Model Implementation Conformance Statement for the IEC61850 interface in Nexus 1500+ ICD

31-Mar-2015, 2.0

Detailed Addressing Information for IED TEMPLATE
Logical Devices for IED TEMPLATE
Proprietary Logical Nodes for IED TEMPLATE
Proprietary Data Objects for IED TEMPLATE
GOOSE Subscriptions for IED TEMPLATE
GOOSE Publication for IED TEMPLATE
Logical Nodes for IED TEMPLATE
DataSets for IED TEMPLATE
Logical Node Definitions for IED TEMPLATE

Common Data Class Definitions
Common Data Attribute Definitions
Enumeration Definitions
Annex A - Notes on Contents

Introduction

This model implementation conformance statement is applicable for ElectroIndustries, Nexus 1500+(Electro Industries NX1500+) , with firmware 1.00 .

This MICS document specifies the modelling extensions compared to IEC 61850 edition 1. For the exact details on the standardized model please compare the ICD substation configuration file: [filename.icd], version [version].

"Logical Devices" contains the list of Logical Devices implemented by the server.
"Proprietary Logical Nodes" describes each non-standard Logical Node arranged by Logical Device.
"Proprietary Data Objects" describes the extensions to logical nodes.
"Logical Nodes" lists all Logical Nodes, sorted by function, for each Logical Device.
"Logical Node Definitions" list the Data Objects of each of the Logical Nodes and describes whether these objects are mandatory or optional in this Logical Node.
"Common Data Class" describes each of the data types for each of the Data Objects.
"Common Data Attributes" describes the structure of the elements of the Common Data Classes.
"Enumeration Definitions" lists each of the enumerated values described by the device. Vendor-defined enumerations are highlighted in grey.

IEC 61850 Data Model Definitions

IEDs within Nexus 1500+ ICD

IED Name	Type	Manufacturer	Config Version	IP Address
TEMPLATE	Nexus 1500+	ElectroIndustries	1.00	10.0.0.1

Detailed Address Information for IED TEMPLATE (Electro Industries NX1500+)

Access Point=S1, description=

Type=8-MMS
BitRate=10 Mb/s

Addresses:
OSI-PSEL=00000001
OSI-SSEL=0001
OSI-TSEL=0001
MMS-Port=102
IP=10.0.0.1

Logical Device list

Logical Device Instances within IED TEMPLATE (Electro Industries NX1500+); AccessPoint: S1(); Server: ():

Instance	Description	Default Namespace
Meas	Power Meter	IEC 61850-7-4:2003

Proprietary Logical Nodes

Logical Device TEMPLATEMeas (Instance Meas of TEMPLATE): Power Meter

Name	LN Type	Description	lnNs
hsMFLK1	NX1500P_MFLK	Analogue Measurements: High speed update rate	IEC 61850-7-4:2010
ctrtanTCTR1	NX1500P_TCTR	Configuration: CT ratios - Phase A	IEC 61850-7-4:2007A
ctrtbnTCTR2	NX1500P_TCTR	Configuration: CT ratios - Phase B	IEC 61850-7-4:2007A
ctrtcnTCTR3	NX1500P_TCTR	Configuration: CT ratios - Phase C	IEC 61850-7-4:2007A
ctrtnnTCTR4	NX1500P_TCTR	Configuration: CT ratios - Neutral	IEC 61850-7-4:2007A
ptrtanTVTR1	NX1500P_TVTR	Configuration: PT ratios - Phase A	IEC 61850-7-4:2007A
ptrtbnTVTR2	NX1500P_TVTR	Configuration: PT ratios - Phase B	IEC 61850-7-4:2007A
ptrtcnTVTR3	NX1500P_TVTR	Configuration: PT ratios - Phase C	IEC 61850-7-4:2007A
ptrtaxTVTR4	NX1500P_TVTR	Configuration: PT ratios - Phase AUX	IEC 61850-7-4:2007A

Proprietary Data Objects

Logical Device TEMPLATEMeas (Instance Meas of TEMPLATE): Power Meter

LDevice	LN	DO	dataNs	cdcNs

Subscribed GOOSEes for IED TEMPLATE

No GOOSE subscriptions in IEDTEMPLATE

Published GOOSEes for IED TEMPLATE

A maximum of 10 GOOSE(s) can be published.

AP	LD	LN	Publisher	Subnet	MAC	AppID	minTime	maxTime
S1	Meas	LLN0	TEMPLATE_Meas/LLN0	Subnet_MMS	01-0c-cd-01-00-00	0000

GoCBRef	datset	goID	ConfRev	VLAN-ID	VLAN-Priority
TEMPLATEMeas/LLN0$GO$gocbpub	TEMPLATEMeas/LLN0$GoosePub	TEMPLATEMeas/LLN0.GoosePub	1	000	4

Logical Node list

Logical Nodes within Logical Device TEMPLATEMeas (Instance Meas of TEMPLATE)

L: System Logical Nodes
Name	LN Type	Description
LLN0	NX1500P_LLN0	Logical Device Description
LPHD1	NX1500P_LPHD	Physical Device Description

G: Generic Function References
Name	LN Type	Description
vrtinGGIO1	NX1500P_GGIO_VRTIN	Virtual Input for data from subscribed publishers
alarmGGIO1	NX1500P_GGIO_ALARM	Limit Alarms
intdiGGIO1	NX1500P_GGIO_INT	Digital Measurements: Built-in High speed digital input
extdiGGIO1	NX1500P_GGIO_EXT	Digital Measurements: Option board (slot 3) digital input
extdiGGIO2	NX1500P_GGIO_EXT	Digital Measurements: Option board (slot 4) digital input

M: Metering and Measurement
Name	LN Type	Description
nsMMXU1	NX1500P_MMXU	Analogue Measurements: Normal speed update rate
hsMFLK1	NX1500P_MFLK	Analogue Measurements: High speed update rate
lsMHAI1	NX1500P_MHAI	Analogue Measurements: Low speed update rate
lsMSQI1	NX1500P_MSQI	Analogue Measurements: Low speed update rate
eneMMTR1	NX1500P_MMTR	Analogue Measurements: Energy

T: Instrument Transformer (Transducers)
Name	LN Type	Description
ctrtanTCTR1	NX1500P_TCTR	Configuration: CT ratios - Phase A
ctrtbnTCTR2	NX1500P_TCTR	Configuration: CT ratios - Phase B
ctrtcnTCTR3	NX1500P_TCTR	Configuration: CT ratios - Phase C
ctrtnnTCTR4	NX1500P_TCTR	Configuration: CT ratios - Neutral
ptrtanTVTR1	NX1500P_TVTR	Configuration: PT ratios - Phase A
ptrtbnTVTR2	NX1500P_TVTR	Configuration: PT ratios - Phase B
ptrtcnTVTR3	NX1500P_TVTR	Configuration: PT ratios - Phase C
ptrtaxTVTR4	NX1500P_TVTR	Configuration: PT ratios - Phase AUX

DataSet List

DataSets within Logical Device Instance Meas of AccessPoint S1 of IED TEMPLATE

(Note: all datasets within this IED are identically configured)
3 pre-defined datasets exist within this Logical Device/AccessPoint.
Datasets are read-only
Dataset directory services are supported
Datasets cannot be created at runtime.

Logical Node	Name	Description
Meas/LLN0	GoosePub
Meas/LLN0.NamPlt [DC]
Meas/LLN0	ANABASIC
Meas/nsMMXU1.PhV.phsA [MX]
Meas/nsMMXU1.PhV.phsB [MX]
Meas/nsMMXU1.PhV.phsC [MX]
Meas/LLN0	DIBASIC
Meas/intdiGGIO1.Ind1 [ST]
Meas/intdiGGIO1.Ind2 [ST]
Meas/intdiGGIO1.Ind3 [ST]

Logical Node Definitions based upon IED declarations

Logical Nodes within: TEMPLATE, LD inst=Meas

Logical node TEMPLATEMeas/LLN0: type= NX1500P_LLN0, base class= LLN0: Logical Device Description

DATA	Type	M/O	Description
Mod	NX1500P_INC_Mod	M	Mode
Mod.stVal: (Template) (Set)on
Mod.ctlModel: (Template) (RO)status-only
Mod.d: (Template) (RO)Operating Mode
Beh	NX1500P_INS_Beh	M	Behaviour
Beh.stVal: (Template) (Set)on
Beh.d: (Template) (RO)Operating Mode Behavior
Health	NX1500P_INS_Health	M	Health
Health.d: (Template) (RO)1=Ok,2=Warning,3=Alarm
NamPlt	NX1500P_LPL_LLN0	M	Name Plate
NamPlt.vendor: (Template) (RO)Electro Industries
NamPlt.swRev: (Template) (RO)
NamPlt.d: (Template) (RO)Logical Device Nameplate
NamPlt.configRev: (Template) (Spec)1.0
NamPlt.ldNs: (Template) (RO)IEC 61850-7-4:2003

Logical node TEMPLATEMeas/LPHD1: type= NX1500P_LPHD, base class= LPHD: Physical Device Description

DATA	Type	M/O	Description
PhyNam	NX1500P_DPL	O	Physical device name plate
PhyNam.vendor: (Template) (RO)Electro Industries
PhyNam.swRev: (Template) (RO)
PhyNam.serNum: (Template) (RO)
PhyNam.model: (Template) (RO)
PhyHealth	NX1500P_INS_Health	O	Physical device health
PhyHealth.d: (Template) (RO)1=Ok,2=Warning,3=Alarm
Proxy	NX1500P_SPS	M	Indicates if this LN is a proxy
Proxy.stVal: (Instance) (Set)false
Proxy.d: (Instance) (RO)True if this LD is a proxy for an external device

