background image

Controllable integer status (INC)

5.2.14.

INC represents DMCD M_ME_NA_1, M_ME_TA_1, M_ME_TD_1, M_ME_NB_1,
M_ME_TB_1, C_SE_NA, C_SE_NB_1.

OPC data types

Protocol informa-
tion element

Mandat-
ory/Optional

Value/ Value
range

Type

Name

VT_I4

NVA

M

INTEGER

ctlVal

VT_I4

VAI32

M

INTEGER

stVal

VT_I4

BL, SB, NT, IV

M

Quality

q

VT_DATE

CP24TIME2A

M

TimeStamp

t

VT_BSTR

O

Text

Description

d

Binary controlled step position information (BSC)

5.2.15.

BSC represents DMCD M_ST_NA_1, M_ST_TA_1, M_ST_TB_1, M_RC_NA_1.

OPC data types

Protocol informa-
tion element

Mandat-
ory/Optional

Value/ Value
range

Type

Name

VT_I1

RCO

M

stop (0)

lower (1)

higher (2)

reserved (3)

ENUMERATED

ctlVal

VT_I4

VTI

M

ValWithTrans

valWTr

VT_I4

BL, SB, NT, IV

M

Quality

q

VT_DATE

CP24Time2a

M

TimeStamp

t

VT_BSTR

O

Text

Description

d

Integer controlled step position information (ISC)

5.2.16.

ISC represents C_SE_NA_1, C_SE_NB_1, M_ST_NA_1, M_ST_TA_1, M_ST_TB_1.

OPC data types

Protocol informa-
tion element

Mandat-
ory/Optional

Value/ Value
range

Type

Name

VT_I4

NVA

M

-64 ... 63

INTEGER

ctlVal

VT_I4

VTI

M

ValWithTrans

valWTr

V_I4

BL, SB, NT, IV

M

Quality

q

V_DATE

CP24TIME2A

M

TimeStamp

t

VT_BSTR

O

Text

Description

d

62

1MRS755382

Station Automation COM600 3.4

IEC 60870-5-101 Slave (OPC) User's Manual

Summary of Contents for COM600 3.4

Page 1: ...Station Automation COM600 3 4 IEC 60870 5 101 Slave OPC User s Manual ...

Page 2: ......

Page 3: ...s function 17 3 3 6 File transfer function 18 3 3 7 Transparent SPA function 19 3 4 Configuring objects 19 3 4 1 General about configuring objects 19 3 4 2 Configuring IEC101 Slave OPC Client properties 20 3 4 3 Configuring Channel Properties 21 3 4 3 1 Configuring IEC101 Balanced Channel properties 21 3 4 3 2 Configuring IEC101 Unbalanced Channel properties 24 3 4 4 Configuring Device Properties ...

Page 4: ...gnostics 54 5 Technical reference 56 5 1 About this section 56 5 2 IEC 61850 data modeling 56 5 2 1 General about IEC 61850 data modeling 56 5 2 2 Single point status SPS 56 5 2 3 Double point status DPS 57 5 2 4 Integer status INS 57 5 2 5 Protection activation information ACT 57 5 2 6 Directional protection activation information ACD 58 5 2 7 Binary counter reading BCR 59 5 2 8 Measured value MV...

Page 5: ...1 General about attributes 65 5 4 2 Client attributes 65 5 4 3 Channel attributes 65 5 4 4 Device attributes 66 Appendix 1 69 Interoperability list for IEC101 OPC Client 69 Index 77 5 Station Automation COM600 3 4 1MRS755382 IEC 60870 5 101 Slave OPC User s Manual ...

Page 6: ...6 ...

Page 7: ...be used copied or disclosed only in accordance with the terms of such license Copyright 2006 ABB All rights reserved Trademarks 1 2 ABB is a registered trademark of ABB Group All other brand or product names men tioned in this document may be trademarks or registered trademarks of their respective holders General 1 3 This manual provides thorough information on the OPC Client for IEC 60870 5 101 S...

Page 8: ...og 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 ob...

