices with Unity Soft includes three different configuration parts e Configuration of the Network Controller e Configuration of the Logical Network e Configuration of Network Variables The Communication Configuration supports the Free Mode of Unity Soft That means the user can first configure the module and then the Communication or the user can configure the communication and then the module This will be provided through a NetLink that must be selected in the module configuration The network variables including in the VAR folder are linked with a group name that defines an IP domain over Internet network The illustration shows the three parts involved in communication configuration Network Variables Network Parameters 22 Start Communication with Unity Pro Link between Configuration and Communication NetLinks Attaching a NetLink to a Module During Unity Pro application design the NetLinks are created and inserted on sub folder Communication under Network These are the names of logical networks Under configuration folder on the communication module node included in the current station the list of existing NetLinks is proposed to select and attach one network to one module Only the NetLink that can be managed by this module are displayed in the list box on module configuration screen No NetLink can be edited and created here no edit box
41. manage the main Transparent Factory communication services for all the communication components of the Transparent Factory architecture ETYs NOEs third party toolkit ENTs M1Es The Transparent Factory private MIB does not define the specific management applications and policies 53 Software Settings The diagram below illustrates the Schneider Electric Groupe_Schneider 3833 private enterprise MIB subtree Groupe_Schneider 3833 Transparent_Factory_Ethernet 1 Switch 1 Port502_Messaging 2 1 0_Scamning 3 Global_Data 4 Web 5 Address_Server 6 Equipment_Profiles 7 Premium 1 Quantum 2 Generic_Device 3 M1E 4 ENT 5 IndustrialControlProducts 3 VariableSpeedController 1 ATV58 1 The Groupe_Schneider 3833 subtree is the root of Groupe Schneider s private MIB in the Structure of Management Information SMI used by SNMP and defined in RFC 1155 which is a specification that defines the structure and identification of management information for TCP IP based Internets 54 Software Settings Transparent Factory Ethernet Subtree The Transparent_Factory_Ethernet 1 subtree defines groups that support the Transparent Factory Ethernet services and devices Service Description Switch 1 Subtree defines a brand of switches labeled ConneXium switches private MIB Port502_Messaging 2 Subtree defines objects for managing explicit client serve
42. nner and or the Global Data e SW139 Global Data and I O Scanning utility load e SW160 to SW167 Device operating status determined by l O Scanning e SW168 to SW171 Operating status of Global Data For detailed information refer to Quantum System Words in the Unity Pro Reference Manual The NOE 771 Ox and x1 module s design provides you with the ability to configure its MODBUS I O Scanner as either a Peer Cop or Enhanced MODBUS scanner The determination as to which scanner is used depends on the programming package that is installed on your system 33 Software Settings Peer Cop I O Scanner Features Enhanced MODBUS I O Scanner Features The following table lists the characteristics of the Peer Cop based MODBUS I O Scanner Parameter Value Max No of Devices 64 Max No of Input Words 500 Max No of Output Words 500 Timeout Value Global Setting 20 ms to 2 s in 20 ms increments Input TimeOutState Global Setting Zero or Hold IP Address Derived from MODBUS address must be on NOE s subnet Remote Register Reference Not configurable 400001 is used Destination ID Not settable set to 0 Operation through a MODBUS Plus to Ethernet bridge Not supported The following table lists the characteristics of the Enhanced MODBUS I O Scanner Parameter Value Max No of Devices 64 or 128 Max No of Input Words 4 000 Max No of I
43. nput Words 4 000 Timeout Value Individual Setting 10 ms to 2 s in 10 ms increments Input TimeOutState Global Setting Zero or Hold IP Address IPv4 Address Destination ID Not settable set to O Operation through a MODBUS Plus to Not supported Ethernet bridge Operation through a MODBUS bridge Supported 34 Software Settings 1 O Scanner Support The following table summarizes the permissible mix of l O scanners and NOE modules per CPU Quantum CPU Type No of NOEs Supported 140 CPU 311 10 140 CPU 434 12A 140 CPU 534 14A 140 CPU 651 50 140 CPU 651 60 140 CPU 671 60 00 0o o OD M 35 Software Settings Quantum NOE I O Scanner Configuration Introduction The I O scanner offers the possibility to retrieve periodic data from Ethernet input output modules This is carried out according to the Master Slave procedure whereby the Quantum NOE module represents the Master The screen shot shows the I O scanner tab IP Configuration Access Control 1 0 Scanning Global Data SNMP Address Server Bandwidth O Scanner configuration Health Block 1 IW IW0 UnitID Health Repetitive RD RD WR WR ja Fondi Time