Logical node TEMPLATEMeas/nsMMXU1: type= NX1500P_MMXU, base class= MMXU: Analogue Measurements: Normal speed update rate

DATA	Type	M/O	Description
Mod	NX1500P_INC_Mod	M	Mode
Mod.stVal: (Template) (Set)on
Mod.ctlModel: (Template) (RO)status-only
Mod.d: (Template) (RO)Operating Mode
Beh	NX1500P_INS_Beh	M	Behaviour
Beh.stVal: (Template) (Set)on
Beh.d: (Template) (RO)Operating Mode Behavior
Health	NX1500P_INS_Health	M	Health
Health.d: (Template) (RO)1=Ok,2=Warning,3=Alarm
NamPlt	NX1500P_LPL	M	Name plate
NamPlt.vendor: (Template) (RO)Electro Industries
NamPlt.swRev: (Template) (RO)
NamPlt.d: (Template) (RO)Logical Node Nameplate
TotW	NX1500P_MV	O	Total real power
TotW.db: (Instance) (RO)100000
TotW.d: (Instance) (RO)Total real power
TotVAr	NX1500P_MV	O	Total reactive power
TotVAr.db: (Instance) (RO)100000
TotVAr.d: (Instance) (RO)Total reactive power
TotVA	NX1500P_MV	O	Total active power
TotVA.db: (Instance) (RO)100000
TotVA.d: (Instance) (RO)Total apparent power
TotPF	NX1500P_MV	O	Total power factor
TotPF.db: (Instance) (RO)100000
TotPF.d: (Instance) (RO)Total Power Factor
Hz	NX1500P_MV	O	Frequency
Hz.db: (Instance) (RO)100000
Hz.d: (Instance) (RO)Frequency
PPV	NX1500P_DEL	O	Voltage phase-to-phase
PhV	NX1500P_WYE	O	Voltage phase-to-neutral
A	NX1500P_WYE_A	O	Current per phase
W	NX1500P_WYE	O	Real power per phase
VAr	NX1500P_WYE	O	Reactive power per phase
VA	NX1500P_WYE	O	Active power per phase
PF	NX1500P_WYE	O	Power factor per phase

Logical node TEMPLATEMeas/hsMFLK1: type= NX1500P_MFLK, base class= MFLK: Analogue Measurements: High speed update rate

DATA	Type	M/O	Description
Mod	NX1500P_INC_Mod	M	Mode
Mod.stVal: (Template) (Set)on
Mod.ctlModel: (Template) (RO)status-only
Mod.d: (Template) (RO)Operating Mode
Beh	NX1500P_INS_Beh	M	Behaviour
Beh.stVal: (Template) (Set)on
Beh.d: (Template) (RO)Operating Mode Behavior
Health	NX1500P_INS_Health	M	Health
Health.d: (Template) (RO)1=Ok,2=Warning,3=Alarm
NamPlt	NX1500P_LPL_MFLK	M	Name plate
NamPlt.vendor: (Template) (RO)Electro Industries
NamPlt.swRev: (Template) (RO)
NamPlt.d: (Template) (RO)Logical Node Nameplate
NamPlt.lnNs: (Template) (RO)IEC 61850-7-4:2010
PhPst	NX1500P_WYE	O	Pst of last complete interval for phase to ground measurements
PhPlt	NX1500P_WYE	O	Plt of last complete interval for phase to ground measurements

Logical node TEMPLATEMeas/lsMHAI1: type= NX1500P_MHAI, base class= MHAI: Analogue Measurements: Low speed update rate

DATA	Type	M/O	Description
Mod	NX1500P_INC_Mod	M	Mode
Mod.stVal: (Template) (Set)on
Mod.ctlModel: (Template) (RO)status-only
Mod.d: (Template) (RO)Operating Mode
Beh	NX1500P_INS_Beh	M	Behaviour
Beh.stVal: (Template) (Set)on
Beh.d: (Template) (RO)Operating Mode Behavior
Health	NX1500P_INS_Health	M	Health
Health.d: (Template) (RO)1=Ok,2=Warning,3=Alarm
NamPlt	NX1500P_LPL	M	Name plate
NamPlt.vendor: (Template) (RO)Electro Industries
NamPlt.swRev: (Template) (RO)
NamPlt.d: (Template) (RO)Logical Node Nameplate
ThdA	NX1500P_WYE	O	Current Total Harmonic or Interharmonic Distortion (different methods)
ThdOddA	NX1500P_WYE	O	Current Total Harmonic or Interharmonic Distortion (different methods): odd components
ThdEvnA	NX1500P_WYE	O	Current Total Harmonic or Interharmonic Distortion (different methods): even components
TddA	NX1500P_WYE	O	Current Total Demand Distortion per IEEE 519
ThdPhV	NX1500P_WYE	O	Voltage Total Harmonic or Interharmonic Distortion (different methods) for phase to ground
ThdOddPhV	NX1500P_WYE	O	Voltage Total Harmonic or Interharmonic Distortion (different methods) for phase to ground: odd components
ThdEvnPhV	NX1500P_WYE	O	Voltage Total Harmonic or Interharmonic Distortion (different methods) for phase to ground: even components
ThdPPV	NX1500P_DEL	O	Voltage Total Harmonic or Interharmonic Distortion (different methods) for phase to phase
ThdOddPPV	NX1500P_DEL	O	Voltage Total Harmonic or Interharmonic Distortion (different methods) for phase to phase: odd components
ThdEvnPPV	NX1500P_DEL	O	Voltage Total Harmonic or Interharmonic Distortion (different methods) for phase to phase: even components
NomA	NX1500P_ASG	O	Normalising demand current used in IEEE 519 TDD calculation
NomA.setMag.f: (Instance) (RO)
NomA.d: (Instance) (RO)TDD Maximum Demand Reference Value

Logical node TEMPLATEMeas/lsMSQI1: type= NX1500P_MSQI, base class= MSQI: Analogue Measurements: Low speed update rate

DATA	Type	M/O	Description
Mod	NX1500P_INC_Mod	M	Mode
Mod.stVal: (Template) (Set)on
Mod.ctlModel: (Template) (RO)status-only
Mod.d: (Template) (RO)Operating Mode
Beh	NX1500P_INS_Beh	M	Behaviour
Beh.stVal: (Template) (Set)on
Beh.d: (Template) (RO)Operating Mode Behavior
Health	NX1500P_INS_Health	M	Health
Health.d: (Template) (RO)1=Ok,2=Warning,3=Alarm
NamPlt	NX1500P_LPL	M	Name plate
NamPlt.vendor: (Template) (RO)Electro Industries
NamPlt.swRev: (Template) (RO)
NamPlt.d: (Template) (RO)Logical Node Nameplate
SeqA	NX1500P_SEQ	O	Positive, Negative and Zero Sequence Current
SeqA.seqT: (Instance) (Set)pos-neg-zero
SeqA.d: (Instance) (RO)Symm. comp. mag/ang ph-n current
SeqV	NX1500P_SEQ	O	Positive, Negative and Zero Sequence Voltage
SeqV.seqT: (Instance) (Set)pos-neg-zero
SeqV.d: (Instance) (RO)Symm. comp. mag/ang ph-n voltage

Logical node TEMPLATEMeas/eneMMTR1: type= NX1500P_MMTR, base class= MMTR: Analogue Measurements: Energy

DATA	Type	M/O	Description
Mod	NX1500P_INC_Mod	M	Mode
Mod.stVal: (Template) (Set)on
Mod.ctlModel: (Template) (RO)status-only
Mod.d: (Template) (RO)Operating Mode
Beh	NX1500P_INS_Beh	M	Behaviour
Beh.stVal: (Template) (Set)on
Beh.d: (Template) (RO)Operating Mode Behavior
Health	NX1500P_INS_Health	M	Health
Health.d: (Template) (RO)1=Ok,2=Warning,3=Alarm
NamPlt	NX1500P_LPL	M	Name plate
NamPlt.vendor: (Template) (RO)Electro Industries
NamPlt.swRev: (Template) (RO)
NamPlt.d: (Template) (RO)Logical Node Nameplate
TotVAh	NX1500P_BCR	O	Net apparent energy since last reset
TotVAh.pulsQty: (Instance) (RO)
TotVAh.d: (Instance) (RO)Total VA-hours
SupWh	NX1500P_BCR	O	Real energy supply (default supply direction: energy flow towards busbar)
SupWh.pulsQty: (Instance) (RO)
SupWh.d: (Instance) (RO)Consumed Watt-hours
SupVArh	NX1500P_BCR	O	Reactive energy supply (default supply direction: energy flow towards busbar)
SupVArh.pulsQty: (Instance) (RO)
SupVArh.d: (Instance) (RO)Consumed VAR-hours
DmdWh	NX1500P_BCR	O	Real energy demand (default demand direction: energy flow from busbar away)
DmdWh.pulsQty: (Instance) (RO)
DmdWh.d: (Instance) (RO)Generated Watt-hours
DmdVArh	NX1500P_BCR	O	Reactive energy demand (default demand direction: energy flow from busbar away)
DmdVArh.pulsQty: (Instance) (RO)
DmdVArh.d: (Instance) (RO)Generated VAR-hours

Logical node TEMPLATEMeas/vrtinGGIO1: type= NX1500P_GGIO_VRTIN, base class= GGIO: Virtual Input for data from subscribed publishers

