Encore Series 6100 System IEC 61850 Communications Option

Encore® Series 61000 System

IEC 61850 Communications Option

User instructions for the Encore Series System IEC 61850 communications option. It is recommended that the user still be familiar with the complete User’s Guides for the respective products, as it contains more detailed information about all of the functions, as well as the specifications and accessories.

User Instructions

Dranetz • 1000 New Durham Road • Edison, New Jersey 08818

Telephone 1-800-372-6832 or 732-287-3680 Fax 732-248-1834 • www.dranetz.com

1

WARNING Death, serious injury, or fire hazard could result from improper connection of this instrument. Read and understand this manual before connecting this instrument. Follow all installation and operating instructions while using this instrument. Connection of this instrument must be performed in compliance with the National Electrical Code (ANSI/NFPA 70-20011 of USA and any additional safety requirements applicable to your installation. Installation, operation, and maintenance of this instrument must be performed by qualified personnel only. The National Electrical Code defines a qualified person as “one who has the skills and knowledge related to the construction and operation of the electrical equipment and installations, and who has received safety training on the hazards involved.” Qualified personnel who work on or near exposed energized electrical conductors must follow applicable safety related work practices and procedures including appropriate personal protective equipment in compliance with the Standard for Electrical Safety Requirements for Employee Workplaces (ANSI/NFPA 70E-2009) of USA and any additional workplace safety requirements applicable to your installation. Published by Dranetz 1000 New Durham Road Edison, NJ 08818-4019 USA Telephone: 1-800-372-6832 or 732-287-3680 Fax: 732-248-1834 Web site: www.dranetz.com Copyright ©2012 Dranetz All rights reserved. No part of this book may be reproduced, stored in a retrieval system, or transcribed in any form or by any means—electronic, mechanical, photocopying, recording, or otherwise—without prior written permission from the publisher, Dranetz, Edison, NJ 08818-4019. Printed in the United States of America. P/N 899223 Rev A 05.25.12

2

TABLE OF CONTENTS Introduction …………………………………….…… 3

Activation Key ……………………………………….. 3 System Requirements……………………………….. 3

Reference Standards.......... ………………………… 4 IEC 61850 System Protocol Overview………………… 5 IEC 61850 Configuration Protocol Overview………… 6

Conformance Statements……………….………... 7-29 PICS – Protocol Implementation Conformance Statement… 8 ACSI - Abstract Communications Service Interface….. 8-12 Basic Conformance Statement ……………………. 8 Models Conformance Statement ………………….. 9 Service Conformance Statement …………………. 10-12 MICS – Model Implementation Conformance Statement. 13-21 PIXT – Protocol Implementation eXtra Information for Testing.. 22-25 TICS – Tissues Implementation Conformance Statement …….. 26-29 Installing SW61850 into Encore Series Instrument….…………30-35

Statement and Notices ………………………………… 36

3

Introduction

The Software SW61850 is an IEC61850 communications option available for the Dranetz Encore Series 61000 family. The integration of this option in the Encore Series 61000 allows communication between the Encore Series 61000 and intelligent electronic devices as defined by IEC 61850 standards.

Activation Key The software SW61850 is an option that requires an activation key.

If your Encore Series instrument was ordered with this option then the activation key was factory installed.

If you are upgrading an existing Encore Series instrument then you need to contact customer support. At the time of upgrade it is necessary to know the serial number of each unit that you are upgrading.

For questions, contact the Dranetz Customer Service Department at : Dranetz Tel: (732) 287-3680 1000 New Durham Road Tel: 1-800-372-6832 Edison, NJ 08818-4019 USA FAX: (732) 248-1834 Attention: Customer Service www.dranetz.com System Requirements The following Encore Series System minimum requirements are necessary to utilize the SW61850 option. Encore Series Instrument Firmware version 3.3 (or greater)

Encore Series Software version 5.2.24 (or greater)

4

Reference Standards

The Dranetz Encore Series 61000 conforms to the following IEC 61850 standards and functions as specified in these user instructions.

