Station Automation COM600 Modbus TCP Master (OPC) 3.3. User's Manual

Transcription

1 Station Automation C600 odbus TCP aster (PC) 3.3

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3 1RS Issued: Version: C/ Station Automation C600 odbus TCP aster (PC) 3.3 Contents: 1. About this manual Copyrights Trademarks General Document conventions Terminology Abbreviations Related documents Document revisions Introduction Functional overview odbus PC Server features Configuration About this section verview of configuration Building object tree General about building object tree Adding Gateway object Adding PC Server object Adding Subnetwork objects Adding odbus IED objects Adding Logical Device objects Adding Logical Node objects Adding data objects Configuring objects General about configuring objects Configuring odbus TCP PC Server properties Configuring odbus PC Server Subnetwork properties Configuring odbus TCP Device Configuring Logical Device properties Configuring Logical Node properties Configuring data objects for internal PC data General about configuring data objects for Internal PC Data Integer status (INS) Controllable single point (SPC) for PC internal data Single point status (SPS) Configuring data objects Directional protection activation information

4 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Protection activation information (ACT) Analogue set point (APC) Binary counter reading (BCR) Binary controlled step position information (BSC) Complex measured value (CV) Delta (DEL) Controllable double point (DPC) Device name plate (DPL) Double point status (DPS) Controllable integer status (INC) Integer status (INS) Integer controlled step position information (ISC) Logical node name plate (LPL) easured value (V) Controllable single point (SPC) Single point status (SPS) WYE Topic Generator peration About this section Activating C600 with new configurations PC Server diagnostics odbus Channel diagnostics onitoring and controlling odbus Device communication Technical reference About this section IEC data modeling General about IEC data modeling Data objects for status information Single point status (SPS) Double point status (DPS) Integer status (INS) Protection activation information (ACT) Binary counter reading (BCR) Device name plate (DPL) Logical node name plate (LPL) Data objects for measured information easured value (V) WYE Delta (DEL) Data objects for controllable status information Controllable single point (SPC) Controllable double point (DPC)

5 1RS Station Automation C600 odbus TCP aster (PC) Controllable integer status (INC) Binary controlled step position information (BSC) Integer controlled step position information (ISC) Data objects for controllable analogue information Analogue set point (APC) Attributes Server attributes odbus channel attributes odbus Device attributes Status codes Status codes Index

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7 1RS Station Automation C600 About this manual odbus TCP aster (PC) Copyrights The information in this document is subject to change without notice and should not be construed as a commitment by ABB y. ABB y assumes no responsibility for any errors that may appear in this document. In no event shall ABB y be liable for direct, indirect, special, incidental, or consequential damages of any nature or kind arising from the use of this document, nor shall ABB y be liable for incidental or consequential damages arising from use of any software or hardware described in this document. This document and parts thereof must not be reproduced or copied without written permission from ABB y, and the contents thereof must not be imparted to a third party nor used for any unauthorized purpose. The software or hardware described in this document is furnished under a license and may be used, copied, or disclosed only in accordance with the terms of such license. Copyright 2006 ABB. All rights reserved Trademarks ABB is a registered trademark of ABB Group. All other brand or product names mentioned in this document may be trademarks or registered trademarks of their respective holders General This manual provides thorough information on the odbus PC Server and the central concepts related to it. You find instructions on how to configure odbus PC Server related objects. The basic operation procedures are also discussed. Information in this user s manual is intended for application engineers who configure the odbus PC Server. This user s manual is divided into following sections: Introduction This section gives an overview of the odbus PC Server and its features. 7

8 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Configuration In this section you will find an overview of configuration. You are given instructions on how to configure odbus PC Server related objects and the model of a substation or system. peration This section covers the basic operation procedures you can carry out when transferring or activating Station Automation C600 (later referred to as C600) with new configurations. You are also given instructions on how to monitor and control the conditions of odbus network. Technical reference This section describes the IEC data modeling. This section also contains attributes and a list of status codes Document conventions The following conventions are used for the presentation of material: The words in names of screen elements (for example, the title in the title bar of a window, the label for a field of a dialog box) are initially capitalized. Capital letters are used for the name of a keyboard key if it is labeled on the keyboard. For example, press the ENTER key. Lowercase letters are used for the name of a keyboard key that is not labeled on the keyboard. For example, the space bar, comma key, and so on. Press CTRL+C indicates that you must hold down the CTRL key while pressing the C key (to copy a selected object in this case). Press ESC E C indicates that you press and release each key in sequence (to copy a selected object in this case). The names of push and toggle buttons are boldfaced. For example, click K. The names of menus and menu items are boldfaced. For example, the File menu. The following convention is used for menu operations: enuname > enu- Item > CascadedenuItem. For example: select File > New > Type. The Start menu name always refers to the Start menu on the Windows taskbar. System prompts/messages and user responses/input are shown in the Courier font. For example, if you enter a value out of range, the following message is displayed: Entered value is not valid. The value must be You can be asked to enter the string IF349 in a field. The string is shown as follows in the procedure: 8

9 1RS Station Automation C600 odbus TCP aster (PC) 3.3 IF349 Variables are shown using lowercase letters: sequence name 1.5. Terminology The following is a list of terms associated with C600 that you should be familiar with. The list contains terms that are unique to ABB or have a usage or definition that is different from standard industry usage. Term Alarm Alarms and Events; AE Data Access; DA Data bject; D Data Set Device Event Intelligent Electronic Device Logical Device; LD Logical Node; LN LN LN Application Guideline for substation automation; LAG PC An abnormal state of a condition. An PC service for providing information about alarms and events to PC clients. An PC service for providing information about process data to PC clients. Part of a logical node object representing specific information, for example, status, or measurement. From an object-oriented point of view, a data object is an instance of a class data object. Ds are normally used as transaction objects; that is, they are data structures. The data set is the content basis for reporting and logging. The data set contains references to the data and data attribute values. A physical device that behaves as its own communication node in the network, for example, protection relay. Change of process data or an PC internal value. Normally, an event consists of value, quality, and timestamp. A physical IEC device that behaves as its own communication node in the IEC protocol. Representation of a group of functions. Each function is defined as a logical node. A physical device consists of one or several LDs. The smallest part of a function that exchanges data. An LN is an object defined by its data and methods. A communication protocol developed by Echelon. A proprietary method of ABB on top of the standard LN protocol. Series of standards specifications aiming at open connectivity in industrial automation and the enterprise systems that support industry. 9

10 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Term PC item Property Report Control Block SPA SPA device Substation Configuration Language; SCL Representation of a connection to the data source within the PC server. An PC item is identified by a string <object path>:<property name>. Associated with each PC item are Value, Quality, and Time Stamp. Named data item. The report control block controls the reporting processes for event data as they occur. The reporting process continues as long as the communication is available. ABB proprietary communication protocol used in substation automation. Protection and/or Control Product supporting the SPA protocol version 2.5 or earlier. XL-based description language for configurations of electrical substation IEDs. Defined in IEC standard Abbreviations The following is a list of abbreviations associated with C600 that you should be familiar with. See also 1.5, Terminology. Abbreviation AE ASDU BRCB DA DCD D GW HI IEC IED LAG LAN LD LK LN Alarms and Events Application Service Data Unit Buffered Report Control Block Data Access Data essage Code Definition Data bject Gateway, component connecting two communication networks together Human achine Interface International Electrotechnical Commission Intelligent Electronic Device LN Application Guideline for substation automation Local Area Network Logical Device Lonark interoperable device communicating in LonWorks network. In this document, the term is used for devices that do not support the ABB LN/LAG communication. Logical Node 10