DATA	Type	M/O	Description
Mod	NX1500P_INC_Mod	M	Mode
Mod.stVal: (Template) (Set)on
Mod.ctlModel: (Template) (RO)status-only
Mod.d: (Template) (RO)Operating Mode
Beh	NX1500P_INS_Beh	M	Behaviour
Beh.stVal: (Template) (Set)on
Beh.d: (Template) (RO)Operating Mode Behavior
Health	NX1500P_INS_Health	M	Health
Health.d: (Template) (RO)1=Ok,2=Warning,3=Alarm
NamPlt	NX1500P_LPL	M	Name plate
NamPlt.vendor: (Template) (RO)Electro Industries
NamPlt.swRev: (Template) (RO)
NamPlt.d: (Template) (RO)Logical Node Nameplate
Ind1	NX1500P_SPS	O	VIRTUAl INPUT: BOOLEAN #01
Ind1.d: (Instance) (RO)VIRTUAL INPUT: BOOLEAN #01
Ind2	NX1500P_SPS	O	VIRTUAl INPUT: BOOLEAN #02
Ind2.d: (Instance) (RO)VIRTUAL INPUT: BOOLEAN #02
Ind3	NX1500P_SPS	O	VIRTUAl INPUT: BOOLEAN #03
Ind3.d: (Instance) (RO)VIRTUAL INPUT: BOOLEAN #03
Ind4	NX1500P_SPS	O	VIRTUAl INPUT: BOOLEAN #04
Ind4.d: (Instance) (RO)VIRTUAL INPUT: BOOLEAN #04
Ind5	NX1500P_SPS	O	VIRTUAl INPUT: BOOLEAN #05
Ind5.d: (Instance) (RO)VIRTUAL INPUT: BOOLEAN #05
Ind6	NX1500P_SPS	O	VIRTUAl INPUT: BOOLEAN #06
Ind6.d: (Instance) (RO)VIRTUAL INPUT: BOOLEAN #06
Ind7	NX1500P_SPS	O	VIRTUAl INPUT: BOOLEAN #07
Ind7.d: (Instance) (RO)VIRTUAL INPUT: BOOLEAN #07
Ind8	NX1500P_SPS	O	VIRTUAl INPUT: BOOLEAN #08
Ind8.d: (Instance) (RO)VIRTUAL INPUT: BOOLEAN #08
Ind9	NX1500P_SPS	O	VIRTUAl INPUT: BOOLEAN #09
Ind9.d: (Instance) (RO)VIRTUAL INPUT: BOOLEAN #09
Ind10	NX1500P_SPS	O	VIRTUAl INPUT: BOOLEAN #10
Ind10.d: (Instance) (RO)VIRTUAL INPUT: BOOLEAN #10
Ind11	NX1500P_SPS	O	VIRTUAl INPUT: BOOLEAN #11
Ind11.d: (Instance) (RO)VIRTUAL INPUT: BOOLEAN #11
Ind12	NX1500P_SPS	O	VIRTUAl INPUT: BOOLEAN #12
Ind12.d: (Instance) (RO)VIRTUAL INPUT: BOOLEAN #12
Ind13	NX1500P_SPS	O	VIRTUAl INPUT: BOOLEAN #13
Ind13.d: (Instance) (RO)VIRTUAL INPUT: BOOLEAN #13
Ind14	NX1500P_SPS	O	VIRTUAl INPUT: BOOLEAN #14
Ind14.d: (Instance) (RO)VIRTUAL INPUT: BOOLEAN #14
Ind15	NX1500P_SPS	O	VIRTUAl INPUT: BOOLEAN #15
Ind15.d: (Instance) (RO)VIRTUAL INPUT: BOOLEAN #15
Ind16	NX1500P_SPS	O	VIRTUAl INPUT: BOOLEAN #16
Ind16.d: (Instance) (RO)VIRTUAL INPUT: BOOLEAN #16
Ind17	NX1500P_SPS	O	VIRTUAl INPUT: SPS #01
Ind17.d: (Instance) (RO)VIRTUAL INPUT: SPS #01
Ind18	NX1500P_SPS	O	VIRTUAl INPUT: SPS #02
Ind18.d: (Instance) (RO)VIRTUAL INPUT: SPS #02
Ind19	NX1500P_SPS	O	VIRTUAl INPUT: SPS #03
Ind19.d: (Instance) (RO)VIRTUAL INPUT: SPS #03
Ind20	NX1500P_SPS	O	VIRTUAl INPUT: SPS #04
Ind20.d: (Instance) (RO)VIRTUAL INPUT: SPS #04
Ind21	NX1500P_SPS	O	VIRTUAl INPUT: SPS #05
Ind21.d: (Instance) (RO)VIRTUAL INPUT: SPS #05
Ind22	NX1500P_SPS	O	VIRTUAl INPUT: SPS #06
Ind22.d: (Instance) (RO)VIRTUAL INPUT: SPS #06
Ind23	NX1500P_SPS	O	VIRTUAl INPUT: SPSN #07
Ind23.d: (Instance) (RO)VIRTUAL INPUT: SPS #07
Ind24	NX1500P_SPS	O	VIRTUAl INPUT: SPS #08
Ind24.d: (Instance) (RO)VIRTUAL INPUT: SPS #08
Ind25	NX1500P_SPS	O	VIRTUAl INPUT: SPS #09
Ind25.d: (Instance) (RO)VIRTUAL INPUT: SPS #09
Ind26	NX1500P_SPS	O	VIRTUAl INPUT: SPS #10
Ind26.d: (Instance) (RO)VIRTUAL INPUT: SPS #10
Ind27	NX1500P_SPS	O	VIRTUAl INPUT: SPS #11
Ind27.d: (Instance) (RO)VIRTUAL INPUT: SPS #11
Ind28	NX1500P_SPS	O	VIRTUAl INPUT: SPSN #12
Ind28.d: (Instance) (RO)VIRTUAL INPUT: SPS #12
Ind29	NX1500P_SPS	O	VIRTUAl INPUT: SPS #13
Ind29.d: (Instance) (RO)VIRTUAL INPUT: SPS #13
Ind30	NX1500P_SPS	O	VIRTUAl INPUT: SPS #14
Ind30.d: (Instance) (RO)VIRTUAL INPUT: SPS #14
Ind31	NX1500P_SPS	O	VIRTUAl INPUT: SPS #15
Ind31.d: (Instance) (RO)VIRTUAL INPUT: SPS #15
Ind32	NX1500P_SPS	O	VIRTUAl INPUT: SPS #16
Ind32.d: (Instance) (RO)VIRTUAL INPUT: SPS #16
AnIn1	NX1500P_MV_INTEGER	O	VIRTUAl INPUT: INTEGER #01
AnIn1.d: (Instance) (RO)VIRTUAL INPUT: INTEGER #01
AnIn2	NX1500P_MV_INTEGER	O	VIRTUAl INPUT: INTEGER #02
AnIn2.d: (Instance) (RO)VIRTUAL INPUT: INTEGER #02
AnIn3	NX1500P_MV_INTEGER	O	VIRTUAl INPUT: INTEGER #03
AnIn3.d: (Instance) (RO)VIRTUAL INPUT: INTEGER #03
AnIn4	NX1500P_MV_INTEGER	O	VIRTUAl INPUT: INTEGER #04
AnIn4.d: (Instance) (RO)VIRTUAL INPUT: INTEGER #04
AnIn5	NX1500P_MV_INTEGER	O	VIRTUAl INPUT: INTEGER #05
AnIn5.d: (Instance) (RO)VIRTUAL INPUT: INTEGER #05
AnIn6	NX1500P_MV_INTEGER	O	VIRTUAl INPUT: INTEGER #06
AnIn6.d: (Instance) (RO)VIRTUAL INPUT: INTEGER #06
AnIn7	NX1500P_MV_INTEGER	O	VIRTUAl INPUT: INTEGER #07
AnIn7.d: (Instance) (RO)VIRTUAL INPUT: INTEGER #07
AnIn8	NX1500P_MV_INTEGER	O	VIRTUAl INPUT: INTEGER #08
AnIn8.d: (Instance) (RO)VIRTUAL INPUT: INTEGER #08
AnIn9	NX1500P_MV_INTEGER	O	VIRTUAl INPUT: INTEGER #09
AnIn9.d: (Instance) (RO)VIRTUAL INPUT: INTEGER #09
AnIn10	NX1500P_MV_INTEGER	O	VIRTUAl INPUT: INTEGER #10
AnIn10.d: (Instance) (RO)VIRTUAL INPUT: INTEGER #10
AnIn11	NX1500P_MV_INTEGER	O	VIRTUAl INPUT: INTEGER #11
AnIn11.d: (Instance) (RO)VIRTUAL INPUT: INTEGER #11
AnIn12	NX1500P_MV_INTEGER	O	VIRTUAl INPUT: INTEGER #12
AnIn12.d: (Instance) (RO)VIRTUAL INPUT: INTEGER #12
AnIn13	NX1500P_MV_INTEGER	O	VIRTUAl INPUT: INTEGER #13
AnIn13.d: (Instance) (RO)VIRTUAL INPUT: INTEGER #13
AnIn14	NX1500P_MV_INTEGER	O	VIRTUAl INPUT: INTEGER #14
AnIn14.d: (Instance) (RO)VIRTUAL INPUT: INTEGER #14
AnIn15	NX1500P_MV_INTEGER	O	VIRTUAl INPUT: INTEGER #15
AnIn15.d: (Instance) (RO)VIRTUAL INPUT: INTEGER #15
AnIn16	NX1500P_MV_INTEGER	O	VIRTUAl INPUT: INTEGER #16
AnIn16.d: (Instance) (RO)VIRTUAL INPUT: INTEGER #16
AnIn17	NX1500P_MV_FLOAT	O	VIRTUAl INPUT: FLOAT #01
AnIn17.d: (Instance) (RO)VIRTUAL INPUT: FLOAT #01
AnIn18	NX1500P_MV_FLOAT	O	VIRTUAl INPUT: FLOAT #02
AnIn18.d: (Instance) (RO)VIRTUAL INPUT: FLOAT #02
AnIn19	NX1500P_MV_FLOAT	O	VIRTUAl INPUT: FLOAT #03
AnIn19.d: (Instance) (RO)VIRTUAL INPUT: FLOAT #03
AnIn20	NX1500P_MV_FLOAT	O	VIRTUAl INPUT: FLOAT #04
AnIn20.d: (Instance) (RO)VIRTUAL INPUT: FLOAT #04
AnIn21	NX1500P_MV_FLOAT	O	VIRTUAl INPUT: FLOAT #05
AnIn21.d: (Instance) (RO)VIRTUAL INPUT: FLOAT #05
AnIn22	NX1500P_MV_FLOAT	O	VIRTUAl INPUT: FLOAT #06
AnIn22.d: (Instance) (RO)VIRTUAL INPUT: FLOAT #06
AnIn23	NX1500P_MV_FLOAT	O	VIRTUAl INPUT: FLOAT #07
AnIn23.d: (Instance) (RO)VIRTUAL INPUT: FLOAT #07
AnIn24	NX1500P_MV_FLOAT	O	VIRTUAl INPUT: FLOAT #08
AnIn24.d: (Instance) (RO)VIRTUAL INPUT: FLOAT #08
AnIn25	NX1500P_MV_FLOAT	O	VIRTUAl INPUT: FLOAT #09
AnIn25.d: (Instance) (RO)VIRTUAL INPUT: FLOAT #09
AnIn26	NX1500P_MV_FLOAT	O	VIRTUAl INPUT: FLOAT #10
AnIn26.d: (Instance) (RO)VIRTUAL INPUT: FLOAT #10
AnIn27	NX1500P_MV_FLOAT	O	VIRTUAl INPUT: FLOAT #11
AnIn27.d: (Instance) (RO)VIRTUAL INPUT: FLOAT #11
AnIn28	NX1500P_MV_FLOAT	O	VIRTUAl INPUT: FLOAT #12
AnIn28.d: (Instance) (RO)VIRTUAL INPUT: FLOAT #12
AnIn29	NX1500P_MV_FLOAT	O	VIRTUAl INPUT: FLOAT #13
AnIn29.d: (Instance) (RO)VIRTUAL INPUT: FLOAT #13
AnIn30	NX1500P_MV_FLOAT	O	VIRTUAl INPUT: FLOAT #14
AnIn30.d: (Instance) (RO)VIRTUAL INPUT: FLOAT #14
AnIn31	NX1500P_MV_FLOAT	O	VIRTUAl INPUT: FLOAT #15
AnIn31.d: (Instance) (RO)VIRTUAL INPUT: FLOAT #15
AnIn32	NX1500P_MV_FLOAT	O	VIRTUAl INPUT: FLOAT #16
AnIn32.d: (Instance) (RO)VIRTUAL INPUT: FLOAT #16