IEC 61850 Standards COMMUNICATION NETWORKS AND SYSTEMS FOR POWER UTILITY AUTOMATION - Number Description 61850-6

PART 6: CONFIGURATION DESCRIPTION LANGUAGE FOR COMMUNICATION IN ELECTRICAL SUBSTATIONS RELATED TO IEDS

61850-7-1

PART 7-1: BASIC COMMUNICATION STRUCTURE - PRINCIPLES AND MODELS

61850-7-2

PART 7-2: BASIC INFORMATION AND COMMUNICATION STRUCTURE – ABSTRACT COMMUNICATION SERVICE INTERFACE (ACSI)

61850-7-3

PART 7-3: BASIC COMMUNICATION STRUCTURE - COMMON DATA CLASSES

61850-7-4

PART 7-4: BASIC COMMUNICATION STRUCTURE - COMPATIBLE LOGICAL NODE CLASSES AND DATA OBJECT CLASSES

61850-8-1

PART 8-1: SPECIFIC COMMUNICATION SERVICE MAPPING (SCSM) - MAPPINGS TO MMS

Disclaimer The user assumes the responsibility of being familiar with the IEC 61850 standard as well as the use of the protocol commands and Dranetz assumes no responsibility of its use in any manner.

5

IEC 61850 System Protocol Overview A basic block diagram illustrates the interoperability between different devices via Ethernet communications link.

6

IEC 61850 Configuration Protocol Overview The configuration protocol files supplied with the SW61850 option are described as follows. ICD – Is a IED Capability Descriptions file which describes the communications data available on a Server. ( 61000 ICD.icd ). CID – Is a Configured IED Description file which describes the communication data available from the Client side or an Intelligent Electronic Device (IED). ( 61000 CID.cid ).

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CONFORMANCE STATEMENTS The Encore Series 61000 conforms to the requirements of the following Conformance Statements as detailed in these user instructions. ACSI - Abstract Communications Service Interface MICS - Model Implementation Conformance Statement PICS - Protocol Implementation Conformance Statement PIXT - Protocol Implementation eXtra Information for Testing

TICS - Tissues Implementation Conformance Statement

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PICS – Protocol Implementation Conformance Statement

The Encore Series 61000 conforms to the IEC 61850 requirements for the Protocol Implementation Conformance Statement as detailed in these user instructions.

ACSI Basic Conformance Statement

Client / Subscriber

Server / Publisher

Client-Server roles

B11 Server side (of TWO-PARTY-APPLICATION-ASSOCIATION)

No Yes

B12 Client side (of TWO-PARTY-APPLICATION-ASSOCIATION) No No

SCSMs supported B21 SCSM: IEC 61850-8-1 used No Yes B22 SCSM: IEC 61850-9-1 used No No B23 SCSM: IEC 618509-2- used No No B24 SCSM: other No No Generic substation event model (GSE) B31 Publisher side No No B32 Subscriber side No No Transmission of sampled value model (SVC)

B41 Publisher side No No B42 Subscriber No No

9

ACSI Models Conformance Statement

Client / Subscriber

Server / Publisher

Server side (B11) supported M1 Logical device No Yes M2 Logical node No Yes M3 Data No Yes M4 Data set No Yes M5 Substitution No No M6 Setting group control No No Reporting M7 Buffered report control No No M7-1 Sequence-number No No M7-2 Report-time-stamp No No M7-3 Reason-for-inclusion No No M7-4 Data-set-name No No M7-5 Data-reference No No M7-6 Buffer-overflow No No M7-7 EntryID No No M7-8 BufTm No No M7-9 IntgPd No No M7-10 Gi No No M7-11 Conf-revision No No M8 Unbuffered report control No No M8-1 Sequence-number No No M8-2 Report-time-stamp No No M-3 Reason-for-inclusion No No M8-4 Data-set-name No No M8-5 Data-reference No No M8-6 BufTm No No M8-7 IntgPd No No M8-8 GI No No M8-9 Conf-revision No No Logging M9 Log control No No M9-1 IntgPd No No M10 Log No No M11 Control No No For all IEDs M16 Time No Yes M17 File transfer No No

10

ACSI Service Conformance Statement

Client / Subscriber

Server / Publisher

Server (Clause 7) S1 ServerDirectory No Yes Application association (Clause 8)

S2 Associate No Yes S3 Abort No Yes S4 Release No Yes Logical device (Clause 9) S5 LogicalDeviceDirectory No Yes Logical node (Clause 10) S6 LogicalNodeDirectory No Yes S7 GetAllDataValues No Yes Data (Clause 11 ) S8 GetDataValues No Yes S9 SetDataValues No No S10 GetDataDirectory No Yes S11 GetDataDefinition No Yes Data set (Clause 12) S12 GetDataSetValues No Yes S13 SetDataSetValues No No S14 CreateDataSet No No S15 DeleteDataSet No No S16 GetDataSetDirectory No Yes Setting group control S17 SetDataValues No No Setting group control (Clause 16)