11 1RS Station Automation C600 odbus TCP aster (PC) 3.3 Abbreviation LSG NCC NV LE PC P&C RTS SA SAB600 SCL SLD SNTP SAP RCB URCB XL LN SPA Gateway Network Control Center Network Variable bject Linking and Embedding LE for Process Control Protection & Control Request To Send Substation Automation Station Automation Builder 600 Substation Configuration Language Single Line Diagram Simple Network Time Protocol Simple bject Access Protocol Report Control Block Unbuffered Report Control Block extended arkup Language 1.7. Related documents Name of the manual C600 User s anual RS number 1RS Document revisions Document version/date A/ B/ C/ Product revision History Document created Document updated Document revised 11

12 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Introduction 2.1. Functional overview The Server provides methods for PC clients to exchange data with devices communicating via the odbus protocol. Figure odbus system overview (1) NCC (Network Control Center) (2) C600 with odbus PC Server (3) Station Automation Builder 600 (SAB600) odbus_tcp_protocol.jpg (4) Protection and control devices communicating through the odbus protocol To create a common and protocol independent data interface between the PC server and client, the process data from the devices is remodeled using the IEC data modeling. The configuration data is stored in the SCL format. After the PC Server has been launched, it reads the configuration file and establishes communication with the devices through the protocol stack. Configured devices and data modeled according to the IEC model (see 5.2.1, General about IEC data modeling) are then exposed to PC clients through a Data Access (DA) server. 12

13 1RS Station Automation C600 odbus PC Server features odbus TCP aster (PC) 3.3 The odbus PC Server is intended for connecting simple odbus devices like energy meters and input/ouput modules. As the protocol is based on scanning the state of the inputs of the device, it depends on the scan rate how short signal transients are registered. No events or time stamps are supported. The odbus messaging service provides a client/server communication between devices connected on an Ethernet TCP/IP network. This model is based on four types of messages: request, confirmation, indication, and response. A system using odbus TCP/IP can include different types of devices. There can be odbustcp/ip client and server devices connected to an TCP/IP network. There can also be devices such as bridges, routers and gateways for connections between the TCP/IP network and a serial line sub-network, permitting connections to odbus serial line client and server end devices. The odbus PC Server supports the following features: PC Data Access v. 1.0/2.0 PC Alarms and Events specifications v IEC data modeling System supervision: odbus channel communication odbus device communication Table The function codes supported by odbus PC Server Function code emory area Read coil status Read input status Read holding register Read input registers Force single coil Write single register Write multiple registers Write General Reference The following data formats are supported: Bit, one coil, or input status Word, one register in IED's memory. The data is used in an unsigned form Integer, one register in IED's memory. The SB bit is used as a sign bit Long SW last, signed 32-bit object, which needs two registers from IED's memory in lsw-msw order 13

14 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Long SW first, signed 32-bit object which needs two registers from IED's memory in msw-lsw order. Float SW last, floating point type which needs two input registers from IED's memory in lsw-msw order Float SW first, floating point type which needs two input registers from IED's memory in msw-lsw order. 14

15 1RS Station Automation C600 Configuration odbus TCP aster (PC) About this section This section guides you in the configuration tasks required before you can start using the odbus PC Server. For information on the IEC data modeling, refer to C Select File > pen/anage Project In the pen/anage Project dialog, select the required location for the project: Projects on my computer Projects on network 3. Select New Project on the left. Enter a Project Name. The is optional. 4. Click Create. 5. Click pen Project verview of configuration Before you can start using the odbus PC Server, you need to build and configure an object tree in SAB600 to define the Communication structure. The possible objects are: Gateway odbus PC Server odbus Subnetwork odbus IED Logical Device objects Logical Node objects Data objects Figure shows an example view of SAB600 including an object tree in the communication structure on the left and bject Properties window displaying the object properties on the right. When configuring PC servers the following characters cannot be used in object names: \ ` ' ' # 15

16 odbus TCP Station Automation C600 aster (PC) 3.3 1RS T_Example_odbus_TCP_Communication_structure.png Figure Example view of SAB600 The configuration work can basically be divided into two separate tasks: 1. building an object tree, and 2. configuring object properties. First, you need to build an object tree. This is done by adding objects to the object tree, see 3.3.1, General about building object tree. Figure shows an example of how the object tree may look like after it has been built. In the example tree you can see the odbus PC Server object and its child objects like channels, devices, and data objects. Indentation is used to indicate the parent-child relationship between the objects. After you have added the necessary objects to the object tree in the communication structure, you need to configure them, see 3.4.1, General about configuring objects. 16

17 1RS Station Automation C600 Building object tree odbus TCP aster (PC) General about building object tree The object tree is built in the Communication structure of SAB600, see Figure It is built by adding objects in a logical order starting from the Gateway. You have several possible ways to add objects to the object tree in the Communication structure: You can right-click the object to which you want to add a child object. Then select New > bject type group > bject name, for example You can right-click the object type and select New > New. A New bject window appears. Select the object type you want to add and click K or double-click it. You can copy the object. Add the objects in the following order: 1. Gateway 2. odbus TCP PC Server 3. Logical Device objects 4. Logical Node objects 5. Data objects For information on building a substation structure, refer to C600 HI Configuration anual Adding Gateway object To start building the object tree, add a Gateway object in the Communication structure by selecting the project name, right-click it and select New > Communication > Gateway Adding PC Server object After the Gateway object has successfully been added, you can continue building the object tree by adding a odbus PC Server object. To add a odbus PC Server object: 1. Select the Gateway object in the communication structure and right-click it. 2. Add a odbus PC Server object. By using the SCL Import function, it is possible to import an entire server s or individual device's configurations without having to insert them manually. To open the SCL Import function, right-click the desired object, and select SCL Import. For more information about the SCL Import function, see C

18 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Connectivity Packages for certain protection and control devices can also support other ways to build this structure, depending on the configuration of an individual device, for example device-related object types and wizards. Typically, Connectivity Packages include SCL description files which must be installed. For further information on these Connectivity Packages, see the Connectivity Package of a certain device in the product documentation Adding Subnetwork objects After the server object has been successfully added, you can continue building the object tree by adding odbus subnetwork objects. To add a odbus subnetwork object: 1. Select a odbus PC Server object. 2. Right-click the odbus PC Server object. 3. Add a odbus subnetwork object. 4. Rename the new object. The names of the odbus subnetwork objects have to be unique Adding odbus IED objects After adding a subnetwork you can add device objects. To add a Device object: 1. Select a Subnetwork object. 2. Add a odbus IED object. 3. Rename the new object. The names of the devices within a odbus channel have to be unique. The maximum number of devices per each subnetwork is 30. With SCL import function, you can import new objects with configurations from an existing file. Right-click the device and select SCL Import from the shortcut menu To import a new configuration file: 1. Click Select File. 2. Browse to a new configuration file from the appearing dialog. 3. Select the file and click pen. 4. Select the device to import from the drop-down list. You can preview the configuration on the right. 5. Click Import. The new preconfigured objects appear in the object tree. If the configuration file is large, the import may take time. To import a configuration file for a different device, rightclick the device, select SCL Import again and repeat the steps above. 18

19 1RS Station Automation C600 odbus TCP aster (PC) 3.3 For more information about the SCL Import function, see C Adding Logical Device objects To add a Logical Device object: 1. Select a odbus TCP IED object and right-click it. 2. Add a Logical Device object. 3. Rename the new object. The names of the Logical Device objects have to be unique. Each TCP physical device must have at least one Logical Device object as a child object Adding Logical Node objects To add a Logical Node: 1. Select a Logical Device object and right-click it. 2. Add a Logical Node object. 3. Rename the new object. The names of the Logical Node objects have to be unique. You should have only one Logical Node 0 (LLN0) as a child object to a Logical Device object Adding data objects To add a data object: 1. Select a Logical Node object and right-click it. 2. Add a data object. 3. Rename the new object. The names of the data objects have to be unique Configuring objects General about configuring objects After the objects have been added, configure the object properties. Figure shows an example of how to use SAB600 to configure the object properties for odbus PC Server. To configure an object: 1. Select an object in the object tree of the communication structure. 19

