Macros > Macro attributes > Macro: table with attributes

Nodes: Node

Attribute	Type	Unit	Description
Simultaneousness	R		Simultaneity factor
_Simultaneousness	R		Runtime-simultaneity factor
Rail type	T		Rail type name
Specifics	T		Specifics
TF_Frequency	R	Hz	Tone frequency
TF_U	R	%	Tone frequency voltage
TF_Angle	R	°	Tone frequency voltage angle
GX	R	m	Geographical X coordinate
GY	R	m	Geographical Y coordinate
FailureFrequency	R	/yr	FailureFrequency
RepairDuration	R	min	Repair duration
MaintenanceFrequency	R	/yr	Maintenance frequency
MaintenanceDuration	R	min	Maintenance duration
MaintenanceCutOffDuration	R	min	Maintenance cut-off duration
RemoteStatus	B		Reminder
Selected	B		Selected
Deleted	B		Deleted
Bool, Bool1, Bool2	B		Free to use truth attribute
Real, Real1, Real2	R		Free to use number attribute
String, String1, String2	T		Free to use text attribute
Object, Object1, Object2	O		Free to use object attribute
Name	T		Name
Color	I		Color of the presentation at the active sheet
GUID	G		GUID
Live	B		Whether node is present on active leaf
Alive	B		Whether node is present and visible on active sheet
Sheets	T		Sheets on which the node occurs
Selections	T		Selections in which the node appears
Note	T		Note
Sort	T		NODE
MainSort	I		0
Group	I		Group number
Direction	I		Direction number
Feeding	I		Feeding group number
Short	T		Short name
ID	T		ID
Fields	T		Enumeration of field names
Unom	R	kV	Rated voltage
BusbarSystem	T		Name of busbar system
Function	T		Function
Serial	I		Serial number, based on track
Branches	I		Number of branches
ClosedBranches	I		Number of branches with closed switch
Elements	I		Number of elements
ClosedElements	I		Number of elements with closed switch
Inom	R	A
Idynamic	R	kA
Ikthermic	R	kA
Tthermic	R	s
VoltageChecking	I		VoltageChecking
OwnUmin	R	pu	Alternative Umin
OwnUmax	R	pu	Alternative Umax
OwnduMax	R	%	Alternative dUmax
Result	T		Result (NO / LF / IEC / FA / REL / PROT / SEL / RIP / NC)
U	R	kV	Calculated coupled voltage
dU	R	%	Deviation of the calculated voltage from the rated voltage
Uang	R	°	Angle of the calculated coupled voltage
Upu	R	p.u.	Calculated voltage
Umin	R	kV	Calculated minimum voltage
Umax	R	kV	Calculated maximum voltage
P	R	MVA	Summed real power of the elements according to generator convention
Ika, Ikb, Ikc	R	kA	Subtransient short-circuit current
Ika_ang, Ikb_ang, Ikc_ang	R	°	Angle of subtransient short-circuit current, after calculation Failure Sequential
Ike	R	kA	Subtransient short-circuit current to earth in case of failure Sequential
Ike_ang	R	°	Angle of subtransient short-circuit current to earth in case of failure sequentially
Ip	R	kA	Peak value of the short-circuit current
Sk	R	MVA	Short-circuit capacity
Ri	R	mOhm	Grid impedance (resistance) at the short-circuited node
Xi	R	mOhm	Line impedance (reactance) on the short-circuited node
RX	R		R/X ratio of mains impedance
Tmax	R	s	Maximum permitted short-circuit duration
Faulted	B		Indicates whether an IEC calculation has been performed for this node
I	R	kA	Stationary short-circuit current, after single-node short-circuit calculation
Selective	B		Selectively protected
Ua, Ub, Uc	R	kV	Node voltages at fault Sequential
Ua_ang, Ub_ang, Uc_ang	R	grad.	Angle of the node voltages at Failure Sequential
Freq1, Freq2	R	Hz	Frequency of tone frequency source (1 and 2)
Ufreq1, Ufreq2	R	kV	Coupled voltage of tone-frequency signal for Freq1 and Freq2
Ufreqproc1, Ufreqproc2	R	%	Percentage voltage of tone-frequency signal for Freq1 and Freq2
F	R	/year	Non-availability frequency
D	R	min	Non-availability duration
P	R	%	Interruption probability
Pmy	R	min/year	Interruption expectation
I2t	R	MA²s
ProtFaultResult	T		Primary results of a singlefault security calculation
ProtFaultIkbegin	R	kA	Initial short-circuit current of a single fault protection calculation
ProtFaultIkend	R	kA	Final short-circuit current of a single fault protection calculation
ProtFaultTend	R	s	Final short-circuit time of a single-fault protection calculation
ProtResult	T		Derived results of a singlefault security calculation
SwitchedBranch1 ... 6	O		Switched branch after fault analysis
NotSwitchable	B		Not switchable after fault analysis
Problem	B		Voltage problem after net set