S18 SelectActiveSG No No S19 SelectEditSG No No S20 SetSGValue No No S21 ConfirmEditSGValues No No S22 GetSGValue No No S23 GetSGCBValues No No

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Client / Subscriber

Server / Publisher

Server (Clause 7) S24 Report No No S24-1 Data-change (dchg) No No S24-2 Qchg-change (qchg) No No S24-3 Data-update (dupd) No No S25 GetBRCBValues No No S26 SetBRCBValues No No Reporting (Clause 17) – Unbuffered report control block (URCB)

S27 Report No No S27-1 Data-change (dchg) No No S27-2 Qchg-change (qchg) No No S27-3 Data-update (dupd) No No S28 GetURCBValues No No S29 SetURCBValues No No Logging (Clause 17) - Log control block S30 GetLCBValues No No S31 SetLCBValues No No Logging (Clause 17) – Log S32 QueryLogByTime No No S33 QueryLogByEntry No No S34 GetLogStatusValues No No Generic substation event model (GSE) – GOOSE (Clause 18)

S35 SendGOOSEMessage No No S36 GetReference No No S37 GetGOOSEElementNumber No No S38 GetGoCBValues No No S39 SetGoCBValues No No Generic substation event model (GSE) – GSSE (Annex C)

S40 SendGSSEMessage No No S41 GetReference No No S42 GetGSSEElementNumber No No S43 GetGsCBValues No No S44 SetGsCBValues No No

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Client / Subscriber

Server / Publisher

Transmission of sampled value model (SVC) (Clause 19) – Multicast SVC

S45 SendMSVMessage No No S46 GetMSVCBValues No No S47 SetMSVCBValues No No Transmission of sampled value model (SVC) (Clause 19) – Unicast SVC

S48 SendUSVMessage No No S49 GetUSVCBValues No No S50 SetUSVCBValues No No Control (Clause 20) S51 Select No No S52 SelectWithValue No No S53 Cancel No No S54 Operate No No S55 Command-Termination No No S56 TimeActivated-Operate No No File transfer (Clause 23) S57 GetFile No No S58 SetFile No No S59 DeleteFile No No S60 GetFileAttributeValues No No Time (5.5) T1 Time resolution of internal clock No 8 ms

T2 Time accuracy of internal clock – T0 No Yes

Time accuracy of internal clock – T1 No No





T3 Supported TimeStamp resolution No 10 ms

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MICS Model Implementation Conformance Statement

Defined Logical Nodes LLN0 The logical node LLN0 is a required logical node. The following table identifies which of the mandatory and optional LLN0 elements the 61000 DataNode supports. The data elements defined in Common LN which are inherited by all logical nodes are guaranteed access via LLN0.

LLN0

Data Object Name Description M/O/C Supported

From Common LN class

Descriptions

NamPlt Name plate M Yes

Status Information

Beh Behaviour M Yes

Health Health M Yes

Controls

Mod Mode M Yes

LLN0

Status information

OpTmh Operation time O Yes

LocKey Local operation for complete logical device O No

Loc Local control behaviour O No Controls

LocSta Switching authority at station level O No

Diag Run diagnostics O No LEDRs LED reset No

Settings

GrRef Reference to a higher level logical device O No

MltLev Select mode of authority for local control O No

Note: “O” is optional , “M” is mandatory and “C” is conditional.

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MICS Model Implementation Conformance Statement

LPHD The logical node LPHD is mandatory. The table below identifies which data attributes are implemented:

LPHD


Descriptions PhyNam Physical device name plate M Yes

Status information PhyHealth Physical device health M Yes

OutOv Output communications buffer overflow O No

Proxy Indicates if this LN is a proxy M Yes

InOv Input communications buffer overflow O No

NumPwrUp Number of power-ups O No WrmStr Number of warm starts O No

WacTrg Number of watchdog device resets detected O No

PwrUp Power-up detected O No PwrDn Power-down detected O No PwrSupAlm External power supply alarm O No

Controls RsStat Reset device statistics O No

Sim Receive simulated GOOSE or simulated SV O No


15

MICS Model Implementation Conformance Statement MMXU MMXU is an optional measurement logical node. The MMXU data elements that the 61000 supports are identified in the following table:

MMXU


Measured and metered values TotW Total active power (total P) O Yes TotVAr Total reactive power (total Q) O Yes TotVA Total apparent power (total S) O Yes TotPF Average power factor (total PF) O Yes Hz Frequency O Yes PPV Phase to phase voltages O Yes PNV Phase to neutral voltage O No PhV Phase to ground voltages O Yes A Phase currents O Yes W Phase active power (P) O Yes VAr Phase reactive power (Q) O Yes VA Phase apparent power (S) O Yes PF Phase power factor O Yes Z Phase impedance O No Av… Arithmetic average… O No Max… Arithmetic maximum… O No Min… Arithmetic minimum… O No

Settings

ClcTotVA Calculation method used for total apparent power (TotVA) O No

PFSign Sign convention for VAr and power factor (PF) O No

Notes: 1. “O” is optional , “M” is mandatory and “C” is conditional. 2. The arithmetic averages, maximums and minimums are not supported. However, this does not imply that averages maximums nor minimums are calculated. All averages, maximums and minimums are stored as 61000 journal entries and are reported to a client using MMXU instances with the appropriate avg/max/min prefix.

16

MICS Model Implementation Conformance Statement MFLK The 61000 DataNode does compute flicker. The table below identifies which objects of the MFLK are supported by the 61000:

MFLK


Measured and metered values

PPPst Short-term flicker severity of last complete interval for phase to phase measurements

O Yes

PhPst Short-term flicker severity of last complete interval for phase to ground measurements

O Yes

PPPlt Long-term flicker severity of last complete interval for phase to phase measurements

O Yes

PhPlt Long-term flicker severity of last complete interval for phase to ground measurements

O Yes

PPPiMax Output 5 – Instantaneous peak P value for phase to phase measurements

O No

PhPiMax Output 5 – Instantaneous peak P value for phase to ground measurements

O No

PPPiLoFil Output 4 – 1 min average of output 5 for phase to phase measurements

O No

PhPiLoFil Output 4 – 1 min average of output 5 for phase to ground measurements

O No

PPPiRoot Output 3 – Square root of output 5 for phase to phase measurements O Yes

PhPiRoot Output 3 – Square root of output 5 for phase to ground measurements

O Yes

PPPcbLs Classifier bins of last complete short interval for phase to phase O No

PhPcbLs Classifier bins of last complete short interval for phase to ground O No


17

MICS Model Implementation Conformance Statement MFLK – Cont’d

MFLK



PPPcbLI Classifier bins of last complete long interval for phase to phase O No

PhPcbLI Classifier bins of last complete long interval for phase to ground

O No

PPPdmWav Real time demodulated waveform for phase to phase O No

PhPdmWav Real time demodulated waveform for phase to ground O No

PPPdmSpec Real time demodulated waveform spectra for phase to phase

O No

PhPdmSpec Real time demodulated waveform spectra for phase to ground

O No


18

MICS Model Implementation Conformance Statement MHAI The MHAI logical node is used for presenting calculated harmonics values. Supported data objects are identified in the table below:

MHAI Data Object Name Description M/O/C Supported

Measured and metered values Hz Basic frequency C No

HA Sequence of harmonics or interharmonics current O No

HPhV Sequence of harmonics or interharmonics phase to ground voltages

O No

HPPV Sequence of harmonics or interharmonics phase to phase voltages

O No

HW Sequence of harmonics or interharmonics active power O No

HVAr Sequence of harmonics or interharmonics reactive power O No

HVA Sequence of harmonics or interharmonics apparent power O No

HrmsA Current RMS harmonic or interharmonics O Yes

HRmsPhV Voltage RMS harmonic or interharmonics for phase to ground O Yes

HRmsPPV Voltage RMS harmonic or interharmonics for phase to phase O Yes

HtuW Total phase harmonic or interharmonics active power unsigned sum

O No

HTsW Total phase harmonic or interharmonic active power signed sum

O No

HATm Current time product O No HKf K factor O Yes HTdf Transformer derating factor O Yes

ThdA Current total harmonic or interharmonic distortion O Yes


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MICS Model Implementation Conformance Statement MHAI – Cont’d

MHAI



ThdOddA Current total harmonic or interharmonic distortion O Yes

ThdEvnA Current total harmonic or interharmonic distortion O Yes

TddA Current total demand distortion per IEEE 519 O Yes

TddOddA Current total demand distortion per IEEE 519 ( odd components) O No

TddEvnA Current total demand distortion per IEEE 519 (even components) O No

ThdPhV Voltage total harmonic or interharmonic distortion for phase to ground

O Yes

ThdOddPhV Voltage total harmonic or interharmonic distortion for phase to ground (odd components)

