11.3 OLX/ADX DATA FIELDS DESCRIPTION

The following table shows details of OLX/ADX data fields.

Object type	Field Name	Label	Description
BUS	OLNETID		OLNETFIELD
BUS	TERMNAME1		OLNETFIELD
BUS	TERMKV1		OLNETFIELD
BUS	TERMBNO1		OLNETFIELD
BUS	TERMGUID1		OLNETFIELD
BUS	OBJGUID		OLNETFIELD
BUS	BS_HIDEID	Hide ID flag	Hide ID on 1-line flag. 0: false; 1: true
BUS	BS_MIDPOINT	Xfmr mid point flag	0 if it is a regular bus. 1 if it is a midpoint of a 3-winding transformer represented as T-equivalent.
BUS	BS_SLACK	Slack bus flag	Slack bus flag. 0: false; 1: true;
BUS	BS_TAP	Tap bus flag	Tap bus flag. 0 if it is a regular bus; 1 if it is a tap bus at the junction of two line sections; 2 if it is the middle node of a 3-terminal line.
BUS	BS_AREANO	Area	Area number of the area in which bus resides. The area number must be in the range 0-9999, inclusive. The default value is 1
BUS	BS_ZONENO	Zone	Zone number of the zone in which bus resides. The zone number must be in the range 0-9999, inclusive. The default value is 1.
BUS	BS_SUBGRP	DistriView Substation group	Substation group number for this bus. The default value is 0.
BUS	BS_KV	Nominal kV	Nominal, line-to-line, voltage of the bus in kV.
BUS	BS_NO	Number	Numerical identifier for the bus. Each bus may be assigned a number between 0 and 999999, inclusive. The bus number is optional. However, if the bus number is not 0, it must be unique.
BUS	BS_VR	Power flow V-real	Real part of the bus voltage from a power flow solution, in per-unit.
BUS	BS_VI	Power flow V-imag	Imaginary part of the bus voltage from a power flow solution, in per-unit.
BUS	BS_SPCX	SPC X	State-plane coordinate. This is a floating-point number. The X coordinate is assumed to increase in the “right” direction.
BUS	BS_SPCY	SPC Y	State-plane coordinate. This is a floating-point number. The Y coordinate is assumed to increase in the “up” direction.
BUS	BS_JRNL	Creation and modification log records	Creation and modification log records
BUS	BS_NAME	Name	Name of the bus, left justified, with a maximum of 16 characters. Any alpha-numeric characters can be used, except for ‘#’ , ‘$’ and the string delimiter (single or double quotation mark). The bus name is enclosed in quotation marks.
BUS	BS_LOCATION	Location	Location name for bus, maximum of 24 characters. The default value is first 8 characters of bus name.
BUS	BS_COMMENT	Memo	Comments. Any alpha-numeric characters can be used, except for the string delimiter (single or double quotation mark).
BUS	BS_TAGS	Tags	Tag string. Tags in string are separated by semicolon. Any alpha-numeric characters can be used, except for the string delimiter (single or double quotation mark).
BUS	BS_UDFS	User defined fields	User-defined data field with name xxx
BUS	BS_GUID	GUID	Object GUID

LINE	OLNETID		OLNETFIELD
LINE	TERMNAME1		OLNETFIELD
LINE	TERMKV1		OLNETFIELD
LINE	TERMBNO1		OLNETFIELD
LINE	TERMGUID1		OLNETFIELD
LINE	TERMNAME2		OLNETFIELD
LINE	TERMKV2		OLNETFIELD
LINE	TERMBNO2		OLNETFIELD
LINE	TERMGUID2		OLNETFIELD
LINE	OBJGUID		OLNETFIELD
LINE	CKTID		OLNETFIELD
LINE	LN_FLAG	In-service flag	In-service flag. 1 if the branch is in-service; 2 if it is not. The default value is 1.
LINE	LN_TIE	Metered end flag	Area load flow interchange metering flag. 1 if power flow is metered at Bus1. 2 if it is metered at Bus2. 0 if the line is in a single area;
LINE	LN_R	R	Positive-sequence series resistance in per unit. The same value is used for the negative sequence.
LINE	LN_X	X	Positive-sequence series reactance in per unit. X must be negative for a series capacitor. The same value is used for the negative sequence. R and X cannot both be zero.
LINE	LN_R0	R0	Zero-sequence series resistance in per unit.
LINE	LN_X0	X0	Zero-sequence series reactance in per unit. Xo must be negative for a series capacitor. Ro and Xo cannot both be zero.
LINE	LN_G1	G1	Positive-sequence shunt conductance on the Bus1 side, in per unit. The same value is used for the negative sequence. The default value is 0.0.
LINE	LN_B1	B1	Positive-sequence shunt susceptance on the Bus1 side, in per unit. The same value is used for the negative sequence. The default value is 0.0.
LINE	LN_G10	G10	Zero-sequence shunt conductance on the Bus1 side, in per unit. The default value is G1.
LINE	LN_B10	B10	Zero-sequence shunt susceptance on the Bus1 side, in per unit. The default value is B1.
LINE	LN_G2	G2	Positive-sequence shunt conductance on the Bus2 side, in per unit. The same value is used for the negative sequence. G2 can be different from G1, but unbalanced lines cannot be mutually coupled. The default value is G1.
LINE	LN_B2	B2	Positive-sequence shunt susceptance on the Bus2 side, in per unit. The same value is used for the negative sequence. B2 can be different from B1, but unbalanced lines cannot be mutually coupled. The default value is B1.
LINE	LN_G20	G20	Zero-sequence shunt conductance on the Bus2 side, in per unit. The default value is G10.
LINE	LN_B20	B20	Zero-sequence shunt susceptance on the Bus2 side, in per unit. The default value is B10.
LINE	LN_RATG1	Rating 1	Current rating 1 in ampere. The default value is 0.0.
LINE	LN_RATG2	Rating 2	Current rating 2 in ampere. The default value is 0.0.
LINE	LN_RATG3	Rating 3	Current rating 3 in ampere. The default value is 0.0.
LINE	LN_RATG4	Rating 4	Current rating 4 in ampere. The default value is 0.0.
LINE	LN_LN	Length	Physical length of transmission line. This value is required when the Type Name is not blank. The default value is 0.0.
LINE	LN_I2T	I2T rating	I^2T rating of line in ampere^2 Sec.
LINE	LN_DATEON	In-service date	In-service date. Must be in the format YYYY/MM/DD. Set to N/A if not available.
LINE	LN_DATEOFF	Out-of-service date	Out-of-service date. Must be in the format YYYY/MM/DD. Set to N/A if not available.
LINE	LN_JRNL	Creation and modification log records	Creation and modification log records
LINE	LN_NAME	Name	A 24-character name for the line. The branch name is blank by default.
LINE	LN_TYPE	Type	A 12-character name for the configuration type used to calculate the electrical parameters for the transmission line. The type name is enclosed in quotation marks. The type name, if not blank, must match one of the type names in the ASPEN Line Table File, ASPEN.LTB. The type name is blank by default.
LINE	LN_UNIT	Length unit	Unit of length for transmission line, enclosed in quotation marks. It is required when the Type Name is not blank. The unit of length must be one of the following: kt (for 1000 feet), ft, mi, m or km.
LINE	LN_CID	Circuit ID	A two-character circuit identifier. Parallel branches must have different circuit identifiers
LINE	LN_COMMENT	Memo	Comments. Any alpha-numeric characters can be used, except for the string delimiter (single or double quotation mark)
LINE	LN_TAGS	Tags	Tag string. Tags in string are separated by semicolon. Any alpha-numeric characters can be used, except for the string delimiter (single or double quotation mark)
LINE	LN_UDFS	User defined fields	User-defined data field with name xxx
LINE	LN_GUID	GUID	Object GUID