44. nt manager Ifyou do not currently use a SNMP Manager in your organization and are evaluating SNMP Managers for purchase then we recommend that you consider the HiVision with the ConnexView Add On developed for use with Schneider Automation PLCs Please contact your Schneider Electric sales office for availability and pricing of HiVision and ConnexView 46 Software Settings Using a SNMP Manager The process for obtaining a SNMP Manager Step Action 1 Get Schneider mib file from the NOE Web page You are going to find the mib file as a packed file under wwwroot SchneiderTFE zip on your NOE module 2 Compile mib file in the compiler that comes with the NOE Load compiled mib file to the SNMP manager When you are done you will see the Schneider private MIB manager in your manager The process is simple Compile file Load file into your manager 47 Software Settings More SNMP SNMP and related subjects are well documented on Web sites and in many books Information e As of this writing a useful description appears on Microsoft s Technet pages Browse to htip www microsoft com technet Use the Search function to find Network Management for Microsoft Networks Using SNMP e Use an Internet search engine to search for a SNMP introduction a SNMP tutorial and other topics on SNMP e The SNMP FAQ from the news group comp protocols snmp appear on many com and
45. on variables per device 64 63 if this device is publishing Maximum size for the subscripe variables per device 2048 registers 2048 Words 16 bits 4096 Bytes Note We recommend that you consider the following when planning e 10to 20 Increase margin for growth We suggest that you allow for a percentage increase in growth of any variable a 10 to 20 increase allowance should be sufficient e Add at end We recommend that you add variables at the end of the configuration because variables added at the end of the configuration do not affect the existing application address Therefore you avoid changing the existing addresses in your configuration which can be a time consuming process Table of Global Data Planning Spreadsheet Parameter Description Parameter Checking Reserved Variable Id Represents the Data ID on the NOE s Global Data Configuration Web page Symbol Symbolic name for Global Data exchange Length Words Registers Length of Global Data information Number of MW words 4x registers Device Number Number of devices for the Global Data network Of up to 64 Variable Public Status Automatic information of the correct publication status of the Global Data network jM Only by using the Microsoft Excel spreadsheet Information per symbol Device Publication Status Automatic information of the correct publication status of the Global
46. out rate ms Master Slave EE E ui Maste Slave ms Object Index 9 p Object Index 1 139 124 10 81 255 1500 100 MW22 MWO 1 Maintain MW20 MW1 2 139 124 10 82 0 0 80 MWI00 MW1 2 Setto0 e MWT77 MWO 3 1391241083 100 65535 60 M76 MW1 0 Setto 0 9M0 MWO 4 139 124 10 84 255 20000 240 M488 MWO 1 Maintain 99MW37 MW1 5 1391241085 28 100 0 MW3 MWO 2 Maintain fe M248 MWO 6 139 124 10 86 255 0 Ol M640 MWO 1 Set to 0 M111 MW1 7 255 1500 60 EZ 8 ainta 9 Setto 0 gt Parameter description Parameter Description Slave IP address IP address of the input output module Unit ID Specific ID of the input output module Health timeout ms Time frames After the time has run out the node can no longer send Rep rate ms Time after which the data can be periodically scanned RD ref master Destination address in the controller for read periods The read is carried out in words RD ref slave Source address of the input output address for the read period RD length Number of words to read Last value input Status of the inputs in the event of an error WR ref master Source address in the controller for write periods The write is carried out in words WR ref slave Destination address of the input output address for the write period WR length Number of words to write Description Infotext
47. r communications supporting applications such as HMI SCADA or programming tools l O Scanning 3 Subtree defines objects for managing l O device communications that use the I O Scanner mechanism with the MB TCP protocol Global_Data 4 Subtree defines objects for managing the application coordination service using a publish subscribe protocol Web 5 Subtree defines objects for managing the activity of the embedded Web servers Address_Server 6 Subtree defines objects for managing the activity of the BOOTP and or DHCP servers Equipment_Profiles 7 Subtree identifies objects for each type of device in Transparent Factory Ethernet s product portfolio Device subtrees or groups will be defined for the following devices Premium 1 Quantum 2 M1E 4 ENT 5 o o e Generic_Device 3 o o As devices are added to Schneider s catalog Schneider s private MIB will be extended in the following manner e Ifneeded a Transparent Factory communication service object will be added for the new device in the corresponding Equipment_Profiles 7 subtree As many objects as needed can be added to this subtree e f needed a new branch will be added at the same level as Transparent_Factory_Ethernet 1 This subtree will be created for product specific objects such as the ATV58 object under the IndustrialControl Products 3 subtree When a new device is created a corresponding object d
48. resses Therefore DHCP you may use the DHCP server with devices that support BOOTP only such as Compatible Momentum ENT v1 Devices 66 Software Settings Quantum NOE Address Server Configuration Introduction The Quantum NOE 771 module address server function enables the user to enter Ethernet node addresses using BOOTP or DHCP With BOOTP or DHCP the IP address is assigned instead of the MAC address or the computer name Only Ethernet nodes provided in the list may refer to an IP address The screen shot shows the Server Address Configuration screen IP Configuration Access Control 1 0 Scanning Global Data SNMP Address Server Bandwidth HTTP modification Z Locked in operation BISCUIT Password Client S erver address table MAC address Name IP address Netmask Gateway A 1 00 00 54 00 1D B7 139 124 10 50 255 255 0 0 139 124 10 1 2 device IO 1 139 124 10 51 255 255 0 0 139 124 10 1 3 device lO 4 139 124 10 52 255 255 0 0 139 124 10 5 4 100 00 54 A1 1D B7 139 124 10 53 255 255 0 0 139 124 10 1 5 00 00 47 00 35 B7 139 124 10 60 255 255 0 0 139 124 10 5 6 1l 8 9 v Parameter description Parameter Description Disabled during Activates password protection for page security when accessing via operation the Webserver Password Password for securit
49. s UNY USE 10010V10E User Manual Quantum and Premium Communication Architecture Reference Part of this package Manual Note The above mentioned documentations are only available in online form at this time 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 All 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 use Schneider Electric software or approved software with our hardware products may result in injury harm or improper operating results 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 TECHCOMM modicon com 10 Ethernet General Information Eth
50. s set on the IP The applications refer to this With networks that work with the TCP IP protocol and also on the internet every PC can be identified via a numerical address An IP address Ipv4 standard consists of four numbers separated by points that can each be a value between 0 and 255 A typical IP address is 192 168 000 123 User PCs that access the internet via a Provider also receive an IP address It is always the same static IP address or a new dynamic IP address every time a connection is made The IPv4 developed 20 years ago uses a 32 bit address system which theoretically allows up to four billion IP addresses However in practice a large part of these adresses cannot be used with group formation and other mechanisms The new IPv6 functions with a 128 bit system an address space which generally cannot be configured This significantly increases the number of available IP numbers Further advantages of the new IP address space include greater security better support for real time applications and a higher router capacity IPv6 should be established by 2005 Backward compatibility with software and network components which use the IPv4 standard is to remain guaranteed according to the IETF Internet Engineering Task Force IP addresses are 32 bit numbers IPv4 that consists of two components the power supply and the computer There are three different types of IP network classes Class A Class B and Class C Th
