power system application data dictionary

8/13/2019 Power System Application Data Dictionary

1/76

Power System Application Data Dictionary

Version: 2.1Date: July 1, 1995

• Analog Data

• Application Miscellaneous Data

• Bus Data

• Company Data• Connectivity o!e Data

• "#uivalent AC $eries Device Data

• "#uivalent %n&ection'$(unt Device Data

• )enerator Data

* )enerator Capa+ility Curve Data* )enerator )rouping Data* )enerator eat -ate Curve Data* )enerator utput Allocation Data* )enerator -ating Data

•

)roup Data• %nterc(ange Control Data

• /ine Data

* /ine D.C. Data* /ine Mutual Coupling Data

• /oa! Data

* /oa! 0Voltage Depen!ent Mo!el Data* /oa! 0Voltage an! re#uency Depen!ent Mo!el Data* /oa! 03a+ular De4inition o4 o6er vs Voltage Data* /oa! 0%n!uction Motor Mo!el Data* /oa! 0)enerator Depen!ent Mo!el Data

• 6ners(ip Data• -ating Data

• $(unt 0onsync(ronous Device Data

• $tation Data

• $tatus Data

• $6itc(ing Device Data

• 3ransaction Data

• 3rans4ormer Data

* 3rans4ormer )rouping Data* 3rans4ormer 7in!ing

* 3rans4ormer Manually A!&uste! 3ap Data* 3rans4ormer 7in!ing -ating Data* 3rans4ormer 3C8/ Data* 3rans4ormer Maunally A!&uste! (ase $(i4t Data* 3rans4ormer Automatically A!&uste! (ase $(i4t Data

1


2/76

Analog DataName Description Units Defaults Constraints Data Type

Analog um+er AnalogNumber

8ni#ue num+er i!enti4ying t(eanalog in4ormation

%nteger

Analog $et num+er AnalogSet

um+er i!enti4ying t(e set o4analog values re4erence! +y a!evice

%nteger

Analog ame

AnalogName

ame o4 analog in4ormation 3et

Analog value sourceAnalogSource

$ource o4 analog value6(ere:A application solution3 telemetry pseu!omeasurement$ sc(e!ule

De4aults to;ero

%nteger

3ypeAnalogType

%n!icates 6(at type t(is is,6(ere:VM Voltage Magnitu!e, 4lo6? valuesis typically positve out o4t(e +us section4or series!evices an! into +us 4or s(unt!evices

-eal

2


3/76

Analog Data "Continued#Name Description Units Defaults Constraints Data Type

Analog $ign -eversalAnalogSign$ev

%n!icates t(at t(e sign o4 t(evalue s(oul! +e reverse! +e4ore +eing use! at t(elocation in!icate! !ue toavaila+le value oppositenormal sign convention o4Analog!alue, 6(ere,

+lan@ no reversal* reverse sign

3et

Analog =uality Co!eAnalog%uality

%n!icates #uality o4 value,6(ere:) )oo!B Ba!8A 8navaila+leDV De4ault ValueV verri!e value

De4aultsto )0)oo!

ptional 3et

Analog 8se Co!eAnalogUse

%n!icates utili;ationinstructions, 6(ere:8 8se i4 )oo! orce! 8se 0e.g., as

eternal system reg. voltageor pseu!omeasurement% %n(i+it 8se

ptional 3et

Analog $tan!ar!DeviationAnalogStdDev

%n!icates one stan!ar!assuming >+ell? s(ape! curve0no +ias

Man!atory -eal

Analog "stimate! ValueAnalog&st!alue

umeric value o4 t(eestimate! value

ptional -eal

Analog ormali;e!-esi!ualAnalogNorm$esidual

umeric value o4 estimate!value !ivi!e! +y covariance

ptional -eal

Analog "stimate! Value=uality Co!e

Analog&st%uality

%n!icates #uality o4 estimate!value, 6(ere:

) )oo!$ $uspect3C 3elemetry Correction

ptional %nteger


4/76

Application iscellaneous DataName Description Units Defaults Constraints Data Type

Base MVABase!A

MVA +ase 4or per unit!erivation

MVA 1. Man!atory i4non*p.u.in4ormation0M6, Amps,etc. provi!e!

-eal

Case titleTitle

8ser !e4ine! case title 4or!ata provi!e!

3et

Mo!el Connectivity 3ypeodelConnectivityType

%n!icates 6(at 4orm +usmo!el connectivity !ata is provi!e! in:BM or BusMo!elB$ or Bus$ectionB or Bot(

De4aults toBusMo!el

%4 Bus$ection,s6itc(ing!evice !atamust eist to!e4ine +ussections.

3et

ost*Contingency )eneratorM7 -esponseContingency'en($esponse

%n!icates met(o! o4assigning generatorresponse to contingency,6(ere:- 8se gen. response

4actorsC roportional to genM6 capacity roportional to genM6 outputA% er area interc(angecontrol

Man!atory i4contingencycases !e4ine!

3et


5/76

BusesName Definition Units Default Constraints Data Type

Bus %!enti4ier,BusNumber

/oa!4lo6 integeri!enti4ier,+us num+er

Man!atory must +euni#ue an! E ;ero

%nteger

Bus ame

BusName

/oa!4lo6 c(aracteri!enti4ier,+us name

Man!atory must +euni#ue 6(en use! incom+ination 6it( +ase voltage *

Base)!

3et

Bus +ase voltage,Base)!

Base voltage line*to*line-M$ i4 a.c. /ine*to*groun!i4 !.c.

@V Man!atory must +euni#ue 6(en use! incom+ination 6it( +us name*BusName

-eal

inal Bus %slan!*inalBus+sland

"lectrical islan! in 6(ic( +usis loacate!

%nteger

Bus split in!icator

SplitBus+ndicator

um+er o4 primary +us0BusNumber 4rom 6(ic(t(is +us 6as split.%n4ormational

8se! 6(enodelConnectivity

Type is BM0i.e.,+us mo!elsince no topology

process to resolve +us sections isassume!

%nteger

$tatus

BusStatus

%n!icates 6(et(er t(e +us is inservice or not ut out o4 service %n in service

De4aultsto %n

3et

Voltage Magnitu!esolve!,Bus!magSolve

Magnitu!e o4 +us voltage.$olve! value

per unit De4aultsto unity

Calculate! +y po6er4lo6 or stateestimation solution.3(is attri+ute may +e use! instea! o4BusAnalogSet 4or

solution values.

-eal

(ase Anglesolve!,Bus!angleSolve

(ase angle o4 +us voltage;ero 4or !.c. +us. $olve! value

!egrees !e4aults to;ero

*F G value G FCalculate! +y po6er4lo6 or stateestimation solution.3(is attri+ute may +e use! instea! o4BusAnalogSetNo 4or solution values.

-eal

Bus M7 Mismatc(Bus(ismatc,

et M6 not assigne! togenerator, loa! or s(unt 0orest. M6 on ;ero in&ection +us

M7 -eal

Bus Mvar Mismatc(

Busvarismatc,

et Mvar not assigne! to

generator, loa! or s(unt 0orest. Mvar on ;ero in&ection +us

Mvar -eal

Bus Analog setBusAnalogSetNo

$et num+er o4 analogmeasurement 4or +us voltages0AnalogSet

%nteger

5


6/76

Buses "Continued#Name Description Units Defaults Constraints Data Type

Bus +serva+ilityBus-bserv

%n!ication o4 +us o+serva+ility4rom $tate "stimation, 6(ere:8 8no+serva+le +serva+leB +serva+le Boun!ary

ptional 3et

Bus Base re#uencyBusBase*re.

Bus +ase 4re#uency ;ero 4or!.c. +us

(ert; De4aultsto system

4re#uency

-eal

Bus actual 4re#uencyBusActual*re.

Actual 4re#uency at +us in perunit o4 +us +ase 4re#uency;ero 4or !.c. +us


-eal

)eograp(ic Coor!inateH

BusCoord/

Approimate geograp(iclocation o4 t(e +us along agiven (ori;ontal ais

notspeci4ie!

-eal

)eograp(ic Coor!inateI

BusCoord0

Approimate geograp(iclocation o4 t(e +us along agiven vertical ais

notspeci4ie!

-eal

Bus /ocation

BusLocation

)roup set 0'roupSet num+er

to 6(ic( t(is +us +elongs

ptional i4

BusStationLocation not use! 4or !e4iningstations

%nteger

$tation /ocationBusStationLocation

$tation location0StationNumber 6(ere Busis locate!

ptional. $(oul! not +e use! i4BusLocation use! to!e4ine stations

%nteger

Descriptive 3etBusDescription

3et !escri+ing t(is +us 3et

Bus 3ype Co!e

BusTypeCode

3ype o4 Bus/ or /oa! 0no control

CB or Control3oBan!

0/o6er Voltage Control/imits, 8pper Voltage Control/imit

C3 or Control3o3arget *0Voltage target * 6it(inControlling "lement limits

$ $6ing 0Bus ie!Voltage an! Angle

% %solate! 0Bus electricallyisolate!

De4aultsto / or/oa!

3et

Voltage 3argetBus!oltTarget Voltage magnitu!e setpoint per unit Man!atory i4 controlo+&ective co!e0BusTypeCode isC3 or $

-eal

F


7/76

Buses "Continued#Name Description Units Default

s

Constraints Data Type

/o6er Voltage Control/imitBusLow!oltLim

Voltage control +an! lo6erlimit

per unit Man!atory i4Bus3ypeCo!e isCB

-eal

8pper Voltage Control/imitBusUp!oltLim

Voltage control +an! upperlimit

per unit Man!atory i4Bus3ypeCo!e isCB

-eal

Bus volt limit %D 01...BusLimit+d

-ating num+er assigne! tolimit 0$atingNumber

%nteger

Bus Voltage limit Value01...BusLimit!alue

-ating Value 4or limit o4t(is +us 4or correspon!ing-ating %D

As !e4ine! +y ratingunits

-eal

Control priority co!e

BusControlPriorityCode

C(aracter string containingletters 3 $ an! C or!ere!le4t to rig(t in Controlling"lement priority3 trans4ormer$ $ync(ronous mac(ine nonsync(ronous s(untreactive !evice

C !.c. converter

o lea!ing [email protected] to c(aracterslong

3et

Commissioning DateBusCommission

Date t(e !evice goes intoservice

MM'DD'II

Date

Decommissioning DateBusDecommission

Date t(e !evice goes out o4service

MM'DD'II

Date

Bus 6ners(ipBus-wners,ipSet

6ner o4 t(is +us0-wners,ipSet num+er i4not 1K, set

De4ault

Active attri+ute i41 K o6ners(ipcan +e assume!,ot(er6iseo6ners(ip setnum+er

%nteger

egative $e#uence VoltageBusNegSe.!olt

Magnitu!e o4 negativese#uence voltage

per unit De4aultsto ;ero

-eal

egative $e#uence AngleBusNegSe.Ang

(ase angle o4 negativese#uence voltage at t(is +us

!egrees De4aultsto ;ero

-eal

Lero $e#uence VoltageBus1eroSe.!olt

Magnitu!e o4 ;ero se#uencevoltage

per unit De4aultsto ;ero

-eal

Lero $e#uence AngleBus1eroSe.Ang

(ase angle o4 ;erose#uence voltage at t(is +us

!egrees De4aultsto ;ero

-eal


8/76

Company DataName Description Units Defaults Constraints Data Type

Company um+er CompanyNumber

8ni#ue num+eri!enti4ying Company!ata

Man!atory, i4 t(istype !ata is use! +y$tation0StationCompanyLocation. 8se o4Company o+&ect is

optional i4 )roup+&ect is use! togroup $tation0StationLocation

%nteger

Company ameCompanyName

ame o4 Company ptional 3et

N


9/76

Connectivity NodeName Description Units Default

s

Constraints Data Type

Connectivity o!e um+er ConnectivityNodeNumber

8ni#ue num+er i!enti4yingConnectivity o!e 6(ereterminals o4 e#uipmentconnect t(roug( ;eroimpe!ance connections

Man!atory, i4t(is type !ata isuse! um+ersuse! must +euni#ue 6it(in agiven +us

%nteger

Connectivity o!e ameConnectivityNodeName

ame !escri+ingConnectivity o!e

ptional 3et

Connectivity o!e Analog $etConnectivityNodeAnalogSetNo

$et num+er o4 analog 4orconnectivity no!e voltages0AnalogSet

%nteger

Bus /ocation o4 Connectivity o!eConnectivityNodeBusNumber

Bus um+er0BusNumber at 6(ic(Connectivity o!e islocate!