SERIESRC	OLNETID		OLNETFIELD
SERIESRC	TERMNAME1		OLNETFIELD
SERIESRC	TERMKV1		OLNETFIELD
SERIESRC	TERMBNO1		OLNETFIELD
SERIESRC	TERMGUID1		OLNETFIELD
SERIESRC	TERMNAME2		OLNETFIELD
SERIESRC	TERMKV2		OLNETFIELD
SERIESRC	TERMBNO2		OLNETFIELD
SERIESRC	TERMGUID2		OLNETFIELD
SERIESRC	OBJGUID		OLNETFIELD
SERIESRC	CKTID		OLNETFIELD
SERIESRC	SS_FLAG	In-service flag	In-service flag. 1 if the branch is in-service; 2 if it is not. The default value is 1.
SERIESRC	SS_SCOMP	Bypass flag	Bypass flag: 1 for in-service series capacitor/reactor; 2 for bypassed series capacitor/reactor.
SERIESRC	SS_R	R	Positive-sequence series resistance in per unit. The same value is used for the negative sequence and zero sequence.
SERIESRC	SS_X	X	Positive-sequence series reactance in per unit. X must be negative for a series capacitor. The same value is used for the negative sequence and zero sequence. R and X cannot both be zero.
SERIESRC	SS_IPR	Protective level current	MOV protected level current: For series capacitor, enter the protected level current of the MOV in kA, which must be positive.
SERIESRC	SS_DATEON	In-service date	In-service date. Must be in the format YYYY/MM/DD. Set to N/A if not available.
SERIESRC	SS_DATEOFF	Out-of-service date	Out-of-service date. Must be in the format YYYY/MM/DD. Set to N/A if not available.
SERIESRC	SS_JRNL	Creation and modification log records	Creation and modification log records
SERIESRC	SS_NAME	Name	A 24-character name for the line. The branch name is blank by default.
SERIESRC	SS_CID	Circuit ID	A two-character circuit identifier. Parallel branches must have different circuit identifiers
SERIESRC	SS_COMMENT	Memo	Comments. Any alpha-numeric characters can be used, except for the string delimiter (single or double quotation mark)
SERIESRC	SS_TAGS	Tags	Tag string. Tags in string are separated by semicolon. Any alpha-numeric characters can be used, except for the string delimiter (single or double quotation mark)
SERIESRC	SS_UDFS	User defined fields	User-defined data field with name xxx
SERIESRC	SS_GUID	GUID	Object GUID

GEN	OLNETID		OLNETFIELD
GEN	TERMNAME1		OLNETFIELD
GEN	TERMKV1		OLNETFIELD
GEN	TERMBNO1		OLNETFIELD
GEN	TERMGUID1		OLNETFIELD
GEN	OBJGUID		OLNETFIELD
GEN	GN_FLAG	In-service flag	In-service flag. 1 if the branch is in-service; 2 if it is not. The default value is 1.
GEN	GN_REG	Regulation	0 if the generator regulates voltage. 1 if the generator has fixed MW and MVAR output. 2 if the generator is on the system slack bus. The default type is 0.
GEN	GN_CNTBS	Controlled bus	The ID string of the bus whose voltage magnitude is to be regulated by the generator. The ID string can be in either of the two format: {GUID} or 'NAME' KV (The regulated bus name is enclosed in quotation marks). The default name is the local bus name. In most cases, the generator regulates the voltage at its own terminal. If the generator regulates the voltage at another bus, the bus being regulated must be a load bus.
GEN	GN_REFANGLE	V-source angle	The angle of the voltage source in the generator model. This angle and the open-circuit voltage GN_REFV are used in solving the network to obtain prefault voltage at all buses when the OneLiner fault simulation option of "From linear network solution" is selected. The default value is 0.0.
GEN	GN_SCHEDV	Scheduled V	Scheduled voltage magnitude in per-unit. This value is used only if the generator is regulating voltage. The default value is 1.0.
GEN	GN_REFV	V-source mag	The magnitude of the voltage source in the generator model.
GEN	GN_ILIMIT1	Current limit 1	Maximum phase current output during a fault, in amperes.
GEN	GN_ILIMIT2	Current limit 2	Maximum phase current output during a fault, in amperes.
GEN	GN_JRNL	Creation and modification log records	Creation and modification log records
GEN	GN_COMMENT	Memo	Comments. Any alpha-numeric characters can be used, except for the string delimiter (single or double quotation mark)
GEN	GN_TAGS	Tags	Tag string. Tags in string are separated by semicolon. Any alpha-numeric characters can be used, except for the string delimiter (single or double quotation mark)
GEN	GN_UDFS	User defined fields	User-defined data field with name xxx
GEN	GN_GUID	GUID	Object GUID