51. same time You select a mode by entering either the MAC Address or the Role Name in the Address Server Node Configuration page You may enter only one or the other but not both The Faulty Device Replacement capability allows automatic configuration of FDR compliant devices Inherent in the discussion of Faulty Device Replacement is the idea of a Role Name A Role Name is a logical name that the user assigns to a device a logical name that has a meaning within the application Some examples of a Role Name might be e ENT_6 6th Momentum ENT in your application e OUTPUT_VALVE_2 2nd Output Valve in your application Role Names are case sensitive 64 Software Settings Faulty Device Replacement Role Name The Faulty Device Replacement service offers a method of handling device replacement without disrupting the system nor interrupting service Should a device fail replacing that device is easy When the new device is physically connected to the network the system including the new device is able to e Provide the replacement device with the IP address of the previous device e Ensure that new device is working in the same manner as the previous device e Restore the l O device application parameters in order to restart the device with the same configuration as before the failure Faulty Device Replacement enables you to avoid configuring a new device when a faulty device is replaced You enter the device name in t
52. sponding communication screen is opened in order to set the specific network services The figure shows the contextual menu to start network properties 3 Station 3 Configuration 0 Derived Data Types A perdio 7j Variables amp FB ing qum 3 Communication ZES ES Networks Delete Del 1 Add user directory NK Exa thernet_1 ne Add Hyperlink ecg dag en ence Program j Animation Tables 200 out E am Operator Screens Properties Alt Enter Documentation E Properties of a network Properties of a The contextual menu proposes the user to see again the properties of a configured network network Here the user can change the NetLink name and the associated comment The figure shows the Ethernet property window amp Station j Configuration 3 Derived Data Types Properties Network Ethernet_1 9 Derived FB Types 3 Variables amp FB instances Network Comment 3 Communication 3 Networks List of available Networks a BED open Ethernet v 1 7 Program Export ed Change Name is C Animation T Delete Del CER Operator Sc Add user directory Documental SE Add Hyperlink Cancel Zoom out OK Properties Alt E nter 19 Star
53. subtree or group contains the objects related to the Web server service Service Description webStatus 1 Indicates the global status of the Web service 1 Idle 2 Operational webPassword 2 Indicates a switch to enable or disable the use of Web passwords 1 Disabled 2 Enabled webSuccessfullAccess 3 Indicates the total number of successful accesses to the Web site webFailedAttempts 4 Indicates the total number of unsuccessful accesses to the Web site The Address_Server 6 subtree or group contains the objects related to the Address Server service The Address Server can be either a BOOTP server or a DHCP server Service Description addressServerStatus 1 Indicates the global status of the addressServer service 1 Idle 2 Operational 59 Software Settings Equipment Profile Subtree The Equipment_Profiles 7 subtree contains a set of common objects Service Description profileProductName 1 Displays the commercial name of the communication product in a string form for example 140 NOE 771 11 profileVersion 2 Displays the software version of the communication product in a string form for example Vx y or V1 1 profile CommunicationServices 3 Displays a list of the communication services supported by the profile Port5S02Messaging I O scanning Messaging Global Data Web and Address Serv
54. t Communication with Unity Pro Delete an existing network folder Delete an With a right mouse click above the network folder a contextual menu appears Here existing network the user is able to delete the network configuration In this case the subfolder of the folder network will also be removed in application browser 3 Station de Derived Data Types 7 Derived FB Types Remove this Network 7 Variables amp FB instances Ethernet 1 453 Communication E C Networks OK Cance E Note If this removed network was previously attached to a communication module this module loses its link and it will work with its default parameters 20 Start Communication with Unity Pro 2 2 Unity Soft Communication Links Ata Glance Overview This section presents the principle of communication implementation and describes the relationship between software configuration of networks and the hardware configuration of the network controllers What s in this This section contains the following topics Section Topic Page Communication Configuration Principle 22 Link between Configuration and Communication 23 Link between data and communication 24 21 Start Communication with Unity Pro Communication Configuration Principle Introduction Configuration The configuration of communication