Branches

lk: Link

li: Line

cb: Cable

rc: ReactanceCoil

tf: Transformer

st: SpecialTransformer

3w: 3WTransformer

Attribute	lk	li	cb	rc	tf	st	3w	Type	Unit	Description
FirstSwitch	*	*	*	*	*	*	*	S		Switch position near from node
SecSwitch	*	*	*	*	*	*	*	S		Switch position near to node
ThirdSwitch							*	S		Switch state near third node
SwitchState	*	*	*	*	*	*	*	I		Binary representation switch positions of the 2 (3 in case of three-wire transformer) switches Combinations normal branch: 0, 1, 2, 3 Combination three-winding transformer: 0, 1, 2, 3, 4, 5, 6, 7 First/Sec/ThirdSwitch: 0=open; 1=closed; value = FirstSwitch + 2xSecSwitch + 4xThirdSwitch
_SwitchState	*	*	*	*	*	*	*	I		Binary representation of runtime switch positions
FirstNodeObject	*	*	*	*	*	*	*	O		From node to which branch is connected
SecNodeObject	*	*	*	*	*	*	*	O		To node to which branch is connected
ThirdNodeObject							*	O		Third node to which branch is connected
Specifics	*	*	*	*	*	*	*	T		Details
R		*		*				R	Ohm	Total normal resistance
X		*		*				R	Ohm	Total normal reactance
C		*						R	μΦ	Total normal capacitance
R0		*						R	Ohm	Total homopolar resistance
X0		*						R	Ohm	Total homopolar reactance
C0		*						R	μΦ	Total homopolar capacitance
Ik1s		*						R	kA	Allowable short-circuit current for 1 second
Inom		*		*				R	A	Rated current
Snom					*	*		R	MVA/kVA	Nominal apparent power
uk					*			R	%	Relative short-circuit voltage
Pk					*			R	kW	Copper loss
Tap					*	*		I		Tap position
_Tap					*	*		I		Runtime-tap position
TapControl							*	I		Tap position controlled winding
TapAdjust							*	I		Tap position adjustable winding
_TapControl							*	I		Runtime-tap position controlled winding
_TapAdjust							*	I		Runtime-tap position adjustable winding
Type				*	*	*	*	T		Component type
ActivePart			*					I	0	Index to point a cable part
PartType			*					T		Cable type of cable part with index ActivePart
PartLength			*					R	m	Length of cable part with index ActivePart
PartGselect			*					I		Selected G (0/1/2/3) for cable part with index ActivePart
PartRating			*					R		Load factor of cable part with index ActivePart
Earthing1					*		*	I		Earthing of winding 1: None (0), own (1) or external (2)
Re1					*		*	R	Ohm	Earthing resistance of the earthing of winding 1
Xe1					*		*	R	Ohm	Earthing reactance of the earthing of winding 1
Earthing2					*		*	I		Earthing of winding 2: None (0), own (1) or external (2)
Re2					*		*	R	Ohm	Earthing resistance of the earthing of winding 2
Xe2					*		*	R	Ohm	Earthing reactance of the earthing of winding 2
Earthing3							*	I		Earthing of winding 3: None (0), own (1) or external (2)
Re3							*	R	Ohm	Earthing resistance of the earthing of winding 3
Xe3							*	R	Ohm	Earthing reactance of the earthing of winding 3
Smax					*	*		R	MVA/kVA	Maximum power
Smax1							*	R	MVA/kVA	Maximum power in winding 1
Smax2							*	R	MVA/kVA	Maximum power in winding 2
Smax3							*	R	MVA/kVA	Maximum power in winding 3
PhaseShift					*	*		R	degrees	Phaseshift
_PhaseShift					*	*		R	degrees	Runtime-phaseshift
OwnUcontrol					*		*	B		Own voltage control
Ucontrol					*	*	*	B		Voltage control in/out
Uside					*	*	*	I		Measure side
Uset					*	*	*	R	kV	Regulated voltage
Uband					*	*	*	R	kV	Regulated voltage band
Rc					*	*	*	R	Ohm	Resistance Compounding
Xc					*	*	*	R	Ohm	Reactance Compounding
FailureFrequency	*	*	*	*	*	*	*	R	/yr	Failure rate
RepairDuration	*	*	*	*	*	*	*	R	min	Repair time
MaintenanceFrequency	*	*	*	*	*	*	*	R	/yr	Maintenance frequency
MaintenanceDuration	*	*	*	*	*	*	*	R	min	Maintenance duration
MaintenanceCutOffDuration	*	*	*	*	*	*	*	R	min	Maintenance degradation time
Sleeves			*					I		Number of sleeves