20 odbus TCP Station Automation C600 aster (PC) 3.3 1RS a. The object properties appear now in the bject Properties window. The properties and their values can be viewed as shown in Figure bjpropodbustcp.bmp Figure Example of object properties in the bjects Properties window 2. Select the property you want to configure. Depending on the property value type, configuring is always done either by selecting a predefined value from a drop-down menu, or entering a text string or a numerical value in a text field. The available properties for different objects are listed in the following subsections Configuring odbus TCP PC Server properties Table PC Server properties Basic Value or Value range/default 20

21 1RS Station Automation C600 odbus TCP aster (PC) 3.3 AE Prog ID DA Prog ID Value or Value range/default Instance identification of diagnostic PC alarm and event server. Instance identification of diagnostic PC data access server Configuring odbus PC Server Subnetwork properties The odbus PC Server subnetwork properties that can be configured and value ranges for them can be found in Table The actual configuration by using SAB600 is performed as described in 3.4.1, General about configuring objects. Each odbus PC Server node of the system must have a unique subnet/node address. Table odbus Subnetwork properties Basic In use Local Address Communication Control Buffer Pool Size Response Timeout Polling Poll Delay In Use Not In Use Default: In Use Default: Default: Default: 40 Specifies if channel is in use or not. Specifies the IP address used by communication line. Specifies the number of message buffers reserved for the line. Specifies the time (in seconds) that the odbus 3.0 link waits for the end of the received message. Delay between polling messages in milliseconds. 21

22 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Configuring odbus TCP Device Table lists the configurable properties for odbus Devices and value ranges for these properties. The actual configuration by using SAB600 is performed as described in 3.4.1, General about configuring objects. Table odbus TCP IED properties Name Basic Diagnostics enabled In Use aximum Topic Range Simulation ode Addresses Internet Address Station Address Timeouts Connection Timeout Reconnecting Timeout Reply Timeout Control Authorization True False Default: False In use Not in use Default: In use Default: 10 True False Default: False Default: Default: Default: Default: 15 Diagnostics Enabled Controls whether the device communications initially in use or not. The maximum length of address between first and last address index in one Topic. Specifies whether the device is insimulation mode or not. Defines the internet address of this IED. odbus address of the device. Defines the timeout. Defines the timeout before attempting reconnection. Specifies the maximum time (in seconds)for waiting a reply to a command. If the time is exceeded, the command is considered as failed. 22

23 1RS Station Automation C600 odbus TCP aster (PC) 3.3 Name Station/Remote Switch PC Path PC Alarm and Event Device Connection Status Class Device Connection Status PC path of the station remote switch position used with this device. The format is Node#ProgID For PC Server#Channel Name\IED Name\Logical Device Name\Logical Node Name\Data bject Name E.g. GW#ABB.D- BUS_LAN_PC_DA_Server.Instance[1]#Channel[1\IED1\LD1\GGI1\loc Device Connection Status Class Configuring Logical Device properties Table Logical Device properties Basic Station/Remote Switch PC Path Value or Value range/ Default PC path of the station remote switch position to be used with this device. The format is Node#ProgID For PC Server#Channel Name\IED Name\Logical Device Name\Logical Node Name\Data bject Name e.g. GW#ABB.odbus_LAN_PC_DA_Server.Instance[1]#Channel1\IED1\LD1\GGI1\loc Configuring Logical Node properties Table Configuring Logical Node properties Basic LLN0 Logical Node Class GGI1 LLN0 Logical node class 23

24 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Logical Node Class Logical Node Instance Logical Node Prefix ANCR, ARC, ATCC, AVC, LPHD, CALH, CCGR, CIL, CPW, CSWI, GAPC, GGI, GSAL, IARC, IHI, ITCI, ITI, DIF, HAI, HAN, TR, XN, XU, SQI, STA, PDIF, PDIR, PDIS, PDP, PDUP, PFRC, PHAR, PHIZ, PIC, PRI, PSS, PPF, PPA, PSCH, PSEF, PTEF, PTC, PTF, PTV, PTRC, PTTR, PTUC, PTUV, PUPF, PTUF, PVC, PVPH, PZSU, RDRE, RADR, RBDR, RDRS, RBRF, RDIR, RFL, RPSB, RREC, RSYN, SARC, SIG, SIL, SPDC, XCBR, XSWI, TCTR, TVTR, YEFN, YLTC, YPSH, YPTR, ZAXN, ZBAT, ZBSH, ZCAB, ZCAP, ZCN, ZGEN, ZGIL, ZLIN, ZT, ZREA, ZRRC, ZSAR, ZTCF, ZTCR Default: GGI Default: None Logical node class Logical node instance number Prefix for logical node Configuring data objects for internal PC data General about configuring data objects for Internal PC Data Internal data objects describe internal status information of an PC server, for example whether the connection between the odbus PC Server and the device (IED) is working or not. When internal information of an PC server needs to be transferred, that is information that does not originate from a device, to an PC Client, virtual data objects must be created. odbus PC Server supports three internal data object types that provide status information: , Integer status (INS) , Single point status (SPS) , Controllable single point (SPC) for PC internal data 24

25 1RS Station Automation C600 odbus TCP aster (PC) Integer status (INS) Table Configurable INS (for PC internal data) properties for PC Servers Basic Common Data Class Addresses Item Tag Path PC Alarm and Event Indication Event INS Default: None Default: None Common data class according to IEC Indication event used with this data object Controllable single point (SPC) for PC internal data Table Configurable SPC (for PC internal data) properties for PC Servers Item tag path for the internal status information. The internal server tags that can be used are located in the Attributes nodes that are located under the root, line, and IED nodes. When an attribute tag is referred to in the internal item definitions below, it is possible to use either the whole tag path or just the path relative to the IED (the internal tags are configured per IED); for example, Attributes\Diagnostic counters\transmitted data messages. When the whole path is used, it must be preceded by a slash (/) character, for example, /Channel Name\Attributes\Diagnostic counters\transmitted data messages Basic Sub-Type Sub Type Addresses Control Coil SPC Sub type of object Coil address for the control. Coil (0X reference) address range Address 0 equals 25

26 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Indication Coil/Input PC Alarm and Event Control Event Class Indication Event Class Default: None Coil or input address for the indication. Coil = 0X reference address range or input = 1X reference address range Address 0 equals Event class to be used for the control events. Event class to be used for the indication events Single point status (SPS) Table Configurable SPS (for PC internal data) properties for PC servers Basic Common Data Class Addresses Item Tag Path Alarm and Event Indication Event SPS Default: Empty string Common data class according to IEC Item tag path for the internal status information. The internal server tags that can be used are located in the Attributes nodes that are located under the root, line, and IED nodes. When an attribute tag is referred to in the internal item definitions below, it is possible to use either the whole tag path or just the path relative to the IED (the internal tags are configured per IED); e.g. Attributes\Diagnostic counters\transmitted data messages. When the whole path is used, it must be preceded by a slash (/) character, e.g. /Channel Name\Attributes\Diagnostic counters\transmitted data messages Indication event used with this data object. 26

27 1RS Station Automation C600 odbus TCP aster (PC) Configuring data objects Directional protection activation information Table Configurable ACD properties for PC Servers with odbus IED Device Basic Sub Type Addresses General Coil/Input Neutral Coil/Input Phase A Coil/Input Phase B Coil/Input Phase C Coil/Input ACD BIT Sub type for the object Coil or input address for General information. Coil (0X reference) address range 1 to 9999 or input (1X reference) address range to Address 0 equals Coil or input address for Neutral information. Coil (0X reference) address range 1 to 9999 or input (1X reference) address range to Address 0 equals Coil or input address for Phase A information. Coil (0X reference) address range 1 to 9999 or input (1X reference) address range to Address 0 equals Coil or input address for Phase B information. Coil (0X reference) address range 1 to 9999 or input (1X reference) address range to Address 0 equals Coil or input address for Phase C information. Coil (0X reference) address range 1 to 9999 or input (1X reference) address range to Address 0 equals 27