%nteger

9


10/76

&.uivalent AC Series &lement DataName Description Units Defaults Constraints Data

Type

"#uivalent series element num+er&.uivSeriesNumber

8ni#ue num+er 4or t(ee#uivalent series element

Man!atory %nteger

"#uivalent $eries element ame&.uivSeriesName

ame o4 e#uivalentseries element

Man!atory tet

rom Bus %!enti4ier &.uivSeries*romBusNo

um+er o4 O4romO +us o4t(is line +ranc(

Man!atory%4 rom Bus

ame isommitte!

%nteger

rom Bus ame&.uivSeries*romBusName

ame o4 >4rom? +us o4t(is line +ranc(

Man!atory %4rom Bus%n!enti4ier isommitte!

3et

rom Bus $ection um+er &.uivSeries*romNodeNo

um+er o4 >4rom?connectivity no!econnection o4 t(is line

-e#uire! i4odelConn

ectivityType

e#ual B$ orB

3et

3o Bus %!enti4ier &.uivSeriesToBusNo

um+er o4 OtoO +us o4t(is line

Man!atoryi4

&.uivSeriesToBusName

is omitte!

%nteger

3o Bus ame&.uivSeriesToBusName

ame o4 >to? +us o4 t(isline

Man!atory i4&.uivSeries

ToBusNo isomitte!

3o Bus $ection um+er &.uivSeriesToNodeNo

um+er o4 >to?connectivity no!econnection o4 t(is line

-e#uire! i4odelConn

ectivityType

e#ual B$ orB

3et

Circuit %!enti4ier

&.uivSeriesCircuit

Alp(anumeric circuit

i!enti4ier to !istinguis(among severallines+ranc(es &oining t(esame pair o4 +uses

Man!atory 3et

"#uivalent series element $tatus

&.uivSeriesStatus

%!enti4ies linePs statusin4ormation in $tatusmeasurement !ata viaStatusNumber entry

De4aults tounity

rimary usei4odelConn

ectivityType

BM mo!elis use! 0i.e., +us mo!el6it( notopology

processing

%nteger

"#uivalent $eries element AnalogValues $et

&.uivSeriesAnalogSetNo

%!enti4ies t(e set o4 t(elinePs analog in4ormationin analog measurement!ata via AnalogSet

%nteger

1


11/76

&.uivalent AC Series &lement Data "Continued#Name Description Units Defaults Constraints Data Type

"#uivalent series !evice rom M7lo6 solve!,&.uivSeries*rom(Solve

Magnitu!e o4e#uivalent series!evice M7 4lo6 atrom en!. $olve!value

M7 Calculate! +y po6er 4lo6 orstate estimationsolution. 3(isattri+ute may +euse! instea! o4&.uivSeriesAnalo

gSetNo 4orsolution values.ositive out o4 +us.

-eal

"#uivalent series !evice rom Mvarlo6 solve!,&.uivSeries*romvarSolve

Magnitu!e o4"#uivalent series!evice Mvar 4lo6 atrom en!. $olve!value

Mvar Calculate! +y po6er 4lo6 orstate estimationsolution. 3(isattri+ute may +euse! instea! o4&.uivSeriesAnalo


-eal

"#uivalent series !evice 3o M7lo6 solve!,&.uivSeriesTo(Solve

Magnitu!e o4"#uivalent series!evice M7 4lo6 at3o en!. $olve!value

M7 Calculate! +y po6er 4lo6 orstate estimationsolution. 3(isattri+ute may +euse! instea! o4&.uivSeriesAnalo


-eal

"#uivalent series !evice 3o Mvarlo6 solve!,&.uivSeriesTovarSolve

Magnitu!e o4"#uivalent series!evice Mvar 4lo6 at3o en!. $olve!value

Mvar Calculate! +y po6er 4lo6 orstate estimationsolution. 3(isattri+ute may +euse! instea! o4&.uivSeriesAnalo


-eal

11


12/76

&.uivalent AC Series &lement Data "Continued#

Name Description Units Defaults Constraints Data

Type

Commissioning Date&.uivSeriesCommission

Date t(e !evice goesinto service

MM'DD'II Date

Decommissioning Date&.uivSeriesDecommission

Date t(e !evice goesout o4 service

MM'DD'II Date

"#uivalent $eries -esistance, - &.uivSeriesSection$

$eries resistance o4t(is section

per unit on system +ase MVA an!section +ase voltage

Man!atory -eal

"#uivalent $eries -eactance, H&.uivSeriesSection/

$eries reactance o4t(is section


Man!atory4or a !.c.line +ase4re#uencymust +esystem4re#uency

-eal

$(unt Con!uctance, Q)

&.uivSeriesLineS,untCond

3otal uni4ormly!istri+ute! s(unt

con!uctance o4 t(isseries element

per unit on system +ase MVA an!

section +ase voltage

De4aultsto ;ero

-eal

$(unt $usceptance,QB

&.uivSeriesLineS,untSuscept

3otal uni4ormly!istri+ute! s(untsusceptance o4 t(isseries element


Man!atory4or a !.c.line +ase4re#uencymust +esystem4re#uency

-eal

12


13/76

&.uivalent +n2ection3S,unt &lement DataName Description Units Defaults Constraints Data

Type

"#uivalent in&'s(unt elementnum+er &.uivS,untNumber

8ni#ue num+er 4or t(ee#uivalent in&'s(untelement

Man!atory %nteger

"#uivalent %n&'s(unt element ame&.uivS,untName

ame o4 e#uivalentin&'s(unt element

Man!atory tet

Bus %!enti4ier &.uivS,untBusNo

um+er o4 terminal +us0BusNumber o4 t(is line +ranc(

Man!atory%4 rom Bus ame isommitte!

%nteger

Bus ame&.uivS,untBusName

ame o4 terminal +us o4t(is line +ranc(

Man!atory %4rom Bus%n!enti4ier isomitte!

3et

Bus $ection um+er &.uivS,untConnectivityNo

de

um+er o4 terminal +ussection connection o4 t(isline +ranc(

-e#uire! i4odelConn

ectivityType

not e#ual

BM

3et

Commissioning Date&.uivS,untCommission


MM'DD'II Date

Decommissioning Date&.uivS,untDecommission


MM'DD'II Date

"#uivalent in&'status element$tatus&.uivS,untStatus

%!enti4ies s(untPs statusin4ormation in $tatusmeasurement !ata viaStatusNumber entry

De4aults tounity


ectivityType

BM mo!elis use! 0i.e.,

+us mo!el6it( notopology processing

%nteger

"#uivalent %n&'$(unt elementAnalog Values $et

&.uivS,untAnalogSetNo

%!enti4ies t(e set o4 t(es(untPs analog in4ormationin analog measurement!ata via AnalogSet i4

%nteger

"#uivalent %n&ection'$(unt3ype&.uivS,untType

3ype o4 e#uivalent !evice,6(ere= = %n&ection)B $(unt )BA!mittance

Man!atory %nteger

"#uivalent $(untCon!uctance, Q)

&.uivS,untConductance

3otal uni4ormly !istri+ute!s(unt con!uctance o4 t(isseries element i4 type 1

per unit on system +ase MVA an!section +asevoltage

De4aults to;ero -eal

"#uivalent $(unt$usceptance,QB&.uivS,untSusceptance

3otal uni4ormly !istri+ute!s(unt susceptance o4 t(iss(unt element i4 type 1

per unit on system +ase MVA an!section +asevoltage

-eal

1


14/76

&.uivalent +n2ection3S,unt &lement Data "Continued#

Name Description Units Defaults Constraints Data Type

"#uivalent $(unt M7solve!,&.uivS,unt(Solve

Magnitu!e o4 "#uivalent$(unt M7. $olve! value

M7 ptionalCalculate! +y po6er 4lo6 orstate estimationsolution. 3(isattri+ute may +e

use! instea! o4&.uivS,untAnal

ogSetNo 4orsolution values.ositive out o4Bus.

-eal

"#uivalent $(unt Mvarsolve!,&.uivS,untvarSolve

Magnitu!e o4 "#uivalent$(unt Mvar. $olve! value

Mvar ptionalCalculate! +y po6er 4lo6 orstate estimationsolution. 3(isattri+ute may +euse! instea! o4

&.uivS,untAnalogSetNo 4orsolution values.ositive out o4Bus.

-eal

1


15/76

'eneratorsName Description Units Defaults Constraints Data

Type

)enerator um+er'eneratorNumber

8ni#ue um+errepresenting generator

integer

)enerator ame'eneratorName

8ni#ue ame 4orgenerator

tet

Bus %!enti4ier'eneratorBusNo

num+er o4 +us0BusNumber to 6(ic(

mac(ine is connecte!

man!atory integer

Bus $ection %!enti4ier'eneratorConnectivitiyNode

%n!icates connectivityno!e connection point o4generator0ConnectivityNodeNumber

Man!atory 6(enodelConnectivityType

e#ual B$ or B

integer

Mac(ine %!enti4ier 'eneratorUnitNumber

alp(anumeric i!enti4ierto !istinguis( amongmultiple mac(ines at t(is +us

ptional i4 )enertornum+er not provi!e!must uni#uely i!enti4yt(e mac(ine 6(en use! incon&unction 6it( +usi!enti4ier

3et

)enerator

$tatus'enerator&lectricalStatus

%!enti4ies generatorPs

status in4ormation in$tatus !ata viaStatusNumber entry

rimary use i4

Mo!elConnectivity3ype BM mo!el is use! 0i.e., +us mo!el 6it( notopology processing

%nteger

Mac(ine Base MVA'eneratorBase!A

MVA +ase use! inepressing mac(ineelectrical parameters in per unit 0may +e systemBase!A or mac(ine +ase

MVA man!atory E real

Mac(ine Base Voltage'eneratorBase)!

voltage +ase use! inepressing mac(ineelectrical parameters in

per unit

@V man!atory E real

Committment )roup %!enti4ier'eneratorCommitment'rou

pSet

um+er o4 group'roupSet to 6(ic( t(isunit is assigne! toin!icate t(e unit c(angesstatus on or o44*linetoget(er 6it( t(e ot(ermac(ines assigne! tot(is group

!e4aults to;ero

integer

)enerator M7 output solve!,'enerator(Solve

Magnitu!e o4 generatorM7 output. $olve!value

M7 Calculate! +y po6er 4lo6or state estimationsolution. 3(is attri+utemay +e use! instea! o4

'eneratorAnalogSetNo 4or solution values.

-eal

)enerator Mvar utputsolve!,'eneratorvarSolve

Magnitu!e o4 generatorM7 output. $olve!value

Mvar Calculate! +y po6er 4lo6or state estimationsolution. 3(is attri+utemay +e use! instea! o4'eneratorAnalogSet 4orsolution values.

-eal

15


16/76

'enerators "Continued#Name Description Units Defaults Constra

ints

Data

Type

)enerator Analog Values'eneratorAnalogSetNo

%!enti4ies generatorPs analog in4ormationin Analog !ata via AnalogSet entry

M7 integer

Dispatc( )roup %!enti4ier'eneratorDispatc,'roupSe

t

um+er o4 group 0'roupSet to 6(ic(t(is unit is assigne! to in!icate t(at asingle !ispatc( re#uirement is !etermine!4or t(e group as i4 all mac(ines assigne!

to t(e group are !ispatc(e! as a singleunit

!e4aultsto unity

real

-ate! o6er actor 'enerator$atedPower*act

or

nameplate po6er 4actor real

3ype Co!e or Co!es'eneratorac,ineType

4our*c(aracter co!e !escri+ing mac(inetype1st C(aracter 3ype

) )eneratorM MotorC Con!enser ump')enerator

t(er2n! C(aracter$ $ync(ronous% %n!uction t(err! an! t( C(aracters2 2*pole mac(ine *pole mac(ine$D $alient pole 6it( !amping$ $alient pole * no !ampingC y!rogen coole! con!enserAC Air coole! con!enserC- Cylin!rical rotor$- $#uirrel cage rotor7- 7oun! rotor3 t(er

as!e4ine!un!er!e4inition

3et

Commissioning Date'eneratorCommission

Date t(e !evice goes into service MM'DD'II Date

Decommissioning Date'eneratorDecommission

Date t(e !evice goes out o4 service MM'DD'II Date

)enerator 3ype'eneratorType

%!enti4ier o4 generator type 0Coal, il, uclear, Com+ine! Cycle, etc.

De4ault +lan@

3et

)enerator 6ners(ip $et'enerator-wners,ipSet

6ners(ip set num+er 0-wners,ipSet4rom 6ners(ip !ata 0set implies1K o6ners(ip +y control area o4terminal +us

De4ault

%nteger

)enerator Description'eneratorDescription 3et !escri+ing t(is unit De4ault is +lan@ 3et

1F


17/76

'enerators "Continued#Name Description Units Defaults Constraints Data Type

Control Mo!e'eneratorControlode

control mo!el to +e use!= (ol! = constant atsc(e!ule real po6er output0= mo!eV a!&ust = to (ol!voltage /o+an! or voltagei+an! at controlle! +us

respecting mac(ine control parameters 0V mo!e / a!&ust = to (ol!voltage lo+an! or voltage(ig( +an! at controlle! +us6it( no limits applie! 0Vmo!e$7 case s6ing generator0a!&ust an! =

integer

Controlle! Bus %!enti4ier'eneratorControlledBusNo

um+er o4 +us0BusNumber 6(osevoltage is controlle! +y t(ismac(ine

integer

)enerator Voltage -egulationCon!itions'enerator!oltage$egulation

Conditions

)enerator Voltage control isactivate!: not at all- pre*contingency only re* an! post*contingency post*contingency only

Minimum -eactive o6erutput'eneratorin%-utput

lo6er limit 4or reactive po6er

Mvar !e4aultsto ;ero

less t(anMaimum-eactive o6erutput

real

Maimum -eactive o6erutput

'eneratora4%-utput

upper limit 4or reactive po6er

Mvar !e4aultsto ;ero

greater t(anminimum

reactive po6eroutput

real

Minimum Mac(ine peratingVoltage'eneratorin-perating!olt

mac(ine minimumoperating voltage

per unit onmac(ine +asevoltage

!e4aultsto .5

real

Maimum Mac(ine peratingVoltage'eneratora4-perating!olt

mac(ine maimumoperating voltage

per unit onmac(ine +asevoltage

!e4aultsto 1.5

real

)enerator M7 solve!,'enerator(Solve

Magnitu!e o4 generatoroutput M7. $olve! value

M7 ptionalCalculate! +y po6er 4lo6 orstate estimationsolution. 3(isattri+ute may +e use! instea!o4'eneratorAna

logSetNo 4orsolution values.ositive intoBus

-eal

1


18/76

'enerators "Continued#Name Description Units Defaults Constraints Data

Type

)enerator Mvar solve!,'eneratorvarSolve

Magnitu!e o4 generatoroutput Mvar. $olve!value

Mvar ptionalCalculate! +y po6er 4lo6 orstate estimationsolution. 3(isattri+ute may +e

use! instea! o4'eneratorAnalo

gSetNo 4orsolution values.ositive into Bus.

-eal

-eal o6er articipation actor'enerator(Part*actor

num+er representingt(e relative participation in t(ismac(ine ina!&ustment o4 totalreal po6er 4lo6ing tot(is +us 4rom allmac(ines connecte!

to it

!e4aultsto unity

real

-eactive o6er articipationactor'eneratorvarPart*actor

num+er representingt(e relative participation o4 t(ismac(ine ina!&ustment o4reactive po6er 6it(respect to t(at o4 allot(er mac(inescontrolling voltage att(e same +us

!e4aultsto unity

real

)enerator ost*Contingency-esponse actor'eneratorPostCont$esp*act

ercentage o4generator M7response to system post*contingencyM7 im+alance.Assume value 6ill +enormali;e! 4or eac(islan!, an! !oes notnee! to a!! to 1.

real

/o6 Control o6er /imit M7'eneratorLowControl(

minimum real po6erat 6(ic( mac(ines(oul! +e operate!

M7 man!atory real

/o6 "conomic o6er /imit M7'eneratorLow&con(

minimum real po6erto 6(ic( mac(ines(oul! +e sc(e!ule!

M7 man!atory real

ig( "conomic o6er /imit M7'enerator5ig,&con(

maimum real po6erto 6(ic( mac(ines(oul! +e sc(e!ule!

M7 man!atory real

ig( Control o6er /imit M7'enerator5ig,Control(

maimum real po6erat 6(ic( mac(ines(oul! +e operate!

M7 man!atory real

Commitment riority -an@ 'eneratorCommitmentPriority

commitment priority.1 (ig(est 0i.e. mustrun

!e4aultsto unity

integer

1N


19/76


Type

$tartup Cost'eneratorStartupCost

cost per start t(ousan!so4 !ollars

!e4aults to;ero

real

"44ective Availa+ility actor 'enerator&ffectiveAvail*actor

4actor !e4ining e44ectiveavaila+ility o4 t(e mac(ine

!imensionless pro+a+ility

!e4aults tounity

real

perating an! Maintenance Cost

'enerator-Cost

mont(ly R M cost t(ousan!s

o4 !ollars per mont(

!e4aults to

;ero

real

-eal o6er Dispatc( actor 'enerator(Dispatc,*act

4actor representing t(erelative participation o4 t(emac(ines contri+ution in t(etotal output o4 t(e !ispatc(group to 6(ic( it is assigne!

!e4aults tounity

real

uel Cost'enerator*uelCost

4uel cost S permillion Btu

man!atory real

$c(e!ule! C(arging o6er'eneratorSc,edC,arging(

sc(e!ule! real po6er 4lo64rom mac(ine to +us 6(enc(arging same signconvention as real po6er

output 4or energy storage !ata

M7 man!atory G

real

$c(e!ule! C(arging -eactiveo6er 'eneratorSc,edC,argingvar

sc(e!ule! reactive po6er4lo6 4rom mac(ine to +us6(en c(arging same signconvention as reactive po6eroutput

Mvar man!atory real

Minimum C(arging o6er 'eneratorinC,arging(

magnitu!e o4 smallest real po6er output at 6(ic(mac(ine can +e operate!6(en c(arging

M7 man!atory real

Maimum C(arging o6er 'eneratora4C,arging(

magnitu!e o4 largest real po6er output at 6(ic(mac(ine can +e operate!

6(en c(arging

M7 man!atory real

3ransient -eactance'eneratorTransient/

mac(ine transient reactance per unit on'enerator

Base!A an! voltage +ase

man!atory real

$u+transient -eactance'eneratorSubtransient/

mac(ine su+transientreactance

per unit on'enerator


man!atoryG3ransient-eactance

real

egative $e#uence -eactance'eneratorNegSe./

mac(ine negative se#uencereactance



man!atory real

19


20/76


Type

Lero $e#uence -eactance'enerator1eroSe./

mac(ine ;ero se#uencereactance



man!atory real

Armature -esistance

'eneratorArmature$

mac(ine armature

resistance

per unit on

'eneratorBase!A an! voltage +ase

man!atory real

)roun!ing -esistance* -g'enerator'rounding6$g

;ero se#uence resistanceo4 mac(ine groun!ing!evice



!e4aults to;ero

real

)roun!ing -eactance *Hg'enerator'rounding6/g

;ero se#uence reactanceo4 mac(ine groun!ing!evice


Base!A an! voltage

+ase

!e4aults to;ero

real

2


21/76

'enerator Capability Curve DataName Description Units Defaults Constraint

s

Data

Type

)enerator %!enti4ier 'eneratorNumber

num+er o4 generator man!atory integer

-eal o6er'eneratorCapabilityCurve(

mac(ine real po6er output at rate!con!itions

M7 man!atory real

/o6er -eactive o6er

'eneratorCapabilityLowvar

lo6er mac(ine reactive po6er

output correspon!ing toimme!iately prece!ing value o4 real po6er output

Mvar man!atory real

8pper -eactive o6er 'eneratorCapability5ig,var

upper mac(ine reactive po6eroutput correspon!ing toimme!iately prece!ing value o4 real po6er output

Mvar man!atory real

21


22/76

'enerator 'roupings DataName Description Units Defaults Constraint Data

Type

)enerator %!enti4ier'eneratorNumber


)roup %!enti4ier'enerator'roup

num+er o4 group 0'roupSet to6(ic( assignment is ma!e

man!atory integer

er 8nit Assignment to )roup'eneratorAssignmentPU

per unit assignment to group per unit !e4aultsto unity

real

22


23/76

'enerator 5eat $ate Curve DataName Description Units Defaults Constraint Data

Type



o6er utput'enerator5$(

real po6er output M7 man!atory real

eat %nput -ate'enerator5$Btu

total (eat input rate correspon!ingto po6er output value

millionBtu per

(our

man!atory real

2


24/76

'enerator -utput Allocation DataName Description Units Defaults Constraints Data

Type

)enerator %!enti4ier 'eneratorNumber


)roup %!enti4ier'enerator-utputAllocation'rp

i!enti4ier o4 group 0'roupSet to6(ic( 4ollo6ing allocation o4output is ma!e

man!atory integer

Allocation 3ype

'enerator-utputAllocationType

!e4ines met(o! o4 allocating t(e

output o4 t(is mac(ine to t(egroup speci4ie! C all real po6er output atallocation value 0an! t(e sameconstant amount 6(en t(e outputis greater allocate! to group C= all reactive po6er output atallocation value 0an! t(e sameconstant amount 6(en t(e outputis greater allocate! to group

allocation value is 4ractiono4 remaining actual real po6eroutput allocate! to group a4ter allC allocations are ma!e