SleeveFailureFrequency			*					R	/yr	Failure frequency of sleeves
Selected	*	*	*	*	*	*	*	B		Selected
Deleted	*	*	*	*	*	*	*	B		Deleted
Bool, Bool1, Bool2	*	*	*	*	*	*	*	B		Free to use truth attribute
Real, Real1, Real2	*	*	*	*	*	*	*	R		Free to use number attribute
String, String1, String2	*	*	*	*	*	*	*	T		Free to use text attribute
Object, Object1, Object2	*	*	*	*	*	*	*	O		Free to use object attribute
Color	*	*	*	*	*	*	*	I		Color of the presentation at the active sheet
Name	*	*	*	*	*	*	*	T		Branch name
ID	*	*	*	*	*	*	*	T		ID (via specific with attribute "ID")
GUID	*	*	*	*	*	*	*	G		GUID
Live	*	*	*	*	*	*	*	B		Indicates whether branch is present on active leaf
Alive	*	*	*	*	*	*	*	B		Indicates whether branch is present and visible on active sheet
Sheets	*	*	*	*	*	*	*	T		Indicates on which sheets the branch appears
Selections	*	*	*	*	*	*	*	T		Selections in which the branch appears
Note	*	*	*	*	*	*	*	T		Note
Sort	*	*	*	*	*	*	*	T		Object type (LINK, LINE, CABLE, etc)
MainSort	*	*	*	*	*	*	*	I		Indication for main object type (branches: 2; 3w transformer: 3)
Group	*	*	*	*	*	*	*	I		Group number
Direction	*	*	*	*	*	*	*	I		Direction number
Feeding	*	*	*	*	*	*	*	I		Supply group number
Subnetborder	*	*	*	*	*	*		B		Subnetborder
Mesh	*	*	*	*	*	*	*	B		Whether it is a mesh branch
Unom				*				R	kV	Rated voltage
FirstNode	*	*	*	*	*	*	*	T		From node name to which branch is connected
SecNode	*	*	*	*	*	*	*	T		To-node name to which branch is connected
ThirdNode							*	T		Third node name of a three-winding transformer
FirstField	*	*	*	*	*	*	*	T		Name of field near the from node
SecField	*	*	*	*	*	*	*	T		Name of the field near the to node
ThirdField							*	T		Name of the field near the third node
Serial	*	*	*	*	*	*	*	I		Sequence number, based on route
Sleeves			*					I		Number of sleeves
Parts			*					I		Number of cable parts
Thinnesttype			*					T		Name of the limiting cable type
Thinnestype_GPLK			*					T		Name of the limiting GPLK cable type
Thinnesttype_NonGPLK			*					T		Name of the limiting non-GPLK cable type
Inom_GPLK			*					R	A	Resulting rated current of GPLKs
Inom_NonGPLK			*					R	A	Resulting nominal current of non-GPLKs
Length		*	*					R	m	Overall length
R		*	*					R	Ohm	Total resistance
X		*	*					R	Ohm	Total reactance
C		*	*					R	μΦ	Total capacitance
R0		*	*		*			R	Ohm	Total homopolar resistance
X0		*	*					R	Ohm	Total homopolar reactance
C0		*	*					R	μΦ	Total homopolar capacity
Inom_	*	*	*	*				R	A	Resulting rated current
Ik1s	*	*	*					R	kA	Permissible short-circuit current for 1 second
PartShortType			*					T		Short cable type name of cable part with index ActivePart
PartInom			*					R	A	Rated current of cable part with index ActivePart
PartParallel			*					I		Number of parallel of cable part with index ActivePart
PartYear			*					T		Year of installation of cable part with index ActivePart
Sleeve			*					T		Description of the sleeve with index ActivePart
Unom				*				R	kV	Rated voltage
Unom1					*	*	*	R	kV	Nominal voltage primary winding
Unom2					*	*	*	R	kV	Nominal voltage secondary winding
Unom3							*	R	kV	Rated voltage tertiary winding
Snom1							*	R	MVA/kVA	Nominal apparent power primary winding
Snom2							*	R	MVA/kVA	Nominal apparent power secondary winding
Snom3							*	R	MVA/kVA	Rated apparent power of tertiary winding
Pnul					*		*	R	kW	Zero load loss
Inul					*		*	R	A	No-load current
Z0					*			R	Ohm	Homopolar impedance
SideZ0					*			I		Side Z0
Ik2s					*			R	kA	Allowable short-circuit current for 2 seconds
Clock					*			I		Clock number
uk12, uk13, uk23							*	R	%	Relative short-circuit voltage
Pk12, Pk13, Pk23							*	R	kW	Copper loss