O Yes

ThdEvnPhV Voltage total harmonic or interharmonic distortion for phase to ground (even components)

O Yes

ThdPPV Voltage total harmonic or interharmonic distortion for phase to phase

O Yes

ThdOddPPV Voltage total harmonic or interharmonic distortion for phase to phase (odd components)

O Yes

ThdEvnPPV Voltage total harmonic or interharmonic distortion for phase to phase (even components)

O Yes

HCfPhV Voltage crest factors for phase to ground O Yes

HCfPPV Voltage crest factors for phase to phase O Yes

HcfA Current crest factors O Yes

Htif Voltage telephone influence factor O Yes


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MICS Model Implementation Conformance Statement MHAI – Cont’d

MHAI


Settings HzSet Basic frequency C No

EvTmms Evaluation time determines the lowest frequency O No

NumCyc Number of cycles of the basic frequency O No

ThdAVal ThdA alarm setting – value enter in % O No

ThdVVal ThdPhV / ThdPPV alarm setting – value entered in % O No

ThdATmms ThdA alarm time delay in ms O No

ThdVTmms ThdPhV / ThdPPV alarm time delay in ms O No

NomA Normalising demand current used in IEEE 519 TDD calculation

O No

Conditions Condition C Hz and HzSet are exclusive MMTR

MMTR


Measured and metered values TotVAh Net apparent energy O Yes TotWh Net real energy O Yes TotVArh Net reactive energy O Yes SupWh Real energy supply O No SupVArh Reactive energy supply O No DmdWh Real energy demand O No DmdVArh Reactive energy demand O No Note: “O” is optional , “M” is mandatory and “C” is conditional.

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MICS Model Implementation Conformance Statement MSQI

MSQI



SeqA Positive, negative and zero sequence current C Yes

SeqV Positive, negative and zero sequence voltage C Yes

DQ0Seq DQ0 Sequence O No ImbA Imbalance current O Yes

ImbNgA Imbalance negative sequence current O Yes

ImbNgV Imbalance negative sequence voltage O Yes

ImbPPV Imbalance phase-phase voltage O Yes

ImbV Imbalance voltage O Yes

ImbZroA Imbalance zero sequence current O Yes

ImbZroV Imbalance zero sequence voltage O Yes

MaxImbA Maximum imbalance current O Yes

MaxImbPPV Maximum imbalance phase-phase voltage O Yes

MaxImbV Maximum imbalance voltage O Yes Note: “O” is optional , “M” is mandatory and “C” is conditional.

22

PIXT (Protocol Implementation eXtra Information for Testing) PIXT for Association Model

Description Value / Clarification Maximum number of clients that can set-up an association simultaneously 4

TCP_KEEPALIVE value 60 seconds Lost connection detection time 120 seconds Is authentication supported Port 80 only

Association parameters necessary for successful association

Transport selector: 00 01 Session selector: 00 01 Presentation selector: 00 00 00 01 AP Title: N AE Qualifier: N

Maximum / Minimum PDU size 10000 Max MMS PDU Maximum startup time after a power supply interrupt

50 seconds for MMS / 30 seconds for HTTP

Note: In the event of a failed association the instrument requires a 30 second recovery period before a subsequent association attempt should be made.

23

PIXT (Protocol Implementation eXtra Information for Testing) PIXT for Server Model

Description Value / Clarification

Analogue value (MX) quality bits supported

Validity: Good Y Invalid Y Reserved N Questionable Y Overflow N OutOfRange N BadReference N Oscillatory N Failure N OldData N Inconsistent N Inaccurate N Source: Process Y Substituted N Test N OperatorBlocked N

Status (ST) quality bits supported

Validity: Good Y Invalid Y Reserved N Questionable N BadReference N Oscillatory N Failure N OldData N Inconsistent N Inaccurate N Source: Process N Substituted N Test N OperatorBlocked N

Maximum number of data values in one GetDataValues request

Limited only by negotiated MMS PDU size.

Maximum number of data values in one SetDataValues request

Limited only by negotiated MMS PDU size.

24

PIXT (Protocol Implementation eXtra Information for Testing) PIXT for Data Set Model


Maximum number of data elements in one data set 57

Maximum number of persistent data sets 0 Maximum number of non-persistent data sets 0 NOTE: There is a single pre-defined data set in the 61000. The CreateDataSet and DeleteDataSet services have not been mapped or tested and are not supported by the 61000.

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PIXT (Protocol Implementation eXtra Information for Testing) PIXIT for Time and time synchronization model


Supported quality bits

LeapSecondsKnown Y ClockFailure Y ClockNotSynchronized Y

The time quality bits are only set if NTP is enabled. When NTP is enabled the NTP time is checked for stability whenever the system passes through its idle task and when the system checks the status of the measurement hardware. The NTP time is flagged as unstable whenever there is failure to communicate with the specified NTP server.

Description of IED behavior when time sync. Signal/messages is lost

IED will switch to internal one-second pulse. If clock drift calibration is entered it is applied to internal pulse.

When is the time quality bit “Clock failure” set?

When the clock source is set to GPS or NTP and the related subsystem reports failure. For GPS failure is reported if either PPS or position fix is lost. For NTP failure is reported if no response is received from the NTP server.

When is the time quality bit “Clock not synchronized” set?

Same as clock failure and always if internal PPS is used.

Does the device support time zone and daylight saving?

All times are expected to be UTC

Which attributes of the SNTP response packet are validated?

Valid UDP packet? Yes Valid NTP packet size? Yes

26

TICS (Tissues Implementation Conformance Statement)

Mandatory Intop Tissues

Number TISSUE Description / Comment Implemented Version

Addressed General 141 CtxInt Y Sisco:5.10

146 Name length, object reference Y

Sisco:5.06 (per Sisco

interpretation) Part 8-1

116 GetNameList with empty response?

Y Sisco:5.06

165 Improper error response for GetDataSetValues Y Sisco:5.06

183 GetNameList error handling Y Sisco: Text only

Part 7-4 None Part 7-3 28 Definition of APC na 54 Point def xVal, not cVal na 55 Ineut = Ires? na 63 Mag in CDC CMV na 219 Oper Tm in ACT na

270

WYE and DEL rms values / Not applicable because the angle value is not supported.

na

Part 7-2 30 Control parameter T na 31 Typo na 32 Typo in syntax na 35 Typo syntax control time na

36 Syntax parameter Dset-Ref missing na

37 Syntax GOOSE “T” type na 39 Add DstAddr to GoCB na

40 GOOSE Message “AppID” to “GoID” na

41 GsCB “AppID” to “GsID” na

42 SV timestamp: “EntryTime” to “TimeStamp” na

43 Control “T” semantic na 44 AddCause – Object not sel na

27




Addressed Part 7-2 – Cont’d 46 Synchro check cancel na 47 “.” In LD Name? na

49 BRCB TimeOfEntry (part of #453) na

50 LNName start with number? na 51 ARRAY [0..num] missing na 52 Ambiguity GOOSE SqNum na 53 Add DstAddr to GsCB, SV na

151 Name constraint for control blocks etc. na

166 DataRef attribute in Log na 185 Logging – Integrity period na 189 SV Format na

190 BRCB: EntryId and TimeOfEntry (part of #453) na

191 BRCB: Integrity and buffering reports (part of #453)

na

234 New type CtxInt (Enums are mapped to 8 bit integer) na Sisco: Future

change

275 Confusing statement on GI usage (part of #453) na

278 EntryID not valid for a server (part of #453) na

297 Sequence number na 298 Type of SqNum na 305 Reporting with BufTm=0 na 329 Reporting and BufOvl na 335 Clearing of Bufovfl na 348 URCB class and report na

349 BRCB TimeOfEntry has two definitions na

498 Release association Y Sisco:5.10

28



Number TISSUE Description / Comment Implemented Version Addressed

Part 6 1 Syntax na

5 TExtensionAttributeNameEnum is restricted na

8 SIUnit enumeration for W Y 61000: 3.3

10 Base type for bitstring usage Y Needs verification

17 DAI/SDI elements syntax na

169 Ordering of enum differs from 7-3 na

29


Optional Intop Tissues


Addressed Part 8-1

246 Control negative response (SBOns) with LastApplError

na

545 Skip file directories with no files na

Part 7-1 None

Part 7-2 None

Part 7-3

333 Enabling of an incomplete GoCB na

322 Write configuration attribute of BRCBs na

453 Combination of all reporting and logging tissues na

Part 6 245 Attribute RptId in SCL na

529 Replace sev – Unknown by unknown na

30

Installing SW61850 into Encore Series 61000 instrument System Requirements The following Encore Series System minimum requirements are necessary to utilize the SW61850 option. Encore Series Instrument Firmware version 3.3 (or greater)