GENUNIT	OLNETID		OLNETFIELD
GENUNIT	TERMNAME1		OLNETFIELD
GENUNIT	TERMKV1		OLNETFIELD
GENUNIT	TERMBNO1		OLNETFIELD
GENUNIT	TERMGUID1		OLNETFIELD
GENUNIT	OBJGUID		OLNETFIELD
GENUNIT	PGUID1		OLNETFIELD
GENUNIT	SID		OLNETFIELD
GENUNIT	GU_FLAG	In-service flag	1 if the unit is in-service; 2 if it is not. The default value is 1.
GENUNIT	GU_R	R sub-trans.	The subtransient resistance (per-unit on generator base) in the positive-sequence generator model.
GENUNIT	GU_X	X sub-trans.	The subtransient reactance (per-unit on generator base) in the positive-sequence generator model. R” and X” cannot both be zero.
GENUNIT	GU_R0	R0	The internal resistance (per-unit on generator base) in the zero-sequence generator model.
GENUNIT	GU_X0	X0	The internal reactance base) in the zero-sequence generator model.
GENUNIT	GU_RG	RG	Resistive component of neutral impedance in ohms (do not multiply by 3). The default value is 0.0.
GENUNIT	GU_XG	XG	Reactive (do not multiply by 3). The default value is 0.0.
GENUNIT	GU_SCHEDP	Scheduled P	Scheduled MW output. The default value is 0.0.
GENUNIT	GU_SCHEDQ	Scheduled Q	Scheduled MVAR output. This value is used only if the generator has fixed MW and MVAR output (specified in the Bus Regulation Section). The default value is 0.0.
GENUNIT	GU_PMIN	Min P	Minimum MW output. The default value is -9999.0.
GENUNIT	GU_PMAX	Max P	The maximum MW output. The default value is 9999.0. The MW limits are not used in this version of the program, but they will be used to limit the output of the system and area slack generators in future versions.
GENUNIT	GU_QMIN	Min Q	Minimum MVAR output. The default value is -9999.
GENUNIT	GU_QMAX	Max Q	Maximum MVAR output. The default value is 9999.0. The MVAR limits are used only if the generator is regulating voltage.
GENUNIT	GU_MVARATE	MVA rating	MVA rating of the generating unit. The default value is the system MVA.
GENUNIT	GU_R2	R2	The internal resistance (per-unit on generator base) in the negative-sequence generator model.
GENUNIT	GU_X2	X2	The internal reactance base) in the negative-sequence generator model.
GENUNIT	GU_RT	R transient	The transient resistance (per-unit on generator base) in the positive-sequence generator model.
GENUNIT	GU_XT	X transient	The transient reactance (per-unit on generator base) in the positive-sequence generator model. R and X cannot both be zero.
GENUNIT	GU_RS	R synch.	The synchronous resistance (per-unit on generator base) in the positive-sequence generator model.
GENUNIT	GU_XS	X synch.	The synchronous reactance (per-unit on generator base) in the positive-sequence generator model. R and X cannot both be zero.
GENUNIT	GU_DATEON	In-service date	In-service date. Must be in the format YYYY/MM/DD. Set to N/A if not available.
GENUNIT	GU_DATEOFF	Out-of-service date	Out-of-service date. Must be in the format YYYY/MM/DD. Set to N/A if not available.
GENUNIT	GU_CID	Unit ID	A 2-character identifier used to differentiate between multiple generating units on the same bus. The identifier is enclosed in quotation marks.
GENUNIT	GU_TAGS	Tags	Tag string. Tags in string are separated by semicolon. Any alpha-numeric characters can be used, except for the string delimiter (single or double quotation mark)
GENUNIT	GU_GUID	GUID	Object GUID
GENUNIT	GU_UDFS	User defined fields	User-defined data field with name xxx

AREA	SID		OLNETFIELD
AREA	OBJGUID		OLNETFIELD
AREA	AR_SLACK	Area slack bus	Area slack bus ID string. The program will adjust the MW output of this generator to enforce the net-export constraint. The area slack bus name is blank by default.
AREA	AR_NO	Number	Area number ranging from 0 to 9999, inclusive.
AREA	AR_MWEXPT	Net export MW	Net MW export target. A positive value means power is shipped out of the area through tie lines. A negative value means power is imported from another area. The default value is 0.0.
AREA	AR_TOLERANCE	MW export tolerance	Export target tolerance. Must be greater than zero. The default value is 10.0.
AREA	AR_NAME	Name	Name of the area with a maximum of 12 characters. Any alphanumeric characters can be used, except for the string delimiter (single or double quotation mark)
AREA	AR_UDFS	User defined fields	User-defined data field with name xxx
AREA	AR_GUID	GUID	Object GUID

ZONE	SID		OLNETFIELD
ZONE	OBJGUID		OLNETFIELD
ZONE	ZN_NO	Number	Zone number ranging from 0 to 9999, inclusive.
ZONE	ZN_NAME	Name	Name of the zone with a maximum of 12 characters. Any alphanumeric characters can be used, except for the string delimiter (single or double quotation mark)
ZONE	ZN_UDFS	User defined fields	User-defined data field with name xxx
ZONE	ZN_GUID	GUID	Object GUID

