Baseline Model					Destination Model
ATTRIBUTE DOES NOT EXIST					retained	Attribute 'retained' Metadata:   Baseline Model Destination Model Alias   AllowDuplicates   false Collection   false Const   false Container   Containment   Default   IsLiteral   false IsOrdered   false LowerBound   0 Name   retained Notes   Bus segment is retained in the topological solution. The flow through retained bus sections will normally be calculated in power flow. Qualifier   Scale   0 Scope   public Static   false Stereotype   Type   Boolean UpperBound   1	0..1	Boolean	Bus segment is retained in the topological solution. The flow through retained bus sections will normally be calculated in power flow.

Baseline Model					Destination Model
ATTRIBUTE DOES NOT EXIST					coupledLineNumber	Attribute 'coupledLineNumber' Metadata:   Baseline Model Destination Model Alias   AllowDuplicates   false Collection   false Const   false Container   Containment   Not Specified Default   IsLiteral   IsOrdered   false LowerBound   0 Name   coupledLineNumber Notes   Sequence number of coupled line. Value of 1 indicates that line is the reference line. Valid value range is from 1 to number of coupled lines in the group. Qualifier   Scale   0 Scope   public Static   false Stereotype   Type   Integer UpperBound   1	0..1	Integer	Sequence number of coupled line. Value of 1 indicates that line is the reference line. Valid value range is from 1 to number of coupled lines in the group.
ATTRIBUTE DOES NOT EXIST					reverseFlow	Attribute 'reverseFlow' Metadata:   Baseline Model Destination Model Alias   AllowDuplicates   false Collection   false Const   false Container   Containment   Not Specified Default   IsLiteral   IsOrdered   false LowerBound   0 Name   reverseFlow Notes   Indication of whether the reference end of a line in a coupled group is the same as the reference end of the reference line.Set reverseFlow to True for any lines that do not have their Terminal with sequenceNumber = 1 at the same end as the reference line.Set reverseFlow to False for the reference line and for any lines that have their Terminal with sequenceNumber = 1 at the same end as the reference line.The sign of the coupled voltage drop of an ACLineSegment reverses when two coupled lines have their Terminals with sequenceNumber = 1 at opposite ends. Qualifier   Scale   0 Scope   public Static   false Stereotype   Type   Boolean UpperBound   1	0..1	Boolean	Indication of whether the reference end of a line in a coupled group is the same as the reference end of the reference line.Set reverseFlow to True for any lines that do not have their Terminal with sequenceNumber = 1 at the same end as the reference line.Set reverseFlow to False for the reference line and for any lines that have their Terminal with sequenceNumber = 1 at the same end as the reference line.The sign of the coupled voltage drop of an ACLineSegment reverses when two coupled lines have their Terminals with sequenceNumber = 1 at opposite ends.
ATTRIBUTE DOES NOT EXIST					xOffset	Attribute 'xOffset' Metadata:   Baseline Model Destination Model Alias   AllowDuplicates   false Collection   false Const   false Container   Containment   Not Specified Default   IsLiteral   IsOrdered   false LowerBound   0 Name   xOffset Notes   The horizontal offset between the horizontal reference point of a coupled line and the horizontal reference point of the reference line in the group.The horizontal reference point for a line is established by the line's WireAssembly. It is the zero x position on which the xCoord values of WirePositions in the WireAssembly are based. Qualifier   Scale   0 Scope   public Static   false Stereotype   Type   Displacement UpperBound   1	0..1	Displacement	The horizontal offset between the horizontal reference point of a coupled line and the horizontal reference point of the reference line in the group.The horizontal reference point for a line is established by the line's WireAssembly. It is the zero x position on which the xCoord values of WirePositions in the WireAssembly are based.

Baseline Model					Destination Model
conductorCount	Attribute 'conductorCount' Metadata:   Baseline Model Destination Model Notes Number of phase, neutral, and other wires retained. Constrains the number of matrix elements and the phase codes that can be used with this matrix. Conductor count identifies the number of phase, neutral, and other wires represented in the phase impedance matrix and constrains the number of elements in the matrix. Typically, Kron reduction is used for incorporating effects of neutral impedance in the phase conductor values (so conductor count only considers phase wires), but neutrals can be included in the matrix (in which case conductor count would include the neutral wire(s)). For a phase impedance matrix associated with the lines of a coupled line segment group, the conductor count reflects the total of the conductors associated with all the coupled line segments in the group.	0..1	Integer	Number of phase, neutral, and other wires retained. Constrains the number of matrix elements and the phase codes that can be used with this matrix.	conductorCount	Attribute 'conductorCount' Metadata:   Baseline Model Destination Model Notes Number of phase, neutral, and other wires retained. Constrains the number of matrix elements and the phase codes that can be used with this matrix. Conductor count identifies the number of phase, neutral, and other wires represented in the phase impedance matrix and constrains the number of elements in the matrix. Typically, Kron reduction is used for incorporating effects of neutral impedance in the phase conductor values (so conductor count only considers phase wires), but neutrals can be included in the matrix (in which case conductor count would include the neutral wire(s)). For a phase impedance matrix associated with the lines of a coupled line segment group, the conductor count reflects the total of the conductors associated with all the coupled line segments in the group.	0..1	Integer	Conductor count identifies the number of phase, neutral, and other wires represented in the phase impedance matrix and constrains the number of elements in the matrix. Typically, Kron reduction is used for incorporating effects of neutral impedance in the phase conductor values (so conductor count only considers phase wires), but neutrals can be included in the matrix (in which case conductor count would include the neutral wire(s)). For a phase impedance matrix associated with the lines of a coupled line segment group, the conductor count reflects the total of the conductors associated with all the coupled line segments in the group.

Baseline Model					Destination Model
b0ch	Attribute 'b0ch' Metadata:   Baseline Model Destination Model Notes Zero sequence shunt (charging) susceptance, uniformly distributed, of the entire line section. Zero sequence shunt (charging) susceptance, uniformly distributed, of the entire line segment.	0..1	Susceptance	Zero sequence shunt (charging) susceptance, uniformly distributed, of the entire line section.	b0ch	Attribute 'b0ch' Metadata:   Baseline Model Destination Model Notes Zero sequence shunt (charging) susceptance, uniformly distributed, of the entire line section. Zero sequence shunt (charging) susceptance, uniformly distributed, of the entire line segment.	0..1	Susceptance	Zero sequence shunt (charging) susceptance, uniformly distributed, of the entire line segment.
bch	Attribute 'bch' Metadata:   Baseline Model Destination Model Notes Positive sequence shunt (charging) susceptance, uniformly distributed, of the entire line section. This value represents the full charging over the full length of the line. Positive sequence shunt (charging) susceptance, uniformly distributed, of the entire line segment. This value represents the full charging over the full length of the line segment.	0..1	Susceptance	Positive sequence shunt (charging) susceptance, uniformly distributed, of the entire line section. This value represents the full charging over the full length of the line.	bch	Attribute 'bch' Metadata:   Baseline Model Destination Model Notes Positive sequence shunt (charging) susceptance, uniformly distributed, of the entire line section. This value represents the full charging over the full length of the line. Positive sequence shunt (charging) susceptance, uniformly distributed, of the entire line segment. This value represents the full charging over the full length of the line segment.	0..1	Susceptance	Positive sequence shunt (charging) susceptance, uniformly distributed, of the entire line segment. This value represents the full charging over the full length of the line segment.
g0ch	Attribute 'g0ch' Metadata:   Baseline Model Destination Model Notes Zero sequence shunt (charging) conductance, uniformly distributed, of the entire line section. Zero sequence shunt (charging) conductance, uniformly distributed, of the entire line segment.	0..1	Conductance	Zero sequence shunt (charging) conductance, uniformly distributed, of the entire line section.	g0ch	Attribute 'g0ch' Metadata:   Baseline Model Destination Model Notes Zero sequence shunt (charging) conductance, uniformly distributed, of the entire line section. Zero sequence shunt (charging) conductance, uniformly distributed, of the entire line segment.	0..1	Conductance	Zero sequence shunt (charging) conductance, uniformly distributed, of the entire line segment.
gch	Attribute 'gch' Metadata:   Baseline Model Destination Model Notes Positive sequence shunt (charging) conductance, uniformly distributed, of the entire line section. Positive sequence shunt (charging) conductance, uniformly distributed, of the entire line segment.	0..1	Conductance	Positive sequence shunt (charging) conductance, uniformly distributed, of the entire line section.	gch	Attribute 'gch' Metadata:   Baseline Model Destination Model Notes Positive sequence shunt (charging) conductance, uniformly distributed, of the entire line section. Positive sequence shunt (charging) conductance, uniformly distributed, of the entire line segment.	0..1	Conductance	Positive sequence shunt (charging) conductance, uniformly distributed, of the entire line segment.
r	Attribute 'r' Metadata:   Baseline Model Destination Model Notes Positive sequence series resistance of the entire line section. Positive sequence series resistance of the entire line segment.	0..1	Resistance	Positive sequence series resistance of the entire line section.	r	Attribute 'r' Metadata:   Baseline Model Destination Model Notes Positive sequence series resistance of the entire line section. Positive sequence series resistance of the entire line segment.	0..1	Resistance	Positive sequence series resistance of the entire line segment.
r0	Attribute 'r0' Metadata:   Baseline Model Destination Model Notes Zero sequence series resistance of the entire line section. Zero sequence series resistance of the entire line segment.	0..1	Resistance	Zero sequence series resistance of the entire line section.	r0	Attribute 'r0' Metadata:   Baseline Model Destination Model Notes Zero sequence series resistance of the entire line section. Zero sequence series resistance of the entire line segment.	0..1	Resistance	Zero sequence series resistance of the entire line segment.
x	Attribute 'x' Metadata:   Baseline Model Destination Model Notes Positive sequence series reactance of the entire line section. Positive sequence series reactance of the entire line segment.	0..1	Reactance	Positive sequence series reactance of the entire line section.	x	Attribute 'x' Metadata:   Baseline Model Destination Model Notes Positive sequence series reactance of the entire line section. Positive sequence series reactance of the entire line segment.	0..1	Reactance	Positive sequence series reactance of the entire line segment.
x0	Attribute 'x0' Metadata:   Baseline Model Destination Model Notes Zero sequence series reactance of the entire line section. Zero sequence series reactance of the entire line segment.	0..1	Reactance	Zero sequence series reactance of the entire line section.	x0	Attribute 'x0' Metadata:   Baseline Model Destination Model Notes Zero sequence series reactance of the entire line section. Zero sequence series reactance of the entire line segment.	0..1	Reactance	Zero sequence series reactance of the entire line segment.

Baseline Model					Destination Model
rn	Attribute 'rn' Metadata:   Baseline Model Destination Model Name rn r2	0..1	Resistance	Negative sequence Thevenin resistance.	r2	Attribute 'r2' Metadata:   Baseline Model Destination Model Name rn r2	0..1	Resistance	Negative sequence Thevenin resistance.
xn	Attribute 'xn' Metadata:   Baseline Model Destination Model Name xn x2	0..1	Reactance	Negative sequence Thevenin reactance.	x2	Attribute 'x2' Metadata:   Baseline Model Destination Model Name xn x2	0..1	Reactance	Negative sequence Thevenin reactance.

Baseline Model					Destination Model
phase	Attribute 'phase' Metadata:   Baseline Model Destination Model Notes The phase connection of the wire at both ends. Phase identifies the phase or neutral connection of the conductor at both ends.	0..1	SinglePhaseKind	The phase connection of the wire at both ends.	phase	Attribute 'phase' Metadata:   Baseline Model Destination Model Notes The phase connection of the wire at both ends. Phase identifies the phase or neutral connection of the conductor at both ends.	0..1	SinglePhaseKind	Phase identifies the phase or neutral connection of the conductor at both ends.
sequenceNumber	Attribute 'sequenceNumber' Metadata:   Baseline Model Destination Model Notes Number designation for this line segment phase. Each line segment phase within a line segment should have a unique sequence number. This is useful for unbalanced modelling to bind the mathematical model (PhaseImpedanceData of PerLengthPhaseImpedance) with the connectivity model (this class) and the physical model (WirePosition) without tight coupling. Sequence number provides the numbering for this line segment phase. When impedance is directly described, sequence number binds the phase to the column and row for entries in the per length phase impedance matrix (PhaseImpedanceData of PerLengthPhaseImpedance). When used in conjunction with a wire assembly description, sequence number associates the line segment phase to a position.For a line segment not a part of a parallel line segment group, sequence number starts at one and increments by one through each line segment phase associated with the line segment. If there is a line segment phase for neutral, it is numbered last.	0..1	Integer	Number designation for this line segment phase. Each line segment phase within a line segment should have a unique sequence number. This is useful for unbalanced modelling to bind the mathematical model (PhaseImpedanceData of PerLengthPhaseImpedance) with the connectivity model (this class) and the physical model (WirePosition) without tight coupling.	sequenceNumber	Attribute 'sequenceNumber' Metadata:   Baseline Model Destination Model Notes Number designation for this line segment phase. Each line segment phase within a line segment should have a unique sequence number. This is useful for unbalanced modelling to bind the mathematical model (PhaseImpedanceData of PerLengthPhaseImpedance) with the connectivity model (this class) and the physical model (WirePosition) without tight coupling. Sequence number provides the numbering for this line segment phase. When impedance is directly described, sequence number binds the phase to the column and row for entries in the per length phase impedance matrix (PhaseImpedanceData of PerLengthPhaseImpedance). When used in conjunction with a wire assembly description, sequence number associates the line segment phase to a position.For a line segment not a part of a parallel line segment group, sequence number starts at one and increments by one through each line segment phase associated with the line segment. If there is a line segment phase for neutral, it is numbered last.	0..1	Integer	Sequence number provides the numbering for this line segment phase. When impedance is directly described, sequence number binds the phase to the column and row for entries in the per length phase impedance matrix (PhaseImpedanceData of PerLengthPhaseImpedance). When used in conjunction with a wire assembly description, sequence number associates the line segment phase to a position.For a line segment not a part of a parallel line segment group, sequence number starts at one and increments by one through each line segment phase associated with the line segment. If there is a line segment phase for neutral, it is numbered last.

Baseline Model					Destination Model
b	Attribute 'b' Metadata:   Baseline Model Destination Model Notes Susceptance matrix element value, per length of unit. Susceptance matrix entry value, per length of unit.	0..1	SusceptancePerLength	Susceptance matrix element value, per length of unit.	b	Attribute 'b' Metadata:   Baseline Model Destination Model Notes Susceptance matrix element value, per length of unit. Susceptance matrix entry value, per length of unit.	0..1	SusceptancePerLength	Susceptance matrix entry value, per length of unit.
column	Attribute 'column' Metadata:   Baseline Model Destination Model Notes The matrix element's column number, in the range 1 to row. Only the lower triangle needs to be stored. This column number matches ACLineSegmentPhase.sequenceNumber. The matrix entry's column number has a range of possible values from 1 to the conductor count of the matrix, but due to symmetry, only entries in the lower triangle (including diagonal) of the matrix need be defined. Column number binds to the sequence number in either ACLineSegmentPhase or WirePosition, which then identifies the phase for this entry.	0..1	Integer	The matrix element's column number, in the range 1 to row. Only the lower triangle needs to be stored. This column number matches ACLineSegmentPhase.sequenceNumber.	column	Attribute 'column' Metadata:   Baseline Model Destination Model Notes The matrix element's column number, in the range 1 to row. Only the lower triangle needs to be stored. This column number matches ACLineSegmentPhase.sequenceNumber. The matrix entry's column number has a range of possible values from 1 to the conductor count of the matrix, but due to symmetry, only entries in the lower triangle (including diagonal) of the matrix need be defined. Column number binds to the sequence number in either ACLineSegmentPhase or WirePosition, which then identifies the phase for this entry.	0..1	Integer	The matrix entry's column number has a range of possible values from 1 to the conductor count of the matrix, but due to symmetry, only entries in the lower triangle (including diagonal) of the matrix need be defined. Column number binds to the sequence number in either ACLineSegmentPhase or WirePosition, which then identifies the phase for this entry.
g	Attribute 'g' Metadata:   Baseline Model Destination Model Notes Conductance matrix element value, per length of unit. Conductance matrix entry value, per length of unit.	0..1	ConductancePerLength	Conductance matrix element value, per length of unit.	g	Attribute 'g' Metadata:   Baseline Model Destination Model Notes Conductance matrix element value, per length of unit. Conductance matrix entry value, per length of unit.	0..1	ConductancePerLength	Conductance matrix entry value, per length of unit.
r	Attribute 'r' Metadata:   Baseline Model Destination Model Notes Resistance matrix element value, per length of unit. Resistance matrix entry value, per length of unit.	0..1	ResistancePerLength	Resistance matrix element value, per length of unit.	r	Attribute 'r' Metadata:   Baseline Model Destination Model Notes Resistance matrix element value, per length of unit. Resistance matrix entry value, per length of unit.	0..1	ResistancePerLength	Resistance matrix entry value, per length of unit.
row	Attribute 'row' Metadata:   Baseline Model Destination Model Notes The matrix element’s row number, in the range 1 to PerLengthPhaseImpedance.conductorCount. Only the lower triangle needs to be stored. This row number matches ACLineSegmentPhase.sequenceNumber. The matrix entry's row number has a range of possible values from 1 to the conductor count of the matrix, but due to symmetry, only entries in the lower triangle (including diagonal) of the matrix need be defined. Row number binds to the sequence number in either ACLineSegmentPhase or WirePosition, which then identifies the phase for this entry.	0..1	Integer	The matrix element’s row number, in the range 1 to PerLengthPhaseImpedance.conductorCount. Only the lower triangle needs to be stored. This row number matches ACLineSegmentPhase.sequenceNumber.	row	Attribute 'row' Metadata:   Baseline Model Destination Model Notes The matrix element’s row number, in the range 1 to PerLengthPhaseImpedance.conductorCount. Only the lower triangle needs to be stored. This row number matches ACLineSegmentPhase.sequenceNumber. The matrix entry's row number has a range of possible values from 1 to the conductor count of the matrix, but due to symmetry, only entries in the lower triangle (including diagonal) of the matrix need be defined. Row number binds to the sequence number in either ACLineSegmentPhase or WirePosition, which then identifies the phase for this entry.	0..1	Integer	The matrix entry's row number has a range of possible values from 1 to the conductor count of the matrix, but due to symmetry, only entries in the lower triangle (including diagonal) of the matrix need be defined. Row number binds to the sequence number in either ACLineSegmentPhase or WirePosition, which then identifies the phase for this entry.
x	Attribute 'x' Metadata:   Baseline Model Destination Model Notes Reactance matrix element value, per length of unit. Reactance matrix entry value, per length of unit.	0..1	ReactancePerLength	Reactance matrix element value, per length of unit.	x	Attribute 'x' Metadata:   Baseline Model Destination Model Notes Reactance matrix element value, per length of unit. Reactance matrix entry value, per length of unit.	0..1	ReactancePerLength	Reactance matrix entry value, per length of unit.
fromPhase	Attribute 'fromPhase' Metadata:   Baseline Model Destination Model Alias   AllowDuplicates false   Collection false   Const false   Container   Containment Not Specified   Default   IsLiteral   IsOrdered false   LowerBound 0   Name fromPhase   Notes Refer to the class description.   Qualifier   Scale 0   Scope public   Static false   Stereotype   Type SinglePhaseKind   UpperBound 1	0..1	SinglePhaseKind	Refer to the class description.	ATTRIBUTE REMOVED FROM MODEL
toPhase	Attribute 'toPhase' Metadata:   Baseline Model Destination Model Alias   AllowDuplicates false   Collection false   Const false   Container   Containment Not Specified   Default   IsLiteral   IsOrdered false   LowerBound 0   Name toPhase   Notes Refer to the class description.   Qualifier   Scale 0   Scope public   Static false   Stereotype   Type SinglePhaseKind   UpperBound 1	0..1	SinglePhaseKind	Refer to the class description.	ATTRIBUTE REMOVED FROM MODEL

Baseline Model					Destination Model
retained	Attribute 'retained' Metadata:   Baseline Model Destination Model Notes Branch is retained in the topological solution. The flow through retained switches will normally be calculated in power flow. Branch is retained in the topological solution. The flow through retained switches will normally be calculated in power flow.	0..1	Boolean	Branch is retained in the topological solution. The flow through retained switches will normally be calculated in power flow.	retained	Attribute 'retained' Metadata:   Baseline Model Destination Model Notes Branch is retained in the topological solution. The flow through retained switches will normally be calculated in power flow. Branch is retained in the topological solution. The flow through retained switches will normally be calculated in power flow.	0..1	Boolean	Branch is retained in the topological solution. The flow through retained switches will normally be calculated in power flow.

Baseline Model					Destination Model
length	Attribute 'length' Metadata:   Baseline Model Destination Model Notes Segment length for calculating line section capabilities. Segment length for calculating line segment capabilities.	0..1	Length	Segment length for calculating line section capabilities.	length	Attribute 'length' Metadata:   Baseline Model Destination Model Notes Segment length for calculating line section capabilities. Segment length for calculating line segment capabilities.	0..1	Length	Segment length for calculating line segment capabilities.

Baseline Model					Destination Model
accuracyClass	Attribute 'accuracyClass' Metadata:   Baseline Model Destination Model Alias   AllowDuplicates false   Collection false   Const false   Container   Containment   Default   IsLiteral   IsOrdered false   LowerBound 0   Name accuracyClass   Notes CT accuracy classification.   Qualifier   Scale 0   Scope public   Static false   Stereotype   Type String   UpperBound 1	0..1	String	CT accuracy classification.	ATTRIBUTE REMOVED FROM MODEL
ctClass	Attribute 'ctClass' Metadata:   Baseline Model Destination Model Alias   AllowDuplicates false   Collection false   Const false   Container   Containment Not Specified   Default   IsLiteral   IsOrdered false   LowerBound 0   Name ctClass   Notes CT classification; i.e. class 10P.   Qualifier   Scale 0   Scope public   Static false   Stereotype   Type String   UpperBound 1	0..1	String	CT classification; i.e. class 10P.	ATTRIBUTE REMOVED FROM MODEL