Logical node TEMPLATEMeas/alarmGGIO1: type= NX1500P_GGIO_ALARM, base class= GGIO: Limit Alarms

DATA	Type	M/O	Description
Mod	NX1500P_INC_Mod	M	Mode
Mod.stVal: (Template) (Set)on
Mod.ctlModel: (Template) (RO)status-only
Mod.d: (Template) (RO)Operating Mode
Beh	NX1500P_INS_Beh	M	Behaviour
Beh.stVal: (Template) (Set)on
Beh.d: (Template) (RO)Operating Mode Behavior
Health	NX1500P_INS_Health	M	Health
Health.d: (Template) (RO)1=Ok,2=Warning,3=Alarm
NamPlt	NX1500P_LPL	M	Name plate
NamPlt.vendor: (Template) (RO)Electro Industries
NamPlt.swRev: (Template) (RO)
NamPlt.d: (Template) (RO)Logical Node Nameplate
Alm1	NX1500P_SPS	O	General alarm indication chn 01
Alm1.d: (Instance) (RO)Alarm chn #01
Alm2	NX1500P_SPS	O	General alarm indication chn 02
Alm2.d: (Instance) (RO)Alarm chn #02
Alm3	NX1500P_SPS	O	General alarm indication chn 03
Alm3.d: (Instance) (RO)Alarm chn #03
Alm4	NX1500P_SPS	O	General alarm indication chn 04
Alm4.d: (Instance) (RO)Alarm chn #04
Alm5	NX1500P_SPS	O	General alarm indication chn 05
Alm5.d: (Instance) (RO)Alarm chn #05
Alm6	NX1500P_SPS	O	General alarm indication chn 06
Alm6.d: (Instance) (RO)Alarm chn #06
Alm7	NX1500P_SPS	O	General alarm indication chn 07
Alm7.d: (Instance) (RO)Alarm chn #07
Alm8	NX1500P_SPS	O	General alarm indication chn 08
Alm8.d: (Instance) (RO)Alarm chn #08
Alm9	NX1500P_SPS	O	General alarm indication chn 09
Alm9.d: (Instance) (RO)Alarm chn #09
Alm10	NX1500P_SPS	O	General alarm indication chn 10
Alm10.d: (Instance) (RO)Alarm chn #10
Alm11	NX1500P_SPS	O	General alarm indication chn 11
Alm11.d: (Instance) (RO)Alarm chn #11
Alm12	NX1500P_SPS	O	General alarm indication chn 12
Alm12.d: (Instance) (RO)Alarm chn #12
Alm13	NX1500P_SPS	O	General alarm indication chn 13
Alm13.d: (Instance) (RO)Alarm chn #13
Alm14	NX1500P_SPS	O	General alarm indication chn 14
Alm14.d: (Instance) (RO)Alarm chn #14
Alm15	NX1500P_SPS	O	General alarm indication chn 15
Alm15.d: (Instance) (RO)Alarm chn #15
Alm16	NX1500P_SPS	O	General alarm indication chn 16
Alm16.d: (Instance) (RO)Alarm chn #16
Alm17	NX1500P_SPS	O	General alarm indication chn 17
Alm17.d: (Instance) (RO)Alarm chn #17
Alm18	NX1500P_SPS	O	General alarm indication chn 18
Alm18.d: (Instance) (RO)Alarm chn #18
Alm19	NX1500P_SPS	O	General alarm indication chn 19
Alm19.d: (Instance) (RO)Alarm chn #19
Alm20	NX1500P_SPS	O	General alarm indication chn 20
Alm20.d: (Instance) (RO)Alarm chn #20
Alm21	NX1500P_SPS	O	General alarm indication chn 21
Alm21.d: (Instance) (RO)Alarm chn #21
Alm22	NX1500P_SPS	O	General alarm indication chn 22
Alm22.d: (Instance) (RO)Alarm chn #22
Alm23	NX1500P_SPS	O	General alarm indication chn 23
Alm23.d: (Instance) (RO)Alarm chn #23
Alm24	NX1500P_SPS	O	General alarm indication chn 24
Alm24.d: (Instance) (RO)Alarm chn #24
Alm25	NX1500P_SPS	O	General alarm indication chn 25
Alm25.d: (Instance) (RO)Alarm chn #25
Alm26	NX1500P_SPS	O	General alarm indication chn 26
Alm26.d: (Instance) (RO)Alarm chn #26
Alm27	NX1500P_SPS	O	General alarm indication chn 27
Alm27.d: (Instance) (RO)Alarm chn #27
Alm28	NX1500P_SPS	O	General alarm indication chn 28
Alm28.d: (Instance) (RO)Alarm chn #28
Alm29	NX1500P_SPS	O	General alarm indication chn 29
Alm29.d: (Instance) (RO)Alarm chn #29
Alm30	NX1500P_SPS	O	General alarm indication chn 30
Alm30.d: (Instance) (RO)Alarm chn #30
Alm31	NX1500P_SPS	O	General alarm indication chn 31
Alm31.d: (Instance) (RO)Alarm chn #31
Alm32	NX1500P_SPS	O	General alarm indication chn 32
Alm32.d: (Instance) (RO)Alarm chn #32

Logical node TEMPLATEMeas/intdiGGIO1: type= NX1500P_GGIO_INT, base class= GGIO: Digital Measurements: Built-in High speed digital input

DATA	Type	M/O	Description
Mod	NX1500P_INC_Mod	M	Mode
Mod.stVal: (Template) (Set)on
Mod.ctlModel: (Template) (RO)status-only
Mod.d: (Template) (RO)Operating Mode
Beh	NX1500P_INS_Beh	M	Behaviour
Beh.stVal: (Template) (Set)on
Beh.d: (Template) (RO)Operating Mode Behavior
Health	NX1500P_INS_Health	M	Health
Health.d: (Template) (RO)1=Ok,2=Warning,3=Alarm
NamPlt	NX1500P_LPL	M	Name plate
NamPlt.vendor: (Template) (RO)Electro Industries
NamPlt.swRev: (Template) (RO)
NamPlt.d: (Template) (RO)Logical Node Nameplate
Ind1	NX1500P_SPS	O	General indication (binary input - channel 01)
Ind1.d: (Instance) (RO)Built-in digital input: channel 1
Ind2	NX1500P_SPS	O	General indication (binary input - channel 02)
Ind2.d: (Instance) (RO)Built-in digital input: channel 2
Ind3	NX1500P_SPS	O	General indication (binary input - channel 03)
Ind3.d: (Instance) (RO)Built-in digital input: channel 3
Ind4	NX1500P_SPS	O	General indication (binary input - channel 04)
Ind4.d: (Instance) (RO)Built-in digital input: channel 4
Ind5	NX1500P_SPS	O	General indication (binary input - channel 05)
Ind5.d: (Instance) (RO)Built-in digital input: channel 5
Ind6	NX1500P_SPS	O	General indication (binary input - channel 06)
Ind6.d: (Instance) (RO)Built-in digital input: channel 6
Ind7	NX1500P_SPS	O	General indication (binary input - channel 07)
Ind7.d: (Instance) (RO)Built-in digital input: channel 7
Ind8	NX1500P_SPS	O	General indication (binary input - channel 08)
Ind8.d: (Instance) (RO)Built-in digital input: channel 8