XFMR	OLNETID		OLNETFIELD
XFMR	TERMNAME1		OLNETFIELD
XFMR	TERMKV1		OLNETFIELD
XFMR	TERMBNO1		OLNETFIELD
XFMR	TERMGUID1		OLNETFIELD
XFMR	TERMNAME2		OLNETFIELD
XFMR	TERMKV2		OLNETFIELD
XFMR	TERMBNO2		OLNETFIELD
XFMR	TERMGUID2		OLNETFIELD
XFMR	OBJGUID		OLNETFIELD
XFMR	CKTID		OLNETFIELD
XFMR	FX_FLAG	In-service flag	In-service flag. 1 if the branch is in-service; 2 if it is not. The default value is 1.
XFMR	FX_TIE	Metered end	Area load flow interchange metering flag. 1 if power flow is metered at Bus1. 2 if it is metered at Bus2. 0 if the transformer is in a single area;
XFMR	FX_CONFIGP	Winding P	Bus 1 side winding type. ‘G’ if wye connected, ‘D’ if delta connected, and ‘Z’ for a zigzag winding. The default is ‘G’. 1. Wye-Wye: Winding configuration=’GG’; test configuration=’GG’, Auto flag=0. 2. Auto-Wye: Winding configuration=’GG’; test configuration=’GG’, Auto flag=1. 3. Wye-Delta, delta lags: Winding configuration=’GD’; test configuration=’GD’, Auto flag=0. 4. Wye-Delta, delta leads: Winding configuration=’GE’; test configuration=’GD’, Auto flag=0. 5. Delta-Delta: Winding configuration=’DD’; test configuration=’GG’, Auto flag=0. 6. Delta-Zigzag: Winding configuration=’ZD’; test configuration=’ZD’, Auto flag=0. 7. Wye-Zigzag, wye leads: Winding configuration=’ZG’; test configuration=’ZG’, Auto flag=0. 8. Wye-Zigzag, wye lags: Winding configuration=’ZX’; test configuration=’ZX’, Auto flag=0.
XFMR	FX_CONFIGS	Winding S	Bus 2 side winding type. ‘G’ or ‘X’ if wye connected, ‘D’ if delta connected and the delta is lagging the wye winding, or ‘E’ if delta connected and the delta is leading. See table in FX_PRITAP.
XFMR	FX_CONFIGST	Winding S in test
XFMR	FX_AUTOX	Auto transformer flag	Auto transformer flag. 1 if the transformer is an auto-transformer; 0 if it is not. An auto-transformer is assumed to be wye-connected.
XFMR	FX_RG1	RG1	Grounding reactance on Bus1 winding in ohms. Meaningful only if the Bus1 winding configuration is G or Z.
XFMR	FX_XG1	XG1	Grounding resistance on Bus1 winding in ohms. Meaningful only if the Bus1 winding configuration is G or Z.
XFMR	FX_RG2	RG2	Grounding resistance on Bus2 winding in ohms. Meaningful only for wye-wye transformer.
XFMR	FX_XG2	XG2	Grounding reactance on Bus2 winding in ohms. Meaningful only for wye-wye transformer.
XFMR	FX_PRITAP	P tap kV	The Bus1 winding tap voltage in kV, line-to-line. The default is the nominal kV of Bus1
XFMR	FX_SECTAP	S tap kV	The Bus2 winding tap voltage in kV, line-to-line. The default is the nominal kV of Bus2
XFMR	FX_RGN	RGN	Grounding reactance in ohms. Meaningful only for wye-wye transformer.
XFMR	FX_XGN	XGN	Grounding resistance in ohms. Meaningful only for wye-wye transformer.
XFMR	FX_MVA1	MVA rating 1	Rating 1. Three-phase MVA rating of transformer. Default value is 0.0.
XFMR	FX_MVA2	MVA rating 2	Rating 2. Three-phase MVA rating of transformer. Default value is 0.0.
XFMR	FX_MVA3	MVA rating 3	Rating 3. Three-phase MVA rating of transformer. Default value is 0.0.
XFMR	FX_R	R	Real part of the positive-sequence short-circuit impedance measured at the Bus1 terminal with the Bus2 terminal short circuited. The same value is used in the negative-sequence model. R and X are in per-unit based on transformer’s own MVA base and the tap voltages.
XFMR	FX_X	X	Imaginary part of the positive-sequence short-circuit impedance measured at the Bus1 terminal with the Bus2 terminal short circuited. The same value is used in the negative-sequence model. R and X cannot both be zero.
XFMR	FX_R0	R0	Real part of the zero-sequence short-circuit impedance measured at the Bus1 terminal with the Bus2 terminal short circuited.
XFMR	FX_X0	X0	Imaginary part of the zero-sequence short-circuit impedance measured at the Bus1 terminal with the Bus2 terminal short circuited.
XFMR	FX_B	B	Positive-sequence susceptance (in per-unit on transformer’s own MVA base and tap voltages). The same value is used in the negative-sequence model. B must be zero or negative.
XFMR	FX_B0	B0	Same meaning as B, except B0 is for the zero sequence.
XFMR	FX_G1	G1	Positive-sequence conductance in per unit of the line shunt on the Bus1 side. The default value is 0.0.
XFMR	FX_B1	B1	Positive-sequence susceptance of the line shunt on the Bus1 side. All line-shunt admittances are based on the system MVA base and the nominal kV of the branch terminals. The default value is 0.0.
XFMR	FX_G2	G2	Positive-sequence conductance in per unit of the line shunt on the Bus2 side. The default value is 0.0.
XFMR	FX_B2	B2	Positive-sequence susceptance of the line shunt on the Bus2 side. All line-shunt admittances are based on the system MVA base and the nominal kV of the branch terminals. The default value is 0.0.
XFMR	FX_G10	G10	Zero-sequence susceptance in per unit of the line shunt on the Bus1 side. The default value is 0.0.
XFMR	FX_B10	B10	Zero-sequence conductance of the line shunt on the Bus1 side. All line-shunt admittances are based on the system MVA base and the nominal kV of the branch terminals. The default value is 0.0.
XFMR	FX_G20	G20	Zero-sequence conductance in per unit of the line shunt on the Bus2 side. The default value is 0.0.
XFMR	FX_B20	B20	Zero-sequence susceptance of the line shunt on the Bus2 side. All line-shunt admittances are based on the system MVA base and the nominal kV of the branch terminals. The default value is 0.0.
XFMR	FX_BASEMVA	Base MVA	Per-unit base MVA. With the exception of the line shunts, all the transformer impedances and admittances are based on this MVA base. The default is the system MVA base.
XFMR	FX_DATEON	In-service date	In-service date. Must be in the format YYYY/MM/DD. Set to N/A if not available.
XFMR	FX_DATEOFF	Out-of-service date	Out-of-service date. Must be in the format YYYY/MM/DD. Set to N/A if not available.
XFMR	FX_JRNL	Creation and modification log records	Creation and modification log records
XFMR	FX_NAME	Name	A 12-character name for the transformer. The branch name is blank by default.
XFMR	FX_CID	Ckt. ID	Circuit ID. A 2-character circuit identifier in quotation marks. Parallel transformers must have different circuit identifiers.
XFMR	FX_COMMENT	Memo	Comments. Any alpha-numeric characters can be used, except for the string delimiter (single or double quotation mark)
XFMR	FX_TAGS	Tags	Tag string. Tags in string are separated by semicolon. Any alpha-numeric characters can be used, except for the string delimiter (single or double quotation mark)
XFMR	FX_UDFS	User defined fields	User-defined data field with name xxx
XFMR	FX_GUID	GUID	Object GUID

LTC	OLNETID		OLNETFIELD. All OLNETFIELDS are that of the host transformer
LTC	TERMNAME1		OLNETFIELD
LTC	TERMKV1		OLNETFIELD
LTC	TERMBNO1		OLNETFIELD
LTC	TERMGUID1		OLNETFIELD
LTC	TERMNAME2		OLNETFIELD
LTC	TERMKV2		OLNETFIELD
LTC	TERMBNO2		OLNETFIELD
LTC	TERMGUID2		OLNETFIELD
LTC	OBJGUID		OLNETFIELD
LTC	CKTID		OLNETFIELD
LTC	LT_GANGED	Ganged flag	LTC Ganged Flag. 1 if this LTC moves in unison with other LTCs that control the same bus voltage. 0 otherwise.
LTC	LT_PRIORITY	Priority level	LTC Adjustment Priority. 0 if ‘normal’, 1 if ‘medium’, and 2 if ‘high’.
LTC	LT_LTCSIDE	Side	LTC Side: 0 if the transformer does not have a movable tap or if the tap is locked. 1 if the movable tap is at the Bus1 side. 2 if the movable tap is at the Bus2 side.
LTC	LT_LTCTYPE	Type	LTC Type: 0 if the LTC regulates the voltage magnitude. 1 if the LTC regulates the MVAR flow. The MVAR regulation has not been implemented in the current version.
LTC	LT_LTCCTRL	Controlled bus	Regulated Bus. ID string of the kV of the bus whose voltage magnitude is to be regulated by the LTC
LTC	LT_MINTAP	Min tap	Minimum Tap: Minimum tap voltage in per-unit. The default is 0.51.
LTC	LT_MAXTAP	Max tap	Maximum tap voltage in per-unit. The default is 1.50.
LTC	LT_LTCSTEP	Step	Step Size: The tap increment in per-unit. Specify 0.0 if the tap is continuous. The default is 0.00625.
LTC	LT_MINVW	Limit low	The minimum per-unit voltage or the minimum MVAR flow. The default is 0.51.
LTC	LT_MAXVW	Limit high	The maximum per-unit voltage or the maximum MVAR flow. The default is 1.05
LTC	LT_LTCCENTER	Center tap	LTC center tap kV. Load tap changer center position in kV.
LTC	LT_GUID	Transformer GUID	Host transformer GUID