Page 9: ...ed as follows The electrical warning icon indicates the presence of a hazard which could result in electrical shock The warning icon indicates the presence of a hazard which could result in personal injury The caution icon indicates important information or warning related to the concept discussed in the text It may indicate the presence of a hazard which could result in corruption of software or ...

Page 10: ...lly an event consists of value quality and timestamp Event A physical IEC 61850 device that behaves as its own commu nication node in the IEC 61850 protocol Intelligent Electronic Device Representation of a group of functions Each function is defined as a logical node A physical device consists of one or several LDs Logical Device LD The smallest part of a function that exchanges data An LN is an ...

Page 11: ... BRCB Data Access DA Data Message Code Definition DMCD Data Object DO Gateway component connecting two communication networks together GW Human Machine Interface HMI International Electrotechnical Commission IEC Intelligent Electronic Device IED LON Application Guideline for substation automation LAG Local Area Network LAN Logical Device LD LonMark interoperable device communicating in LonWorks ne...

Page 12: ... eXtended Markup Language XML Related documents 1 8 MRS number Name of the manual 1MRS756125 COM600 User s Manual Document revisions 1 9 History Product revision Document version date Document created 1 0 A 30 6 2004 Document revised 1 1 B 10 3 2005 Document revised 3 0 C 16 10 2006 Document revised 3 1 D 21 12 2007 Document revised 3 2 E 17 6 2008 Document revised 3 3 F 13 2 2009 Document revised...

Page 13: ... least one OPC server to provide access to the process devices In this user s manual the term IEC101 Device is used for a virtual station in COM600 representing the slave stations visible to the IEC101 master system IEC101 Slave OPC Client features 2 2 The IEC101 Slave OPC Client supports the following features OPC Data Access Client v 1 0 2 0 for accessing data from the OPC servers OPC Alarms and...

Page 14: ...ork 3 Select New Project on the left Enter a Project Name The Description is optional 4 Click Create 5 Click Open Project Overview of configuration 3 2 Before you can start using the IEC101 Slave OPC Client you need to build and configure an object tree in SAB600 to define the Communication structure within the Gateway object IEC101 Slave OPC Client IEC101 OPC Balanced Channel IEC101 OPC Unbalance...

Page 15: ... 1 shows an example of how the object tree may look like after it has been built In the example tree you can see the IEC101 OPC Client 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 ...

Page 16: ...t with the cross reference function They are shown as child objects of the IEC101 Device object in the object tree Data Object DO Event definitions are used for the diagnostic OPC A E Server Event Definitions Building object tree 3 3 General about building object tree 3 3 1 The object tree is built in the Communication structure of SAB600 see Figure 3 2 1 It is built by adding objects in a logical...

Page 17: ...e by adding the IEC101 Device object All the data can be connected to one device or divided to several slave devices Before dividing data to several slave devices it must be checked that the current protocol mode and the master system support the feature To add IEC101 Device object 1 Select a Channel object 2 Add an IEC101 Device object 3 Rename the new object The names within an IEC101 Channel ha...

Page 18: ...nect the data objects to the IEC101 Device object CrossReferences101 jpg Figure 3 3 5 1 The Cross References window For more detailed information about the Cross References function see Cross References function in COM600 User s Manual File transfer function 3 3 6 The File transfer function allows the transfer of disturbance recordings from COM600 to IEC101 master system Configure COM600 to retrie...

Page 19: ...ed to access the con tents Transparent SPA function 3 3 7 COM600 supports encapsulated SPA telegrams over IEC 101 communication It enables IEC101 master systems with SPA support accessing SPA parameters of IEDs connected to COM600 The IEC information address used for the SPA telegrams is configured using the Transparent SPA of the Cross References function There must be at least one cross referenc...

Page 20: ...ntering a text string or a numerical value in a text field The available properties for different objects are listed in the following subsections Configuring IEC101 Slave OPC Client properties 3 4 2 Table 3 4 2 1 lists the configurable IEC101 Client properties and value ranges for them The actual configuration by using SAB600 is performed as described in 3 2 Overview of configuration 20 1MRS755382...