Encore Series Software version 5.2.24 (or greater)

Installation Before Installing the SW61850 option it is necessary to obtain an activation key and firmware files from Customer Service to be able to implement the upgrade. Activation Key – the user must provide the serial number(s) of the instrument(s) that the option is to be installed for each instrument. An activation key will then be supplied by Dranetz Customer Service for each instrument. Firmware Files – upon purchase of the SW61850 option, the user will be supplied by Dranetz Customer Service with an activation key(s) along with the following firmware files to upload the firmware into the instrument.

• Cfg61850.b4u • DataMap.b4u • OSICfg.b4u

For questions, contact the Dranetz Customer Service Department at : Dranetz Tel: (732) 287-3680 1000 New Durham Road Tel: 1-800-372-6832 Edison, NJ 08818-4019 USA FAX: (732) 248-1834 Attention: Customer Service www.dranetz.com

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Installing SW61850 into Encore Series 61000 instrument Activate Key in Instrument Connect to the instrument IP address

To activate the IEC 61850 option

Select the “toolbox” icon and then the “OK” icon. Enter the generated key from the key utility and click on “submit changes”

32

Installing SW61850 into Encore Series 61000 instrument Upload firmware

Click the icon and click on “Upload Firmware” and select “IEC 61850 Configuration” and then “Continue”

Load “Cfg61850.b4u” file browse for file “Cfg61850.b4u” and then click “Continue”

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Installing SW61850 into Encore Series 61000 instrument Load “DataMap.b4u” file

Click the icon and click on “Upload Firmware” then select “IEC 61850 Leaf Map” and then “Continue” Browse for file “DataMap.b4u” and then click “Continue” Load “OSICfg.b4u” file

Click the icon and click on “Upload Firmware” then select “IEC 61850 OSI Config” and then “Continue” Browse for file “OSICfg.b4u” and then click “Continue”

34

Installing SW61850 into Encore Series 61000 instrument Enable IEC 61850 option

Click the icon and verify that 61850 option is enabled “Yes” and click on “submit changes”

Reboot instrument

Click the icon and select “Hard Reset” this will reboot the instrument. Allow unit to reboot, wait approximately 1 minute and return to the Home Page to ensure that the instrument has properly rebooted.

35

Installing SW61850 into Encore Series 61000 instrument Verify 61850

Click the icon

• Click on “Dump 61850 CID” verify that unit is outputting data. Click on back arrow button to return to above screen.

• Click on “Dump 61850 Leaf Map” verify that unit is outputting data. Click on back arrow button to return to above screen.

• Click on “Dump 61850 OSICfg.xml” verify that unit is outputting data. Verification complete and unit is configured for use.

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Statements and Notices Statement of warranty All products of Dranetz are warranted to the original purchaser against defective material and workmanship for a period of one year from the date of delivery. Dranetz will repair or replace, at its option, all defective equipment that is returned, freight prepaid, during the warranty period. There will be no charge for repair provided there is no evidence that the equipment has been mishandled or abused. This warranty shall not apply to any defects resulting from improper or inadequate maintenance, buyer-supplied hardware/software interfacing, unauthorized modification or misuse of the equipment, operation outside of environmental specifications, or improper site preparation or maintenance. Statement of reliability The information in this manual has been reviewed and is believed to be entirely reliable, however, no responsibility is assumed for any inaccuracies. All material is for informational purposes only and is subject to change without prior notice. Notice regarding proprietary rights This publication contains information proprietary to Dranetz. By accepting and using this manual, you agree that the information contained herein will be used solely for the purpose of operating equipment of Dranetz. Copyright This publication is protected under the Copyright laws of the United States, Title 17 et seq. No part of this publication may be reproduced, transmitted, transcribed, stored in a retrieval system, or translated into any language or computer language, in any form, by any means, electronic, mechanical, magnetic, optical, chemical, manual, or otherwise, without the prior written consent of Dranetz, 1000 New Durham Road, Edison, New Jersey 08818. Copyright © 2012 Dranetz All Rights Reserved. Printed in the United States of America. Trademarks Encore Series® is a registered trademark of Dranetz.

Encore Series 6100 System IEC 61850 Communications Option

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