Logical node TEMPLATEMeas/extdiGGIO1: type= NX1500P_GGIO_EXT, base class= GGIO: Digital Measurements: Option board (slot 3) digital input

DATA	Type	M/O	Description
Mod	NX1500P_INC_Mod	M	Mode
Mod.stVal: (Template) (Set)on
Mod.ctlModel: (Template) (RO)status-only
Mod.d: (Template) (RO)Operating Mode
Beh	NX1500P_INS_Beh	M	Behaviour
Beh.stVal: (Template) (Set)on
Beh.d: (Template) (RO)Operating Mode Behavior
Health	NX1500P_INS_Health	M	Health
Health.d: (Template) (RO)1=Ok,2=Warning,3=Alarm
NamPlt	NX1500P_LPL	M	Name plate
NamPlt.vendor: (Template) (RO)Electro Industries
NamPlt.swRev: (Template) (RO)
NamPlt.d: (Template) (RO)Logical Node Nameplate
Ind1	NX1500P_SPS	O	General indication (binary input - channel 01)
Ind1.d: (Instance) (RO)Option board (slot 3) digital input: channel 1
Ind2	NX1500P_SPS	O	General indication (binary input - channel 02)
Ind2.d: (Instance) (RO)Option board (slot 3) digital input: channel 2
Ind3	NX1500P_SPS	O	General indication (binary input - channel 03)
Ind3.d: (Instance) (RO)Option board (slot 3) digital input: channel 3
Ind4	NX1500P_SPS	O	General indication (binary input - channel 04)
Ind4.d: (Instance) (RO)Option board (slot 3) digital input: channel 4
Ind5	NX1500P_SPS	O	General indication (binary input - channel 05)
Ind5.d: (Instance) (RO)Option board (slot 3) digital input: channel 5
Ind6	NX1500P_SPS	O	General indication (binary input - channel 06)
Ind6.d: (Instance) (RO)Option board (slot 3) digital input: channel 6
Ind7	NX1500P_SPS	O	General indication (binary input - channel 07)
Ind7.d: (Instance) (RO)Option board (slot 3) digital input: channel 7
Ind8	NX1500P_SPS	O	General indication (binary input - channel 08)
Ind8.d: (Instance) (RO)Option board (slot 3) digital input: channel 8
Ind9	NX1500P_SPS	O	General indication (binary input - channel 09)
Ind9.d: (Instance) (RO)Option board (slot 3) digital input: channel 9
Ind10	NX1500P_SPS	O	General indication (binary input - channel 10)
Ind10.d: (Instance) (RO)Option board (slot 3) digital input: channel 10
Ind11	NX1500P_SPS	O	General indication (binary input - channel 11)
Ind11.d: (Instance) (RO)Option board (slot 3) digital input: channel 11
Ind12	NX1500P_SPS	O	General indication (binary input - channel 12)
Ind12.d: (Instance) (RO)Option board (slot 3) digital input: channel 12
Ind13	NX1500P_SPS	O	General indication (binary input - channel 13)
Ind13.d: (Instance) (RO)Option board (slot 3) digital input: channel 13
Ind14	NX1500P_SPS	O	General indication (binary input - channel 14)
Ind14.d: (Instance) (RO)Option board (slot 3) digital input: channel 14
Ind15	NX1500P_SPS	O	General indication (binary input - channel 15)
Ind15.d: (Instance) (RO)Option board (slot 3) digital input: channel 15
Ind16	NX1500P_SPS	O	General indication (binary input - channel 16)
Ind16.d: (Instance) (RO)Option board (slot 3) digital input: channel 16

Logical node TEMPLATEMeas/extdiGGIO2: type= NX1500P_GGIO_EXT, base class= GGIO: Digital Measurements: Option board (slot 4) digital input

DATA	Type	M/O	Description
Mod	NX1500P_INC_Mod	M	Mode
Mod.stVal: (Template) (Set)on
Mod.ctlModel: (Template) (RO)status-only
Mod.d: (Template) (RO)Operating Mode
Beh	NX1500P_INS_Beh	M	Behaviour
Beh.stVal: (Template) (Set)on
Beh.d: (Template) (RO)Operating Mode Behavior
Health	NX1500P_INS_Health	M	Health
Health.d: (Template) (RO)1=Ok,2=Warning,3=Alarm
NamPlt	NX1500P_LPL	M	Name plate
NamPlt.vendor: (Template) (RO)Electro Industries
NamPlt.swRev: (Template) (RO)
NamPlt.d: (Template) (RO)Logical Node Nameplate
Ind1	NX1500P_SPS	O	General indication (binary input - channel 01)
Ind1.d: (Instance) (RO)Option board (slot 4) digital input: channel 1
Ind2	NX1500P_SPS	O	General indication (binary input - channel 02)
Ind2.d: (Instance) (RO)Option board (slot 4) digital input: channel 2
Ind3	NX1500P_SPS	O	General indication (binary input - channel 03)
Ind3.d: (Instance) (RO)Option board (slot 4) digital input: channel 3
Ind4	NX1500P_SPS	O	General indication (binary input - channel 04)
Ind4.d: (Instance) (RO)Option board (slot 4) digital input: channel 4
Ind5	NX1500P_SPS	O	General indication (binary input - channel 05)
Ind5.d: (Instance) (RO)Option board (slot 4) digital input: channel 5
Ind6	NX1500P_SPS	O	General indication (binary input - channel 06)
Ind6.d: (Instance) (RO)Option board (slot 4) digital input: channel 6
Ind7	NX1500P_SPS	O	General indication (binary input - channel 07)
Ind7.d: (Instance) (RO)Option board (slot 4) digital input: channel 7
Ind8	NX1500P_SPS	O	General indication (binary input - channel 08)
Ind8.d: (Instance) (RO)Option board (slot 4) digital input: channel 8
Ind9	NX1500P_SPS	O	General indication (binary input - channel 09)
Ind9.d: (Instance) (RO)Option board (slot 4) digital input: channel 9
Ind10	NX1500P_SPS	O	General indication (binary input - channel 10)
Ind10.d: (Instance) (RO)Option board (slot 4) digital input: channel 10
Ind11	NX1500P_SPS	O	General indication (binary input - channel 11)
Ind11.d: (Instance) (RO)Option board (slot 4) digital input: channel 11
Ind12	NX1500P_SPS	O	General indication (binary input - channel 12)
Ind12.d: (Instance) (RO)Option board (slot 4) digital input: channel 12
Ind13	NX1500P_SPS	O	General indication (binary input - channel 13)
Ind13.d: (Instance) (RO)Option board (slot 4) digital input: channel 13
Ind14	NX1500P_SPS	O	General indication (binary input - channel 14)
Ind14.d: (Instance) (RO)Option board (slot 4) digital input: channel 14
Ind15	NX1500P_SPS	O	General indication (binary input - channel 15)
Ind15.d: (Instance) (RO)Option board (slot 4) digital input: channel 15
Ind16	NX1500P_SPS	O	General indication (binary input - channel 16)
Ind16.d: (Instance) (RO)Option board (slot 4) digital input: channel 16

Logical node TEMPLATEMeas/ctrtanTCTR1: type= NX1500P_TCTR, base class= TCTR: Configuration: CT ratios - Phase A

DATA	Type	M/O	Description
Mod	NX1500P_INC_Mod	M	Mode
Mod.stVal: (Template) (Set)on
Mod.ctlModel: (Template) (RO)status-only
Mod.d: (Template) (RO)Operating Mode
Beh	NX1500P_INS_Beh	M	Behaviour
Beh.stVal: (Template) (Set)on
Beh.d: (Template) (RO)Operating Mode Behavior
Health	NX1500P_INS_Health	M	Health
Health.d: (Template) (RO)1=Ok,2=Warning,3=Alarm
NamPlt	NX1500P_LPL_TCTRTVTR	M	Name plate
NamPlt.vendor: (Template) (RO)Electro Industries
NamPlt.swRev: (Template) (RO)
NamPlt.d: (Template) (RO)Logical Node Nameplate
NamPlt.lnNs: (Template) (RO)IEC 61850-7-4:2007A
Rat	NX1500P_ASG	O	Winding ratio of an external current transformer (transducer) if applicable
Rat.setMag.f: (Instance) (RO)
Rat.d: (Instance) (RO)CT Ratio Phase A

Logical node TEMPLATEMeas/ctrtbnTCTR2: type= NX1500P_TCTR, base class= TCTR: Configuration: CT ratios - Phase B

DATA	Type	M/O	Description
Mod	NX1500P_INC_Mod	M	Mode
Mod.stVal: (Template) (Set)on
Mod.ctlModel: (Template) (RO)status-only
Mod.d: (Template) (RO)Operating Mode
Beh	NX1500P_INS_Beh	M	Behaviour
Beh.stVal: (Template) (Set)on
Beh.d: (Template) (RO)Operating Mode Behavior
Health	NX1500P_INS_Health	M	Health
Health.d: (Template) (RO)1=Ok,2=Warning,3=Alarm
NamPlt	NX1500P_LPL_TCTRTVTR	M	Name plate
NamPlt.vendor: (Template) (RO)Electro Industries
NamPlt.swRev: (Template) (RO)
NamPlt.d: (Template) (RO)Logical Node Nameplate
NamPlt.lnNs: (Template) (RO)IEC 61850-7-4:2007A
Rat	NX1500P_ASG	O	Winding ratio of an external current transformer (transducer) if applicable
Rat.setMag.f: (Instance) (RO)
Rat.d: (Instance) (RO)CT Ratio Phase B