= allocation value is 4ractiono4 remaining actual reactive po6er output allocate! to groupa4ter all C= allocations are ma!e

man!atory 3et

Allocation Value'enerator-utputAllocation!alue

Allocation Value real

2


25/76

'enerator $ating DataName Description Units Defaults Constraints Data

Type


num+er o4 generator +us to 6(ic(mac(ine is connecte!

man!atory integer

-ating %!enti4ier 'enerator$atingNumber

rating num+er $atingNumber man!atory integer

-ating Value'enerator$ating!alue

value o4 rating 4or t(is mac(ine man!atory real

25


26/76

'roupsName Definition Units Default Constraints Data Type

)roup $et ame'roupSetName

alp(anumeric nameo4 group 0i.e., propername * CompanyHIL, etc.

man!atorymust +euni#ue

3et

)roup $et %!enti4ier'roupSet

$et num+er o4 group man!atorymust +e

uni#ue

integer

$u+)roups Containe! in $et01,...,'roupSetSubgroups

um+ersrepresenting ot(ergroups 6(ic( ma@eup t(e su+groups o4t(is set 0i.e., setnum+ers o4 District"A$3, District7"$3, an! DistrictC"3-A/. orlo6est level 0i.e., nosu+groups * $tation12 t(is is

on;ero 4orgroupsconsisting o4su+groups

integer

Descriptive 3et'roupSetDescription

tet !escri+ing t(isgroup 0i.e., Company,Area, District, /ossLone, etc.

3et

/o6 level o+&ect'roupSetLowLevel-b2

%4'roupSetSubgroups

, t(en enter o+&ectname o4 lo6 levelo+&ect 0Bus, /ine,)enerator, H4ormer,$(unt, /oa!,$tation,Company,etc. 4rom +asico+&ects o4 !ictionary

$(oul! +e nulli4'roupSetSub

groups isnon*;ero.

3et

/o6 /evel +&ect um+er 'roupSetLowLevel-b2Number

um+er0BusNumber7LineNumber7

'eneratorNumber7

/formerNumber7

S,untNumber7

LoadNumber,StationNumber,CompanyNumber,etc o4 lo6 levelo+&ect type i!enti4ie!in'roupSetLowLevel

-b2

$(oul! +e nulli4'roupSetSub

groups isnon*;ero.

%nteger

2F


27/76

+nterc,ange ControlName Definition Units Defaults Constraints Data

Type

%nterc(ange )roup $et %!enti4ier +nterc,'roupSetNumber

$et num+er o4 group0'roupSet su+&ect tonet interc(ange control

man!atory integer

Control lag+nterc,'roupControlode

speci4ies 6(et(ergeneration in group is to +e a!&uste! to control net

interc(ange o44 control on control,

- re*contingencyonly

n control, re*an! ost*contingency

ost*contingencyonly

!e4aults ton

integer

$c(e!ule! et -eal o6er

%nterc(ange+nterc,'roupSc,edNet(

sc(e!ule! real po6er

4lo6 across +oun!ary o4group positive 4oreport negative 4orimport

M7 man!atory i4

3ransactionsnot !e4ine!,ot(er6iseoptional an!must total tonet o43ransactions4or+nterc,ange

'roupSetN

umber

real

%nterc(ange Control 3olerance+nterc,'roupControlTol

tolerance a+ove an! +elo6 sc(e!ule 6it(in6(ic( net interc(angemay lie

M7 man!atory real

Actual et -eal o6er %nterc(ange+nterc,'roupActNet(

actual value o4 net real po6er interc(ange 4ort(is group positive 4oreport negative 4orimport

M7 real

Actual et -eactive o6er%nterc(ange+nterc,'roupActNetvar

actual value o4 netreactive po6erinterc(ange 4or t(isgroup positive 4oreport o4 in!uctivereactive po6er

Mvar real

Controlling Mac(ine %!enti4ier +nterc,'roupControl'enNumber

i!enti4ier o4 controllingmac(ine,'eneratorNumber

man!atoryunlesscontrollinggroup is present

3et

Descriptive 3et+nterc,'roupDescription

tet !escri+ing t(isinterc(ange control area

3et

2


28/76

+nterc,ange Control "Continued#Name Description Units Defaults Constraints Data

Type

)roup %!enti4ier +nterc,'roup'enControl'rp

um+er 0'roupSeto4 group 6(osemac(ines participatein control

man!atorymust eist i4controllingmac(ine !oesnot

integer

Control $tatus

+nterc,'roup'enControl'rpode

control status o4 t(is

group o44 control on control

!e4aults to

;ero

integer

Control riority+nterc,'roup'enControl'rpPrior

priority o4 t(is groupin controlling netinterc(ange 1 (ig(est

!e4aults tounity

integer

Control articipation actor +nterc,'roup'enControlPart*act

per unit participationo4 t(is group incontrolling netinterc(ange o4 t(isinterc(ange controlarea

!e4aults tounity

real

2N


29/76

LinesName Definitions Units Defaults Constraints Data

Type

/ine um+er LineNumber

8ni#ue /inerepresenting t(e line

%nteger

rom Bus %!enti4ier Line*romBusNo

um+er o4 O4romO +us o4t(is line 0BusNumber

Man!atory i4 rom Bus ame0Line*romBusName isomitte!

%nteger

rom Bus ameLine*romBusName

ame o4 >4rom? +us o4t(is line 0BusName

Man!atory i4 rom Bus%n!enti4ier0Line*romBusNo# isomitte!

3et

rom Bus $ection um+er Line*romNodeNo

um+er o4 >4rom?Connectivity no!e0ConnectivityNodeNumberconnection o4 t(is line +ranc(

-e#uire! i4odelConnectivityType not e#ual BM

%nteger

3o Bus %!enti4ier LineToBusNo

um+er o4 OtoO +us o4t(is line

Man!atory %4 3o Bus ame 0LineToBusNameis omitte!

%nteger

3o Bus ameLineToBusName

ame o4 >to? +us o4 t(isline

Man!atory i4 3o Bus%n!enti4ier0LineToBusNo isomitte!

3o Bus $ection um+er LineToNodeNo

um+er o4 >to?Connectivity no!e0ConnectivityNodeNumberconnection o4 t(is line +ranc(

-e#uire! i4odelConnectivityType not e#ual BM

%nteger

Circuit %!enti4ier

LineCircuit

Alp(anumeric circuiti!enti4ier to !istinguis(among several lines

&oining t(e same pair o4 +uses

Man!atory 3et

$ection %!enti4ier

LineSection+d

um+er in!icating position o4 t(is linesection in t(e line

De4aultsto ;ero

$ections must +enum+ere! in ascen!ingor!er +eginning 6it(section a!&acent to O4romO +us Connectivity o!enum+er.

%nteger

Commissioning DateLineCommission


MM'DD'II

Date

Decommissioning DateLineDecommission

Date t(e !evice goes outo4 service

MM'DD'II

Date

/ine Analog Values $et

LineAnalogSetNo

%!enti4ies t(e set o4 t(e

linePs analog in4ormationin analog measurement!ata via AnalogSet

%nteger

/ine $tatus

LineStatus

%!enti4ies linePs statusin4ormation in $tatusmeasurement !ata viaStatusNumber entry

rimary use i4odelConnectivityType

BM mo!el is use! 0i.e., +us mo!el 6it( notopology processing

%nteger

29


30/76

Lines "Continued#Name Description Units Defaults Constraints Data Type

$ection Base @V

LineSectionBase)!

Base voltage use!in calculatingsection impe!ancesline*to*line -M$ i4a.c. /ine*to*groun!i4 !.c.

@V De4aults to +asevoltage*Base @Vo4 4rom +us

-eal

$ection $eries

-esistance,-

LineSection$

$eries resistance o4

t(is section

per unit on

system +ase MVAan! section +asevoltage

Man!atory -eal

$ection $eries-eactance,HLineSection/

$eries reactance o4t(is section

per unit onsystem +ase MVAan! section +asevoltage

Man!atory 4or a !.c. line +ase4re#uency must +e system4re#uency

-eal

$(unt Con!uctanceQ)

LineS,untConductance

3otal uni4ormly!istri+ute! s(unt

con!uctance o4 t(issection

per unit onsystem

+ase MVAan! section +asevoltage

De4aults to;ero

-eal

$(unt $usceptance,QB

LineS,untSusceptance

3otal uni4ormly!istri+ute! s(untsusceptance o4 t(issection

per unit onsystem +ase MVAan! section +asevoltage

Man!atory 4or a !.c. line +ase4re#uency must +e system4re#uency

-eal

/ine rom M7 lo6solve!,Line*rom(Solve

Magnitu!e o4 /ineM7 4lo6 at romen!. $olve! value

M6 Calculate! +y po6er 4lo6 orstate estimation solution. 3(isattri+ute may +e use! instea!

o4 LineAnalogSetNo4orsolution values. ositive out o4 +us.

-eal

/ine rom Mvar lo6solve!,Line*romvarSolve

Magnitu!e o4 /ineMvar 4lo6 at romen!. $olve! value

Mvar Calculate! +y po6er 4lo6 orstate estimation solution. 3(isattri+ute may +e use! instea!o4 LineAnalogSetNo 4orsolution values. ositive out o4 +us.

-eal

/ine 3o M7 lo6solve!,LineTo(Solve

Magnitu!e o4 /ineM7 4lo6 at 3o en!.$olve! value

M7 Calculate! +y po6er 4lo6 orstate estimation solution. 3(isattri+ute may +e use! instea!o4 LineAnalogSetNo 4orsolution values. ositive out o4 +us.

-eal

/ine 3o Mvar lo6solve!,LineTovarSolve

Magnitu!e o4 /ineMvar 4lo6 at 3oen!. $olve! value

Mvar Calculate! +y po6er 4lo6 orstate estimation solution. 3(isattri+ute may +e use! instea!o4 LineAnalogSetNo 4orsolution values. ositive out o4 +us.

-eal


31/76

Lines "Continued#Name Description Units Defaults Constraints Data

Type

/ine 6ners(ipLine-wners,ipSet

6ner o4 t(is section o4line 0-wners,ipSet num+er i4 not 1K, set

De4ault

Active attri+ute i4 1 Ko6ners(ip can +eassume!, ot(er6iseo6ners(ip set num+er

%nteger

/ine ameLineName

Alp(anumeric line name De4aultsto +lan@

3et

3ype %!enti4ier LineType+d

Alp(anumerici!enti4ication o4e#uipment type 0e.g./%" CAAC%3-, 3%",etc.

De4aultsto +lan@s

ptional 3et

/ine /engt(LineLengt,

/engt( o4 section @ilometers -eal

Descriptive 3etLineDescription

3et !escri+ing t(issection 0e.g. s(ares rig(to4 6ay, etc.

3et

/ine rom M7 solve!,Line*rom(Solve

Magnitu!e o4 line 4lo6M7 at rom +us. $olve!value

M7 ptional Calculate! +y po6er 4lo6 or stateestimation solution. 3(is

attri+ute may +e use!instea! o4LineAnalogSetNo 4orsolution values.

-eal

/ine rom Mvar solve!,Line*romvarSolve

Magnitu!e o4 line 4lo6Mvar at 4rom +us. $olve!value

Mvar ptional Calculate! +y po6er 4lo6 or stateestimation solution. 3(isattri+ute may +e use!instea! o4LineAnalogSetNo 4orsolution values.

-eal

/ine 3o M7 solve!,LineTo(Solve

Magnitu!e o4 line 4lo6M7 at 3o Bus. $olve!

value

M7 ptional Calculate! +y po6er 4lo6 or state

estimation solution. 3(isattri+ute may +e use!instea! o4LineAnalogSetNo 4orsolution values.

-eal

/ine 3o Mvar solve!,LineTovarSolve

Magnitu!e o4 line 4lo6Mvar at 3o Bus. $olve!value

Mvar ptional Calculate! +y po6er 4lo6 or stateestimation solution. 3(isattri+ute may +e use!instea! o4LineAnalogSetNo 4orsolution values.

-eal

rom Bus Con!uctance

Line*romLumpedCond

Con!uctance o4 lumpe!

s(unt element connecte!at O4romO +us en! o4section

per unit on

system +ase MVAan! section +asevoltage

De4aults

to ;ero

-eal

1


32/76


Type

rom Bus $usceptance

Line*romLumpedSuscept

$usceptance o4 lumpe!s(unt element connecte!at O4romO +us en! o4section

per unit onsystem +aseMVA an!section +asevoltage

Man!atory 4or a !.c.line +ase 4re#uencymust +e system4re#uency

-eal

3o Bus Con!uctance

LineToLumpedCond

Con!uctance o4 lumpe!

s(unt element connecte!at OtoO +us en! o4 section

per unit on

system +aseMVA an!section +asevoltage

De4aults

to ;ero

-eal

3o Bus $usceptance

LineToLumpedSucept

$usceptance o4 lumpe!s(unt element connecte!at OtoO +us en! o4 section


Man!atory 4or a !.c.line +ase 4re#uencymust +e system4re#uency

-eal

Control Mo!e

LineBypassControlode

Basis 4or +ypassing t(issection C no control) output o4 generator

/ 4lo6 on line3 4lo6 on trans4ormer6in!ing

De4aultsto C

3et

Control riorityLineBypassPriority

3(e priority 4or se#uential +ypass control in a line1 (ig(est

De4aultsto unity

%nteger

Controlle! "lementLineBypassonitored&leme

ntNumber

um+er o4 element 4romLineNumber,'eneratorNumber, or/formerNumber 0+ase!onLineBypassControlod

e !evice i!enti4ie! 6(ic(

is monitore!

Man!atory i4LineBypassControl

ode is not C.

%nteger

/o6er M7 lo6 4or BypassControlLineLower(Control*low

3(e lo6er limit o4 M7 +an! 4or +ypass control o4t(is section measure! asoutput o4 generator as4lo6 4rom controlle! +us1 o4 +ranc( or as 4lo6 intot(e 6in!ing i!enti4ie! 4ortrans4ormer

M7 Man!atory -eal

8pper M7 lo6 4or BypassControlLineUpper(Control*low

3(e upper limit o4 M7 +an! 4or +ypass control o4t(is section measure! asoutput o4 generator as4lo6 4rom controlle! +us1 o4 +ranc( or as 4lo6 intot(e 6in!ing i!enti4ie! 4ort(e trans4ormer

M7 Man!atory -eal

2


33/76

Lines "Continued#


Type

Bypass Control Action

LineBypassAction

De4ines +ypass controlaction: C/ +ypass !eviceclose! i4 monitore! 4lo6is insi!e +an! !e4ine! +y

/o6er M7 4lo6 an!8pper M7 4lo6 an!opene! i4 outsi!e +an!. C/ +ypass !eviceopene! i4 monitore!4lo6 is insi!e +an!!e4ine! +y /o6er M74lo6 an! 8pper M74lo6 an! close! i4outsi!e +an!.

Man!atory %nteger

$ection Lero $e#uence$eries -esistanceLineSelf1eroSe.$

$el4 ;ero se#uenceresistance o4 t(is section

per unit onsystem +aseMVA an!

section +asevoltage

Man!atory -eal

$ection Lero $e#uence$eries -eactanceLineSelf1eroSe./

$el4 ;ero se#uencereactance o4 t(is section


Man!atory -eal

$ection Lero $e#uence $(untCon!uctanceLine1eroSe.Conductance

3otal uni4ormly!istri+ute! s(unt ;erose#uence con!uctance o4t(is section


De4aultsto ;ero

-eal

$ection Lero $e#uence $(unt

$usceptanceLine1eroSe.Susceptance

3otal uni4ormly

!istri+ute! s(unt ;erose#uence susceptance o4t(is section

per unit on


De4aults

to ;ero

-eal

rom Bus Lero $e#uencecon!uctanceLine*rom1eroConductance

Lero se#uencecon!uctance o4 lumpe!s(unt element connecte!at O4romO +us en! o4section


De4aultsto ;ero

-eal

rom Bus Lero $e#uence$usceptanceLine*rom1eroSusceptance

Lero se#uencesusceptance o4 lumpe!s(unt element connecte!at O4romO +us en! o4section


De4aultsto ;ero

-eal


34/76


Type

3o Bus Lero $e#uenceCon!uctanceLineTo1eroConductance

Lero se#uencecon!uctance o4 lumpe!s(unt element connecte!at OtoO +us en! o4 section


De4aultsto ;ero

-eal

3o +us Lero $e#uence

$usceptanceLineTo1eroSusceptance

Lero se#uence

susceptance o4 lumpe!s(unt element connecte!at OtoO +us en! o4 section

per unit on


De4aults

to ;ero

-eal

rom Bus )roun!ing-esistance, -g

Line*romBus6$g

Lero se#uence resistanceo4 !evice groun!inglumpe! s(unt elementsat O4romO +us en! o4section

per unit onsame +asesas lumpe!s(untelement

De4aultsto ;ero

-eal

rom Bus )roun!ing-eactance, Hg

Line*romBus6/g

Lero se#uence reactanceo4 !evice groun!inglumpe! s(unt elementsat O4romO +us en! o4

section

per unit onsame +asesas lumpe!s(unt

element

De4aultsto ;ero

-eal

3o Bus )roun!ing-esistance ,-g

LineToBus6$g

Lero se#uence resistanceo4 !evice groun!inglumpe! s(unt elementsat OtoO +us en! o4 section


De4aultsto ;ero

-eal

3o Bus )roun!ing-eactance, Hg

LineToBus6/g

Lero se#uence reactanceo4 !evice groun!inglumpe! s(unt element atOtoO +us en! o4 section


De4aultsto ;ero

-eal

/ine )roup %!enti4ier01..Line'roup

um+er o4 a group0'roupSet to 6(ic(

t(is line section isassigne!

Man!atory %nteger

er 8nit Assignment to)roup01..Line'roupPUAssign

er unit assignment o4t(is section to t(is group


-eal

er 8nit /osses Assigne! to)roup01..Line'roupPULoss

per unit o4 losses o4 t(isline section assigne! tot(is group


-eal

-ating %!enti4ier 01..Line$ate+d

-ating um+er 4or t(is-ating 0$atingNumber

Man!atory %nteger

-ating Value 01..Line$ate!alue

-ating value 4or t(erating o4 t(is +ranc(

As !e4in!e! +y ratingunits

Man!atory, i4Line$ate+d not or +lan@

-eal


35/76

Line D8C8 DataName Description Units Defaults Constraints Data Type

/ine !ata num+erDCLineNumber

um+er o4 line0LineNumber6it( correspon!ingin4ormation 4or t(isDC in4o

-e#uire! %nteger

A.C. Bus %!enti4ier DCLineACBusNumber

num+er o4 convertera.c. terminal +us

0BusNumber

man!atory %nteger

Converter D.C. ositive Bus%!enti4ier DCLineConverterPosBusNo

num+er o4 converter!.c. positive +us;ero i4 groun!0BusNumber

man!atory or ;ero %nteger

Converter D.C. egative Bus%!enti4ier DCLineConverterNegBusNo

num+er o4 converter!.c. negative +us;ero i4 groun!0BusNumber

Man!atory or ;ero %nteger

Converter %!enti4ier DCLineConverterName

alp(anumeric nameo4 t(is converter

man!atory must +e uni#ue amongall converters

3et

AC -eal o6er

DCLinewAC

Actual real po6er

4lo6ing 4rom a c +us to t(e converter positive 4or recti4iernegative 4or inverter

M7 Man!atory -eal

A.C. -eactive o6er DCLinevarAC

actual reactive po6er 4lo6ing 4roma c +us to converterin!uctive 4lo6 toconverter is positive

Mvar Man!atory -eal

D.C. VoltageDCLine!oltageDC

actual !.c. voltage +et6een converter positive an!negative +uses

@V Man!atory -eal

D.C. CurrentDCLineCurrentDC

actual !.c. current4lo6ing 6it(in t(econverter t(e currentis positive 6(en4lo6ing 4rom positiive +us tonegative +us

amps Man!atory -eal

iring AngleDCLine*iringAngle

actual !elay angle0alp(a i4 a recti4ieractual a!vanceangle 0gamma i4 aninverter

!egrees Man!atoryGvalueG9

-eal

5


36/76

Line D8C8 Data "Continued#


Type

perating $tateDCLine-peratingState

actual operatingstate o4 converter;ero in!icates t(atstate is to +ein4erre! 4rom AC

-eal o6er AC-eactive o6er DCVoltage DC Currentiring Angle an! ominal Minimumiring Angle

De4aultsto

any non ;ero %nteger

ominal Minimum iring AngleDCLineNominalin*iringAng

nominal minimumalp(a or gammaangle

!egrees man!atory G value G 9

real

Commutating -esistanceDCLineCommutaing$esistance

e44ectivecommutatingresistance ;ero i4value is to +e

!etermine! +yapplication program

o(ms Man!atory -eal

Commutating -eactanceDCLineCommutating$eactance

e44ectivecommutatingreactance ;ero i4value is to +e!etermine! +yapplication program

o(ms at a.c. +us +ase 4re#uency

Man!atory -eal

Converter Voltage DropDCLineConverter!oltDrop

4or6ar! !.c. voltage!rop o4 t(isconverter

@V De4aultsto ;ero

-eal

um+er o4 Bri!gesDCLineNoBridges

um+er o4e#uivalent si pulse

+ri!ges connecte! inseries in t(isconverter

Man!atory %nteger

D.C. acility ameDCLine*acilityName

alp(anumeric nameo4 !c 4acilityincorporating t(isconverter

De4aultsto +lan@s

3et

F


37/76

Line D8C8 Data "Continued#Name Description Units Defaults Constraints Data

Type

Converter )roup %!enti4ier 01...nDCLineConverter'roup+d

num+er o4 a groupto 6(ic( t(isconverter isassigne!

Man!atory %nteger

er 8nit Assignment to )roup

01...nDCLine'roupPUAssign

per unit assignment

o4 t(is converter tot(is group

per unit De4aults

to unity

-eal

er 8nit /osses Assigne! to )roup01...nDCLine'roupPULossAssign

per unit o4 losses o4t(is converterassigne! to t(isgroup

per unit !e4aults tounity

-eal

Descriptive 3etDCLineConverterDescription

tet !escri+ing t(isconverter 0e.g.mo!els +ipole 12 pulse converter

3et

-ating %!enti4ier 01...nDCLine$ating+d

rating num+er 4ort(is rating0$atingNumber

Man!atory %nteger

-ating Value 01...nDCLine$ating!alue

rating value 4or t(israting an! t(isconverter

as !e4ine! +y rating Man!atory -eal

$tate um+er DCLine-peratingStateNumber

perating statenum+er

Man!atory %nteger

$tate Descriptive 3etDCLineStateDescription

tet !escri+ing t(isconverter state

3et

Control +&ective Co!eDCLineControl-b2Code

type o4 controlo+&ectiveAM current0amps i4 !c per uniti4 acVMA) voltage

magnitu!e 0@V i4 !c per unit i4 acVA) voltageangle 0!egreesM7 real po6er0M7MVA- reactive po6er 0MVA-MVA total po6er0MVA%-" 4iring angle0!egrees-"= 4re#uency

0(ert;

Man!atory %nteger

Control riorityDCLineControlPriority

priority o4 t(iscontrol o+&ectiverelative to ot(ersspeci4ie! 4or t(isoperating state 1 (ig(est

De4aultsto unity

%nteger


38/76

Line D8C8 Data "Continued#Name Description Units Defaults Constraints Data

Type

Control Mo!eDCLineControlode

type o4 control mo!e " no control$"33 control tosetpointBAD control to +an!

Man!atory %nteger

Control $etpointDCLineControlSetPoint

setpoint value o4controlle! #uantity

as in!icate! 4orcontrol o+&ectiveco!e

Man!atoryis controlmo!e is$"33

-eal

Control Ban! /o6er /imitDCLineControlBandLowLim

control +an! lo6erlimit


man!atory i4controlmo!e isBADControl +an! lo6er/imit GControlBan! 8pper

/imit

-eal

Control Ban! 8pper /imitDCLineControlBand5ig,Lim

control +an! upperlimit


man!atory i4controlmo!e isBADControl +an! lo6er/imit GControlBan! 8pper/imit

-eal

Minimum iring AngleDCLineControlin*ireAng

minimum 4iringangle applica+le to

t(is control action

!egrees man!atory0Minimum

iring AngleG ominaliring AngleG Maimumiring Angle

-eal

Maimum iring AngleDCLineControla4*ireAng

maimum 4iringangle applica+le tot(is control action

!egrees man!atory0Minimumiring AngleG ominaliring AngleG Maimumiring Angle

-eal

N


39/76

Line D8C8 Data "Continued#


Type

Monitore! "lement 3ype Co!eDCLineonitor&lementType

3ype o4 elementcontrolle! +y t(isconverterB8$ +us/%" /ine

H-M"- trans4ormer 6in!ing)" generator orrotating mac(ine$83 nonsync(ronouss(unt reactive!eviceACCV converter 0a.c. si!eDCCV converter 0!.c. si!e

Man!atory %nteger

Monitore! "lement %!enti4ier

DCLineonitor&lementNo

um+er o4 t(e

element 4romDCLineonitor&lementType 6(ic(t(e #uantity ismonitore! 4or t(econtrol o+&ectiveco!e

Man!atory

is Monitore!element typeco!e is not 1

3et

Controlling "lement 3ypeDCLineControl&lementType

type o4 elementcontrolling t(isconverterCV converterH-M"- trans4ormer 6in!ing)" generator orrotating mac(ine$83 nonsync(ronouss(unt reactive!evice

Man!atory %nteger

Controlling "lement %!enti4ier DCLineControl&lementNo

um+er o4 t(eelement 4rom DCLineControl&le

mentType t(at ismanipulate! tocontrol t(emonitore! elementto ac(ieve t(e

control o+&ectiveco!e

Man!atory 3et

Compoun!ing -esistanceDCLineControlCompounding$

D.C. compoun!ingresistance use! int(is control action

o(ms !e4aults to;ero

-eal

9


40/76

Line utual Coupling DataName Definitions Units Default Constraints Data

Type

irst /ine utualLineA

irst line section0LineNumberassociate! 6it( mutualcoupling !ata

man!atory integer

irst /ine utualLineB

$econ! line section0LineNumber

associate! 6it( mutualcoupling !ata

man!atory integer

Lero $e#uence MutualCoupling -esistanceutual1eroSe.$

;ero se#uence mutualcoupling resistance +et6een t(e 4irst an!secon! line sectionsi!enti4ie!

per unit onsystem +aseMVA an! +asevoltages o4couple! +ranc(sections

man!atory t(e polarityo4 t(e mutual couplingis !etermine! +y t(eor!ering o4 t(e +usnum+ers 4rom +us to +us 4or t(e +ranc( an!4rom +us couple! to +uscouple! 3(e O!otOconvention applies 6it(t(e O4romO +usesspeci4ying t(e t6o

O!otO en!s o4 t(ecouple! +ranc(es.

real

Lero $e#uence MutualCoupling -eactanceutual1eroSe./

;ero se#uence mutualcoupling reactance +et6een 4irst an! secon!line sections i!enti4ie!

per unit onsystem +aseMVA an! +asevoltages o4couple! +ranc(sections

man!atory t(e polarityo4 t(e mutual couplingis !etermine! +y t(eor!ering o4 t(e +usnum+ers 4rom +us to +us 4or t(e +ranc( an!4rom +us couple! to +uscouple!. 3(e O!otOconvention applies 6it(t(e O4romO +usesspeci4ying t(e t6oO!otO en!s o4 t(ecouple! +ranc(es.

real

Lero $e#uence MutualCoupling Con!uctanceutual1eroSe.'

;ero se#uence mutualtotal uni4ormly!istri+ute! s(untcon!uctance +et6eent(is +ranc( section an!t(e +ranc( section!eclare!

per unit onsystem +aseMVA an! +asevoltages o4t(e couple! +ranc(sections

!e4aultsto ;ero

real

Lero $e#uence MutualCoupling $usceptanceutual1eroSe.B

;ero se#uence mutualtotal uni4ormly!istri+ute! s(untsusceptance +et6een t(is +ranc( section an! t(e +ranc( section !eclare!

per unit onsystem +aseMVA an! +asevoltages o4t(e couple! +ranc(sections

!e4aultsto ;ero

real


41/76

Load DataName Description Units Defaults Constraints Data

Type

/oa! um+er LoadNumber

8ni#ue um+er representingloa!

integer

/oa! ameLoadName

8ni#ue ame 4or loa! tet

Bus %!enti4ier

LoadBusNo

num+er o4 +us to 6(ic( loa!

is connecte!

man!atory integer

Bus $ection %!enti4ier LoadConnectivityNode

%n!icates connectivity no!econnection point o4 generator0ConnectivityNodeNumber

use! 6(enodelConn

ectivityType

not e#ualBM

integer

/oa! %!enti4ier Load+D

Alp(anumeric i!enti4ier to!istinguis( among multipleloa!s connecte! at t(is +us

Man!atory 3et

/oa! $tatusLoadStatus

%!enti4ies loa!Ps statusin4ormation in $tatus !ata viaStatusNumber

!e4aults tounity


ectivityType

BM mo!elis use! 0i.e., +us mo!el6it( notopology processing

%nteger

/oa! Analog ValuesLoadAnalogSetNo

%!enti4ies loa!Ps analogin4ormation in Analog !atavia AnalogSet entry

integer

/oa! Mo!el 3ypeLoadodelType

%n!icator o4 loa! mo!el to +euse!C$3 constant M7 an!MVA-

V8C voltage !epen!ent04unction RV 4re#uency an!voltage !epen!ent

)" )enerator output!epen!ent

V3AB voltage !epen!ent0ta+ular

%DM3 in!uction motor

De4aults toC$3

3et

/oa! Mo!el um+er LoadodelNumber

Mo!el um+ercorrespon!ing to mo!el type0LoadodelType

Man!atory i4Loadodel

Type notC$3

%nteger

/oa! 3ype %!enti4ier LoadConformingType

%!enti4ier o4 loa! type0C-M%) or C-M%)

De4aults toC- M%)

3et

1


42/76

Load Data "Continued#Name Description Units Defaults Constraints Data Type

/oa!6ners(ip $etLoad-wners,ipSet

6ners(ip set0-wners,ipSet num+er4rom 6ners(ip !ata 0set implies 1K o6ners(ip +ycontrol area o4 terminal +us

De4ault

%nteger

Descriptive 3etLoadDescription

3et !escri+ing t(is loa! 0e.g.-"$%D"3%A/,

CMM"-C%A/, etc.

3et

Minimum VoltageLoadodelin!oltage

Minimum voltage 4or 6(ic(t(is loa! mo!el is vali!

per unit De4aults to;ero

MinimumVoltage GMaimumVoltage

-eal

Maimum VoltageLoadodela4!oltage

Maimum voltage 4or 6(ic(t(is loa! mo!el is vali!

per unit De4aults toin4inity0nomaimum

MinimumVoltage TMaimumVoltage

-eal

Alternate Bus %n!enti4ier LoadAltBusNo

%!enti4ier o4 t(e +us0BusNumber to 6(ic( t(isloa! is to +e connecte! i4 t(eloa! 4lo6 +us i!enti4ier is

!eengeri;e!

De4aults to;ero

%nteger

Minimum -eal o6er Loadin(

Minimum real po6er t(at can +e consume! un!er anycon!ition

M7 De4aults tominusin4inity0noMinimum

Minimum-eal o6erG Maimum-eal o6er

-eal

Maimum -eal o6er Loada4(

Maimum real po6er t(atcan +e consume! un!er anycon!ition

M7 De4aults toin4inity0nomaimum

Minimum-eal o6erG Maimum-eal o6er

-eal

-e4erence -eal o6er Load$eference(

/oa! re4erence real po6er atone per unit voltage an!4re#uency use! 4or scaling

purposes

M7 De4aults to;ero 0noscaling

Must +e positive

-eal

Minimum -eactive o6er Loadinvar

Minimum reactive po6erconsume! 4or any con!itionsin!uctive loa! is positive

Mvar De4aults tominusin4inity0nominimum

Minimum-eactiveo6er GMaimum-eativeo6er

-eal

Maimum -eactive o6er Loada4var

Maimum reactive po6erconsume! 4or anycon!itionsin!uctive loa! is positive

Mvar De4aults toin4inity0nomaimum

Maimum-eactiveo6er EMinimum-eactiveo6er

-eal

-e4erence-eactive o6er Load$eferencevar /oa! re4erence reactive po6er at one per unit voltagean! 4re#uency use! 4orscaling purposes in!uctiveloa! is positive

Mvar De4aults to;ero 0noscaling

-eal

2


43/76

Load Data "Continued#Name Description Units Defaults Constraints Data Type

)roup %!enti4ier 01...nLoad'roup+d

%!enti4ier o4 group0'roupSet to6(ic( t(is loa! isassigne!

%nteger

er 8nit Assignment to)roup 01...nLoad'roupAssignPU

per unitassignment togroup


Commissioning DateLoadCommissioningDate

Date t(e !evicegoes into service

MM'DD'II Date

Decommissioning DateLoadDecommissioningDate

Date t(e !evicegoes out o4service

MM'DD'II Date

/oa! egative $e#uenceCon!uctanceLoadNegSe.Conductance

negative se#uencecon!uctance o4t(e loa!

per unit on t(esystem MVA +ase an! +us +ase voltage

Man!atory -eal

/oa! egative $e#uence$usceptanceLoadNegSe.Susceptance

negative se#uencesusceptance o4 t(eloa!


Man!atory -eal

/oa! Lero $e#uenceCon!uctanceLoad1eroSe.Conductance

;ero se#uencecon!uctance o4t(e loa!


Man!atory -eal

/oa! Lero $e#uence$usceptanceLoad1eroSe.Susceptance

;ero se#uencesusceptance o4 t(eloa!

per unit on t(esystem MVA +ase an! +us +ase

/oa! )roun!ing -esistance-gLoad'rounding6$g

;ero se#uenceresistance o4 loa!groun!ing !evice

per unit onsystem MVA +ase an! +us +ase voltage

De4aultsto ;ero

-eal

/oa! )roun!ing -eactance

HgLoad'rounding6/g

;ero se#uence

reactance o4 loa!groun!ing !evice

per unit on

system MVA +ase an! +us +ase voltage

De4aults

to Lero

-eal

/oa! M7 solve!,LoadwSolve

Magnitu!e o4/oa! M7. $olve!value

M7 ptional Calculate! +y po6er 4lo6 orstate estimationsolution. 3(isattri+ute may +e use!instea! o4LoadAnalogSetNo 4or solution values.ositive out o4 Bus.

-eal

/oa! Mvar solve!,

LoadvarSolve

Magnitu!e o4

/oa! Mvar.$olve! value

Mvar ptional Calculate!

+y po6er 4lo6 orstate estimationsolution. 3(isattri+ute may +e use!instea! o4LoadAnalogSetNo 4or solution values.ositive out o4 Bus.

-eal


44/76

Load "!oltage Dependent odel# DataName Description Units Defaults Constraints Data

Type

Voltage Depen!ent Mo!el um+er Load!oltDependodelNo

8ni#ue i!enti4ier 4or t(ismo!el type correspon!ingto LoadodelType V8C

Man!atory,8ni#ue

%nteger

Voltage Depen!ent /oa! Mo!el act 0a Q a v Q a vTo T T T=act 0a Q a v Q a vT=o T T T a Q a Q a 1 T T Ta Q a Q a 1 T T T

7(ereo nominal realloa!=o nominalreactive loa!v per unitmagnitu!eo4 voltagevmag at +usto 6(ic(loa! is

connecte!act actualreal loa!consume!=act actualreactive loa!consume!

Mo!el

Values o4 Coe44icient a 01...FLoad!oltDependodelCoeff!alue

raction o4 loa! t(at isconstant MVA constantcurrent an! constanta!mittance 4or real an!

reactive po6er as use! int(e voltage !epen!ent loa!mo!el

per unit Man!atory -eal


45/76

Load "!oltage and *re.uency Dependent odel# DataName Description Units Defaults Constraints Data

Type

Voltage an! re# Depen!ent Mo!el um+er Load!and*DependodelNo

8ni#ue i!enti4ier 4ort(is mo!el typecorrespon!ing toLoadodelType VR

Man!atory,8ni#ue

%nteger

Voltage an! re#uency !epen!ent

/oa! Mo!el

act 0a T Q a Q

aoT T T

=act 0a Q a Qa=o

T T Ta Q a Q a 1T T Ta Q a Q a 1T T T

7(ere

o nominal realloa!=o nominalreactive loa!v per unitmagnitu!eo4 voltagevmag at +usto 6(ic(loa! isconnecte!

act actualreal loa!consume!=act actualreactive loa!consume!4 per unit4re#uency at +us to 6(ic(loa! isconnecte!

Mo!el

Values o4 Coe44icient a 01...FLoad!and*DependCoeff!alueA

Coe44icients use! involtage an!4re#uency !epen!entloa! mo!el

per unit Man!atory -eal

Values o4 "ponents n 01...FLoad!and*Depend&4p!alueN

Voltage eponentsuse! in voltage an!4re#uency !epen!entloa! mo!el

Man!atory -eal

Values o4 "ponents m 01...FLoad!and*Depend&4p!alue

re#uencyeponents use! involtage an!4re#uency loa!mo!el

Man!atory -eal

5


46/76

Load "Tabular Definition of Power vs !oltage# Data ame De4inition 8nits De4aults Constraints Data

3ype

Voltage 3a+ular De4inition Mo!el um+er Load!TabDependodelNo

8ni#ue i!enti4ier 4ort(is mo!el typecorrespon!ing toLoadodelType V3AB

Man!atory,8ni#ue

%nteger

3a+ular De4inition o4 po6er versus

voltage

Data 4or loa!

ta+ular !e4inition o4real an! reactive po6er versusvoltageact 0ta+ular4unction o4 v o=act 0ta+ular4unction o4 v=o

7(ere

o nominal realloa!=o nominalreactive loa!v per unitmagnitu!eo4 voltagevmag at +usto 6(ic(loa! isconnecte!

act actualreal loa!consume!=act actualreactive loa!consume!

Mo!el

Values o4 v 01...nLoad!TabDepend!olt!alue

Voltage magnitu!evalues 4or ta+ular!e4inition o4 realan! reactive loa!

per unit Man!atorymonotonically increasingset

-eal

Values o4 0act'o 01...nLoad!TabDependw!alue

Value o4 real po6erloa! at voltage

per unit o4 nominalloa! real po6er

Man!atory -eal

Values o4 0=act'=o 01...nLoad!TabDependvar!alue

Value o4 reactive po6er loa! atvoltage

per unit o4 nominalloa! reactive po6er

Man!atoryin!uctiveloa! is positive

-eal

F


47/76

Load "+nduction otor odel# DataName Description Units Defaults Constraints Data

Type

Voltage 3a+ular De4inition Mo!el um+er Load+ndotodelNo

8ni#ue i!enti4ier 4ort(is mo!el typecorrespon!ing toLoadodelType %DM3

Man!atory,8ni#ue

%nteger

%n!uction Motor "#uivalent circuit Data 4or loa!in!uction motore#uivalent circuit parameters

Mo!el

Motor Base MVALoad+ndotBase!A

Motor +ase MVA MVA Man!atory -eal

Value o4 -ALoad+ndot$A!alue

Armature resistance per unit on motorMVA +ase an! +asevoltage o4 +us to6(ic( t(is loa! isconnecte!.

Man!atory -eal

Value o4 /A

Load+ndotLA!alue

Armature

in!uctance

per unit on motor

MVA +ase an! +asevoltage o4 +us

Man!atory -eal

Value o4 /MLoad+ndotL!alue

Mutual in!uctance per unit on motorMVA +ase an! +asevoltage o4 +us

Man!atory -eal

Value o4 -1Load+ndot$9!alue

irst loop resistance per unit on motorMVA +ase an! +asevoltage o4 +us

Man!atory -eal

Value o4 /1Load+ndotL9!alue

irst loopin!uctance* per uniton motor MVA +asean! +ase voltage o4 +us

Man!atory -eal

Value o4 -2Load+ndot$:!alue $econ! loopresistance per uniton motor MVA +asean! +ase voltage o4 +us

Man!atory -eal

Value o4 /2Load+ndotL:!alue

$econ! loopin!uctance

per unit on motorMVA +ase an! +asevoltage o4 +us to6(ic( t(is loa! isconnecte!

Man!atory -eal


48/76

Load "'enerator Dependent odel# DataName Description Units Defaults Constraints Data

Type

)enerator Depen!ent Mo!el um+er Load'enDependodelNo

8ni#ue i!enti4ier 4ort(is mo!el typecorrespon!ing toLoadodelType )"

Man!atory,8ni#ue

%nteger

)enerator Depen!ent /oa! !e4ines t(is loa! to +e

!epen!ent on aspeci4ic generator 4ort(e loa! nominal po6er. 3(erepresentation (as t(e4orm

o B Q


49/76

-wners,ip DataName Description Units Defaults Constraints Data

Type

6ners(ip $et um+er-wners,ipSet

8ni#ue num+er 4oro6ners(ip set

Man!atory %nteger

6ners(ip $et ame-wners,ipSetName

ame o4 6ners(ipset

3et

)roup $et mem+er num+er 01,...,

-wners,ipSetemberNumber

um+er o4 group set0'roupSet t(at is

an o6ner in t(is set0i.e., a group setnum+er representinga Company

%nteger

)roup $et Mem+erPs 6ners(ip percentage01,...,-wners,ipSetemberPercent

ercentage t(atmem+er0-wners,ipSetemberNumberint(e o6ners(ip set

-eal

9


50/76

$atingsName Definition Units Default Constraints Data

Type

-ating ame$atingName

alp(anumeric ratingi!enti4ier


3et

-ating %!enti4ier $atingNumber

8ni#ue num+er o4t(is rating


integer

-ating (ysical 8nits$atingUnits

alp(anumerici!enti4ier o4 units in6(ic( t(is rating isepresse!. 3(e4ollo6inga++reviations arerecommen!e!current*AM$ or


51/76

S,unt "Nonsyc,ronous# Devices


Type

$(unt um+er S,untNumber

8ni#ue um+errepresenting s(unt

integer

$(unt ameS,untName

8ni#ue ame 4ors(unt

tet

Bus %!enti4ier S,untBusNo

num+er o4 +us0BusNumberto

6(ic( s(unt isconnecte!

man!atory integer

Bus $ection %!enti4ier S,untConnectivityNode

in!icates +ussection0ConnectivityNodeNumberconnection point o4s(unt

use! 6(enodelConn

ectivityTyp

e not e#ualBM

integer

Circuit %!enti4ier S,untCircuit

circuit i!enti4ier o4 +ranc( on 6(ic(!evice is connecte!

man!atory i4 +ranc(

%nteger

Commissioning DateS,untCommission

Date t(e !evicegoes into service

MM'DD'II Date

Decommissioning DateS,untDecommission

Date t(e !evicegoes out o4 service

MM'DD'II Date

Device %!enti4ier S,untUnitNumber

alp(anumerici!enti4ier to!istinguis( amongmultiple !evicesconnecte! at a +usor +ranc(

man!atorymust +euni#ueamong allsuc( !evices(aving acommon +us6(et(er +usor +ranc(

connecte!

%nteger

$(unt $tatusS,untStatus

%!enti4ies s(untPsstatus in4ormationin $tatus !ata viaStatusNumber entry


ectivityTyp

e BMmo!el isuse! 0i.e., +us mo!el6it( notopology processing

%nteger

Device MVA BaseS,untBase!A

MVA o4 t(is !eviceeit(er system0Base!A or!evice

MVA man!atory real

Device Base VoltageS,untBase)!

+ase voltage o4 t(is!evice

@V man!atory real

$(unt Analog ValuesS,untAnalogSetNo

%!enti4ies s(untPsanalog in4ormationin Analog !ata viaAnalogSet entry

integer

S,unt "Nonsyc,ronous# Devices "Continued#Name Description Units Defaults Constraints Data

51


52/76

Type

$(unt Voltage -egulationCon!itionsS,unt!oltage$egConditions

$(unt Voltage control isactivate!: not at all- pre*contingencyonly re* an! post*contingency post*contingency

only)roup %!enti4ier 01...nS,unt'roup

num+er o4 group0'roupSet to 6(ic(!evice is assigne!

Man!atory %nteger

er 8nit Assignment to )roup01...nS,untAssignmentPU

per unit assignment togroup


-eal

er 8nit /osses Assigne! to )roup01...nS,untAssignedLossPU

per unit assigne! tolosses to group


-eal

Descriptive 3et

S,untDescription

tet !escri+ing t(is

!evice

3et

$(unt 6ners(ip $etS,unt-wners,ipSet

-wners,ipSet num+er4rom 6ners(ip !ata0set implies 1Ko6ners(ip +y controlarea o4 terminal +us

De4ault

%nteger

3ype %!enti4ier S,untType

alp(anumeric i!enti4iero4 t(is !evice 0Capacitor,-eactor, ot(er

!e4aults to +lan@s

3et

Control Mo!eS,untControlode

!e4ines control o+&ectiveto +e use! in c(angingt(is !evice

" none 04ie!susceptances in all +loc@s

V/3 (ol! voltage at!esignate! +us +et6eencontrol limits /o6eran! 8pper

MVA- (ol! MVA-4lo6 +et6een !esignate! +uses 6it(in controllimits /o6er MVA-4lo6 an! 8pper MVA-

4lo6 as measure! atO4romO +us 4lo6ing into +ranc( or trans4ormer

!e4aults to "

%nteger

52


53/76


Type

Controlle! "lement BusS,untControlBusNo

!e4ines +us at 6(ic(voltage is to +e (el!6it(in control limits i4S,untControlode isV/3 or !e4ines +us into6(ic( MVA- 4lo6 is

controlle! i4 control mo!eis MVA-.

+us to6(ic( t(e!evice isconnecte!

%nteger

%!enti4ier o4 Controlle! /ine or3rans4ormer S,untControl&lementNo

De4ines line0LineNumber ortrans4ormer0/formerNumber in6(ic( Mvar lo6 iscontrolle! 6(en/formerTCUL

Controlode is Mvar

Man!atory i4S,untContr

olode isMVA- or "

%nteger

Controlle! "lement 3ypeS,untControl&lementType

"lement type /%" orH-M"- 6(ic( Mvar4lo6 is controlle!

Man!atory i4S,untContr

olode is

MVA-

3et

/o6er MVA- lo6 /imitS,untLower!A$Limit

minimum !esire! MVA-4lo6 i4S,untControlode isMVA- positive valuein!icates 4lo6 4romcontrolle! element +us 1to controlle! element +us2 or 4lo6 into 6in!ing

MVA- man!atory i4Man!atory i4S,untContr

olode isMVA-/o6er Mvar4lo6 limit G8pperMVA- 4lo6limit

-eal

8pper MVA- lo6 /imitS,untUpper!A$Limit

maimum !esire! Mvar4lo6 i4

S,untControlode isMVA- positive valuein!icates 4lo6 4romcontrolle! element +us 1to controlle! element +us2 or 4lo6 into 6in!ingMVA-

man!atory i4S,untContr

olode isMVA-/o6er Mvar4lo6 limit G8pper Mvar4lo6 limit

-eal

Ma. -egulating voltage ValueS,unta4$eg!oltage

Value at 6(ic( s(unt 6illc(ange out to lo6ervoltage 0i.e. capacitorlo6er output, reactorincrease output

-eal

Min. -egulating voltage ValueS,untin$eg!oltage

Value at 6(ic( s(unt 6illc(ange out to raisevoltage 0i.e. capacitorincrease output, reactorlo6er output

-eal

5


54/76


Type

/oss actor 4or %n!uctorsS,unt+nductorLoss*actor

ratio o4 in!uctor real po6er loss toreactive po6erconsumption

M7'Mvar !e4aults to;ero

-eal

um+er o4 Discrete $usceptanceValues Availa+le in Bloc@ 01...n

S,untBloc)Suscept!alueNo

num+er o4 !iscretesusceptance values

availa+le 4or controlaction on t(is [email protected] 4orcontinuouslyvaria+le a!&ustment

!e4aults to;ero

must +enon;ero 4or

step6isecontrol

%nteger

Bloc@ Minimum $usceptance 01...nS,untBloc)inSusceptance

minimumsusceptance o4 t(is +loc@ 0in!uctivesusceptance isnegative

per unit on +ases!evice +ase MVAan! !evice +asevoltage

Man!atory +loc@ mustconsist o4onlycapacitors oronlyin!uctors

-eal

Bloc@ Maimum $usceptance 01...n

S,untBloc)a4Susceptance

maimum

susceptance o4 t(is +loc@ 0in!uctancesusceptance isnegative

per unit on +ases

!evice +ase MVAan! !evice +asevoltage

Man!atory

+loc@ mustconsist o4onlycapacitors oronlyin!uctors

-eal

Bloc@ "44ective $usceptance 01...nS,untBloc)Susceptance

susceptance o4 t(e part o4 t(is +loc@t(at is utili;e!0in!uctive isnegative


!e4aults to;ero

Man!atory +loc@ mustconsist o4onlycapacitors oronlyin!uctors

-eal

Bloc@ Connection 3ype 01...nS,unt Bloc)ConnectionType alp(anumeric co!eto i!enti4y +loc@connection type)I groun!e! y)L groun!e! ;ig*;ag8I ungroun!e! yD" !elta

!e4aults to +lan@s 3et

5


55/76


Type

$(unt M7 solve!,S,unt(Solve

Magnitu!e o4 $(untoutput M7. $olve!value

M7 ptionalCalculate! +y po6er4lo6 or stateestimationsolution.

3(isattri+utemay +e use!instea! o4S,untAnalo

gSetNo 4orsolutionvalues.ositive outo4 Bus.

-eal

$(unt Mvar solve!,S,untvarSolve

Magnitu!e o4 $(untoutput Mvar. $olve!value

Mvar ptionalCalculate! +y po6er

4lo6 or stateestimationsolution.3(isattri+utemay +e use!instea! o4S,untAnalo

gSetNo 4orsolutionvalues.ositive outo4 Bus.

-eal

Lero $e#uence Con!uctance 01...nS,unt1eroSe.Conductance

;ero se#uencecon!uctance o4 +loc@ 6it( all stepss6itc(e! on


Man!atory real

Lero $e#uence $usceptance 01...nS,unt1eroSe.Susceptance

;ero se#uencesusceptance o4 +loc@6it( all stepss6itc(e! on


man!atory-eal

)roun!ing -esistance -g 01...nS,unt'rounding6$g

e44ective ;erose#uence resistanceo4 groun!ing !evice


!e4aults to;ero

-eal

)roun!ing -eactance Hg 01...nS,unt'rounding6/g

e44ective ;erose#uence reactanceo4 groun!ing !evice


!e4aults to;ero

-eal

55


56/76

Station DataName Description Units Defaults Constraints Data Type

$tation um+er StationNumber

8ni#ue num+eri!enti4ying station!ata

Man!atory, i4 t(is type!ata is use! +y Bus0BusStationLocation. 8se o4 $tation o+&ectis optional i4 )roup+&ect is use! to groupBuses 0BusLocation

%nteger

$tation ameStationName

ame o4 station ptional 3et

Company locationStationCompanyLocation

/ocation o4 station6it(in t(e Companyo+&ect0CompanyNumber

ptional. 8se o4)roup o+&ect may +euse! to group stationsinto company 0or anyot(er grouping suc( as!istricts

%nteger

5F


57/76

Status DataName Description Units Defaults Constraints Data Type

$tatus um+er StatusNumber

8ni#ue num+er i!enti4yingstatus !ata

Man!atory, i4 t(istype !ata is use!

%nteger

$tatus ameStatusName

ame o4 status 3et

$tatus Co!eStatus!alue

Current status, 6(ere: pen, 44,All terminals

!isconnecte!C/ Close!, n, Allterminals connecte!" pen "n!e!, at leastone terminal close! an! atleast one openAV Availa+le 044line +utAvaila+le 4or use as a control= =uestiona+leB Bypasse! +y ;eroimpe!ance 6it( no controlBC Bypasse! +y ;eroimpe!ance +ut 6it( control

B not +ypasse! +y ;eroimpe!ance +ut 6it( control3- 3raveling 4rom onestatic status to anot(er

3et

ormal $tatusNormalStatus

ormal status, 6(ere:status options are t(e same as4or $tatus 0Status!alue

3et

5


58/76

Switc,ing DeviceName Description Units Defaults Constraints Data Type

$6itc(ing Device um+er Switc,Number

8ni#ue num+er i!enti4yings6itc(ing !evice

Man!atory, i4t(is type !ata isuse!

%nteger

$6itc(ing Device ameSwitc,Name

ame !escri+ing s6itc(ing!evice

ptional 3et

>rom? Connectivity

o!e um+er Switc,*romNode

um+er o4 >rom?

Connectivity o!e0Connectivity NodeNumber

%nteger

>3o? Connectivity o!e um+er Switc,ToNode

um+er o4 >3o? Connectivity o!e 0ConnectivityNodeNumber

%nteger

Commissioning DateSwitc,Commission


MM'DD'II Date

Decommissioning DateSwitc,Decommission


MM'DD'II Date

$6itc( Device $tatusMeasurementSwitc,Status

$tatus Measurement um+er0StatusNumber 4or$6itc(ing Device

%nteger

$6itc(ing Device 3ype

Switc,Type

3ype o4 $6itc(ing Device,

6(ere: seu!o or 4ictitious !eviceCB Circuit +rea@er M Motor perate! s6itc(M Manual $6itc( use t(er

ptional 3et

$6itc(ing Device6ners(ip $etSwitc,-wners,ipSet

-wners,ipSet num+er 4rom6ners(ip !ata 0set implies 1K o6ners(ip +ycontrol area o4 terminal +us

De4ault

%nteger

5N


59/76

TransactionsName Definition Units Defaults Constraints Data

Type

3ransaction um+er TransactionNumber

um+er o4transaction

man!atory8ni#uei!enti4ier

integer

3ransaction ameTransactionName

ame o4 transaction De4ault +lan@

tet

%!enti4ier o4 rom )roupTransaction*rom'roupNumber

)roup set0'roupSet num+ero4 4irst party 0romin t(e sc(e!ule!interc(angetransaction

integer

%!enti4ier o4 3o )roupTransactionTo'roupNumber

)roup set0'roupSet num+ero4 secon! party 03oin t(e sc(e!ule!interc(angetransaction

man!atory integer

$c(e!ule! -eal o6er "c(ange

TransactionSc,ed(

sc(e!ule! real

po6er ec(ange4rom 4irst partyeclusive group tosecon! partyeclusive group

M7 man!atory real

3ransaction DescriptionTransactionDescription

3etual !escriptiono4 transaction

tet

59


60/76

TransformerName Definition Units Defaul

t

Constraints Data

Type

3rans4ormer um+er /formerNumber

8ni#ue um+errepresenting trans4ormer

integer

3rans4ormer ame/formerName

8ni#ue ame 4ortrans4ormer

tet

Commissioning Date/formerCommission


MM'DD'II

Date

Decommissioning Date/formerDecommission


MM'DD'II

Date

Bus %!enti4ier * A,-%MA-I/formerPrimaryBusNo

num+er o4 +us0BusNumber to 6(ic(6in!ing A is connecte!

man!atory integer

Bus %!enti4ier * B,$"CDA-I/formerSecondaryBusNo

power system application data dictionary

Documents