Page 21: ...Do not check Station Remote switch position command always allowed Check Station Remote switch position Default Do not check Sta tion Remote switch position command always allowed Station Remote Switch Specifies what to do with commands if the position of the switch is uncertain Reject commands if position bad or unknown Allow commands if position bad or unknown Default Reject commands if position...

Page 22: ...s s 600 bits s 1200 bits s 2400 bits s 4800 bits s 9600 bits s 19200 bits s 38400 bits s 56000 bits s 57600 bits s 115200 bits s 128000 bits s 256000 bits s Default 19200 bits s Baud Rate Serial port used by the IEC60870 5 101 protocol Number of ports depends on the used hardware COM1 COM8 Default COM1 Communication Port Specifies the parity check used for the characters transferred on the channel...

Page 23: ...ween activation of the RTS signal and start of new trans mission 0 65535 Default 50 CTS Delay Specifies maximum number of times that a message is transmitted after timeout 0 255 Default 3 Enquiry Limit Maximum waiting time in milliseconds of a link layer response 0 65535 Default 2000 Header Timeout The connection is considered to be alive if the delay between two consecutive master messages is sho...

Page 24: ...TS signal 0 255 Default 0 RTS Keepup Pad ding Characters Delay in milliseconds between receiving CTS signal and start of transmission 0 65535 Default 15 Transmission Wait Delay Configuring IEC101 Unbalanced Channel properties 3 4 3 2 The IEC101 Unbalanced Channel properties that can be configured and value ranges for them can be found in Table 3 4 3 2 1 The actual configuration by using the COM600...

Page 25: ... COM8 Default COM1 Communication Port Specifies the parity check used for the characters transferred on the channel No parity check Even Odd Default Even Parity Specifies the number of data bits in each received character 5 8 Default 8 Receiver Data Bit Count Specifies the number of data bits in each transmitted character 1 stopbit 2 stopbits Default 1 stopbit Stop Bits Specifies the number of sto...

Page 26: ...n milliseconds 0 65535 Default 5000 Keep Alive Timeout The type of the data link connection used on the channel RTS activated during transmis sion Unbalanced slave RTS always active reception always enabled Balanced slave RTS activated during transmis sion reception always enabled Balanced slave Default RTS activated during transmission Unbalanced slave Link Type Specifies whether the handshaking ...

Page 27: ...for IEC101 Device 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 3 4 4 1 1 IEC101 Device properties Description Value Value range Name Basic Specifies whether diagnostic AE events are sent for the sta tion or not True False Default False Diagnostics Enabled Specifies whether redundant channel...

Page 28: ... ASDU in an IEC message 0 255 or 0 65535 Default 1 The maximum value depends on the corresponding Station Address Length property value as follows when Station Address Length property value is 1 the value range for the Information Address is 0 255 and when Station Address Length property value is 2 the value range for the Station Address is 0 65535 Station Address Communication control Defines how...

Page 29: ...nd 0 65 Default 30 Execute time out Lengths The length of the cause of transmission field in an IEC 60870 5 101 message 1 2 Default 1 Cause of Transmission Length The length of the information object address in octets Information address maximum value 0 255 when length 1 65535 when length 2 and 16777215 when length 3 1 3 Default 2 Information Address Length The maximum length of trans mitted messa...

Page 30: ...ds UTC time Sends local time Event Time Control Determines the behavior of the slave device when it receives a time synchronization mes sage Receive clock sync Ignore clock sync Default Receive clock sync Time Synchronization Queues Defines a threshold percent of the queue capacity which causes that update of a meas urement removes the oldest entry of the same measure ment from the queue 1 100 Def...

Page 31: ...data objects 3 4 5 1 You can configure data objects either in the Object Properties window or in the Cross References window The actual configuration in Object Properties window by using the COM600 Station Automation Builder 600 SAB600 is performed as described in 3 2 Overview of con figuration The parameters are stored in Object properties in the COM600 Station Automation Builder 600 SAB600 see t...