S@12, S@13, S@23							*	R	MVA/kVA
TapSide					*	*	*	I		TapSide primary/secondary (1 or 2)
TapSize					*	*	*	R	kV	Voltage per stage
TapMin					*	*	*	I		Minimum tap position control switch
TapNom					*	*	*	I		Nominal tap position control switch
TapMax					*	*	*	I		Maximum step position control switch
Child						*		T		Type of special transformer
Result	*	*	*	*	*	*	*	T		Result (NO / LF / IEC / FA / REL / PROT / SEL)
P1, Q1, S1, I1	*	*	*	*	*	*	*	R	.W, .var, .VA, A	Active, reactive and apparent power and current flowing into a branch at the node corresponding to FirstNode
P2, Q2, S2, I2	*	*	*	*	*	*	*	R	.W, .var, .VA, A	Active, reactive and apparent power and current flowing into a branch at the node corresponding to SecNode
P3, Q3, S3, I3							*	R	.W, .var, .VA, A	Active, reactive and apparent power and current flowing into a three-winding transformer at the node corresponding to ThirdNode
Imax	*	*	*	*	*	*		R	A	Maximum calculated current
Ploss	*	*	*	*	*	*	*	R	kW	Active loss power
Qloss	*	*	*	*	*	*	*	R	kvar	Blind loss power
Load rate	*	*	*	*	*	*	*	R	%	Load rate
Load rate_GPLK			*					R	%	Load rate of the GPLK parts of a cable
Loadrate_NonGPLK			*					R	%	Load rate of the non-GPLK parts of a cable
NewTap					*	*	*	I		New tap position
Tmax	*	*	*	*	*	*	*	R	s	Maximum permitted short-circuit duration
Faulted	*	*	*	*	*	*	*	B		Indicates whether an IEC calculation has been performed for this branch
Ik1a, Ik1b, Ik1c	*	*	*	*	*	*	*	R	kA	Maximum occurring branch currents per phase near the node corresponding to FirstNode
Ik2a, Ik2b, Ik2c	*	*	*	*	*	*	*	R	kA	Maximum occurring branch currents per phase near the node corresponding to SecNode
Ik3a, Ik3b, Ik3c							*	R	kA	Maximum branch currents per phase near the node corresponding to ThirdNode
Sk1	*	*	*	*	*	*	*	R	MVA	Subtransient short-circuit power near the node corresponding to FirstNode
Sk2	*	*	*	*	*	*	*	R	MVA	Subtransient short-circuit power near the node corresponding to SecNode
Sk3							*	R	MVA	Subtransient short-circuit power near the node corresponding to ThirdNode
Imax	*	*	*	*	*	*		R	kA	Maximum through-short circuit current
Imax1							*	R	kA	Maximum short-circuit current
Imax2							*	R	kA	Maximum short-circuit current
Imax3							*	R	kA	Maximum short-circuit current
I1a, I1b, I1c	*	*	*	*	*	*	*	R	A	Branch currents Fault Sequential and IEC per phase at FirstNode
I1a_ang, I1b_ang, I1c_ang	*	*	*	*	*	*	*	R	°	Angles branch currents Fault Sequential per phase at FirstNode
I2a, I2b, I2c	*	*	*	*	*	*	*	R	A	Branch currents Failure Sequential and IEC per phase at SecNode
I2a_ang, I2b_ang, I2c_ang	*	*	*	*	*	*	*	R	°	Angles branch currents Fault Sequential per phase at SecNode
I3a, I3b, I3c							*	R	A	Branch currents Failure Sequential and IEC per phase at ThirdNode
I3a_ang, I3b_ang, I3c_ang							*	R	°	Branch current angles Failure Sequential per phase at ThirdNode
Selective		*	*					B		Selectively protected
F	*	*	*	*	*	*	*	R	/year	Non-availability frequency
D	*	*	*	*	*	*	*	R	min	Non-availability
P	*	*	*	*	*	*	*	R	%	Breakdown probability
Pmy	*	*	*	*	*	*	*	R	min/year	Interruption expectation
I2tmax	*	*	*	*	*	*	*	R	MA²s
I2t	*	*	*	*	*	*	*	R	MA²s
LongT	*	*	*	*	*	*	*	B		Short-circuit current lasts longer than 5 s
ProtResult	*	*	*	*	*	*	*	T		Derived results of a singlefault security calculation
ProtFaultDistance		*	*					R	%	Error distance in a single-fault security calculation
ProtFaultResult		*	*					T		Primary results of a singlefault security calculation
SwitchedBranch1 ... 6	*	*	*	*	*	*	*	O		Switched branch after fault analysis
NotOverswitchable	*	*	*	*	*	*	*	B		Not switchable after fault analysis
Problem	*	*	*	*	*	*		B		Load degree problem after netets

Elements

so: Source

sg: SynGen

sm: SynMot

ag: AsynGen

am: AsynMot

ld: Load

tl: TransformerLoad

ca: Capacitor

co: Coil

zz: ZigZagCoil

wt: Wind turbine

ac: Battery

Attribute

Type

Unit

Description

Switch

SwitchState

_Switch

Runtime-Switchstate

SwitchState

Binary representation switchstate: 0 (open), 1 (closed)

_SwitchState

Binary representation runtime-switchstate: 0 (open), 1 (closed)

NodeObject

Node to which element is connected

Specifics

Details

Profile

Snom

MVA/kVA

Nominal apparent power

Tap

Tap postion

_Tap

Runtime-tap position

Uref

p.u.

Set voltage

UQStatic

Voltage/blind power statistic

Sk2nom

MVA

Rated short-circuit power

Sk2min

MVA

Minimum short-circuit power

Sk2max

MVA

Maximum short-circuit power

Angle

Tension angle

Z0_Z1

Ratio Z0/Z1

R_X

Ratio R/X

Pnom

MW/kW

Rated power

Pref

MW/kW

Set electric power

_Pref

MW/kW

Runtime-set electric power

Qref

Mvar/kvar

Set reactive power

_Qref

Mvar/kvar

Runtime-set reactive power

SoC

State of charge

Capacity

MWh

Loading capacity

Crate

C-rate

FPStatic

Frequency/power statistic

Control

Voltage control (U) or cos-phi control (C) or reactive power control (Q)

_Control

Runtime-control (C, Q, (U))

CosRef

Set power factor

_Cosref

Set runtime-power factor

Qdirection

Set reactive power direction (supply/absorb)

Isochronous

Isochronous control

_Isochronous

Runtime-isochronous control

PmRef

MW/kW

Set mechanical power

_PmRef

MW/kW

Set mechanical runtime-power

IsInom

Ratio of starting current to rated current

InUse

Set number of motors in operation

Lref

Set load degree motors

_InUse

Set runtime-number of motors in operation

_Lref

Set runtime-load degree motors

MW/kW

Active power set (of load)

Mvar/kvar

Set reactive power (of load)

_Pl

MW/kW

runtime-active power set (of load)

_Ql

Mvar/kvar

runtime-reactive power (of load)

MW/kW

Set active power of generation

Mvar/kvar

Set reactive power of generation

_Pg

MW/kW

Runtime-active power of generation

_Qg

Mvar/kvar

Runtime-reactive power of generation

Ppv

MWp/kWp

Nominal power of the PV

Growth

Name of load growth

Generationprofile

Name of the generation profile

Generationgrowth

Name of the generation profile

PVprofile

Name of PV profile

PVgrowth

Name of PV growth

Mvar/kvar

Set reactive power

_Qc

Mvar/kvar

Runtime-reactive power

Large

Number of large consumers

Generous

Number of generous consumers

Small

Number of small consumers

Windspeed

m/s

Set wind speed

_Windspeed

m/s

Runtime-wind speed

p.u.

Stator resistance

Xd2

p.u.

Stator reactance

Type

Component type

Starpoint earthed yes/no

Ohm

Earthing resistor

Ohm

Ground reactance

Scaling

‰

Scaling

_Scaling

‰

Runtime-scaling

Latitude

°NB

Latitude

Longitude

°OL

Longitude

Pnom1

MWp/kWp

Power of the first panel (inverter.Snom becomes sum of the three panels)

Tilt1

Inclination of the first panel

Orientation1

Orientation of the first panel

Pnom2

MWp/kWp

Power of the second panel (inverter.Snom becomes sum of the three panels)

Tilt2

Inclination of the second panel

Orientation2

Orientation of the second panel

Pnom3

MWp/kWp

Power of the third panel (inverter.Snom becomes sum of the three panels)

Tilt3

Inclination of the third panel

Orientation3

Orientation of the third panel

Pcontrol

P-control (0,1)

Qcontrol

Q-control (0,1,2)

InverterSnom

MVA/kVA

Inverter.Snom

FailureFrequency

/yr

Failure rate

RepairDuration

min

Repair time

MaintenanceFrequency

/yr

Maintenance frequency

MaintenanceDuration

min

Maintenance duration

MaintenanceCutOffDuration

min

Maintenance interruption duration

Selected

Deleted

Bool, Bool1, Bool2

Free to use truth attribute

Real, Real1, Real2

Free to use number attribute

String, String1, String2

Free to use text attribute

Object, Object1, Object2

Free to use object attribute

Color

Color of the presentation at the active sheet

Name

Element name

ID (via specific with attribute "ID")

GUID

Live

Indicates whether element is present on active sheet

Alive

Indicates whether element is present and visible on active sheet

Sheets

Indicates which sheets element appears on

Selections

Selections in which the element appears

Note

Sort

Element type (SOURCE, SYNGEN, LOAD,...)

MainSort

Group

Group number

Direction

Direction number

Feeding

Food group number

Node

Node name to which element is connected

Field

Field name

Number

Number of asynchronous machines

Unom1

Unom2

Pnul

TapSide

TapSize

Stairway size

TapMin

Minimum step position control switch

TapNom

Nominal tap position control switch

TapMax

Maximum pedal position control switch

Behaviour

Load behaviour

Qmin

Mvar/kvar

Lower limit of reactive power produced

Qmax

Mvar/kvar

Upper limit of reactive power produced

Result

Result (NO / LF / IEC / FA / REL / PROT / SEL)

Calculated coupled voltage of the transformer load

Calculated phase voltage of the transformer load

P, Q, S, I

.W, .var, .VA, A

Active, reactive and apparent power and current flowing from a mains supply, generator or capacitor into the grid or from the grid into a load, motor or coil (after load flow)

Ploss

Active loss power

CosPhi

Power factor

Load rate

Load degree of an element

Ia, Ib, Ic

Subtransient short-circuit current per phase

Ia_ang, Ib_ang, Ic_ang

Angle of subtransient short-circuit current per phase

Istat

Selective

Selectively protected

/year

Non-availability frequency

min

Non-availability time

Breakdown probability

Pmy

min/year

Breakdown expectation

NDE

kWh/yr

Non-delivered energy

min/year

Major consumption disturbance minutes

min/year

Royally consumed minutes

min/year

Small consumer outage minutes

ProtResult

Derived results of a singlefault security calculation

ProtFaultResult

Primary results of a singlefault security calculation

Problem

Load degree problem after netets

Switches and protections

sw: Switch

fu: Fuse

br: Breaker

in: Indicator

mf: MeasureField

Attribute	sw	fu	br	in	mf	Type	Unit	Description
Specifics	*	*	*	*	*	T		Details
Failurefrequency	*		*			R	/year	Failure frequency
Repairduration	*		*			R	min	Repair time
Remotestatus			*			B		Brake notification
Remotecontrol	*		*			B		Remotecontrol
Refusechance			*			R		Refusechance
Refusing			*			B		Refusing
Current1					*	B		First current measuring transformer present
Current1_present			*			B		First current protection present
Current1_active			*			B		First current protection active
Current1_refusing			*			B		First current protection refusing
Current1_direction			*			I		Directionality (0: none; 1: branch in; -1: branch out)
Current1_RCA			*			R	°	Relay characteristic angle
Current1_info			*			T
Current2					*	B		Second current measuring transformer present
Current2_present			*			B		Second current protection present
Current2_active			*			B		Second current protection active
Current2_refusing			*			B		Second current protection refusing
Current2_direction			*			I		Directionality (0: none; 1: branch in; -1: branch out)
Current2_RCA			*			R	°	Relay characteristic angle
Current2_info			*			T
Earth1_present			*			B		First earth fault protection present
Earth1_active			*			B		First earth fault protection active
Earth1_refusing			*			B		First earth fault protection refusing
Earth1_direction			*			I		Directionality
Earth1_RCA			*			R	°	Relay characteristic angle
Earth1_info			*			T
Earth2_present			*			B		Second earth fault protection present
Earth2_active			*			B		Second earth fault protection active
Earth2_refusing			*			B		Second earth fault protection refusing
Earth2_direction			*			I		Directionality
Earth2_RCA			*			R	°	Relay characteristic angle
Earth2_info			*			T
Voltage					*	B		Voltage measurement transformer present
Voltage_present			*			B		Voltage protection present
Voltage_active			*			B		Voltage protection active
Voltage_refusing			*			B		Voltage protection refusing
Voltage_direction			*			I
Voltage_RCA			*			R
Voltage_info			*			T
Distance_present			*			B		Distance protection present
Distance_active			*			B		Distance protection active
Distance_refusing			*			B		Distance protection refusing
Distance_info			*			T
Differential_present			*			B		Differential protection present
Differential_active			*			B		Differential protection active
Differential_refusing			*			B		Differential protection refusing
Differential_info			*			T
Type	*	*	*			T		Type
PhaseCurrent				*		R	A	Phase current trigger value
EarthCurrent				*		R	A	Earth current trigger value
ResponseTime				*		R	s	Phase response time
RemoteStatus				*		B		Remote status notification
Current1_Function					*	T		Function of the first current measuring transformer
Current1_type			*			T		Current protection type 1
Current1_short type			*			T		Short type name
Current1_Inom			*		*	R	A	Rated current (read only at measuring field)
Current1_Sort			*			I		Type of tripping characteristic: 0: curve; 1: fixed time; 11: normal inverse; 12: very inverse; 13: extreme inverse; 14: long time inverse; 15: RI inverse; 21: special; 31: HV fuse; 32: FR fuse; 41: LSI
Current1_I>			*			R	A	Current for slow disconnection
Current1_t>			*			R	s	Time of slow trip
Current1_I>>			*			R	A	Current for medium cut-off
Current1_t>>			*			R	s	Time of medium cut-off
Current1_I>>			*			R	A	Current for rapid shutdown
Current1_t>>			*			R	s	Time of rapid shutdown
Current1_m			*			R
Current1_alpha			*			R
Current1_beta			*			R
Current1_c			*			R
Current1_d			*			R
Current1_e			*			R	s
Current1_Tinput			*			R	s	Pick-up time
Current1_Toutput			*			R	s
Current2_Function					*	T		Function of the second current measuring transformer
Current2_????			*					20 above for the second current transformer
Earth1_????			*					20 above for the first earth fault protection
Earth2_????			*					20 above for the second earth fault protection
Voltage_Function					*	T		Function of voltage measuring transformer
Voltage_type			*			T		Voltage protection type
Voltage_short type			*			T
Voltage_Tinput			*			R	s
Voltage_Toutput			*			R	s
Voltage_U<			*			R	kV
Voltage_U<<			*			R	kV
Voltage_U>			*			R	kV
Voltage_U>>			*			R	kV
Distance_type			*			T		Distance protection type
Distance_short type			*			T
Distance_Tinput			*			R	s
Distance_Toutput			*			R	s
Distance_Ie>			*			R	A
Distance_I>			*			R	A
Distance_U<			*			R	kV
Distance_Z<			*			R	Ohm
Distance_Kn			*			R
Distance_Kn_angle			*			R	°
Differential_type			*			T
Differential_Tinput			*			R	s
Differential_Toutput			*			R	s
Differential_sort			*			I
Differential_dI>			*			R	A	Differential current for slow turn-off
Differential_t>			*			R	s	Time for slow turn-off
Differential_dI>>			*			R	A	Differential current for fast turn-off
Differential_t>>			*			R	s	Time for rapid turn-off
Current3					*	B		Current measuring transformer present
Current3_Inom					*	R	A	Rated current
Current3_Function					*	T		Function of the third current measuring transformer
Selected	*	*	*	*	*	B		Selected
Deleted	*	*	*	*	*	B		Deleted
Bool, Bool1, Bool2	*	*	*	*	*	B		Free to use truth attribute
Real, Real1, Real2	*	*	*	*	*	R		Free to use number attribute
String, String1, String2	*	*	*	*	*	T		Free to use text attribute
Object, Object1, Object2	*	*	*	*	*	O		Free to use object attribute
GUID	*	*	*	*	*	G		GUID
Name	*	*	*	*	*	T		Switch name
Color	*	*	*	*	*	I		Color of the presentation at the active sheet
ID	*	*	*	*	*	T		ID (via specific with attribute "ID")
Live	*	*	*	*	*	B		Indicates whether switch is present on active leaf
Alive	*	*	*	*	*	B		Indicates whether switch is present and visible on active sheet
Sheets	*	*	*	*	*	T		Indicates on which sheets switch occurs
Selections	*	*	*	*	*	T		Selections in which the switch occurs
Note	*	*	*	*	*	T		Note
Mainsort	*	*	*	*	*	I		4
Sort	*	*	*	*	*	T		Type of switch (BREAKER, SWITCH, FUSE,...)
Group	*	*	*	*	*	I		Group number
Direction	*	*	*	*	*	I		Direction number
Feeding	*	*	*	*	*	I		Supply group number
Node	*	*	*	*	*	T		Node name where near switch is located
ToNode	*	*	*	*	*	T		Node name on the other side of the branch
In	*	*	*	*	*	T		Branch or element name in which switch is included
Node object	*	*	*	*	*	O		Node where near switch is located
ToNodeObject	*	*	*	*	*	O		Node on the other side of the branch
Inobject	*	*	*	*	*	O		Branch or element containing switch
Side	*	*	*	*	*	I		Side in branch where switch is located
Field	*	*	*	*	*	T		Field name
Shorttype		*	*			T		Short type name
Unom		*	*			R	kV	Rated voltage
Inom		*	*			R	A	Rated current
Threephase		*				B		Fuse switches three phases simultaneously
Switchtime			*			R	s
Transfers			*			T		Enumeration of protection index + transfer switch number
Reserves			*			T		Enumeration of reserve switch number
Blockers			*			T		Enumeration of protection index+blocker switch number+blocker protection index
Imake	*		*			R	kA
Ibreak			*			R	KA
Ikdynamic	*		*			R	kA
Ikthermic	*		*			R	kA
Tthermic	*		*			R	s
Result	*	*	*	*	*	T		Result (NO / PROT)
ProtResult	*	*	*	*	*	T		Derived results of a security calculation
Current1_Triggered_a			*			B		Triggered in phase a
Current1_Triggered_a			*			R		Trigger value in phase a
Current1_Trigger_dt_a			*			R	s	Associated time in phase a
Current1_TriggerZone_a			*			R		Associated zone in phase a
Current1_Tripped_a			*			B		Tripped in phase a
Current1_Ttripped_a			*			R	s	Tripped time in phase a
Current1_TrippedZone_a			*			R		Associated zone in phase a
Current2_Triggered_a			*			B
Current2_Trigger_a			*			R
Current2_Trigger_dt_a			*			R
Current2_TriggerZone_a			*			R
Current2_Tripped_a			*			B
Current2_Ttripped_a			*			R
Current2_TrippedZone_a			*			R
Earth1_Triggered_a			*			B
Earth1_Trigger_a			*			R		All also for _b and _c
Earth1_Trigger_dt_a			*			R
Earth1_TriggerZone_a			*			R
Earth1_Tripped_a			*			B
Earth1_Ttripped_a			*			R
Earth1_TrippedZone_a			*			R
Earth2_Triggered_a			*			B
Earth2_Trigger_a			*			R
Earth2_Trigger_dt_a			*			R
Earth2_TriggerZone_a			*			R
Earth2_Tripped_a			*			B
Earth2_Ttripped_a			*			R
Earth2_TrippedZone_a			*			R
Voltage_Triggered_a			*			B
Voltage_Trigger_a			*			R
Voltage_Trigger_dt_a			*			R
Voltage_TriggerZone_a			*			R
Voltage_Tripped_a			*			B
Voltage_Ttripped_a			*			R
Voltage_TrippedZone_a			*			R
Distance_Triggered_a			*			B
Distance_Trigger_a			*			R
Distance_Trigger_dt_a			*			R
Distance_TriggerZone_a			*			R
Distance_Tripped_a			*			B
Distance_Ttripped_a			*			R
Distance_TrippedZone_a			*			R
Differential_Triggered_a			*			B
Differential_Trigger_a			*			R
Differential_Trigger_dt_a			*			R
Differential_TriggerZone_a			*			R
Differential_Tripped_a			*			B
Differential_Ttripped_a			*			R
Differential_TrippedZone_a			*			R
Tripped_a		*				B		Tripped in phase a
Tripped_b		*				B		Tripped in phase b
Tripped_c		*				B		Tripped in phase c
Ttripped_a		*				R	s	Trip time in phase a
Ttripped_b		*				R	s	Trip time in phase b
Ttripped_c		*				R	s	Trip time in phase c
Off_a		*	*			B		Phase a switched off
Off_b		*	*			B		Phase b switched off
Off_c		*	*			B		Phase c disconnected
Problem	*	*	*	*	*	B		Load degree problem after netets

LoadBehaviour

Attribute	Type	Unit	Description
ConstantP	R	%	Percentage constant active power
ConstantQ	R	%	Percentage of constant reactive power
GUID	G		GUID
Name	T		Name
Mainsort	I		-1
Sort	T		LOADBEHAVIOUR

Growth

Attribute	Type	Unit	Description
Scaling0 ... Scaling30	R		Scaling factor in relevant year
Growth1 ... Growth30	R	%/year	Growth in relevant year
GUID	G		GUID
Name	T		Name
Mainsort	I		-1
Sort	T		GROWTH
GrowthSort	I		Exponential (0) or linear (1)

Variant

Attribute	Type	Unit	Description
Name	T		Variant name
Mainsort	I		-1
Sort	T		VARIANT
Description	T		Description
Message	T		Message
Scenarios	T		Coupled scenario's
Active	B		Active

Scenario

Attribute	Type	Unit	Description
Name	T		Name of the scenario
Mainsort	I		-1
Sort	T		SCENARIO
Description	T		Description
Message	T		Message
Variants	T		Coupled variants
Active	B		Active

Selection

Attribute	Type	Unit	Description
Name	T		Name of selection
Mainsort	I		-1
Sort	T		SELECTION
#Objects	I		Number of objects in the selection

Sheet

Attribute	Type	Unit	Description
Name	T		Sheet name
GUID	G		GUID
Mainsort	I		-1
Sort	T		SHEET
Comment	T		Comment
Colour	I		Background colour

Profile

Attribuut	Type	Eenheid	Omschrijving
Name	T		Profile name
GUID	G		GUID
Mainsort	I		-1
Sort	T		PROFILE
Type	T		Type name
Typesort	I		Sort of type

Macro object types and associated attributes that may or may not be modified

Macro object types and associated attributes that may or may not be modified