XFMR3	OLNETID		OLNETFIELD
XFMR3	TERMNAME1		OLNETFIELD
XFMR3	TERMKV1		OLNETFIELD
XFMR3	TERMBNO1		OLNETFIELD
XFMR3	TERMGUID1		OLNETFIELD
XFMR3	TERMNAME2		OLNETFIELD
XFMR3	TERMKV2		OLNETFIELD
XFMR3	TERMBNO2		OLNETFIELD
XFMR3	TERMGUID2		OLNETFIELD
XFMR3	TERMNAME3		OLNETFIELD
XFMR3	TERMKV3		OLNETFIELD
XFMR3	TERMBNO3		OLNETFIELD
XFMR3	TERMGUID3		OLNETFIELD
XFMR3	OBJGUID		OLNETFIELD
XFMR3	CKTID		OLNETFIELD
XFMR3	TX_FLAG	In-service flag
XFMR3	TX_CONFIGP	Winding P
XFMR3	TX_CONFIGS	Winding S
XFMR3	TX_CONFIGT	Winding T
XFMR3	TX_CONFIGST	Winding S in test
XFMR3	TX_CONFIGTT	Winding T in test
XFMR3	TX_AUTOX	Auto xfmr flag	Auto transformer flag. 1 if the transformer is an auto-transformer; 0 if it is not. An auto-transformer is assumed to be wye-connected.
XFMR3	TX_Z0METHOD	Zero seq. flag
XFMR3	TX_RG1	RG1
XFMR3	TX_XG1	XG1
XFMR3	TX_RG2	RG2
XFMR3	TX_XG2	XG2
XFMR3	TX_RG3	RG3
XFMR3	TX_XG3	XG3
XFMR3	TX_PRITAP	Tap P
XFMR3	TX_SECTAP	Tap S
XFMR3	TX_TERTAP	Tap T
XFMR3	TX_RGN	RGN
XFMR3	TX_XGN	XGN
XFMR3	TX_FICTBUSNO	MVA1
XFMR3	TX_MVA1	MVA1
XFMR3	TX_MVA2	MVA2
XFMR3	TX_MVA3	MVA3
XFMR3	TX_RPS	FRPS
XFMR3	TX_XPS	FXPS
XFMR3	TX_RPS0	FRPS0
XFMR3	TX_XPS0	FXPS0
XFMR3	TX_RPT	FRPT
XFMR3	TX_XPT	FXPT
XFMR3	TX_RPT0	FRPT0
XFMR3	TX_XPT0	FXPT0
XFMR3	TX_RST	FRST
XFMR3	TX_XST	FXST
XFMR3	TX_RST0	FRST0
XFMR3	TX_XST0	FXST0
XFMR3	TX_B	FB
XFMR3	TX_B0	FB0
XFMR3	TX_RPM0	FRPM0
XFMR3	TX_XPM0	FXPM0
XFMR3	TX_RSM0	FRSM0
XFMR3	TX_XSM0	FXSM0
XFMR3	TX_RMG0	FRMG0
XFMR3	TX_XMG0	FXMG0
XFMR3	TX_BASEMVA	Base MVA
XFMR3	TX_DATEON	In-service date	In-service date. Must be in the format YYYY/MM/DD. Set to N/A if not available.
XFMR3	TX_DATEOFF	Out-of-service date	Out-of-service date. Must be in the format YYYY/MM/DD. Set to N/A if not available.
XFMR3	TX_JRNL	Creation and modification log records
XFMR3	TX_NAME	Name
XFMR3	TX_CID	Ckt. ID
XFMR3	TX_COMMENT	Memo
XFMR3	TX_TAGS	Tags
XFMR3	TX_UDFS	User defined fields	User-defined data field with name xxx
XFMR3	TX_GUID	GUID

LTC3	OLNETID		OLNETFIELD. All OLNETFIELDS are that of the host transformer
LTC3	TERMNAME1		OLNETFIELD
LTC3	TERMKV1		OLNETFIELD
LTC3	TERMBNO1		OLNETFIELD
LTC3	TERMGUID1		OLNETFIELD
LTC3	TERMNAME2		OLNETFIELD
LTC3	TERMKV2		OLNETFIELD
LTC3	TERMBNO2		OLNETFIELD
LTC3	TERMGUID2		OLNETFIELD
LTC3	TERMNAME3		OLNETFIELD
LTC3	TERMKV3		OLNETFIELD
LTC3	TERMBNO3		OLNETFIELD
LTC3	TERMGUID3		OLNETFIELD
LTC3	OBJGUID		OLNETFIELD
LTC3	CKTID		OLNETFIELD
LTC3	L3_GANGED	LTC ganged flag	LTC Ganged Flag. 1 if this LTC moves in unison with other LTCs that control the same bus voltage. 0 otherwise.
LTC3	L3_PRIORITY	Adjustment priority	LTC Adjustment Priority. 0 if ‘normal’, 1 if ‘medium’, and 2 if ‘high’.
LTC3	L3_LTCSIDE	LTC flag	LTC Side: 0 if the transformer does not have a movable tap or if the tap is locked. 1 if the movable tap is at the Bus1 side. 2 if the movable tap is at the Bus2 side.
LTC3	L3_LTCTYPE	LTC type	LTC Type: 0 if the LTC regulates the voltage magnitude. 1 if the LTC regulates the MVAR flow. The MVAR regulation has not been implemented in the current version.
LTC3	L3_LTCCTRL	Controlled bus	Regulated Bus. ID string of the kV of the bus whose voltage magnitude is to be regulated by the LTC
LTC3	L3_MINTAP	Min tap	Minimum Tap: Minimum tap voltage in per-unit. The default is 0.51.
LTC3	L3_MAXTAP	Max tap	Maximum tap voltage in per-unit. The default is 1.50.
LTC3	L3_LTCSTEP	Step	Step Size: The tap increment in per-unit. Specify 0.0 if the tap is continuous. The default is 0.00625.
LTC3	L3_MINVW	Limit low	The minimum per-unit voltage or the minimum MVAR flow. The default is 0.51.
LTC3	L3_MAXVW	Limit high	The maximum per-unit voltage or the maximum MVAR flow. The default is 1.05
LTC3	L3_LTCCENTER	Center tap	LTC center tap kV. Load tap changer center position in kV.
LTC3	L3_GUID	GUID	Host transformer GUID

SHIFTER	OLNETID		OLNETFIELD
SHIFTER	TERMNAME1		OLNETFIELD
SHIFTER	TERMKV1		OLNETFIELD
SHIFTER	TERMBNO1		OLNETFIELD
SHIFTER	TERMGUID1		OLNETFIELD
SHIFTER	TERMNAME2		OLNETFIELD
SHIFTER	TERMKV2		OLNETFIELD
SHIFTER	TERMBNO2		OLNETFIELD
SHIFTER	TERMGUID2		OLNETFIELD
SHIFTER	OBJGUID		OLNETFIELD
SHIFTER	CKTID		OLNETFIELD
SHIFTER	PS_FLAG	In-service flag	In-service flag: 1 if the equipment is in-service; 2 if it is not. The default value is 1.
SHIFTER	PS_CNTL	MW flow ctrl. flag	MW Flow Control Flag: 0 if the phase shifter angle is fixed; 1 if it is adjusted in the Power Flow Program to automatically control real power flow.
SHIFTER	PS_ZCORRECTNO	Z-correct. table no	Impedance Correction Table Entry Number: 0 if the impedances are fixed. Otherwise, enter the impedance correction table entry number between 1 and 96, inclusive.
SHIFTER	PS_SHIFTANGLE	Shift angle	Shift Angle: Phase shift in degrees. A positive shift angle will cause the voltage angle of Bus1 to lead that of Bus2 in the positive sequence and to lag in the negative sequence
SHIFTER	PS_ANGMAX	Max shift angle	Max Angle Limit: The Power Flow Program will adjust the phase shift between this value and the minimum angle limit PS_ANGMIN. The program requires the maximum angle to be more than 1 degree larger than the minimum angle. The default value is 0.0.
SHIFTER	PS_ANGMIN	Min shift angle	See PS_ANGMAX
SHIFTER	PS_MWMAX	Target MW Max	Max Target MW: Maximum target range for flow of real power in megawatts. This value is ignored when the MW flow control is off. The default value is 0.0.
SHIFTER	PS_MWMIN	Target MW Min	Min Target MW: Minimum target range for flow of real power in megawatts. This value is ignored when the MW flow control is off. The default value is 0.0.
SHIFTER	PS_RP	R	Positive-sequence series resistance (in per unit, on phase shifter’s own MVA base).
SHIFTER	PS_XP	X	Positive-sequence series reactance (in per unit, on phase shifter’s own MVA base). R and X cannot both be zero.
SHIFTER	PS_RZ	RZ	Zero-sequence series resistance (in per unit, on phase shifter’s own MVA base). The default value is R.
SHIFTER	PS_XZ	XZ	Zero-sequence series reactance (in per unit, on phase shifter’s own MVA base). R0 and X0 cannot both be zero. The default value is X.
SHIFTER	PS_BP2	BP2	Positive-sequence susceptance on the Bus2 side. (in per unit, on phase shifter’s own MVA base). B must be zero or negative. The default value is 0.0.
SHIFTER	PS_BZ2	BZ2	Zero-sequence susceptance on the Bus2 side. (in per unit, on phase shifter’s own MVA base). B must be zero or negative. The default value is 0.0.
SHIFTER	PS_RN	RN	Negative-sequence series resistance (in per unit, on phase shifter’s own MVA base).
SHIFTER	PS_XN	XN	Negative-sequence series reactance (in per unit, on phase shifter’s own MVA base). R and X cannot both be zero.
SHIFTER	PS_BN2	BN2	Negative-sequence susceptance on the Bus2 side. (in per unit, on phase shifter’s own MVA base). B must be zero or negative. The default value is 0.0.
SHIFTER	PS_BASEMVA	Base MVA	Base MVA: The MVA base for all the impedances. The default is the system base MVA.
SHIFTER	PS_DATEON	In-service date	In-service date. Must be in the format YYYY/MM/DD. Set to N/A if not available.
SHIFTER	PS_DATEOFF	Out-of-service date	Out-of-service date. Must be in the format YYYY/MM/DD. Set to N/A if not available.
SHIFTER	PS_JRNL	Creation and modification log records	Creation and modification log records
SHIFTER	PS_MVA1	MVA rating 1	MVA rating
SHIFTER	PS_MVA2	MVA rating 2	MVA rating
SHIFTER	PS_MVA3	MVA rating 3	MVA rating
SHIFTER	PS_BZ1	BZ1	Zero-sequence susceptance on the Bus1 side. (in per unit, on phase shifter’s own MVA base). B must be zero or negative. The default value is 0.0.
SHIFTER	PS_BP1	BP1	Positive-sequence susceptance on the Bus1 side. (in per unit, on phase shifter’s own MVA base). B must be zero or negative. The default value is 0.0.
SHIFTER	PS_BN1	BN1	Negative-sequence susceptance on the Bus1 side. (in per unit, on phase shifter’s own MVA base). B must be zero or negative. The default value is 0.0.
SHIFTER	PS_GZ1	GZ1	Zero-sequence conductance on the Bus1 side. (in per unit, on phase shifter’s own MVA base). B must be zero or negative. The default value is 0.0.
SHIFTER	PS_GP1	GP1	Positive-sequence conductance on the Bus1 side. (in per unit, on phase shifter’s own MVA base). B must be zero or negative. The default value is 0.0.
SHIFTER	PS_GN1	GN1	Negative-sequence conductance on the Bus1 side. (in per unit, on phase shifter’s own MVA base). B must be zero or negative. The default value is 0.0.
SHIFTER	PS_GZ2	GZ2	Zero-sequence conductance on the Bus2 side. (in per unit, on phase shifter’s own MVA base). B must be zero or negative. The default value is 0.0.
SHIFTER	PS_GP2	GP2	Positive-sequence conductance on the Bus2 side. (in per unit, on phase shifter’s own MVA base). B must be zero or negative. The default value is 0.0.
SHIFTER	PS_GN2	GN2	Negative-sequence conductance on the Bus2 side. (in per unit, on phase shifter’s own MVA base). B must be zero or negative. The default value is 0.0.
SHIFTER	PS_NAME	Name	Branch name: Name for the phase shifter. The branch name is blank by default.
SHIFTER	PS_CID	Ckt. ID	Circuit Identifier: A two-character circuit identifier. Parallel phase shifters must have different circuit identifiers.
SHIFTER	PS_COMMENT	Memo	Comments. Any alpha-numeric characters can be used, except for the string delimiter (single or double quotation mark)
SHIFTER	PS_TAGS	Tags	Tag string. Tags in string are separated by semicolon. Any alpha-numeric characters can be used, except for the string delimiter (single or double quotation mark)
SHIFTER	PS_UDFS	User defined fields	User-defined data field with name xxx
SHIFTER	PS_GUID	GUID	Object GUID

LOAD	OLNETID		OLNETFIELD
LOAD	TERMNAME1		OLNETFIELD
LOAD	TERMKV1		OLNETFIELD
LOAD	TERMBNO1		OLNETFIELD
LOAD	TERMGUID1		OLNETFIELD
LOAD	OBJGUID		OLNETFIELD
LOAD	LD_FLAG	In-service flag	In-service flag. 1 if the object is in-service; 2 if it is not. The default value is 1.
LOAD	LD_UNGROUNDED	Ungrounded flag	Ground flag:.0 if not grounded; 1 if grounded.
LOAD	LD_JRNL	Creation and modification log records	Creation and modification log records
LOAD	LD_COMMENT	Memo	Comments. Any alpha-numeric characters can be used, except for the string delimiter (single or double quotation mark)
LOAD	LD_TAGS	Tags	Tag string. Tags in string are separated by semicolon. Any alpha-numeric characters can be used, except for the string delimiter (single or double quotation mark)
LOAD	LD_UDFS	User defined fields	User-defined data field with name xxx
LOAD	LD_GUID	GUID	Object GUID