28 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Protection activation information (ACT) Table Configurable ACT properties for PC Servers with odbus IED Device Basic Sub Type Addresses Neutral Coil/Input Neutral Coil/Input Phase A Coil/Input Phase B Coil/Input Phase C Coil/Input ACT BIT Sub Type for the object Coil or input address for General information. Coil (0X reference) address range 1 to 9999 or input (1X reference) address range to Address 0 equals Coil or input address for Neutral information. Coil (0X reference) address range 1 to 9999 or input (1X reference) address range to Address 0 equals Coil or input address for Phase A information. Coil (0X reference) address range 1 to 9999 or input (1X reference) address range to Address 0 equals Coil or input address for Phase B information. Coil (0X reference) address range 1 to 9999 or input (1X reference) address range to Address 0 equals Coil or input address for Phase C information. Coil (0X reference) address range 1 to 9999 or input (1X reference) address range to Address 0 equals Analogue set point (APC) Table Configurable ACP properties for PC servers with odbus IED, subtype REGISTERED_BASE Basic APC 28

29 1RS Station Automation C600 odbus TCP aster (PC) 3.3 Subtype Addresses Format Set Point Register REGISTERED_BASE_CN- TRL Float SW first Float SW last Default: Float SW first Data format for the value. Holding register address for the set point. Holding register (4X reference) address range to Address 0 equals Table Configurable ACP properties for PC servers with odbus IED, subtype DPU_REGISTERED_BASE Basic Subtype Addresses Format Set Point Register Execute Register Address for password 1 Address for password 2 APC DPU_REGISTERED_BASE_CN- TRL Float SW first Float SW last Default: Float SW first Data format for the value. Holding register address for the set point. Holding register (4X reference) address range to Address 0 equals 6x extended register. Extended register (6x reference) address range to Address 0 equals to no information available() ASCII 2 Characters Leftmost Digits 6x extended register. Extended register (6x reference) address range to Address 0 equals to no information available(0 to 65535) ASCII 2 Characters rightmost Digits 6x extended register. Extended register (6x reference) address range to Address 0 equals to no information available(0 to 65535) 29

30 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Password Default: empty string. Length: 4 characters IED device 4 character password. Default is empty string Binary counter reading (BCR) Table Configurable BCR properties for PC servers with odbus IED device Basic Addresses Counter Register Format Scale and Unit ultiplier Unit BCR Default Word Integer Long SW first Long SW last Float SW first Float SW last Bit Default: Word Default: No multiplier Default: Dimensionless Holding or input register address for the counter value. Holding register (4X reference) address range or input register (3X reference) address range Address 0 equals to no information available. If format requiring two registers is used, then the lower address must be entered. Data format of the value. ultiplier SI unit for measurement as described in IEC

31 1RS Station Automation C600 odbus TCP aster (PC) Binary controlled step position information (BSC) Binary Controlled Step Position Information (BSC) for PC server with odbus IED supports two subtypes: CILED_BASE_CNTRL DPU_REGISTER_BASE_CNTRL Table Configurable BSC properties for PC servers with odbus device, subtype CILED_BASE_CNTRL Basic Subtype Addresses Higher Coil Lower Coil Position Format Position Register Stop Coil BSC CILED_BASE_CNTRL Default Word Integer Long SW first Long SW last Float SW first Float SW last Bit Default: Word Coil address for the higher command. Coil (0X reference) address range 1 to Address 0 equals Coil address for the lower command. Coil (0X reference) address range 1 to Address 0 equals Data format for the value. Holding or input register address for the position. Holding register (4X reference) address range to or input register (3X reference) address range to Address 0 equals to no information available. Coil address for the stop command. Coil (0X reference) address range 1 to equals 31

32 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Scale and Unit Scale for position Default: None Scale used with position information. Table Configurable BSC properties for PC servers with odbus device, subtype DPU_REGISTER_BASE_CNTRL Basic Subtype Addresses Execute Register Higher register Lower register Address for password 1 Address for password 2 Password BSC DPU_REGISTER_BASE_CN- TRL ASCII 2 Characters rightmost Digits ASCII 2 Characters rightmost Digits Default: empty string Length: 4 characters 6x extended register. Extended register (6x reference) address range to Address 0 equals to no information available(). 6x extended register. Extended register (6x reference) address range to Address 0 equals to no information available(). 6x extended register. Extended register (6x reference) address range to Address 0 equals to no information available(). 6x extended register. Extended register (6x reference) address range to Address 0 equals to no information available(). 6x extended register. Extended register (6x reference) address range to Address 0 equals to no information available(). IED device 4 character password. Default is empty string Complex measured value (CV) Table Configurable CV properties for PC servers with odbus device Basic 32

33 1RS Station Automation C600 odbus TCP aster (PC) 3.3 Sub Type Sub Type Addresses easurement Format easurement Register Scale and Unit ultiplier Scale Unit Limit Value Supervision ax in CV V/CV simple V_LIIT_CHECK Default: V/CV simple Default Word Integer Long SW first Long SW last Float SW first Float SW last Bit Default: Word Default: Deka Default: None Default: Dimensionless Sub type for V/CV. Data format of the value. Holding or input register address for the measurement. Holding register (4X reference) address range to or input register (3X reference) address range to Address 0 equals If format requiring two registers is used, then the lower address must be entered. Specifies the multiplier for current SI unit. Scale used with this type. SI unit for measurement as described in IEC aximum value for measurement. inimum value for measurement. 33

34 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Delta (DEL) Table Configurable DEL properties for PC servers with odbus device Basic Sub-Type Sub Type Phase AB Addresses Phase AB Angle Phase AB Angle Format Phase AB agnitude DEL DEL full DEL simple Default: DEL full Default Word Integer Long SW first Long SW last Float SW first Float SW last Bit Default: Word Sub type for DEL. Holding or input register address for the phase AB angle. Holding register (4X reference) address range to or input register (3X reference) address range to Address 0 equals Data format for phase AB angle. Holding or input register address for the phase AB agnitude. Holding register (4X reference) address range to or input register (3X reference) address range to Address 0 equals 34

35 1RS Station Automation C600 odbus TCP aster (PC) 3.3 Phase AB agnitude Format Phase BC Addresses Phase BC Angle Phase BC Angle Format Phase BC agnitude Default Word Integer Long SW first Long SW last Float SW first Float SW last Bit Default: Word Default Word Integer Long SW first Long SW last Float SW first Float SW last Bit Default: Word Data format for phase AB magnitude. Holding or input register address for the phase BC angle. Holding register (4X reference) address range to or input register (3X reference) address range to Address 0 equals Data format for phase BC angle. Holding or input register address for the phase BC magnitude. Holding register (4X reference) address range to or input register (3X reference) address range to Address 0 equals 35

36 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Phase BC agnitude Format Phase CA Addresses Phase CA Angle Phase CA Angle Format Phase CA agnitude Default Word Integer Long SW first Long SW last Float SW first Float SW last Bit Default: Word Default Word Integer Long SW first Long SW last Float SW first Float SW last Bit Default: Word Data format for phase BC magnitude. Holding or input register address for the phase CA angle. Holding register (4X reference) address range to or input register (3X reference) address range to Address 0 equals Data format for phase CA angle. Holding or input register address for the phase CA magnitude. Holding register (4X reference) address range to or input register (3X reference) address range to Address 0 equals 36