Page 32: ...ata sent from the slave to the master can be assigned to two classes class 1 and class 2 Data in class 1 is sent with higher priority than data in class 2 1 Class 1 2 Class 2 Default 1 Class 1 Class Interrogation group 1 16 general or 1 4 counter interrogation 1 16 1 16 general or 1 4 counter Interrogation Group Defines whether a new indication value overwrites an older one in the queue True A new...

Page 33: ...ormat Time Tag Time Tag Handling Double point status DPS 3 4 5 3 Table 3 4 5 3 1 Configurable DPS properties for OPC client Description Value or Value range Default Property Para meter Basic Common data class according to IEC 61850 DPS Common Data Class Addresses IEC address for indication 0 16777215 Default 0 Indication Address Common Class of ASDU Data sent from the slave to the master can be as...

Page 34: ...nal is sent as inverse value True 1 False 0 Default False Send as Inverse Value Specifies if a value of indication signal is sent as single point value True 1 False 0 Default False Send as Single Point Specifies the format of timestamp if one is used none short or long Long time tag format cannot be used with a scaled value Do not Send Time Tag 0 Send Short Format Time Tag 1 Send Long Format Time ...

Page 35: ...nes how the ASDU sent is placed in the class 1 and class 2 queues 0 3 End of queue 0 Middle 1 2 Beginning of queue 3 Priority Maximum update rate of indication changes between OPC server and client in milliseconds 0 means that server sends all the changes to the client 0 60000 Default 0 Update Rate Data Class Spe cific Specifies whether the value of indication signal is sent as normalized or scale...

Page 36: ...be assigned to two classes class 1 and class 2 Data in class 1 is sent with higher priority than data in class 2 1 Class 1 2 Class 2 Default 1 Class 1 Class Interrogation group 1 16 general or 1 4 counter interrogation 1 16 general or 1 4 coun ters Interrogation Group Defines whether a new indication value overwrites an older one in the queue True 1 False 0 Default False 0 Over Write Priority of A...

Page 37: ... range Default Property Para meter Basic Common data class according to IEC 61850 ACD Common Data Class Addresses IEC address for general indication 0 16777215 General Address IEC address for neutral 0 16777215 Neutral Address IEC address for phase A 0 16777215 0 Not in use Phase A Address IEC address for phase B 0 16777215 0 Not in use Phase B Address IEC address for phase C 0 16777215 0 Not in u...

Page 38: ... is sent as double point True 1 False 0 Send as Double Point Specifies if a value of indication signal is sent as inverse value True 1 False 0 Send as Inverse Point Specifies the format of timestamp if one is used none short or long Long time tag format cannot be used with a scaled value Do not Send Time Tag 0 Send Short Format Time Tag 1 Send Long Format Time Tag 2 Time Tag Handling Binary counte...

Page 39: ...nd of queue 0 Middle 1 2 Beginning of queue 3 Priority Maximum update rate of indication changes between OPC server and client in milliseconds 0 means that server sends all the changes to the client 0 60000 Default 0 Update Rate Data Class Spe cific Specifies the format of timestamp if one is used none short or long Long time tag format cannot be used with a scaled value Do not Send Time Tag 0 Sen...

Page 40: ... in the class 1 and class 2 queues 0 3 End of queue 0 Middle 1 2 Beginning of queue 3 Priority Maximum update rate of indication changes between OPC server and client in milliseconds 0 means that server sends all the changes to the client 0 60000 Default 0 Update Rate Data Class Spe cific Specifies the type of the indication signal value Long timestamp format cannot be used with a scaled value Sen...

Page 41: ... coun ters Interrogation Group Defines whether a new indication value overwrites an older one in the queue True 1 False 0 Default True 1 Over Write Priority of ASDU This property defines how the ASDU sent is placed in the class 1 and class 2 queues 0 3 End of queue 0 Middle 1 2 Beginning of queue 3 Priority Maximum update rate of indication changes between OPC server and client in milliseconds 0 m...

Page 42: ...E Common Data Class Addresses IEC address for neutral 0 16777215 0 Not in use Neutral Address IEC address for phase A 0 16777215 0 Not in use Phase A Address IEC address for phase B 0 16777215 0 Not in use Phase B Address IEC address for phase C 0 16777215 0 Not in use Phase C Address IED address for net 0 16777215 0 Not in use Net Address IED address for res 0 16777215 0 Not in use Res Address Co...

Page 43: ...ault 1000 Update Rate Data Class Spe cific Specifies the type of the indication signal value Long timestamp format cannot be used with a scaled value Send with normalized value 0 Send with scaled value 1 Send with float value 2 Send As Measurand As Value Type Specifies the format of timestamp if one is used none short or long Long time tag format cannot be used with a scaled value Do not Send Time...

Page 44: ...on Group Defines whether a new indication value overwrites an older one in the queue True 1 False 0 Default True 1 Over Write Priority of ASDU This property defines how the ASDU sent is placed in the class 1 and class 2 queues 0 3 End of queue 0 Middle 1 2 Beginning of queue 3 Priority Maximum update rate of indication changes between OPC server and client in milliseconds 0 means that server sends...

Page 45: ...ra meter Basic Common data class according to IEC 61850 SPC Common Data Class Addresses IEC address for command 0 16777215 Default 0 Command Address IEC address for indication 0 16777215 Default 0 Indication Address Common Class of ASDU Data sent from the slave to the master can be assigned to two classes class 1 and class 2 Data in class 1 is sent with higher priority than data in class 2 Class 1...

Page 46: ...s double point True 1 False 0 Send as Double Point Value Specifies the format of timestamp if one is used none short or long Long time tag format cannot be used with a scaled value True False Send As Inverse Value Do not Send Time Tag 0 Send Short Format Time Tag 1 Send Long Format Time Tag 2 Default Send Long Format Time Tag Time Tag Handling Controllable double point DPC 3 4 5 13 Table 3 4 5 13 ...

Page 47: ...ges between OPC server and client in milliseconds 0 means that server sends all the changes to the client 0 60000 Default 0 Update Rate Data Class Spe cific If the value of this attribute is True then no select is required True 1 False 0 Direct Operate Specifies if the received open close commands are handled inversely True 1 False 0 Receive As Inverse Value Specifies if a value of indication sign...

Page 48: ...4 counter interrogation 1 16 general or 1 4 coun ters Interrogation Group Defines whether a new indication value overwrites an older one in the queue True 1 False 0 Default False 0 Over Write Priority of ASDU This property defines how the ASDU sent is placed in the class 1 and class 2 queues 0 3 End of queue 0 Middle 1 2 Beginning of queue 3 Priority Maximum update rate of indication changes betwe...

Page 49: ...for command 0 16777215 Command Address IEC address for position 0 16777215 Position Address Common Class of ASDU Data sent from the slave to the master can be assigned to two classes class 1 and class 2 Data in class 1 is sent with higher priority than data in class 2 Class 1 1 Class 2 2 Default Class 1 1 Class Interrogation group 1 16 general or 1 4 counter interrogation 1 16 general or 1 4 coun ...

Page 50: ... Long Format Time Tag 2 Default Send Long Format Time Tag Time Tag Handling Integer controlled step position information ISC 3 4 5 16 Table 3 4 5 16 1 Configurable ISC properties for OPC client Description Value or Value range Default Property Para meter Basic Common data class according to IEC 61850 ISC Common Data Class Addresses IEC address for command 0 16777215 Command Address IEC address for...

Page 51: ... as normalized or scaled Long timestamp format cannot be used with a scaled value Send with normalized value 0 Send with scaled value 1 Send Indication As Value Type Specifies the format of timestamp if one is used none short or long Long time tag format cannot be used with a scaled value Do not Send Time Tag 0 Send Short Format Time Tag 1 Send Long Format Time Tag 2 Default Send Long Format Time ...

Page 52: ...vating COM600 with new configuration see COM600 User s Manual IEC101 Slave OPC Client diagnostics 4 3 To view version information on IEC101 Slave OPC Client or to monitor and control the state of the client right click the IEC101 Slave OPC Client object and select Online diagnostics see Figure 4 3 1 IEC101_Slave_OPC_Client_Online_diagnostics jpg Figure 4 3 1 IEC101 Slave OPC Client Online diagnost...

Page 53: ... activity 1 Select the channel you want to monitor in the object tree of SAB600 2 Right click the channel 3 Select Online diagnostics IEC101_Channel _Online_Diagnostics jpg Figure 4 4 1 IEC101 Channel Online Diagnostics In the Diagnostic counters field you can monitor the channel activity The available attributes can be seen in Figure 4 4 1 To reset Diagnostic counters click Reset counters 53 Stat...

Page 54: ...Reset counters You can take an IEC101 Device into use by marking the In use check box If you unmark the check box the device is taken out of use To manually update diagnostic counters click Refresh Signal diagnostics 4 6 The IEC101 Slave OPC client has a diagnostic function which makes it possible to monitor the flow of process data changes and commands The diagnostic function is activated by mark...

Page 55: ...ave OPC Client Diagnostic AE client Detailed information about field values ASDU types qualifier values and so on can be found in the IEC 60870 5 101 standard documentation 55 Station Automation COM600 3 4 1MRS755382 IEC 60870 5 101 Slave OPC User s Manual ...

Page 56: ...em name of the attribute service Type specifies the IEC 61850 type of the attribute Value Value range specifies the allowed values and ranges of the attribute service Mandatory Optional specifies whether the attribute is considered as mandatory or optional according to the IEC 61850 standard IEC101 information element specifies the IEC101 information element related to the attribute service OPC da...

Page 57: ...ol informa tion element Mandat ory Optional Value Value range Type Name VT_I4 NVA COI M INTEGER stVal VT_I4 OV BL SB NT IV M Quality q VT_DATE CP24Time2a CP56Time2a M TimeStamp t VT_BSTR O Text Description d Protection activation information ACT 5 2 5 ACT represents DMCD M_SP_NA_1 M_SP_TA_1 M_SP_TB_1 M_DP_NA_1 M_DP_TA_1 M_DP_TB_1 OPC data types Protocol informa tion element Mandat ory Optional Val...

Page 58: ...AN general VT_I4 M unknown forward backward ENUMERATED dirGeneral VT_BOOL SPI O BOOLEAN phsA VT_I4 O unknown forward backward ENUMERATED dirPhsA VT_BOOL SPI O BOOLEAN phsB VT_I4 O unknown forward backward ENUMERATED dirPhsB VT_BOOL SPI O BOOLEAN phsC VT_I4 O unknown forward backward ENUMERATED dirPhsC VT_BOOL SPI O BOOLEAN neut VT_I4 O unknown forward backward ENUMERATED dirNeut EI BL SB NT IV M Q...

Page 59: ...rm ation element Mandat ory Optional Value Value range Type Name VT_R4 SVA NVA IEEE STD 754 M AnalogueValue mag VT_I4 L1 L2 L3 L4 O Range range VT_I4 OV BL SB NT IV M Quality q VT_DATE CP24Time2a CP56Time2a none Time of occurence M TimeStamp t VT_R4 O REAL hhLim VT_R4 O REAL hLim VT_R4 O REAL lLim VT_R4 O REAL llLim VT_R4 O REAL min VT_R4 O REAL max VT I4 Config O SiUnit unit VT_BSTR O Text Descri...

Page 60: ...VT_DATE SVA NVA OV BL SB NT IV CP24Time2A O O O AnalogueValue Quality TimeStamp neut cVal mag neut q neut t Delta DEL 5 2 11 DEL represents DMCD M_ME_NA_1 M_ME_TA_1 M_ME_TD_1 M_ME_NB_1 M_ME_TB_1 M_ME_NC_1 M_ME_TC_1 M_ME_TF_1 OPC data types Protocol informa tion element Mandat ory Optional Value Value range Type Name VT_R4 VT_I4 VT_DATE SVA NVA OV BL SB NT IV CP24Time2A M M M AnalogueValue Quality ...

Page 61: ..._NA_1 C_DC_NA_1 M_SP_NA_1 M_SP_TA_1 M_SP_TB_1 M_DP_NA_1 M_DP_TA_1 M_DP_TB_1 OPC data types Protocol informa tion element Mandat ory Optional Value Value range Type Name VT_BOOL SCO O FALSE TRUE SPI ctlOperOn VT_BOOL SCO O FALSE TRUE ctlOperOff VT_BOOL SCO O FALSE TRUE ctlSelOn VT_BOOL SCO O FALSE TRUE ctlSelOff VT_I4 DPI M intermediate state 0 off 1 on 2 bad state 3 ENUMERATED stVal VT_I4 BL SB NT...

Page 62: ...nforma tion element Mandat ory Optional Value Value range Type Name VT_I1 RCO M stop 0 lower 1 higher 2 reserved 3 ENUMERATED ctlVal VT_I4 VTI M ValWithTrans valWTr VT_I4 BL SB NT IV M Quality q VT_DATE CP24Time2a M TimeStamp t VT_BSTR O Text Description d Integer controlled step position information ISC 5 2 16 ISC represents C_SE_NA_1 C_SE_NB_1 M_ST_NA_1 M_ST_TA_1 M_ST_TB_1 OPC data types Protoco...

Page 63: ...r an acknowledgment to a message 17602 IGTP_LINK_NOT_READY The application level sends a command before the communication between the master and the slave is established 17604 IGTP_REMOTE_LINK_BUSY Data sending fails since the Data Flow Control bit DFC is set in remote station and there is already one data message waiting to be reset Not used in the unbalanced slave 17605 IGTP_REMOTE_LINK_NOT_RESP...

Page 64: ...ven address when confirming a command by using the CF attribute Either the address is incorrect or the command has not been received 13860 ICCC_INVALID_QUEUE_NUMBER The index of the SD or EV attribute is incorrect 13861 ICCC_SC_DATA_OVERFLOW Internal software error 13862 ICCC_DEVICE_SUSPENDED The IEC station is in the suspended state The reason for this could be that the link is not properly estab...

Page 65: ...l Stack Ver sion Channel attributes 5 4 3 Table 5 4 3 1 Channel attributes Description Value or Value range Default Property Para meter Basic The state of the channel whether it is in use or not When a channel is not in use no data can be transmitted on it and no data is received from it The channel attributes can be read as usual Generally a channel must be taken out of use by setting this attrib...

Page 66: ...errun error has occurred Overrun Errors The number of times a redundancy error has occurred Check Sum Errors The number of times a framing error has occurred Framing Errors The number of times there as been a buf fer overflow Buffer Overflow Errors Device attributes 5 4 4 Table 5 4 4 1 Device attributes Description Value or Value range Default Property Para meter The operational status of the devi...

Page 67: ...ection suspended Device Connection Status This attribute enables or disables dia gnostic events True Diagnostic events enabled False Diagnostic events dis abled Diagnostic Events Enabled Indicates the current number of pending updates between the client and the pro tocol stack Pending Updates Indicates the maximum number of pending updates between the client and the pro tocol stack Max Pending Upd...

Page 68: ...operty Para meter The number of received confirmation messages Received Confirma tion Messages The number of unknown messages received Received Unknown Messages 68 1MRS755382 Station Automation COM600 3 4 IEC 60870 5 101 Slave OPC User s Manual ...

Page 69: ...r the applications This clause summarizes the parameters of the previous clauses to facilitate a suitable selection for a specific application If a system is composed of equipment stemming from different manufacturers it is necessary that all the partners agree on the selected parameters The selected parameters must be marked in the white boxes The full specification of a system requires individua...

Page 70: ...nbalanced interchange cir cuit V 24 V 28 Recommended if 1200 bit s Unbalanced interchange cir cuit V 24 V 28 Standard 2400 bit s 2400 bit s 100 bit s 4800 bit s 4800 bit s 200 bit s 9600 bit s 9600 bit s 300 bit s 19200 bit s 19200 bit s 600 bit s 38400 bit s 1200 bit s 56000 bit s 64000 bit s Link layer network specific parameter Frame format FT 1 2 single character 1 and the fixed time out inter...