LOADUNIT	OLNETID		OLNETFIELD
LOADUNIT	TERMNAME1		OLNETFIELD
LOADUNIT	TERMKV1		OLNETFIELD
LOADUNIT	TERMBNO1		OLNETFIELD
LOADUNIT	TERMGUID1		OLNETFIELD
LOADUNIT	SID		OLNETFIELD
LOADUNIT	OBJGUID		OLNETFIELD
LOADUNIT	LU_FLAG	In-service flag	In-service flag. 1 if the object is in-service; 2 if it is not. The default value is 1.
LOADUNIT	LU_MW1	MW constant power	MW Constant Power: Megawatts (constant-power component) consumed. The default value is 0.0.
LOADUNIT	LU_MVAR1	MVAR constant power	MVAR Constant Power: Megavars (constant-power component) consumed. The default value is 0.0.
LOADUNIT	LU_MW2	MW constant current	MW Constant Current: Megawatts (constant-current component) consumed when the voltage is at 1.0 per unit. The default value is 0.0. The constant-current component is not yet working in this version.
LOADUNIT	LU_MVAR2	MVAR constant current	MVAR Constant Current: Megavars (constant-current component) consumed when the voltage is at 1.0 per unit. The default value is 0.0. The constant-current component is not yet working in this version.
LOADUNIT	LU_MW3	MW constant impedance	MW Constant Impedance: Megawatts (constant-impedance component) consumed when the voltage is at 1.0 per unit. The default value is 0.0.
LOADUNIT	LU_MVAR3	MVAR constant impedance	MVAR Constant Impedance: Megavars (constant-impedance component) consumed when the voltage is at 1.0 per unit. The default value is 0.0.
LOADUNIT	LU_DATEON	In-service date	In-service date. Must be in the format YYYY/MM/DD. Set to N/A if not available.
LOADUNIT	LU_DATEOFF	Out-of-service date	Out-of-service date. Must be in the format YYYY/MM/DD. Set to N/A if not available.
LOADUNIT	LU_CID	Unit ID	Load Unit Identifier: A two-character identifier used to differentiate between multiple load units on the same bus. The identifier is enclosed in quotation marks.
LOADUNIT	LU_TAGS	Tags	Tag string. Tags in string are separated by semicolon. Any alpha-numeric characters can be used, except for the string delimiter (single or double quotation mark)


SHUNT	OLNETID		OLNETFIELD
SHUNT	TERMNAME1		OLNETFIELD
SHUNT	TERMKV1		OLNETFIELD
SHUNT	TERMBNO1		OLNETFIELD
SHUNT	TERMGUID1		OLNETFIELD
SHUNT	OBJGUID		OLNETFIELD
SHUNT	CP_FLAG	In-service flag	In-service flag. 1 if the object is in-service; 2 if it is not. The default value is 1.
SHUNT	CP_JRNL	Creation and modification log records	Creation and modification log records
SHUNT	CP_COMMENT	Memo	Comments. Any alpha-numeric characters can be used, except for the string delimiter (single or double quotation mark)
SHUNT	CP_TAGS	Tags	Tag string. Tags in string are separated by semicolon. Any alpha-numeric characters can be used, except for the string delimiter (single or double quotation mark)
SHUNT	CP_UDFS	User defined fields	User-defined data field with name xxx
SHUNT	CP_GUID	GUID	Object GUID

SHUNTUNIT	OLNETID		OLNETFIELD
SHUNTUNIT	TERMNAME1		OLNETFIELD
SHUNTUNIT	TERMKV1		OLNETFIELD
SHUNTUNIT	TERMBNO1		OLNETFIELD
SHUNTUNIT	TERMGUID1		OLNETFIELD
SHUNTUNIT	SID		OLNETFIELD
SHUNTUNIT	OBJGUID		OLNETFIELD
SHUNTUNIT	CU_FLAG	In-service flag	In-service flag. 1 if the unit is in-service; 2 if it is not. The default value is 1.
SHUNTUNIT	CU_TX3	3-W transformer model flag	3-Winding Transformer Shunt Flag: 1 if the shunt is part of the T model of a 3-winding transformer; 0 if is not. The default value is 0. This flag is for output purposes only. It has no effect on the solution.
SHUNTUNIT	CU_G	G	Positive-sequence shunt conductance, G, in per unit. The same value is used in the negative sequence. The default value is 0.0.
SHUNTUNIT	CU_B	B	Positive-sequence shunt susceptance, B, in per unit. The same value is used in the negative sequence. B is positive for capacitors and negative for reactors. The default value is 0.0.
SHUNTUNIT	CU_G0	G0	Zero-sequence shunt conductance in per unit. The default value is 0.0.
SHUNTUNIT	CU_B0	B0	Zero-sequence shunt susceptance in per unit. The default value is 0.0.
SHUNTUNIT	CU_DATEON	In-service date	In-service date. Must be in the format YYYY/MM/DD. Set to N/A if not available.
SHUNTUNIT	CU_DATEOFF	Out-of-service date	Out-of-service date. Must be in the format YYYY/MM/DD. Set to N/A if not available.
SHUNTUNIT	CU_CID	Unit ID	Shunt Unit Identifier: A 2-character identifier used to differentiate between multiple shunt units on the same bus.
SHUNTUNIT	CU_TAGS	Tags	Tag string. Tags in string are separated by semicolon. Any alpha-numeric characters can be used, except for the string delimiter (single or double quotation mark)
SHUNTUNIT	CU_UDFS	User defined fields	User-defined data field with name xxx
SHUNTUNIT	CU_GUID	GUID	Object GUID

SWITCH	OLNETID		OLNETFIELD
SWITCH	TERMNAME1		OLNETFIELD
SWITCH	TERMKV1		OLNETFIELD
SWITCH	TERMBNO1		OLNETFIELD
SWITCH	TERMGUID1		OLNETFIELD
SWITCH	TERMNAME2		OLNETFIELD
SWITCH	TERMKV2		OLNETFIELD
SWITCH	TERMBNO2		OLNETFIELD
SWITCH	TERMGUID2		OLNETFIELD
SWITCH	OBJGUID		OLNETFIELD
SWITCH	CKTID		OLNETFIELD
SWITCH	SW_FLAG	In-service flag	In-service flag. 1 if the branch is in-service; 2 if it is not. The default value is 1.
SWITCH	SW_STAT	Status	7 if the switch is closed; 0 if it is open.
SWITCH	SW_DEFAULT	Default	Default status: 1 if the switch is normally closed; 2 if it is normally open; 0 if it does not have a default state.
SWITCH	SW_RATING	Rating	Current Rating: Current rating of the switch in amperes. Default is 0.
SWITCH	SW_DATEON	In-service date	In-service date. Must be in the format YYYY/MM/DD. Set to N/A if not available.
SWITCH	SW_DATEOFF	Out-of-service date	Out-of-service date. Must be in the format YYYY/MM/DD. Set to N/A if not available.
SWITCH	SW_JRNL	Creation and modification log records	Creation and modification log records
SWITCH	SW_NAME	Name	Name: Name of the switch branch
SWITCH	SW_COMMENT	Memo	Comments. Any alpha-numeric characters can be used, except for the string delimiter (single or double quotation mark)
SWITCH	SW_TAGS	Tags	Tag string. Tags in string are separated by semicolon. Any alpha-numeric characters can be used, except for the string delimiter (single or double quotation mark)
SWITCH	SW_CID	Ckt ID	User-defined data field with name xxx
SWITCH	SW_UDFS	User defined fields	Object GUID