Logical node TEMPLATEMeas/ctrtcnTCTR3: type= NX1500P_TCTR, base class= TCTR: Configuration: CT ratios - Phase C

DATA	Type	M/O	Description
Mod	NX1500P_INC_Mod	M	Mode
Mod.stVal: (Template) (Set)on
Mod.ctlModel: (Template) (RO)status-only
Mod.d: (Template) (RO)Operating Mode
Beh	NX1500P_INS_Beh	M	Behaviour
Beh.stVal: (Template) (Set)on
Beh.d: (Template) (RO)Operating Mode Behavior
Health	NX1500P_INS_Health	M	Health
Health.d: (Template) (RO)1=Ok,2=Warning,3=Alarm
NamPlt	NX1500P_LPL_TCTRTVTR	M	Name plate
NamPlt.vendor: (Template) (RO)Electro Industries
NamPlt.swRev: (Template) (RO)
NamPlt.d: (Template) (RO)Logical Node Nameplate
NamPlt.lnNs: (Template) (RO)IEC 61850-7-4:2007A
Rat	NX1500P_ASG	O	Winding ratio of an external current transformer (transducer) if applicable
Rat.setMag.f: (Instance) (RO)
Rat.d: (Instance) (RO)CT Ratio Phase C

Logical node TEMPLATEMeas/ctrtnnTCTR4: type= NX1500P_TCTR, base class= TCTR: Configuration: CT ratios - Neutral

DATA	Type	M/O	Description
Mod	NX1500P_INC_Mod	M	Mode
Mod.stVal: (Template) (Set)on
Mod.ctlModel: (Template) (RO)status-only
Mod.d: (Template) (RO)Operating Mode
Beh	NX1500P_INS_Beh	M	Behaviour
Beh.stVal: (Template) (Set)on
Beh.d: (Template) (RO)Operating Mode Behavior
Health	NX1500P_INS_Health	M	Health
Health.d: (Template) (RO)1=Ok,2=Warning,3=Alarm
NamPlt	NX1500P_LPL_TCTRTVTR	M	Name plate
NamPlt.vendor: (Template) (RO)Electro Industries
NamPlt.swRev: (Template) (RO)
NamPlt.d: (Template) (RO)Logical Node Nameplate
NamPlt.lnNs: (Template) (RO)IEC 61850-7-4:2007A
Rat	NX1500P_ASG	O	Winding ratio of an external current transformer (transducer) if applicable
Rat.setMag.f: (Instance) (RO)
Rat.d: (Instance) (RO)CT Ratio Neutral

Logical node TEMPLATEMeas/ptrtanTVTR1: type= NX1500P_TVTR, base class= TVTR: Configuration: PT ratios - Phase A

DATA	Type	M/O	Description
Mod	NX1500P_INC_Mod	M	Mode
Mod.stVal: (Template) (Set)on
Mod.ctlModel: (Template) (RO)status-only
Mod.d: (Template) (RO)Operating Mode
Beh	NX1500P_INS_Beh	M	Behaviour
Beh.stVal: (Template) (Set)on
Beh.d: (Template) (RO)Operating Mode Behavior
Health	NX1500P_INS_Health	M	Health
Health.d: (Template) (RO)1=Ok,2=Warning,3=Alarm
NamPlt	NX1500P_LPL_TCTRTVTR	M	Name plate
NamPlt.vendor: (Template) (RO)Electro Industries
NamPlt.swRev: (Template) (RO)
NamPlt.d: (Template) (RO)Logical Node Nameplate
NamPlt.lnNs: (Template) (RO)IEC 61850-7-4:2007A
Rat	NX1500P_ASG	O	Winding ratio of external voltage transformer (transducer) if applicable
Rat.setMag.f: (Instance) (RO)
Rat.d: (Instance) (RO)PT Ratio Phase A

Logical node TEMPLATEMeas/ptrtbnTVTR2: type= NX1500P_TVTR, base class= TVTR: Configuration: PT ratios - Phase B

DATA	Type	M/O	Description
Mod	NX1500P_INC_Mod	M	Mode
Mod.stVal: (Template) (Set)on
Mod.ctlModel: (Template) (RO)status-only
Mod.d: (Template) (RO)Operating Mode
Beh	NX1500P_INS_Beh	M	Behaviour
Beh.stVal: (Template) (Set)on
Beh.d: (Template) (RO)Operating Mode Behavior
Health	NX1500P_INS_Health	M	Health
Health.d: (Template) (RO)1=Ok,2=Warning,3=Alarm
NamPlt	NX1500P_LPL_TCTRTVTR	M	Name plate
NamPlt.vendor: (Template) (RO)Electro Industries
NamPlt.swRev: (Template) (RO)
NamPlt.d: (Template) (RO)Logical Node Nameplate
NamPlt.lnNs: (Template) (RO)IEC 61850-7-4:2007A
Rat	NX1500P_ASG	O	Winding ratio of external voltage transformer (transducer) if applicable
Rat.setMag.f: (Instance) (RO)
Rat.d: (Instance) (RO)PT Ratio Phase B

Logical node TEMPLATEMeas/ptrtcnTVTR3: type= NX1500P_TVTR, base class= TVTR: Configuration: PT ratios - Phase C

DATA	Type	M/O	Description
Mod	NX1500P_INC_Mod	M	Mode
Mod.stVal: (Template) (Set)on
Mod.ctlModel: (Template) (RO)status-only
Mod.d: (Template) (RO)Operating Mode
Beh	NX1500P_INS_Beh	M	Behaviour
Beh.stVal: (Template) (Set)on
Beh.d: (Template) (RO)Operating Mode Behavior
Health	NX1500P_INS_Health	M	Health
Health.d: (Template) (RO)1=Ok,2=Warning,3=Alarm
NamPlt	NX1500P_LPL_TCTRTVTR	M	Name plate
NamPlt.vendor: (Template) (RO)Electro Industries
NamPlt.swRev: (Template) (RO)
NamPlt.d: (Template) (RO)Logical Node Nameplate
NamPlt.lnNs: (Template) (RO)IEC 61850-7-4:2007A
Rat	NX1500P_ASG	O	Winding ratio of external voltage transformer (transducer) if applicable
Rat.setMag.f: (Instance) (RO)
Rat.d: (Instance) (RO)PT Ratio Phase C

Logical node TEMPLATEMeas/ptrtaxTVTR4: type= NX1500P_TVTR, base class= TVTR: Configuration: PT ratios - Phase AUX

DATA	Type	M/O	Description
Mod	NX1500P_INC_Mod	M	Mode
Mod.stVal: (Template) (Set)on
Mod.ctlModel: (Template) (RO)status-only
Mod.d: (Template) (RO)Operating Mode
Beh	NX1500P_INS_Beh	M	Behaviour
Beh.stVal: (Template) (Set)on
Beh.d: (Template) (RO)Operating Mode Behavior
Health	NX1500P_INS_Health	M	Health
Health.d: (Template) (RO)1=Ok,2=Warning,3=Alarm
NamPlt	NX1500P_LPL_TCTRTVTR	M	Name plate
NamPlt.vendor: (Template) (RO)Electro Industries
NamPlt.swRev: (Template) (RO)
NamPlt.d: (Template) (RO)Logical Node Nameplate
NamPlt.lnNs: (Template) (RO)IEC 61850-7-4:2007A
Rat	NX1500P_ASG	O	Winding ratio of external voltage transformer (transducer) if applicable
Rat.setMag.f: (Instance) (RO)
Rat.d: (Instance) (RO)PT Ratio Phase AUX

Common Data Class Definitions

Common DATA class INC of variant NX1500P_INC_Mod:

Attribute	Type	FC	Description	TrgOp	R/W(value)
Status
stVal	Enum ModBeh	ST		dchg	Set(on)
q	Quality	ST		qchg
t	Timestamp	ST
Configuration, Description
ctlModel	Enum CtlModels	CF			RO(status-only)
d	VisString255	DC	Text		RO(Operating Mode)

Common DATA class INS of variant NX1500P_INS_Beh:

Attribute	Type	FC	Description	TrgOp	R/W(value)
Status
stVal	Enum ModBeh	ST		dchg	Set(on)
q	Quality	ST		qchg
t	Timestamp	ST
Configuration, Description
d	VisString255	DC	Text		RO(Operating Mode Behavior)

Common DATA class INS of variant NX1500P_INS_Health:

Attribute	Type	FC	Description	TrgOp	R/W(value)
Status
stVal	Enum Health	ST		dchg
q	Quality	ST		qchg
t	Timestamp	ST
Configuration, Description
d	VisString255	DC	Text		RO(1=Ok,2=Warning,3=Alarm)

Common DATA class LPL of variant NX1500P_LPL_LLN0:

Attribute	Type	FC	Description	R/W(value)
Configuration, Description
vendor	VisString255	DC		RO(Electro Industries)
swRev	VisString255	DC		RO
d	VisString255	DC		RO(Logical Device Nameplate)
configRev	VisString255	DC		Spec(1.0)
Extension
ldNs	VisString255	EX	shall be included in LLN0 only;	RO(IEC 61850-7-4:2003)

Common DATA class LPL of variant NX1500P_LPL:

Attribute	Type	FC	R/W(value)
Configuration, Description
vendor	VisString255	DC	RO(Electro Industries)
swRev	VisString255	DC	RO
d	VisString255	DC	RO(Logical Node Nameplate)

Common DATA class LPL of variant NX1500P_LPL_MFLK:

Attribute	Type	FC	R/W(value)
Configuration, Description
vendor	VisString255	DC	RO(Electro Industries)
swRev	VisString255	DC	RO
d	VisString255	DC	RO(Logical Node Nameplate)
Extension
lnNs	VisString255	EX	RO(IEC 61850-7-4:2010)

Common DATA class LPL of variant NX1500P_LPL_TCTRTVTR:

Attribute	Type	FC	R/W(value)
Configuration, Description
vendor	VisString255	DC	RO(Electro Industries)
swRev	VisString255	DC	RO
d	VisString255	DC	RO(Logical Node Nameplate)
Extension
lnNs	VisString255	EX	RO(IEC 61850-7-4:2007A)

Common DATA class DPL of variant NX1500P_DPL:

Attribute	Type	FC	R/W(value)
Configuration, Description
vendor	VisString255	DC	RO(Electro Industries)
swRev	VisString255	DC	RO
serNum	VisString255	DC	RO
model	VisString255	DC	RO

Common DATA class SPS of variant NX1500P_SPS:

Attribute	Type	FC	Description	TrgOp
Status
stVal	BOOLEAN	ST		dchg
q	Quality	ST		qchg
t	Timestamp	ST
Configuration, Description
d	VisString255	DC	Text

Common DATA class WYE of variant NX1500P_WYE:

Attribute	Type	FC	Description	TrgOp	R/W(value)
phsA	NX1500P_CMV
phsB	NX1500P_CMV
phsC	NX1500P_CMV

Common DATA class WYE of variant NX1500P_WYE_A:

Attribute	Type	FC	Description	TrgOp	R/W(value)
phsA	NX1500P_CMV
phsB	NX1500P_CMV
phsC	NX1500P_CMV
neut	NX1500P_CMV
res	NX1500P_CMV

Common DATA class DEL of variant NX1500P_DEL:

Attribute	Type	FC	Description	TrgOp	R/W(value)
phsAB	NX1500P_CMV
phsBC	NX1500P_CMV
phsCA	NX1500P_CMV

Common DATA class SEQ of variant NX1500P_SEQ:

Attribute	Type	FC	Description
c1	NX1500P_CMV_SEQ
c2	NX1500P_CMV_SEQ
c3	NX1500P_CMV_SEQ
Measurand
seqT	Enum SeqT	MX	pos-neg-zero \| dir-quad-zero
Configuration, Description
d	VisString255	DC	Text

Common DATA class BCR of variant NX1500P_BCR:

Attribute	Type	FC	TrgOp	R/W(value)
Status
actVal	INT32	ST	dchg
q	Quality	ST	qchg
t	Timestamp	ST
Configuration, Description
pulsQty	FLOAT32	CF		RO(1)
d	VisString255	DC

Common DATA class MV of variant NX1500P_MV_INTEGER:

Attribute	Type	FC	Description	TrgOp
Measurand
mag	NX1500P_ANALOGUE_VALUE_INTEGER	MX		dchg
q	Quality	MX		qchg
t	Timestamp	MX
Configuration, Description
d	VisString255	DC	Text

Common DATA class MV of variant NX1500P_MV_FLOAT:

Attribute	Type	FC	Description	TrgOp
Measurand
mag	NX1500P_ANALOGUE_VALUE_FLOAT	MX		dchg
q	Quality	MX		qchg
t	Timestamp	MX
Configuration, Description
d	VisString255	DC	Text

Common DATA class CMV of variant NX1500P_CMV:

Attribute	Type	FC	Description	TrgOp
Measurand
instCVal	NX1500P_VECTOR	MX
cVal	NX1500P_VECTOR	MX		dchg
q	Quality	MX		qchg
t	Timestamp	MX
Configuration, Description
db	INT32U	CF
rangeC	NX1500P_RANGE_CONFIG	CF
d	VisString255	DC	Text

Common DATA class CMV of variant NX1500P_CMV_SEQ:

Attribute	Type	FC	Description	TrgOp
Measurand
instCVal	NX1500P_VECTOR_ANG	MX
cVal	NX1500P_VECTOR_ANG	MX		dchg
q	Quality	MX		qchg
t	Timestamp	MX
Configuration, Description
db	INT32U	CF
rangeC	NX1500P_RANGE_CONFIG	CF
d	VisString255	DC	Text
dbAng	INT32U	CF

Common DATA class MV of variant NX1500P_MV:

Attribute	Type	FC	Description	TrgOp
Measurand
instMag	NX1500P_ANALOGUE_VALUE_FLOAT	MX
mag	NX1500P_ANALOGUE_VALUE_FLOAT	MX		dchg
q	Quality	MX		qchg
t	Timestamp	MX
Configuration, Description
db	INT32U	CF
rangeC	NX1500P_RANGE_CONFIG	CF
d	VisString255	DC	Text

Common DATA class ASG of variant NX1500P_ASG:

Attribute	Type	FC	Description
Settings
setMag	NX1500P_ANALOGUE_VALUE_FLOAT	SP
Configuration, Description
d	VisString255	DC	Text

Common DATA class SAV of variant NX1500P_SV:

Attribute	Type	FC	R/W(value)
Measurand
instMag	NX1500P_ANALOGUE_VALUE_FLOAT	MX
q	Quality	MX
Configuration, Description
d	VisString255	DC	RO(Logical Device Nameplate)

Data Attribute Definitions

Attribute structure NX1500P_VECTOR_ANG:

Attribute	Type	Description	R/W
mag	NX1500P_ANALOGUE_VALUE_FLOAT
ang	NX1500P_ANALOGUE_VALUE_FLOAT

Attribute structure NX1500P_VECTOR:

Attribute	Type	Description	R/W
mag	NX1500P_ANALOGUE_VALUE_FLOAT

Attribute structure NX1500P_ANALOGUE_VALUE_INTEGER:

Attribute	Type	Description	R/W
i	INT32

Attribute structure NX1500P_ANALOGUE_VALUE_FLOAT:

Attribute	Type	Description	R/W
f	FLOAT32

Attribute structure NX1500P_ANALOGUE_VALUE_LIM:

Attribute	Type	Description	R/W
f	FLOAT32		RO(0)

Attribute structure NX1500P_RANGE_CONFIG:

Attribute	Type	Description	R/W
hhLim	NX1500P_ANALOGUE_VALUE_LIM
hLim	NX1500P_ANALOGUE_VALUE_LIM
lLim	NX1500P_ANALOGUE_VALUE_LIM
llLim	NX1500P_ANALOGUE_VALUE_LIM
min	NX1500P_ANALOGUE_VALUE_FLOAT
max	NX1500P_ANALOGUE_VALUE_FLOAT

Enumeration Definitions

Enumeration definition ModBeh:

Enum string	Value	Description
on	1
blocked	2
test	3
test/blocked	4
off	5

Enumeration definition Health:

Enum string	Value	Description
Ok	1
Warning	2
Alarm	3

Enumeration definition SeqT:

Enum string	Value	Description
pos-neg-zero	0
dir-quad-zero	1

Enumeration definition range:

Enum string	Value	Description
normal	0
high	1
low	2
high-high	3
low-low	4

Enumeration definition CtlModels:

Enum string	Value	Description
status-only	0
direct-with-normal-security	1
sbo-with-normal-security	2
direct-with-enhanced-security	3
sbo-with-enhanced-security	4

Annex A - Notes on Contents

IED List:

This section provides a summary of the IEDs within the SCL file including the IP associated addresses

Detailed Addressing Information:

This section displays all of the addressing information associated with a specific IED

Logical Device list:

This section lists the Logical Devices within the IED. The "Default NameSpace" should point to an IEC standard (for example, "IEC61850-7-4:2003"

Proprietary Logical Node list:

This section lists the vendor-specific Logical Nodes (i.e., those whose namespace differ from the Default Namespace of teh Logical device)

Proprietary Data Objects list:

This section lists vendor-specific data objects and their associated Logical Nodes

GOOSE Subscriptions:

This section lists all SCL-specified GOOSE subscriptions for the IED with the associated publisher

GOOSE Publications:

This section lists all GOOSEs published by the IED

Logical Node list:

This section lists all of the Logical Nodes grouped by Logical Device then by function (for example, all "L" logical nodes are listed first)

DataSets:

This section lists all datasets defined by the IED

Logical Node Definitions

This section lists the Data Objects within each Logical Node. It has two options depending upon the setting of a variable within the XSLT file:

based upon IED declarations: Lists each Logical Node found within the Instance section (the <IED> section).
based upon DataTypeTemplates declarations: Lists each of the Logical Nodes found in the templates section once. It is shorter than the full Logical Node list.

Within this section are entries for pre-defined and configuration-defined values. They are listed as:

Name (DataObject.attribute.attribute...)
(DefinitionLocation) where the location is either "Instance" (IED section) or "Template" (DataTypeTemplates section)
(valKind) which is either "Set" (read/write at runtime) or "Conf" (assignable at configuration startup time) or "RO" (read-only)
Value (The actual value of the attribute). Note that attributes may be marked as read-only without a value (for example, the device serial number is of this type)

Common Data Class Definitions

This section lists the Data Object definitions found within the dataTypeTemplates section. The "Common Data Class" (CDC) name is listed as well as the specific variant name. The attributes are grouped by function and NOT necessarily by the order of the variables (although the resulting order is very close to the definitions).

Enumeration Definitions

This section list the named attribute values as well as the associated integer. The "Enumeration string" is the value appearing in the SCL file while the integer is the value served "on-the-wire". Vendor-defined enumerations (those with negative ordinals) are highlighted.

Additional Information

The SCL-to-MICS converter is an XSLT (eXtensible Style Language for Transformation).
It executes within a browser without needing additional "plug-ins" (IE 9 and FireFox 15.0.1 tested).