37 1RS Station Automation C600 odbus TCP aster (PC) 3.3 Phase CA agnitude Format Scale and Unit ultiplier Scale Unit Phase Limit Value Supervision High High-High Low Low-Low ax in Default Word Integer Long SW first Long SW last Float SW first Float SW last Bit Default: Word Default: Kilo Default: None Default: Volt Data format for phase CA magnitude. Specifies the multiplier for current SI unit. Scale used for the measurements. SI unit for measurement as described in IEC High limit for measurement. Event is created, when value crosses the limit. High-high limit for measurement. Event is created, when value crosses the limit. Low limit for measurement. Event is created, when value crosses the limit. Low-low limit for measurement. Event is created, when value crosses the limit. aximum value for measurement. inimum value for measurement Controllable double point (DPC) Controllable Double Point (DPC) for PC servers with odbus IED supports the following subtypes: BIT_D SACE GENERIC_CNTRL BIT_DPU_SB 37

38 odbus TCP Station Automation C600 aster (PC) 3.3 1RS BIT_DPU_CD_SB BIT_DPU_IN_REGISTER_SB Table Configurable DPC properties for PC servers with odbus device Basic Sub-Type Sub Type Addresses Address For Command Address For Status and Intermediate Bit ask For Intermediate Status Bit ask For Status Close Command Type Close Control Coil Close Indication Coil/Input Command Parameter DPC BIT_D SACE Sub type for command. Holding register address for the control. Holding register (4x reference) address range to Address 0 equals Holding or input register address for the open, close, and intermediate indication. Holding register = 4x reference address range to or input register = 3x reference address range to Address 0 equals to no information available. Bit mask for intermediate status. Bit mask for status. Close command type. Coil address for the close control. Coil (0X reference) address range 1 to Address 0 equals Coil or input address for the close indication. Coil (0X reference) address range 1 to 9999 or input (1X reference) address range to Address 0 equals Command parameter. 38

39 1RS Station Automation C600 odbus TCP aster (PC) 3.3 Fail Indication Coil/Input pen Command Type pen Control Coil pen Indication Coil/Input 9 Coil or input address for the fail indication (optional). Coil (0X reference) address range 1 to 9999 or input (1X reference) address range to Address 0 equals pen command type. Coil address for the open control. Coil (0X reference) address range 1 to Address 0 equals Coil or input address for the open indication. Coil (0X reference) address range 1 to 9999 or input (1X reference) address range to Address 0 equals Table Configurable DPC properties for PC servers with odbus device, subtype GENERIC_CNTRL Basic Subtype Addresses Address for password 1 Address for password 2 Password 1 Password 2 DPC GENERIC_CNTRL Up to 4 ASCII Characters Leftmost Digits Up to 4 ASCII Characters rightmost Digits Default: empty string. Default: empty string. starting address of password 1 Starting address of password 2 IED device password. Default is empty string. This password is written to up to 2 register starting from the one specified from Address for password 1. Example: 1234 IED device password. Default is empty string. This password is written to up to 2 register starting from the one specified from Address for password 2. Example:

40 odbus TCP Station Automation C600 aster (PC) 3.3 1RS pen Control Address pen Control Value pen Confirm Address pen Confirm Value pen Execute Address pen Execute Value pen Control 4 pen Control 4 pen Control 5 Default: 1 Default: 1 Default: 1 Default: 1 Change initiate input mask for open command. Coil/Holding/Extend register. Address 0 equals to no information available () Value written to open control address. Example: 1 = Control bit state 0 = No Control Confirm initiate input mask for open command. Coil/Holding/Extend register. Address 0 equals to no information available () Value written to open confirms address. Example: 1 = Control bit state 0 = No Control Execute register for open command. Coil/Holding/Extend register. Address 0 equals to no information available () Value written to open executes address. Example: 1 = Execute 0 = No Action Initiate input mask for open command. Coil/Holding/Extend register. Address 0 equals to no information available () Value to write to control 4 address Initiate input mask for open command. Coil/Holding/Extend register. Address 0 equals to no information available () 40

41 1RS Station Automation C600 odbus TCP aster (PC) 3.3 pen Control 5 value Close Control Address Close Control Value Close Confirm Address Close Confirm Vale Close Execute Address Close Execute Value Close Control 4 Close Control 4 value Close Control 5 Default: 1 Default: 1 Default: 1 Default: 1 Default: 1 Value to write to control 5 address Change initiate input mask for close command. Coil/Holding/Extend register. Address 0 equals to no information available () Value written to Close control address. Example: 1 = Control bit state 0 = No Control Confirm initiate input mask for Close command. Coil/Holding/Extend register. Address 0 equals to no information available () Value written to Close confirms address. Example: 1 = Control bit state 0 = No Control Execute register for Close command. Coil/Holding/Extend register. Address 0 equals to no information available () Value written to Close executes address. Example: 1 = Execute 0 = No Action Address 0 equals to no information available () Value to write to control 4 address Initiate input mask for open command. Coil/Holding/Extend register. Address 0 equals to no information available () 41

42 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Close Control 5 value Password 1 ordinal Password 2 ordinal Default: 1 0 to 7 Default: 1 0 to 7 Default: 2 Value to write to control 5 address 7 = Last rder of execution in a command chain (Password, Control, Confirm, Execute, Command 4, Command 5) 0 = Not in use. (When this value is 0, password 2 is not used) 1 = First in command chain 2 = Second 3 = Third 4 = Forth 5 = Fifth 6 = Sixth 7 = Last rder of execution in a command chain (Password, Control, Confirm, Execute, Command 4, Command 5) 0 = Not in use. (When this value is 0, password 2 is not used) 1 = First in command chain 2 = Second 3 = Third 4 = Forth 5 = Fifth 6 = Sixth 42

43 1RS Station Automation C600 odbus TCP aster (PC) 3.3 Control ordinal Confirm ordinal Execute ordinal 0 to 7 Default: 3 0 to 7 Default: 4 0 to 7 Default: 5 7 = Last rder of execution in a command chain (Password, Control, Confirm, Execute, Command 4, Command 5) 0 = Not in use. (When this value is 0, initiate input mask is not used) 1 = First in command chain 2 = Second 3 = Third 4 = Forth 5 = Fifth 6 = Sixth 7 = Last rder of execution in a command chain (Password, Control, Confirm, Execute, Command 4, Command 5) 0 = Not in use. (When this value is 0, initiate input mask is not used) 1 = First in command chain 2 = Second 3 = Third 4 = Forth 5 = Fifth 6 = Sixth 7 = Last rder of execution in a command chain (Password, Control, Confirm, Execute, Command 4, Command 5) 0 = Not in use. (When this value is 0, initiate input mask is not used) 1 = First in command chain 2 = Second 3 = Third 4 = Forth 5 = Fifth 6 = Sixth 43

44 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Command 4 ordinal Command 5 ordinal Address For Fail Alarm Address For Inverse Status 0 to 7 0 to 7 Default 7 = Last rder of execution in a command chain (Password, Control, Confirm, Execute, Command 4, Command 5) 0 = Not in use. (When this value is 0, command 4 initiate input mask is not used) 1 = First in command chain 2 = Second 3 = Third 4 = Forth 5 = Fifth 6 = Sixth 7 = Last rder of execution in a command chain (Password, Control, Confirm, Execute, Command 4, Command 5) 0 = Not in use. (When this value is 0, command 5 initiate input mask is not used) 1 = First in command chain 2 = Second 3 = Third 4 = Forth 5 = Fifth 6 = Sixth Coil/Input/Holding register address. Coil = 0x reference address range 1 to 9999 r input = 1x reference address range to r holding register = 4x reference range to or Input register = 3x reference address range to Address 0 equals to no information available () Coil/Input/Holding register address. Coil = 0x reference address range 1 to 9999 r input = 1x reference address range to r holding register = 4x reference range to or Input register = 3x reference address range to Address 0 equals to no information available () 44

45 1RS Station Automation C600 odbus TCP aster (PC) 3.3 Address For Status Bit ask for Fail Alarm Bit ask for Inverse status Bit ask for status Default Default Default Default Coil/Input/Holding register address. Coil = 0x reference address range 1 to 9999 r input = 1x reference address range to r holding register = 4x reference range to or Input register = 3x reference address range to Address 0 equals to no information available () Bit mask for fail alarm Bit mask for inverse status Bit mask for status Table Configurable DPC properties for PC servers with odbus device, subtype BIT_DPU_SB/ BIT_DPU_CD_SB Basic Subtype Addresses Address For Control Register Address For Confirm Register Address For Execute Register pen command value Close command value DPC BIT_DPU_SB BIT_DPU_CD_SB Holding address for the Vendor name. Holding register = 4x reference address range to Address 0 equals Holding address for the Vendor name. Holding register = 4x reference address range to Address 0 equals Holding address for the Vendor name. Holding register = 4x reference address range to Address 0 equals pen command type Close command type 45

46 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Status Coil/Input Inverse status Coil/Input Fail alarm Coil/Input Address for status Bit mask of status Bit mask Address for Password 1 Address for Password 2 Password Default: empty string. Length: 4 characters Coil or input address for the indication. Coil = 0X reference address range 1 to 9999 or input = 1X reference address range to Address 0 equals Coil or input address for the indication. Coil = 0X reference address range 1 to 9999 or input = 1X reference address range to Address 0 equals Coil or input address for the indication. Coil = 0X reference address range 1 to 9999 or input = 1X reference address range to Address 0 equals Holding address for indication. Holding register = 4x reference address range to Address 0 equals to no information available. Status bit mask Bit mask Holding address for password 1. Holding register = 4x reference address range to Address 0 equals to no information available. Holding address for password 2. Holding register = 4x reference address range to Address 0 equals to no information available. IED device 4 character password. Default is empty string. Table Configurable DPC properties for PC servers with odbus device, subtype BIT_DPU_IN_REGISTER_SB Basic Subtype Addresses DPC BIT_DPU_IN_REGISTER_SB 46

47 1RS Station Automation C600 odbus TCP aster (PC) 3.3 Address For Control Register Address For Confirm Register Address For Execute Register pen command value Close command value Status Coil/Input Inverse status Coil/Input Fail alarm Coil/Input Bit mask for status Bit mask for inverse status Bit mask for fail alarms Address for status Default: 1 Default: 2 Holding address for the Vendor name. Holding register = 4x reference address range to Address 0 equals Holding address for the Vendor name. Holding register = 4x reference address range to Address 0 equals Holding address for the Vendor name. Holding register = 4x reference address range to Address 0 equals pen command type Close command type Coil or input address for the indication. Coil = 0X reference address range 1 to 9999 or input = 1X reference address range to Address 0 equals to no information available Coil or input address for the indication. Coil = 0X reference address range 1 to 9999 or input = 1X reference address range to Address 0 equals to no information available Coil or input address for the indication. Coil = 0X reference address range 1 to 9999 or input = 1X reference address range to Address 0 equals to no information available Bit mask for status Bit mask for inverse status Bit mask for fail alarms Holding address for indication. Holding register = 4x reference address range to Address 0 equals to no information available 47

48 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Bit mask of status Bit mask Address for Password 1 Address for Password 2 Password Default: empty string. Length: 4 characters Status bit mask Holding address for in password 1. Holding register = 4x reference address Range to Address 0 equals to no information available. Holding address for in password 2. Holding register = 4x reference address Range to Address 0 equals to no information available. IED device 4 character password. Default is empty string Device name plate (DPL) Device Name Plate (DPL) for PC server with odbus IED supports two subtypes: PLATE_FIXED PLATE_IED_DPU Table Configurable DPL properties for PC servers with odbus device, subtype PLATE_FIXED Basic Sub Type Vendor Vendor Hardware revision Hardware Revision Software Revision Software Revision Serial Number Serial Number Location DPL PLATE_FIXED 0 0 Vendor as text. Hardware revision as text. Software revision as text. Serial number as text. 48

49 1RS Station Automation C600 odbus TCP aster (PC) 3.3 Location Location as text. Table Configurable DPL properties for PC servers with odbus device, subtype PLATE_FIXED Basic Sub Type Address Leftmost Register for Vendor name Rightmost Register for Vendor name Hardware Revision Address Software Revision Address Serial Number Address Topic format DPL PLATE_IED_DPU Word Integer Long SW first Long SW last Float SW first Float SW last Bit Default: Word Holding address for the Serial number. Holding register = 4x reference address range Address 0 equals Holding address for the Serial number. Holding register = 4x reference address range Address 0 equals Holding address for the Serial number. Holding register = 4x reference address range Address 0 equals Holding address for the Serial number. Holding register = 4x reference address range Address 0 equals Holding address for the Serial number. Holding register = 4x reference address range Address 0 equals Data format for the indication 49

50 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Leftmost register for Vendor location Rightmost register for Vendor location Indication scale Lookup table scale Stepwise Linear scale Default: NNE Holding address for the Serial number. Holding register = 4x reference address range Address 0 equals Holding address for the Serial number. Holding register = 4x reference address range Address 0 equals Scale to be used with the indication value Double point status (DPS) Double Point Status (DPS) for PC server with odbus IED supports the following subtypes: BIT BIT_IN_REGISTER_WITH_INTEREDIATE_BIT BIT_DPU BIT_DPU_CD BIT_DPU_INREGISTER Table Configurable DPS properties for PC servers with odbus device, subtype BIT, BIT_IN_REGISTER_WITH_INTEREDIATE_BIT, BIT_DPU, BIT_DPU_CD Basic Subtype Addresses Address For Status and Intermediate DPS BIT BIT_DPU BIT_DPU_CD BIT_IN_REGISTER_WITH_INTER- EDIATE_BIT BIT_DPU_INREGISTER Address for status and intermediate. 50

51 1RS Station Automation C600 odbus TCP aster (PC) 3.3 Bit ask for Fail Alarm Bit ask for Inverse status Bit ask For Intermediate Status Bit ask For Status Close Indication Coil/Input Fail Alarm register Fail Indication Coil/Input Indication Register Inverse status register pen indication Coil/Input Default Default Default Default Bit mask for fail alarm Bit mask for inverse status Bit mask for intermediate status. Bit mask for status. Coil or input address for the close indication. Coil (0X reference) address range or input (1X reference) address range Address 0 equals Holding address for the Fail alarm. Holding register = 4x reference address range Address 0 equals Coil or input address for the fail indication (optional). Coil (0X reference) address range or input (1X reference) address range Address 0 equals Holding address for the Fail alarm. Holding register = 4x reference address range Address 0 equals Holding address for the Fail alarm. Holding register = 4x reference address range Address 0 equals Coil or input address for the open indication. Coil (0X reference) address range or input (1X reference) address range Address 0 equals 51

52 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Table Configurable DPS properties for PC servers with odbus device, subtype BIT_DPU_IN_REGISTER Basic Subtype Addresses Bit ask for Fail Alarm Bit ask for Inverse status Bit ask For Status Fail Alarm register Indication Register Inverse status register DPS BIT_DPU_IN_REGISTER Default Default Default Default Bit mask for fail alarm Bit mask for inverse status Bit mask for status. Holding address for the Fail alarm. Holding register = 4x reference address range Address 0 equals Holding address for the Fail alarm. Holding register = 4x reference address range Address 0 equals Holding address for the Fail alarm. Holding register = 4x reference address range Address 0 equals Controllable integer status (INC) Controllable Integer Status (INC) for PC server with odbus IED supports the following subtypes: REGISTER_BASED_CNTRL DPU_REGISTER_BASED_CNTRL 52

53 1RS Station Automation C600 odbus TCP aster (PC) 3.3 Table Configurable INC properties for PC servers with odbus device, subtype REGISTER_BASED_CNTRL Basic Subtype Addresses Control Register Format Indication Register Scale and Unit Indication Scale INC REGISTER_BASED_CN- TRL Default Word Integer Long SW first Long SW last Float SW first Float SW last Bit Default: Word Default: None Holding register address for the control. Holding register (4X reference) address range Address 0 equals Holding or input register address for the indication. Holding register (4X reference) address range or input register (3X reference) address range Address 0 equals to no information available. Scale to be used with the indication value. Table Configurable INC properties for PC servers with odbus device, subtype DPU_REGISTER_BASED_CNTRL Basic Subtype Addresses INC Data format of the control and the indication. DPU_REGISTER_BASED_CN- TRL 53

54 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Control register Execute register Indication register Format Address for password 1 Address for password 2 Password Word Integer Long SW first Long SW last Float SW first Float SW last Bit Default: Word ASCII 2 Characters Leftmost Digits ASCII 2 Characters Leftmost Digits Default: empty string. Length: 4 characters 6x extended control register. Extended register (6x reference) address range Address 0 equals to no information available ( ) 6x extended control register. Extended register (6x reference) address range Address 0 equals to no information available ( ) 6x extended control register. Extended register (6x reference) address range Address 0 equals to no information available ( ) Data format for the indication 6x extended register. Extended register (6x reference) address range Address 0 equals to no information available ( ) 6x extended register. Extended register (6x reference) address range Address 0 equals to no information available ( ) IED device 4 character password. Default is empty string Integer status (INS) Table Configurable INS properties for PC servers with odbus device Basic INS 54

55 1RS Station Automation C600 odbus TCP aster (PC) 3.3 Addresses Format Indication Register Scale and Unit Scale Default Word Integer Long SW first Long SW last Float SW first Float SW last Bit Default: Word Default: None Data format of the indication. Holding or input register address for the indication. Holding register (4X reference) address range or input register (3X reference) address range Address 0 equals to no information available. Scale to be used with the indication value Integer controlled step position information (ISC) Integer controlled step position information (ISC) for PC server with odbus IED supports the following subtypes: REGISTER_BASED_CNTRL DPU_REGISTER_BASED_CNTRL Table Configurable ISC properties for PC servers with odbus device, subtype REGISTER_BASED_CNTRL Basic Subtype Addresses ISC REGISTER_BASED_CN- TRL 55

56 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Control Register Format Indication Register Scale and Unit Indication Scale Default Word Integer Long SW first Long SW last Float SW first Float SW last Bit Default: Word Default: None Holding register address for the control. Holding register (4X reference) address range Address 0 equals Holding or input register address for the indication. Holding register (4X reference) address range or input register (3X reference) address range Address 0 equals to no information available. Scale to be used with the indication. Table Configurable ISC properties for PC servers with odbus device, subtype DPU_REGISTER_BASED_CNTRL Basic Subtype Addresses Control register Execute register ISC Data format of the control and the indication. DPU_REGISTER_BASED_CN- TRL x extended control register. Extended register (6x reference) address range Address 0 equals to no information available ( ) 6x extended control register. Extended register (6x reference) address range Address 0 equals to no information available ( ) 56

57 1RS Station Automation C600 odbus TCP aster (PC) 3.3 Indication register Format Address for password 1 Address for password 2 Password Word Integer Long SW first Long SW last Float SW first Float SW last Bit Default: Word ASCII 2 Characters Leftmost Digits ASCII 2 Characters Leftmost Digits Default: empty string. Length: 4 characters 6x extended control register. Extended register (6x reference) address range Address 0 equals to no information available ( ) Data format for the indication 6x extended register. Extended register (6x reference) address range Address 0 equals to no information available ( ) 6x extended register. Extended register (6x reference) address range Address 0 equals to no information available ( ) IED device 4 character password. Default is empty string Logical node name plate (LPL) Table Configurable LPL properties for PC servers with odbus device Basic Sub Type Vendor Vendor Software Revision Software Revision LPL PLATE_FIXED Vendor as text. Software revision as text 57

58 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Table Configurable LPL properties for PC servers with odbus device, subtype PLATE_IED_DPU Basic Sub Type Addresses Leftmost register for Vendor location Rightmost register for Vendor location Software Revision Address Indication scale LPL PLATE_IED_DPU to Default: none Holding address for the Serial number. Holding register = 4x reference address range Address 0 equals Holding address for the Serial number. Holding register = 4x reference address range Address 0 equals Holding address for the Serial number. Holding register = 4x reference address range Scale to be used with the indication value easured value (V) Table Configurable V properties for PC servers with odbus device Address 0 equals Basic Sub-Type Sub Type Addresses V V/CV simple V_LIIT_CHECK Default: V/CV simple Sub type for V/CV. 58

59 1RS Station Automation C600 odbus TCP aster (PC) 3.3 easurement Format easurement Register Scale and Unit ultiplier Scale Unit Limit Value Supervision ax in Default Word Integer Long SW first Long SW last Float SW first Float SW last Bit Default: Word Default: Deka Default: None Default: Dimensionless Data format of the value. Holding or input register address for the measurement. Holding register (4X reference) address range to or input register (3X reference) address range to Address 0 equals If format requiring two registers is used, then the lower address must be entered. Specifies the multiplier for current SI unit. Scale used with this type. SI unit for measurement as described in IEC aximum value for measurement. inimum value for measurement Controllable single point (SPC) Controllable single point (SPC) for PC server with odbus IED supports the following subtypes: BIT_D SACE BIT_DPU_SB BIT_DPU_CD_SB BIT_DPU_IN_REGISTER_SB 59

60 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Table Configurable SPC properties for PC servers with odbus device, subtype BIT_D, and SACE Basic Sub-Type Sub Type Addresses Address For Command Address For Status Bit ask For Status Command Parameter Control Coil Indication Coil/Input ff Command Type n Command Type SPC BIT_D SACE Sub type of object. Address for command. Address for status. Bit mask for status. Command parameter. Coil address for the control. Coil (0X reference) address range 1 to Address 0 equals Coil or input address for the indication. Coil = 0X reference address range 1 to 9999 or input = 1X reference address range to Address 0 equals Command type for FF command. Command type for N command. Table Configurable SPC properties for PC servers with odbus device, subtype BIT_DPU_SB, BIT_DPU_CD_SB, and BIT_DPU_IN_REGISTER_SB Basic SPC 60

61 1RS Station Automation C600 odbus TCP aster (PC) 3.3 Subtype Address For Control Register Address For Confirm Register Address For Execute Register pen command value Close command value Indication Coil/Input Address for status Bit mask of status Bit mask BIT_DPU_SB BIT_DPU_CD_SB BIT_DPU_IN_REGISTER_SB SACE Default: 1 Default: 2 Holding address for the Vendor name. Holding register = 4x reference address range to Address 0 equals to no information available Holding address for the Vendor name. Holding register = 4x reference address range to Address 0 equals to no information available Holding address for the Vendor name. Holding register = 4x reference address range to Address 0 equals to no information available pen command type Close command type Coil or input address for the indication. Coil = 0X reference address range 1 to 9999 or input = 1X reference address range to Address 0 equals to no information available Holding address for indication. Holding register = 4x reference address range to Address 0 equals to no information available Status bit mask 61

62 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Address for Password 1 Address for Password 2 Password Default: empty string. Length: 4 characters Holding address for password 1. Holding register = 4x reference address range to Address 0 equals to no information available Holding address for password 2. Holding register = 4x reference address range to Address 0 equals to no information available IED device 4 character password. Default is empty string Single point status (SPS) Single Point Status (SPS) for PC server with odbus IED supports the following subtypes: BIT BIT_DPU_CD BIT_IN_REGISTER Table Configurable SPS properties for PC servers with odbus device, subtype BIT AND BIT_IN_REGISTER Basic Sub-Type Addresses Indication Coil/Input SPS BIT BIT_IN_REGISTER Default: BIT Sub type for SPS. Coil or input address for the indication. Coil (0X reference) address range 1 to 9999 or input (1X reference) address range to Address 0 equals 62

63 1RS Station Automation C600 odbus TCP aster (PC) 3.3 Table Configurable SPS properties for PC servers with odbus device, subtype BIT_DPU_CD Basic Subtype Indication Coil/Input Bit mask SPS BIT BIT_DPU_CD Coil or input address for the indication. Coil = 0X reference address range 1 to 9999 or input = 1X reference address range to Bit mask for indication WYE Table Configurable WYE properties for PC servers with odbus device Address 0 equals to no information available Basic Sub Type Sub Type Phase A Addresses Phase A Angle WYE WYE full WYE simple Default: WYE full Sub type for WYE. Holding or input register address for the phase A angle. Holding register = 4X reference address range to or input register = 3X reference address range to Address 0 equals 63

64 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Phase A Angle Format Phase A agnitude Phase A agnitude Topic Format Phase B Addresses Phase B Angle Default Word Integer Long SW first Long SW last Float SW first Float SW last Bit Default: Word Default Word Integer Long SW first Long SW last Float SW first Float SW last Bit Default: Word Data format for Phase A angle. Holding or input register address for the Phase A magnitude. Holding register = 4X reference address range to or input register = 3X reference address range to Address 0 equals Data format for Phase A agnitude. Holding or input register address for the Phase B angle. Holding register = 4X reference address range to or input register = 3X reference address range to Address 0 equals 64

65 1RS Station Automation C600 odbus TCP aster (PC) 3.3 Phase B Angle Format Phase B agnitude Phase B agnitude Topic Format Phase C Addresses Phase B Angle Default Word Integer Long SW first Long SW last Float SW first Float SW last Bit Default: Word Default Word Integer Long SW first Long SW last Float SW first Float SW last Bit Default: Word Data format for Phase B angle. Holding or input register address for the Phase B magnitude. Holding register = 4X reference address range to or input register = 3X reference address range to Address 0 equals Data format for Ib magnitude. Holding or input register address for the Phase C angle. Holding register = 4X reference address range to or input register = 3X reference address range to Address 0 equals 65

66 odbus TCP Station Automation C600 aster (PC) 3.3 1RS Phase C Angle Format Phase C agnitude Phase C agnitude Topic Format Neural Addresses Neutral Angle Default Word Integer Long SW first Long SW last Float SW first Float SW last Bit Default: Word Default Word Integer Long SW first Long SW last Float SW first Float SW last Bit Default: Word Data format for phase C angle. Holding or input register address for the Phase C magnitude. Holding register = 4X reference address range to or input register = 3X reference address range to Address 0 equals Data format for Ic magnitude. Holding or input register address for the neutral angle. Holding register = 4X reference address range to or input register = 3X reference address range to Address 0 equals 66

67 1RS Station Automation C600 odbus TCP aster (PC) 3.3 Neutral Angle Format Neutral agnitude Neutral agnitude Topic Format Scale and Unit Neutral ultiplier Neutral Scale Neutral Unit Phase ABC Scale Phase ABC Unit Phase ultiplier Phase Limit Value Supervision Default Word Integer Long SW first Long SW last Float SW first Float SW last Bit Default: Word Default Word Integer Long SW first Long SW last Float SW first Float SW last Bit Default: Word Default: Deka Default: None Default: Dimensionless Default: None Default: Dimensionless Default: Deka Data format for neutral angle. Holding or input register address for the Neutral magnitude. Holding register = 4X reference address range to or input register = 3X reference address range to Address 0 equals Data format for In magnitude. Specifies the multiplier for current SI unit. Scale for neutral to be used with this data object. Unit for neutral. Scale used with ABC phases. Unit for ABC phases. Specifies the multiplier for current SI unit. 67

68 odbus TCP Station Automation C600 aster (PC) 3.3 1RS High High-High Low Low-Low ax in Neutral Limit Value Supervision Neutral High Neutral High-High Neutral Low Neutral Low-Low Neutral ax Neutral in High limit measurement. Event is created, when value crosses the limit. High-high limit for measurement. Event is created, when value crosses the limit. Low limit for measurement. Event is created, when value crosses the limit. Low-low limit for measurement. Event is created, when value crosses the limit. aximum value for measurement. inimum value for measurement. High limit for measurement. Event is created, when value crosses the limit. High-high limit for measurement. Event is created, when value crosses the limit. Low limit for measurement. Event is created, when value crosses the limit. Low-low limit for measurement. Event is created, when value crosses the limit. aximum value for measurement. inimum value for measurement Topic Generator When data objects have been configured with addresses, use the Topic Generator function to specify how data is requested from devices. A topic definition for an indication address specifies start and end of address, data format, deadband, and polling interval in milliseconds. However, a topic definition for a controllable point only specifies address range and its data format To generate topic definitions: 1. Select the Communication tab on the Project Explore window. 2. Right-click a PC Server node or a IED node and select the Topic Generator function on the context menu. In most cases, modifications to the automatically generated topics are not required. However, some topic definitions may need to be changed, polling interval for example, for some devices to work properly. 68

69 1RS Station Automation C600 odbus TCP aster (PC) 3.3 To add a new topic: 1. pen the Topic Generator from a PC Server node or a IED node. 2. Click the Add Topic button. 3. Click the Add button to add the new topic to the data grid. New topic is added to the data table and the dialog is closed. 4. Click Apply to save. Each time a change is made to data object addresses or a new address is added, use the Topic Generator to update the topic definitions. 69

70 odbus TCP Station Automation C600 aster (PC) 3.3 1RS peration 4.1. About this section This section describes the basic operation procedures you can carry out after the object properties for the odbus PC Server have been configured. After this, you can, for example, monitor and control the condition of connections in a odbus network. This is done by using the nline diagnostics function in SAB Activating C600 with new configurations For information about activating C600 with new configuration, see C600 User s anual PC Server diagnostics To view the PC Server diagnostics, right-click the PC Server object and select nline diagnostics. Figure PC Server diagnostics You have the following alternatives: to view version information to reset the PC Server to view the event log file to clear the log file AE_diagnostic_client.bmp 70

71 1RS Station Automation C600 odbus Channel diagnostics odbus TCP aster (PC) 3.3 The odbuschannel activity can be monitored with the nline diagnostics function. You can also take a channel into use or out of use as described in this section. To monitor and control odbus Channel activity: 1. Select the channel you want to monitor in the object tree of SAB Right-click the channel. 3. Select nline diagnostics. In the Diagnostic counters field, you can monitor the channel activity. To reset Diagnostic counters, click Reset counters. You can take a odbuschannel into use by marking the In use check box. If you unmark the check box, the channel is taken out of use onitoring and controlling odbus Device communication The odbus device communication can be monitored with the nline diagnostics function. You can also take a device or module into use or out of use as described in this section. To monitor and control odbus Device communication: 1. Select the device/ module you want to monitor in the object tree of SAB Right-click the device. 3. Select nline diagnostics. In the Status information field, you can monitor the device status. The Diagnostic counters field provides information on device activity. To reset diagnostic counters, click Reset counters. You can take a odbus device into use by marking the In use check box. If you unmark the check box, the device is taken out of use. Diagnostic counters are updated every 2 seconds. To update them manually, click Refresh. 71

72 odbus TCP Station Automation C600 aster (PC) 3.3 1RS odbus_device_online_diagnostics.bmp Figure odbus Device nline diagnostics 72