MULINE	OLNETID		OLNETFIELD of line 1 in pair
MULINE	TERMNAME1		OLNETFIELD of line 1 in pair
MULINE	TERMKV1		OLNETFIELD of line 1 in pair
MULINE	TERMBNO1		OLNETFIELD of line 1 in pair
MULINE	TERMGUID1		OLNETFIELD of line 1 in pair
MULINE	TERMNAME2		OLNETFIELD of line 1 in pair
MULINE	TERMKV2		OLNETFIELD of line 1 in pair
MULINE	TERMBNO2		OLNETFIELD of line 1 in pair
MULINE	TERMGUID2		OLNETFIELD of line 1 in pair
MULINE	CKTID		OLNETFIELD of line 1 in pair
MULINE	TERMNAME3		OLNETFIELD of line 2 in pair
MULINE	TERMKV3		OLNETFIELD of line 2 in pair
MULINE	TERMBNO3		OLNETFIELD of line 2 in pair
MULINE	TERMGUID3		OLNETFIELD of line 2 in pair
MULINE	TERMNAME4		OLNETFIELD of line 2 in pair
MULINE	TERMKV4		OLNETFIELD of line 2 in pair
MULINE	TERMBNO4		OLNETFIELD of line 2 in pair
MULINE	TERMGUID4		OLNETFIELD of line 2 in pair
MULINE	CKTID2		OLNETFIELD of line 2 in pair
MULINE	OBJGUID		OLNETFIELD
MULINE	ML_JRNL	Creation and modification log records	Creation and modification log records
MULINE	ML_COMMENT	Memo	Comments. Any alpha-numeric characters can be used, except for the string delimiter (single or double quotation mark)
MULINE	ML_TAGS	Tags	Tag string. Tags in string are separated by semicolon. Any alpha-numeric characters can be used, except for the string delimiter (single or double quotation mark)
MULINE	ML_UDFS	User defined fields	User-defined data field with name xxx
MULINE	ML_MUSEGS	Mutual impedance segments	Mutual impedance and from/to percents data fields for up to 5 segments: enter a string with space delimited data fields in the following sequences: - Rm: mutual resistance - Xm: mutual reactance - FromPcnt1, ToPcnt1: start/end point the segment on line 1, in percent of total line impedance, measured from the bus 1 of the line (terminal 1 above) - FromPcnt2, ToPcnt2: Start/end point of the segment on line 2, in percent of total line impedance, measured from the the bus 1 of the line (terminal 3 above)
MULINE	ML_GUID	GUID	Object GUID

BREAKER	OLNETID		OLNETFIELD
BREAKER	TERMNAME1		OLNETFIELD
BREAKER	TERMKV1		OLNETFIELD
BREAKER	TERMBNO1		OLNETFIELD
BREAKER	TERMGUID1		OLNETFIELD
BREAKER	SID		OLNETFIELD
BREAKER	OBJGUID		OLNETFIELD
BREAKER	BK_FLAG	In-service flag	In-service flag. 1 if the breaker is in-service; 2 if it is not. The default value is 1.
BREAKER	BK_NODERATE	No derate flag	Breaker Derating Flag: 0 if the breaker is to be derated because of reclosing operation: 1 if it is not. The default value is 0. This is only used when the breaker is IEEE rated.
BREAKER	BK_RATINGTYPE	Rating type	Rating method of the breaker. Enter 0 for 'IEEE-Symmetrical Current'; 1 for 'IEEE-Total current'; 2 for ‘IEC’
BREAKER	BK_OPS1	Group 1 reclosing flag	Enter an integer number computed as X + Total number of open operations for devices in group 1, where X = 10 if the reclosing is set to take place in faults on the forward direction (line side) only; and X = 0 otherwise.
BREAKER	BK_GROUPTYPE1	Group 1 current flag	Breaker rating check method for group 1: Specifies the current that the breaker must interrupt: 0 for the total current of all devices in the group; 1 for maximum individual device current in the group
BREAKER	BK_GROUPTYPE2	Group 2 current flag	Breaker rating check method for group 2: Specifies the current that the breaker must interrupt: 0 for the total current of all devices in the group; 1 for maximum individual device current in the group
BREAKER	BK_OPS2	Group 2 reclosing flag	Enter an integer number computed as X + Total number of open operations for devices in group 2, where X = 10 if the reclosing is set to take place in faults on the forward direction (line side) only; and X = 0 otherwise.
BREAKER	BK_INTRATING	Interrupting rating	Rated short circuit current in amps if the rating method is 'IEEE Symmetrical current'. Rated short circuit MVA if the rating method is 'IEEE Total current'. Rated short circuit breaking current in amps if the rating method is 'IEC'.
BREAKER	BK_MRATING	Momentary rating	Rated momentary current or rated ac making current of the breaker in amps
BREAKER	BK_RECLOSE10	Reclsr intvl 1 - group 1	Group 1 first Reclosing Interval in seconds: The reclosing interval is the elapse time between successive breaker opening and reclosing. You must enter (n-1) positive values, where n is the total number of operations to lockout (item 11). The default value is 0.0. This is only used when the breaker is IEEE rated.
BREAKER	BK_RECLOSE11	Reclsr intvl 2 - group 1	Group 1 second Reclosing Interval in seconds.
BREAKER	BK_RECLOSE12	Reclsr intvl 3 - group 1	Group 1 third Reclosing Interval in seconds
BREAKER	BK_K	KV range factor	kV Range Factor
BREAKER	BK_RATEDKV	Max Design KV	Max Design kV
BREAKER	BK_CPT1	Group 1 CPT	Group 1 contact parting ime
BREAKER	BK_CPT2	Group 2 CPT	Group 2 contact parting ime
BREAKER	BK_INTRTIME	Interruting time	IEEE rated breaker Interrupting Time in cycles: The default value is 3. IEC rated breaker %dc Component: Rated percent dc component of the breaker.
BREAKER	BK_NACD	NACD	Non ac decaying facor
BREAKER	BK_RECLOSE20	Reclsr intvl 1 - group 2	Group 2 first Reclosing Interval in seconds: The reclosing interval is the elapse time between successive breaker opening and reclosing. You must enter (n-1) positive values, where n is the total number of operations to lockout (item 11). The default value is 0.0. This is only used when the breaker is IEEE rated.
BREAKER	BK_RECLOSE21	Reclsr intvl 2 - group 2	Group 2 second Reclosing Interval in seconds.
BREAKER	BK_RECLOSE22	Reclsr intvl 3 - group 2	Group 2 third Reclosing Interval in seconds
BREAKER	BK_OPKV	Operating KV	Operating kV
BREAKER	BK_JRNL	Creation and modification log records	Creation and modification log records
BREAKER	BK_NAME	Name	Name with a maximum of 24 characters. Any alphanumeric characters can be used, except for the string delimiter (single or double quotation mark)
BREAKER	BK_COMMENT	Memo	Comments. Any alpha-numeric characters can be used, except for the string delimiter (single or double quotation mark)
BREAKER	BK_TAGS	Tags	Tag string. Tags in string are separated by semicolon. Any alpha-numeric characters can be used, except for the string delimiter (single or double quotation mark)
BREAKER	BK_UDFS	User defined fields	User-defined data field with name xxx
BREAKER	BK_OBJLST1	Protected equipment group 1	List of equipments in group 1
BREAKER	BK_OBJLST2	Protected equipment group 2	List of equipments in group 1
BREAKER	BK_GUID	GUID	Object GUID