55. tination Target address of the destination Source Address of origin of the sender Length Gives the number of bytes in the LLC Logical Link Control data field not with Ethernet frames Protocol Specifies the protocol used not for 802 3 frames DSAP Destination Service Access Point Destination address SAP for destinations The DSAP identifies the transfer interface to the next highest protocol e g EOh IPX SSAP Source Service Access Point Destination address SAP for sources The SSAP identifies the transfer interface to the next highest protocol e g EOh IPX CTL Control Field The CTL field is 2 bytes long if the frame contains sequential number In all other cases itis 1 byte long Data Also Data and PAD Field Logging the data to be transferred Since every Ethernet frame must be a minimum of 64 bytes long and 18 bytes are used by the MAC Header and Trailer the minimum length of the data section is 46 bytes If the useful load of the frame is less than 46 bytes the frame is padded out to fill the prescribed length padding FCS Frame Check Sequence The checksum is formed in the CRC procedure CRC Cyclic Redundancy Check Frames with invalid checksums are rejected 12 Ethernet General Information LAN Addresses IPv4 and IPv6 Subnet mask Gateway address The Internet Protocol IP is the lowest layer in an Internet The IP is defined in RFC 791 The Transmission Control Protocol TCP i
56. twork load The illustration shows the Bandwidth Monitor dialog box ETHERNET_1 AE Model Family Modul Address Module Utilities TCP IP 10 100 regular connection v KEES Moonie YES w Access Control YES w 1 0 Scanning Module IP Address YES w Global Data P Address Subnetwork Mask Gateway Address YES w SNMP 0 0 0 0 0 0 0 0 0 0 0 0 YES Jw Address Server IP Configuration Access Control 1 0 Scanning Global Data SNMP Address Server Bandwidth Global Data Information Estimated publishers period x ms Messaging Information Eo second Estimated transactions per Configuration checking plo I O Scanning pao Global Data Distribution estimate Update distribution estimate m Messaging gio Others idle Parameter description Parameter Description Time span Scan time of the network load in milliseconds Transactions per second in the message service Node scan time for the messaging procedure 96 I O retrieve Percentage of the network load used for I O scanner data 96 Global data Percentage of the network load used for retrieving sending global data Messaging Percentage of the net
57. work load used for nodes from the messaging list 96 Other idle Percentage of the network load used for all nodes network traffic which would otherwise not be shown 71 Software Settings 72 Index Numerics 100BaseT 14 10BaseF 14 10BaseT 14 802 3 12 A Address Server 63 ASN 1 48 B Bandwidth 68 Bandwidth Monitor 68 71 BOOTP 64 C Communication Links 21 Configure Communication 17 ConnexView 46 D DHCP 64 E Ethernet 11 Ethernet cabling 14 Ethernet Module 27 F Faulty Device Replacement 64 FDR 64 G Gateway Address 13 Globale Data 37 H Health Bits Global Data 33 O Scanner 33 HiVision 46 73 Index 1 O Scan List 32 Overview 32 1 O Scanner Definitions 33 I O Scanning 31 IP Addresses 13 IP Configuration 29 IPv4 13 IPv6 13 MAC Address 64 Management Information Base MIB 45 Messaging 30 Modbus I O Scanner Features 34 Support 35 N Network Monitor 71 NOE 771 x0 Configuring 51 P Peer Cop I O Scanner Features 34 R RFC 791 13 Role Name 64 S Schneider Private MIB 52 Simple Network Management Protocol SNMP 45 50 SNMP 44 SNMP Manager 46 Subnet 13 Subnet mask 13 Subtree 55 T TCP IP Protocol 13 TFE 45 52 Transparent Factory Transparent Factory Ethernet TFE 45 Transparent Factory Ethernet Private MIB 52 Trap 61 74
58. y MAC address MAC address of the IP address destination Name Computer name of the IP address destination IP address IP address Subnet mask Assigned Subnet mask Gateway Assigned Gateway address 67 Software Settings 3 8 Bandwidth Monitor Configuration Ata Glance Introduction What s in this Section This chapter contains a description about how to configure the Bandwidth Monitor This section contains the following topics Topic Page Bandwidth Monitoring 69 Quantum NOE Bandwidth Monitor Configuration 71 68 Software Settings Bandwidth Monitoring Overview Available Services Bandwidth Monitoring allows the user to monitor the NOE s CPU allocation for each of the following services Global Data I O Scanning and Messaging The Bandwidth Monitoring service retrieves workload data and returns one of two pieces of information whether the module has free resources or whether the module is working at capacity Knowing the resource allocation helps you e Decide about allocating your resources e Determine the number of NOEs needed in a system The services accessed and monitored are e Global Data e O Scanner e Modbus Messaging If the user want to use Bandwidth Monitoring he do not need to develop a new set of access functions The actual NOE CPU load is computed each second 69 Software Settings Bandwidth
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