Page 71: ...sion system specific parameter Two octets with originator address One octet Selection of standard ASDUs Process information in monitor direction station specific parameter M_SP_NA_1 Single point information 1 M_SP_TA_1 Single point information with time tag 2 M_DP_NA_1 Double point information 3 M_DP_TA_1 Double point information with time tag 4 M_ST_NA_1 Step position information 5 M_ST_TA_1 Step...

Page 72: ... without quality descriptor 21 M_SP_TB_1 Single point information with time tag CP56Time2a 30 M_DP_TB_1 Double point information with time tag CP56Time2a 31 M_ST_TB_1 Step position information with time tag CP56Time2a 32 M_ME_TD_1 Measured value normalized value with time tag CP56Time2a 34 M_ME_TF_1 Measured value short floating point value with time tag CP56Time2a 36 M_IT_TB_1 Integrated totals w...

Page 73: ..._1 Clock synchronization command 103 C_TS_NB_1 Test command 104 C_RP_NC_1 Reset process command 105 C_CD_NA_1 Delay of acquisition command 106 Parameter in control direction station specific parameter P_ME_NA_1 Parameter of measured value normalized value 110 P_ME_NB_1 Parameter of measured value scaled value 111 P_ME_NC_1 Parameter of measured value short floating point value 112 P_AC_NA_1 Parame...

Page 74: ...up 1 group 15 group 9 group 2 group 16 group 10 group 3 group 11 group 4 group 12 group 5 group 6 Addresses per group must be defined Clock synchronization station specific parameter Clock synchronization Command transmission object specific parameter Select and execute command Direct command transmission Select and execute set point command Direct set point command transmission C_SE ACTTERM used ...

Page 75: ...ion duration determ ined by a system parameter in the out station Addresses per group have to be defined Parameter loading object specific parameter Threshold value Smoothing factor Low limit for transmission of measured value High limit for transmission of measured value Parameter activation object specific parameter Act deact of persistent cyclic or periodic transmission of the addressed object ...

Page 76: ...76 ...

Page 77: ...g 62 properties 49 Binary counter reading BCR IEC 61850 data modeling 59 properties 38 C channel attributes 65 diagnostics 53 channel object adding 17 client attributes 65 Complex measured value CMV IEC 61850 data modeling 59 properties 41 configuring data object 31 object 19 Controllable double point DPC IEC 61850 data modeling 61 properties 46 Controllable integer status INC IEC 61850 data model...

Page 78: ...status DPS IEC61860 data modeling 57 properties 33 F File transfer 18 19 I IEC 61850 data modeling Analogue set point APC 63 Binary counter reading BCR 59 Complex measured value CMV 59 Controllable double point DPC 61 Controllable integer status INC 62 Controllable single point SPC 61 Delta DEL 60 Directional protection activation information ACD 58 Double point status DPS 57 Integer controlled st...

Page 79: ...hannel 21 Binary controlled step position information BSC 49 Binary counter reading BCR 38 Complex measured value CMV 41 Controllable double point DPC 46 Controllable integer status INC 48 Controllable single point SPC 45 Delta DEL 43 Directional protection activation information ACD 37 Double point status DPS 33 IEC101 device 27 Integer controlled step position information ISC 50 Integer status I...

Page 80: ...roperties 36 S signal diagnostics 54 Single point status SPS IEC 61850 data modeling 56 properties 32 U Unbalanced channel properties 24 W WYE IEC 61850 data modeling 60 properties 42 80 1MRS755382 Station Automation COM600 3 4 IEC 60870 5 101 Slave OPC User s Manual ...

Page 81: ......

Page 82: ...ights reserved ABB Oy Distribution Automation P O Box 699 FI 65101 VAASA FINLAND Tel 358 10 22 11 Fax 358 10 224 1094 ABB Inc Distribution Automation 655 Century Point Lake Mary FL 32746 USA Tel 1 407 732 2000 Fax 1 407 732 2335 www abb com substationautomation ...

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