To use it, follow these instructions:

Place the file IcdToMisc.xslt in the same folder as the ICD file
Open the file IcdToMisc.xslt in NotePad (or your favorite text editor) and copy the line <?xml-stylesheet type="text/xsl" href="IcdToMics.xslt"?>
to the Windows clipboard. Close the file.
Open the ICD or CID or SCD file with a text editor and paste the line just after first line <?xml version="1.0" encoding="UTF-8"?>

The resulting file should now beign with:
<?xml version="1.0" encoding="UTF-8"?>
<?xml-stylesheet type="text/xsl" href="IcdToMics.xslt"?>
...
Save the file with an extension "XML" as the original extension
Open the file with a browser (in Windows, this means right-click on file, select "Open with" and select your browser
Wait a few seconds and view the file with enbeddded links

The editing of SCL files can be automated using the SCL2XML.EXE program
The executable file should be placed within the same folder as the SCL files and the ICD2MICS.XSLT. This program can be run in either interactive mode (double-click the executable) or in batch mode from a command line by specifying the input file as the first parameter.
For example, C:>SCL2XML.EXE myfile.icd
would produce the file myfile.icd.xml

The XSLT file transforms the XML file into an appropriate HTML file which approximates the format of the MICS template.
The file is plain text if you wish to modify it, but be aware that it is VERY complex.

The system can run in a few "modes" selected by XSLT variables defined early in the file: "Create_Only_MICS_Information":
If this is set true then then the output is similar to a standards MICS file. Some edits of the resulting HTML file are needed to convert this file into a MICS:
All objects except Mod, Beh, Health, NamPlt, and Proxy are marked as optional objects. In some cases, objects will need to be marked mandatory.
If no protprietary Logical Nodes or Data Objects exist, empty tables are created. The HTML file has comments indicated the required edits to remove these extraneous tables.
The version number or name of the IED may need to be inserted near the top of the file. Placeholders are obvious.

In the "normal" mode, the user has the option to remove constants (from "Val" elements) to elimiate clutter in the output. When running in MICS mode, this clutter is automatically removed. This "reduced clutter" mode can be selected by changing the variable "Extract_Constants_from_IED_definitions" from
"not($Create_Only_MICS_Information)"
to
"false()"

The system normally runs in a mode where Logical Node definitions are extracted once for each declaration in the IED section. This can create verbose output, but it ensures that unised Logical Node defintions within the DataTypeTemplates section never appear in the output.
As an alternative, the DataTypeTemplates Logical Node definitions can be taken from the DataTypeTemplates section ignoring the IED section declarations. This mode is selected by changing the value of "Expand_LN_definitions_based_upon_IED_instance_information"
from "true()"
to
"false()"

Some SCL files do not declare the firmware version in teh Header-Text element. In this case, the system can place a constant value on the title page. To do this, change the variable "Firmware_version_for_title_page_if_not_in_Header-Text_element" from
"''"
to
"'this is my firmware version for the title page'"
Please be aware that portions of this translator were "borrowed" from Wolfgang Wimmer (ABB Switzerland).

The translator is still in draft form with a list of enhancements listed near the top of the document.

The sample file in this folder "ExampleT1-1-2007.scd.xml" is based upon the example in Annex D.2 of 61850-6 (Edition 2).

If you find this program useful, please include the name of the authors in any derived works:

Bruce Muschlitz (EnerNex)

Wolfgang Wimmer and Christian Frei (ABB Baden)

The most up-to-date version of this file can be found at http://www.ucaiug.org

Table of Contents

Introduction

IEC 61850 Data Model Definitions

IEDs within Nexus 1500+ ICD

Detailed Address Information for IED TEMPLATE (Electro Industries NX1500+)

Access Point=S1, description=

Logical Device list

Logical Device Instances within IED TEMPLATE (Electro Industries NX1500+); AccessPoint: S1(); Server: ():

Proprietary Logical Nodes

Logical Device TEMPLATEMeas (Instance Meas of TEMPLATE): Power Meter

Proprietary Data Objects

Logical Device TEMPLATEMeas (Instance Meas of TEMPLATE): Power Meter

Subscribed GOOSEes for IED TEMPLATE

No GOOSE subscriptions in IEDTEMPLATE

Published GOOSEes for IED TEMPLATE

Logical Node list

Logical Nodes within Logical Device TEMPLATEMeas (Instance Meas of TEMPLATE)

DataSet List

DataSets within Logical Device Instance Meas of AccessPoint S1 of IED TEMPLATE

Logical Node Definitions based upon IED declarations

Logical Nodes within: TEMPLATE, LD inst=Meas

Logical node TEMPLATEMeas/LLN0: type= NX1500P_LLN0, base class= LLN0: Logical Device Description

Logical node TEMPLATEMeas/LPHD1: type= NX1500P_LPHD, base class= LPHD: Physical Device Description

Logical node TEMPLATEMeas/nsMMXU1: type= NX1500P_MMXU, base class= MMXU: Analogue Measurements: Normal speed update rate

Logical node TEMPLATEMeas/hsMFLK1: type= NX1500P_MFLK, base class= MFLK: Analogue Measurements: High speed update rate

Logical node TEMPLATEMeas/lsMHAI1: type= NX1500P_MHAI, base class= MHAI: Analogue Measurements: Low speed update rate

Logical node TEMPLATEMeas/lsMSQI1: type= NX1500P_MSQI, base class= MSQI: Analogue Measurements: Low speed update rate

Logical node TEMPLATEMeas/eneMMTR1: type= NX1500P_MMTR, base class= MMTR: Analogue Measurements: Energy

Logical node TEMPLATEMeas/vrtinGGIO1: type= NX1500P_GGIO_VRTIN, base class= GGIO: Virtual Input for data from subscribed publishers

Logical node TEMPLATEMeas/alarmGGIO1: type= NX1500P_GGIO_ALARM, base class= GGIO: Limit Alarms

Logical node TEMPLATEMeas/intdiGGIO1: type= NX1500P_GGIO_INT, base class= GGIO: Digital Measurements: Built-in High speed digital input

Logical node TEMPLATEMeas/extdiGGIO1: type= NX1500P_GGIO_EXT, base class= GGIO: Digital Measurements: Option board (slot 3) digital input

Logical node TEMPLATEMeas/extdiGGIO2: type= NX1500P_GGIO_EXT, base class= GGIO: Digital Measurements: Option board (slot 4) digital input

Logical node TEMPLATEMeas/ctrtanTCTR1: type= NX1500P_TCTR, base class= TCTR: Configuration: CT ratios - Phase A

Logical node TEMPLATEMeas/ctrtbnTCTR2: type= NX1500P_TCTR, base class= TCTR: Configuration: CT ratios - Phase B

Logical node TEMPLATEMeas/ctrtcnTCTR3: type= NX1500P_TCTR, base class= TCTR: Configuration: CT ratios - Phase C

Logical node TEMPLATEMeas/ctrtnnTCTR4: type= NX1500P_TCTR, base class= TCTR: Configuration: CT ratios - Neutral

Logical node TEMPLATEMeas/ptrtanTVTR1: type= NX1500P_TVTR, base class= TVTR: Configuration: PT ratios - Phase A

Logical node TEMPLATEMeas/ptrtbnTVTR2: type= NX1500P_TVTR, base class= TVTR: Configuration: PT ratios - Phase B

Logical node TEMPLATEMeas/ptrtcnTVTR3: type= NX1500P_TVTR, base class= TVTR: Configuration: PT ratios - Phase C

Logical node TEMPLATEMeas/ptrtaxTVTR4: type= NX1500P_TVTR, base class= TVTR: Configuration: PT ratios - Phase AUX

Common Data Class Definitions

Common DATA class INC of variant NX1500P_INC_Mod:

Common DATA class INS of variant NX1500P_INS_Beh:

Common DATA class INS of variant NX1500P_INS_Health:

Common DATA class LPL of variant NX1500P_LPL_LLN0:

Common DATA class LPL of variant NX1500P_LPL:

Common DATA class LPL of variant NX1500P_LPL_MFLK:

Common DATA class LPL of variant NX1500P_LPL_TCTRTVTR:

Common DATA class DPL of variant NX1500P_DPL:

Common DATA class SPS of variant NX1500P_SPS:

Common DATA class WYE of variant NX1500P_WYE:

Common DATA class WYE of variant NX1500P_WYE_A:

Common DATA class DEL of variant NX1500P_DEL:

Common DATA class SEQ of variant NX1500P_SEQ:

Common DATA class BCR of variant NX1500P_BCR:

Common DATA class MV of variant NX1500P_MV_INTEGER:

Common DATA class MV of variant NX1500P_MV_FLOAT:

Common DATA class CMV of variant NX1500P_CMV:

Common DATA class CMV of variant NX1500P_CMV_SEQ:

Common DATA class MV of variant NX1500P_MV:

Common DATA class ASG of variant NX1500P_ASG:

Common DATA class SAV of variant NX1500P_SV:

Data Attribute Definitions

Attribute structure NX1500P_VECTOR_ANG:

Attribute structure NX1500P_VECTOR:

Attribute structure NX1500P_ANALOGUE_VALUE_INTEGER:

Attribute structure NX1500P_ANALOGUE_VALUE_FLOAT:

Attribute structure NX1500P_ANALOGUE_VALUE_LIM:

Attribute structure NX1500P_RANGE_CONFIG:

Enumeration Definitions

Enumeration definition ModBeh:

Enumeration definition Health:

Enumeration definition SeqT:

Enumeration definition range:

Enumeration definition CtlModels:

Annex A - Notes on Contents

IED List:

Detailed Addressing Information:

Logical Device list: