Basic Data balanced: ------------------- Currents, Voltages and Powers: Bus Results: Signals: Calculation Parameter: b:loc_name Name b:Kf Correction Factor (Short-Circuit) b:i_spin Flag b:i_mot Motor b:iWindGen Wind Generator b:igndcode Grounding Code Element Parameter: e:loc_name Name e:typ_id TypSym Type e:bus1 StaCubic Terminal e:bus1_bar Terminal e:cpZone Zone e:cpArea Area e:outserv Out of Service e:iintgnd External Star Point e:ngnum Number of: parallel Machines e:i_mot Generator/Motor e:iWindGen Generator/Motor: Wind Generator e:c_pmod Model e:cgnd Internal Grounding Impedance: Star Point e:resy Ohm Internal Grounding Impedance: Resistance, Re e:xesy Ohm Internal Grounding Impedance: Reactance, Xe Type Parameter: t:loc_name Name t:sgn MVA Nominal Apparent Power t:ugn kV Nominal Voltage t:cosn Power Factor t:nslty Connection Reference Parameter: r:typ_id TypSym Type r:bus1 StaCubic Terminal r:cpZone Zone r:cpArea Area r:c_pmod Model Basic Data unbalanced: --------------------- Currents, Voltages and Powers: Bus Results: Signals: Calculation Parameter: b:loc_name Name b:Kf Correction Factor (Short-Circuit) b:i_spin Flag

b:i_mot Motor b:iWindGen Wind Generator b:igndcode Grounding Code Element Parameter: e:loc_name Name e:typ_id TypSym Type e:bus1 StaCubic Terminal e:bus1_bar Terminal e:cpZone Zone e:cpArea Area e:outserv Out of Service e:iintgnd External Star Point e:ngnum Number of: parallel Machines e:i_mot Generator/Motor e:iWindGen Generator/Motor: Wind Generator e:c_pmod Model e:cgnd Internal Grounding Impedance: Star Point e:resy Ohm Internal Grounding Impedance: Resistance, Re e:xesy Ohm Internal Grounding Impedance: Reactance, Xe Type Parameter: t:loc_name Name t:sgn MVA Nominal Apparent Power t:ugn kV Nominal Voltage t:cosn Power Factor t:nslty Connection Reference Parameter: r:typ_id TypSym Type r:bus1 StaCubic Terminal r:cpZone Zone r:cpArea Area r:c_pmod Model Load Flow balanced: ------------------ Currents, Voltages and Powers: m:u1r:bus1 p.u. Positive-Sequence-Voltage, Real Part m:u1i:bus1 p.u. Positive-Sequence-Voltage, Imaginary Part m:u1:bus1 p.u. Positive-Sequence-Voltage, Magnitude m:U1:bus1 kV Line-Ground Positive-Sequence-Voltage, Magnitude m:U1l:bus1 kV Line-Line Positive-Sequence-Voltage, Magnitude m:phiu1:bus1 deg Positive-Sequence-Voltage, Angle m:inet:bus1 p.u. Current, Magnitude, referred to network m:I:bus1 kA Current, Magnitude m:phii:bus1 deg Current, Angle m:i1r:bus1 p.u. Positive-Sequence Current, Real Part m:i1i:bus1 p.u. Positive-Sequence Current, Imaginary Part m:i1:bus1 p.u. Positive-Sequence Current, Magnitude m:I1:bus1 kA Positive-Sequence Current, Magnitude m:phii1:bus1 deg Positive-Sequence Current, Angle m:P:bus1 MW Active Power m:Q:bus1 Mvar Reactive Power m:S:bus1 MVA Apparent Power m:cosphi:bus1 Power Factor m:Psum:bus1 MW Total Active Power m:Qsum:bus1 Mvar Total Reactive Power m:Ssum:bus1 MVA Total Apparent Power m:cosphisum:bus1 Total Power Factor m:Spu:bus1 MVA/p.u. Apparent Power per p.u. Voltage m:i1P:bus1 p.u. Positive-Sequence Active Current m:i1Q:bus1 p.u. Positive-Sequence Reactive Current m:I1P:bus1 kA Positive-Sequence Active Current m:I1Q:bus1 kA Positive-Sequence Reactive Current m:ur:bus1 p.u. Voltage, Real Part m:ui:bus1 p.u. Voltage, Imaginary Part m:u:bus1 p.u. Voltage, Magnitude m:ir:bus1 p.u. Current, Real Part m:ii:bus1 p.u. Current, Imaginary Part m:i:bus1 p.u. Current, Magnitude m:phiui:bus1 deg Angle between Voltage and Current m:phiu1i1:bus1 deg Angle between Voltage and Current in positive sequence system

m:Ploss:bus1 MW Losses (total) m:Qloss:bus1 Mvar Reactive-Losses (total) m:Plossld:bus1 MW Losses (load) m:Qlossld:bus1 Mvar Reactive-Losses (load) m:Plossnld:bus1 MW Losses (no load) m:Qlossnld:bus1 Mvar Reactive-Losses (noload) m:Tfct:bus1 s Fault Clearing Time m:Imax:bus1 kA Maximum Current m:Smax:bus1 MVA Maximum Power m:Brkload:bus1 % Breaker Loading m:dPdQ:bus1 MW/Mvar Branch Sensitivity dPbranch/dQbus m:dQdQ:bus1 Mvar/Mvar Branch Sensitivity dQbranch/dQbus m:dPdP:bus1 MW/MW Branch Sensitivity dPbranch/dPbus m:dQdP:bus1 Mvar/MW Branch Sensitivity dQbranch/dPbus m:dPdtap:bus1 MW/tap Branch Sensitivity dPbranch/dtap m:dQdtap:bus1 Mvar/tap Branch Sensitivity dQbranch/dtap Bus Results: n:ur:bus1 p.u. Voltage, Real Part n:ui:bus1 p.u. Voltage, Imaginary Part n:u:bus1 p.u. Voltage, Magnitude n:upc:bus1 % Voltage, Magnitude n:u1:bus1 p.u. Voltage, Magnitude n:u1pc:bus1 % Voltage, Magnitude n:u1r:bus1 p.u. Positive-Sequence Voltage, Real-Part n:u1i:bus1 p.u. Positive-Sequence Voltage, Imaginary-Part n:U:bus1 kV Line-Ground Voltage, Magnitude n:Ul:bus1 kV Line-Line Voltage, Magnitude n:phiu:bus1 deg Voltage, Angle n:phiurel:bus1 deg Voltage, Relative Angle n:du:bus1 % Voltage Deviation n:Pgen:bus1 MW Generation, Active Power n:Qgen:bus1 Mvar Generation, Reactive Power n:Pmot:bus1 MW Motor Load, Active Power n:Qmot:bus1 Mvar Motor Load, Reactive Power n:Pload:bus1 MW General Load, Active Power n:Qload:bus1 Mvar General Load, Reactive Power n:Pcomp:bus1 MW Compensation (Losses) n:Qcomp:bus1 Mvar Compensation n:Pnet:bus1 MW External Networks, Active Power n:Qnet:bus1 Mvar External Networks, Reactive Power n:Pflow:bus1 MW Power Flow, Active Power n:Qflow:bus1 Mvar Power Flow, Reactive Power n:umin:bus1 p.u. Minimum Voltage n:Umin:bus1 kV Minimum Voltage (Line to Neutral) n:dumax:bus1 % Maximum Voltage Drop along Feeder n:dUmax:bus1 kV Maximum Voltage Drop along Feeder n:dUlmax:bus1 kV Maximum Voltage Drop along Feeder (Line-Line) n:Ulmin:bus1 kV Minimum Voltage (Line to Line) n:dphidP:bus1 deg/MW dphi/dP Sensitivity n:dphidQ:bus1 deg/Mvar dphi/dQ Sensitivity n:dphidtap:bus1 deg/tap dphi/dtap Sensitivity n:dvdP:bus1 p.u./MW dv/dP Sensitivity n:dvdQ:bus1 p.u./Mvar dv/dQ Sensitivity n:dvdtap:bus1 p.u./tap dv/dtap Sensitivity n:levecQ:bus1 Left Eigenvector of selected Q-Mode n:revecQ:bus1 Right Eigenvector of selected Q-Mode n:partQ:bus1 Participation Factor of selected Q-Mode n:Pbalance:bus1 MW Active Power Balance (=0) n:Qbalance:bus1 Mvar Reactive Power Balance (=0) n:max_v:bus1 p.u. Max. Voltage (over Contingencies) n:min_v:bus1 p.u. Min. Voltage (over Contingencies) n:max_v_Cntcy:bus1 Contingency Case (number) with Max. Voltage n:min_v_Cntcy:bus1 Contingency Case (number) with Min. Voltage n:max_v_Cntcy_TP:bus1 min Contingency Case (Time Phase) with Max. Voltage n:min_v_Cntcy_TP:bus1 min Contingency Case (Time Phase) with Min. Voltage n:LMP:bus1 $/MWh Locational marginal price n:SysLambda:bus1 $/MWh System lambda n:LossPdown:bus1 MW Losses, downstream n:LossQdown:bus1 Mvar Losses, downstream (Reactive Power) n:LossPdownload:bus1 MW Load losses, downstream n:LossQdownload:bus1 Mvar Load losses, downstream n:LossPdownnoload:bus1 MW No load losses, downstream n:LossQdownnoload:bus1 Mvar No load losses, downstream Signals:

s:pset MW IN Active Power Setpoint s:qset Mvar IN Reactive Power Setpoint s:uremr p.u. IN Remote-Bus voltage (Real Part) s:uremi p.u. IN Remote-Bus voltage (Imaginary Part) s:dF Hz OUT Frequency Deviation Calculation Parameter: c:p MW Total Active Power c:q Mvar Total Reactive Power c:sgnn MVA Total Nominal Apparent power (ngnum*sgn) c:cosn Nominal-Power factor c:c2 Voltage Coefficient (uknom/ugn) c:uini:r p.u. Voltage Setpoint for PV and Slack, Real Part c:uini:i p.u. Voltage Setpoint for PV and Slack, Imaginary Part c:uini:phi deg Voltage Setpoint for PV and Slack, Angle c:uini:mag p.u. Voltage Setpoint for PV and Slack, Magnitude c:uini:phirad rad Voltage Setpoint for PV and Slack, Angle c:loading % Loading c:iPowerOn Flag c:xdq p.u. Synchronous Reactance c:Qmin Mvar Lower limit of reactive power c:Qmax Mvar Upper limit of reactive power c:Qsparelead Mvar Q Spare Lead c:Qsparelag Mvar Q Spare Lag c:i_qlim Reactive power limit reached c:Pmin MW Lower limit of active power c:Pmax MW Upper limit of active power c:sm:r MW Complex Power, Real Part c:sm:i Mvar Complex Power, Imaginary Part c:sm:phi deg Complex Power, Angle c:sm:mag MVA Complex Power, Magnitude c:sm:phirad rad Complex Power, Angle c:u1:r p.u. Internal, Real Part c:u1:i p.u. Internal, Imaginary Part c:u1:phi deg Internal, Angle c:u1:mag p.u. Internal, Magnitude c:u1:phirad rad Internal, Angle c:i_spin Flag c:iRefElement Reference Element c:phiini Initial Angle c:maxLoading % Max. Loading (over Contingencies) c:maxCntcy Contingency Case (number) with Max. Loading c:maxCntcyTP min Contingency Case (Time Phase) with Max. Loading c:ShadowMaxP $/MWh Shadow price (upper limit of active power) c:ShadowMinP $/MWh Shadow price (lower limit of active power) c:Snom MVA Nom. Apparent Power (1 mach.) c:Nnom Number of Parallel Machines c:Kp p.u. Active Power Participation c:Kq p.u. Reactive Power Participation c:Kpf MW/Hz Frequency Bias c:Pdisp MW Power (Eco-Dispatch) c:cst_disp $/h Production Costs c:cost_up $ Startup Costs c:cost_down $ Shutdown Costs c:iunitcom Optimized in unit commitment c:tmin_up h Minimum up-time c:tmin_down h Minimum down-time c:t_on h Initial Condition: In Service for c:t_off h Initial Condition: Out of Service for c:iPobsFlg SE, P observable? c:iQobsFlg SE, Q observable? c:iPSetp SE, P estimated? c:iQSetp SE, Q estimated? c:avgCosts $/MWh Average Costs per MWh c:zonewscale Wind generation zone scaling factor c:Pmism MW Active Power Mismatch Element Parameter: e:i_spin Spinning if circuit-breaker is open e:ip_ctrl Reference Machine e:bustp Corresponding Bus Type: e:iv_mode Mode of Local Voltage Controller e:c_psecc ElmSecctrl External Secondary Controller e:c_pstac ElmStactrl External Station Controller e:mode_inp Dispatch: Input Mode e:pgini MW Dispatch: Active Power

e:qgini Mvar Dispatch: Reactive Power e:sgini MVA Dispatch: Apparent Power e:cosgini Dispatch: Power Factor e:pf_recap Dispatch: Power Factor e:usetp p.u. Dispatch: Voltage e:phiini deg Dispatch: Angle e:Kpf MW/Hz Dispatch: Prim. Frequency Bias e:pQlimType IntQlim Reactive Power Limits: Capability Curve e:iqtype Reactive Power Limits: Use limits specified in type e:q_min p.u. Reactive Power Limits: Min. e:q_max p.u. Reactive Power Limits: Max. e:cQ_min Mvar Reactive Power Limits: Minimum e:cQ_max Mvar Reactive Power Limits: Maximum e:cq_min p.u. Reactive Power Limits: Min. e:cq_max p.u. Reactive Power Limits: Max. e:scaleQmin % Reactive Power Limits: Scaling Factor (min.) e:scaleQmax % Reactive Power Limits: Scaling Factor (max.) e:Pmin_uc MW Operational Limits: Min. e:Pmax_uc MW Operational Limits: Max. e:Pnom MW Operational Limits: Pn e:P_max MW Active Power: Ratings: Max. e:pmaxratf Active Power: Ratings: Rating Factor e:i_cap User defined Capability Curve e:cap_P MW Act.Power e:cap_Qmn Mvar Min. e:cap_Qmx Mvar Max. e:c_pCtrlHV Controlled HV-busbar e:Uctrl kV HV-Voltage Setpoint e:Qmin_a Mvar Qmin(act.) e:Qmax_a Mvar Qmax(act.) e:Pmin_a MW Pmin(act.) e:Pmax_a MW Pmax(act.) Type Parameter: t:xd p.u. Synchronous Reactances: xd t:xq p.u. Synchronous Reactances: xq t:q_min p.u. Reactive Power Limits: Minimum Value t:q_max p.u. Reactive Power Limits: Maximum Value t:Q_min Mvar Reactive Power Limits: Minimum Value t:Q_max Mvar Reactive Power Limits: Maximum Value t:x0sy p.u. Zero Sequence Data: Reactance x0 t:r0sy p.u. Zero Sequence Data: Resistance r0 t:x2sy p.u. Neg. Sequence Data: Reactance x2 t:r2sy p.u. Neg. Sequence Data: Resistance r2 Reference Parameter: r:c_psecc ElmSecctrl External Secondary Controller r:c_pstac ElmStactrl External Station Controller r:pQlimType IntQlim Capability Curve r:c_pCtrlHV Controlled HV-busbar Load Flow unbalanced: -------------------- Currents, Voltages and Powers: m:u0:bus1 p.u. Zero-Sequence-Voltage, Magnitude m:phiu0:bus1 deg Zero-Sequence-Voltage, Angle m:u1r:bus1 p.u. Positive-Sequence-Voltage, Real Part m:u1i:bus1 p.u. Positive-Sequence-Voltage, Imaginary Part m:u1:bus1 p.u. Positive-Sequence-Voltage, Magnitude m:U1:bus1 kV Line-Ground Positive-Sequence-Voltage, Magnitude m:U1l:bus1 kV Line-Line Positive-Sequence-Voltage, Magnitude m:phiu1:bus1 deg Positive-Sequence-Voltage, Angle m:u2:bus1 p.u. Negative-Sequence-Voltage, Magnitude m:phiu2:bus1 deg Negative-Sequence-Voltage, Angle m:inet:bus1:A p.u. Phase Current, Magnitude, referred to network m:inet:bus1:B p.u. Phase Current, Magnitude, referred to network m:inet:bus1:C p.u. Phase Current, Magnitude, referred to network m:I:bus1:A kA Phase Current, Magnitude m:I:bus1:B kA Phase Current, Magnitude m:I:bus1:C kA Phase Current, Magnitude m:phii:bus1:A deg Phase Current, Angle m:phii:bus1:B deg Phase Current, Angle m:phii:bus1:C deg Phase Current, Angle m:i0r:bus1 p.u. Zero-Sequence Current, Real Part

m:i0i:bus1 p.u. Zero-Sequence Current, Imaginary Part m:i0:bus1 p.u. Zero-Sequence Current, Magnitude m:I0:bus1 kA Zero-Sequence Current, Magnitude m:I0x3:bus1 kA 3*I0 m:phii0:bus1 deg Zero-Sequence Current, Angle m:i1r:bus1 p.u. Positive-Sequence Current, Real Part m:i1i:bus1 p.u. Positive-Sequence Current, Imaginary Part m:i1:bus1 p.u. Positive-Sequence Current, Magnitude m:I1:bus1 kA Positive-Sequence Current, Magnitude m:phii1:bus1 deg Positive-Sequence Current, Angle m:i2r:bus1 p.u. Negative-Sequence Current, Real Part m:i2i:bus1 p.u. Negative-Sequence Current, Imaginary Part m:i2:bus1 p.u. Negative-Sequence Current, Magnitude m:I2:bus1 kA Negative-Sequence Current, Magnitude m:phii2:bus1 deg Negative-Sequence Current, Angle m:P:bus1:A MW Active Power m:P:bus1:B MW Active Power m:P:bus1:C MW Active Power m:Q:bus1:A Mvar Reactive Power m:Q:bus1:B Mvar Reactive Power m:Q:bus1:C Mvar Reactive Power m:S:bus1:A MVA Apparent Power m:S:bus1:B MVA Apparent Power m:S:bus1:C MVA Apparent Power m:cosphi:bus1:A Power Factor m:cosphi:bus1:B Power Factor m:cosphi:bus1:C Power Factor m:Psum:bus1 MW Total Active Power m:Qsum:bus1 Mvar Total Reactive Power m:Ssum:bus1 MVA Total Apparent Power m:cosphisum:bus1 Total Power Factor m:Pln:bus1:A MW Active Power (Line-Neutral) m:Pln:bus1:B MW Active Power (Line-Neutral) m:Pln:bus1:C MW Active Power (Line-Neutral) m:Qln:bus1:A Mvar Reactive Power (Line-Neutral) m:Qln:bus1:B Mvar Reactive Power (Line-Neutral) m:Qln:bus1:C Mvar Reactive Power (Line-Neutral) m:P1:bus1 MW Positive Sequence Active Power m:Q1:bus1 Mvar Positive Sequence Reactive Power m:P2:bus1 MW Negative Sequence Active Power m:Q2:bus1 Mvar Negative Sequence Active Power m:i1P:bus1 p.u. Positive-Sequence Active Current m:i1Q:bus1 p.u. Positive-Sequence Reactive Current m:I1P:bus1 kA Positive-Sequence Active Current m:I1Q:bus1 kA Positive-Sequence Reactive Current m:i2P:bus1 p.u. Negative-Sequence Active Current m:i2Q:bus1 p.u. Negative-Sequence Reactive Current m:I2P:bus1 kA Negative-Sequence Active Current m:I2Q:bus1 kA Negative-Sequence Reactive Current m:ur:bus1:A p.u. Phase Voltage, Real Part m:ur:bus1:B p.u. Phase Voltage, Real Part m:ur:bus1:C p.u. Phase Voltage, Real Part m:ui:bus1:A p.u. Phase Voltage, Imaginary Part m:ui:bus1:B p.u. Phase Voltage, Imaginary Part m:ui:bus1:C p.u. Phase Voltage, Imaginary Part m:u:bus1:A p.u. Phase Voltage, Magnitude m:u:bus1:B p.u. Phase Voltage, Magnitude m:u:bus1:C p.u. Phase Voltage, Magnitude m:ir:bus1:A p.u. Phase Current, Real Part m:ir:bus1:B p.u. Phase Current, Real Part m:ir:bus1:C p.u. Phase Current, Real Part m:ii:bus1:A p.u. Phase Current, Imaginary Part m:ii:bus1:B p.u. Phase Current, Imaginary Part m:ii:bus1:C p.u. Phase Current, Imaginary Part m:i:bus1:A p.u. Phase Current, Magnitude m:i:bus1:B p.u. Phase Current, Magnitude m:i:bus1:C p.u. Phase Current, Magnitude m:phiui:bus1:A deg Angle between Voltage and Current m:phiui:bus1:B deg Angle between Voltage and Current m:phiui:bus1:C deg Angle between Voltage and Current m:phiu0i0:bus1 deg Angle between Voltage and Current in zero-sequence system m:phiu1i1:bus1 deg Angle between Voltage and Current in positive sequence system m:phiu2i2:bus1 deg Angle between Voltage and Current in negative sequence system m:Ploss:bus1 MW Losses (total) m:Qloss:bus1 Mvar Reactive-Losses (total) m:Plossld:bus1 MW Losses (load) m:Qlossld:bus1 Mvar Reactive-Losses (load) m:Plossnld:bus1 MW Losses (no load)

m:Qlossnld:bus1 Mvar Reactive-Losses (noload) m:Tfct:bus1 s Fault Clearing Time m:TfctPh:bus1:A s Fault Clearing Time m:TfctPh:bus1:B s Fault Clearing Time m:TfctPh:bus1:C s Fault Clearing Time m:Imax:bus1 kA Maximum Current m:Smax:bus1 MVA Maximum Power m:Brkload:bus1 % Max. Breaker Loading m:BrkloadPh:bus1:A % Breaker Loading m:BrkloadPh:bus1:B % Breaker Loading m:BrkloadPh:bus1:C % Breaker Loading Bus Results: n:ur:bus1:A p.u. Line-Ground Voltage, Real Part n:ur:bus1:B p.u. Line-Ground Voltage, Real Part n:ur:bus1:C p.u. Line-Ground Voltage, Real Part n:ui:bus1:A p.u. Line-Ground Voltage, Imaginary Part n:ui:bus1:B p.u. Line-Ground Voltage, Imaginary Part n:ui:bus1:C p.u. Line-Ground Voltage, Imaginary Part n:u:bus1:A p.u. Line-Ground Voltage, Magnitude n:u:bus1:B p.u. Line-Ground Voltage, Magnitude n:u:bus1:C p.u. Line-Ground Voltage, Magnitude n:upc:bus1:A % Line-Ground Voltage, Magnitude n:upc:bus1:B % Line-Ground Voltage, Magnitude n:upc:bus1:C % Line-Ground Voltage, Magnitude n:U:bus1:A kV Line-Ground Voltage, Magnitude n:U:bus1:B kV Line-Ground Voltage, Magnitude n:U:bus1:C kV Line-Ground Voltage, Magnitude n:phiu:bus1:A deg Line-Ground Voltage, Angle n:phiu:bus1:B deg Line-Ground Voltage, Angle n:phiu:bus1:C deg Line-Ground Voltage, Angle n:phiurel:bus1:A deg Voltage, Relative Angle n:phiurel:bus1:B deg Voltage, Relative Angle n:phiurel:bus1:C deg Voltage, Relative Angle n:ul:bus1:A p.u. Line to Line Voltage, Magnitude n:ul:bus1:B p.u. Line to Line Voltage, Magnitude n:ul:bus1:C p.u. Line to Line Voltage, Magnitude n:ulpc:bus1:A % Line to Line Voltage, Magnitude n:ulpc:bus1:B % Line to Line Voltage, Magnitude n:ulpc:bus1:C % Line to Line Voltage, Magnitude n:Ul:bus1:A kV Line to Line Voltage, Magnitude n:Ul:bus1:B kV Line to Line Voltage, Magnitude n:Ul:bus1:C kV Line to Line Voltage, Magnitude n:phiul:bus1:A deg Line to Line Voltage, Angle n:phiul:bus1:B deg Line to Line Voltage, Angle n:phiul:bus1:C deg Line to Line Voltage, Angle n:u0:bus1 p.u. Zero-Sequence Voltage, Magnitude n:U0:bus1 kV Zero-Sequence Voltage, Magnitude n:U0x3:bus1 kV 3*U0 n:phiu0:bus1 deg Zero-Sequence Voltage, Angle n:u1:bus1 p.u. Line-Ground Positive-Sequence Voltage, Magnitude n:u1pc:bus1 % Line-Ground Positive-Sequence Voltage, Magnitude n:u1r:bus1 p.u. Positive-Sequence Voltage, Real Part n:u1i:bus1 p.u. Positive-Sequence Voltage, Imaginary Part n:U1:bus1 kV Line-Ground Positive-Sequence Voltage, Magnitude n:phiu1:bus1 deg Line-Ground Positive-Sequence Voltage, Angle n:u2:bus1 p.u. Line-Ground Negative-Sequence Voltage, Magnitude n:U2:bus1 kV Line-Ground Negative-Sequence Voltage, Magnitude n:phiu2:bus1 deg Negative-Sequence Voltage, Angle n:U1l:bus1 kV Line to Line Positive-Sequence Voltage, Magnitude n:U2l:bus1 kV Line to Line Negative-Sequence Voltage, Magnitude n:uln:bus1:A p.u. Line-Neutral Voltage, Magnitude n:uln:bus1:B p.u. Line-Neutral Voltage, Magnitude n:uln:bus1:C p.u. Line-Neutral Voltage, Magnitude n:Uln:bus1:A kV Line-Neutral Voltage, Magnitude n:Uln:bus1:B kV Line-Neutral Voltage, Magnitude n:Uln:bus1:C kV Line-Neutral Voltage, Magnitude n:phiuln:bus1:A deg Line-Neutral Voltage, Angle n:phiuln:bus1:B deg Line-Neutral Voltage, Angle n:phiuln:bus1:C deg Line-Neutral Voltage, Angle n:un:bus1 p.u. Neutral-Ground Voltage, Magnitude n:Un:bus1 kV Neutral-Ground Voltage, Magnitude n:phiun:bus1 deg Neutral-Ground Voltage, Angle n:upht:bus1:A p.u. Phase Technology dependent Voltage, Magnitude n:upht:bus1:B p.u. Phase Technology dependent Voltage, Magnitude n:upht:bus1:C p.u. Phase Technology dependent Voltage, Magnitude n:Upht:bus1:A kV Phase Technology dependent Voltage, Magnitude

n:Upht:bus1:B kV Phase Technology dependent Voltage, Magnitude n:Upht:bus1:C kV Phase Technology dependent Voltage, Magnitude n:um:bus1 p.u. Average-Voltage, Magnitude n:Um:bus1 kV Average-Voltage, Magnitude n:Pgen:bus1 MW Generation, Active Power n:Qgen:bus1 Mvar Generation, Reactive Power n:Pmot:bus1 MW Motor Load, Active Power n:Qmot:bus1 Mvar Motor Load, Reactive Power n:Pload:bus1 MW General Load, Active Power n:Qload:bus1 Mvar General Load, Reactive Power n:Pcomp:bus1 MW Compensation (Losses) n:Qcomp:bus1 Mvar Compensation n:Pnet:bus1 MW External Networks, Active Power n:Qnet:bus1 Mvar External Networks, Reactive Power n:Pflow:bus1 MW Power Flow, Active Power n:Qflow:bus1 Mvar Power Flow, Reactive Power n:umin:bus1 p.u. Minimum Voltage n:Umin:bus1 kV Minimum Voltage (Line to Neutral) n:dumax:bus1 % Maximum Voltage Drop along Feeder n:Pbalance:bus1 MW Active Power Balance (=0) n:Qbalance:bus1 Mvar Reactive Power Balance (=0) n:LossPdown:bus1 MW Losses, downstream n:LossQdown:bus1 Mvar Losses, downstream (Reactive Power) n:LossPdownload:bus1 MW Load losses, downstream n:LossQdownload:bus1 Mvar Load losses, downstream n:LossPdownnoload:bus1 MW No load losses, downstream n:LossQdownnoload:bus1 Mvar No load losses, downstream Signals: s:pset MW IN Active Power Setpoint s:qset Mvar IN Reactive Power Setpoint s:uremrA p.u. IN Remote-Bus voltage phase A (Real Part) s:uremiA p.u. IN Remote-Bus voltage phase A (Imaginary Part) s:uremrB p.u. IN Remote-Bus voltage phase B (Real Part) s:uremiB p.u. IN Remote-Bus voltage phase B (Imaginary Part) s:uremrC p.u. IN Remote-Bus voltage phase C (Real Part) s:uremiC p.u. IN Remote-Bus voltage phase C (Imaginary Part) s:dF Hz OUT Frequency Deviation Calculation Parameter: c:p MW Total Active Power c:q Mvar Total Reactive Power c:sgnn MVA Total Nominal Apparent power (ngnum*sgn) c:cosn Nominal-Power factor c:c2 Voltage Coefficient (uknom/ugn) c:r0 p.u. Zero Sequence Resistance c:x0 p.u. Zero Sequence Reactance c:rearth p.u. Grounding Resistance c:xearth p.u. Grounding Reactance c:r2 p.u. Negative Sequence Resistance c:x2 p.u. Negative Sequence Reactance c:uini:r p.u. Voltage Setpoint for PV and Slack, Real Part c:uini:i p.u. Voltage Setpoint for PV and Slack, Imaginary Part c:uini:phi deg Voltage Setpoint for PV and Slack, Angle c:uini:mag p.u. Voltage Setpoint for PV and Slack, Magnitude c:uini:phirad rad Voltage Setpoint for PV and Slack, Angle c:loading % Loading c:iPowerOn Flag c:xdq p.u. Synchronous Reactance c:Qmin Mvar Lower limit of reactive power c:Qmax Mvar Upper limit of reactive power c:Qsparelead Mvar Q Spare Lead c:Qsparelag Mvar Q Spare Lag c:i_qlim Reactive power limit reached c:sm:r MW Complex Power, Real Part c:sm:i Mvar Complex Power, Imaginary Part c:sm:phi deg Complex Power, Angle c:sm:mag MVA Complex Power, Magnitude c:sm:phirad rad Complex Power, Angle c:u1:r p.u. Internal, Real Part c:u1:i p.u. Internal, Imaginary Part c:u1:phi deg Internal, Angle c:u1:mag p.u. Internal, Magnitude c:u1:phirad rad Internal, Angle c:i_spin Flag c:iRefElement Reference Element

c:phiini Initial Angle c:Pdisp MM Power (Eco-Dispatch) c:cst_disp $/h Production Costs c:Kp p.u. Active Power Participation c:Kq p.u. Reactive Power Participation c:Kpf MW/Hz Frequency Bias c:zonewscale Wind generation zone scaling factor c:Pmism MW Active Power Mismatch Element Parameter: e:i_spin Spinning if circuit-breaker is open e:ip_ctrl Reference Machine e:bustp Corresponding Bus Type: e:iv_mode Mode of Local Voltage Controller e:c_psecc ElmSecctrl External Secondary Controller e:c_pstac ElmStactrl External Station Controller e:mode_inp Dispatch: Input Mode e:pgini MW Dispatch: Active Power e:qgini Mvar Dispatch: Reactive Power e:sgini MVA Dispatch: Apparent Power e:cosgini Dispatch: Power Factor e:pf_recap Dispatch: Power Factor e:usetp p.u. Dispatch: Voltage e:phiini deg Dispatch: Angle e:Kpf MW/Hz Dispatch: Prim. Frequency Bias e:pQlimType IntQlim Reactive Power Limits: Capability Curve e:iqtype Reactive Power Limits: Use limits specified in type e:q_min p.u. Reactive Power Limits: Min. e:q_max p.u. Reactive Power Limits: Max. e:cQ_min Mvar Reactive Power Limits: Minimum e:cQ_max Mvar Reactive Power Limits: Maximum e:cq_min p.u. Reactive Power Limits: Min. e:cq_max p.u. Reactive Power Limits: Max. e:scaleQmin % Reactive Power Limits: Scaling Factor (min.) e:scaleQmax % Reactive Power Limits: Scaling Factor (max.) e:Pmin_uc MW Operational Limits: Min. e:Pmax_uc MW Operational Limits: Max. e:Pnom MW Operational Limits: Pn e:P_max MW Active Power: Ratings: Max. e:pmaxratf Active Power: Ratings: Rating Factor e:i_cap User defined Capability Curve e:cap_P MW Act.Power e:cap_Qmn Mvar Min. e:cap_Qmx Mvar Max. e:c_pCtrlHV Controlled HV-busbar e:Uctrl kV HV-Voltage Setpoint e:Qmin_a Mvar Qmin(act.) e:Qmax_a Mvar Qmax(act.) e:Pmin_a MW Pmin(act.) e:Pmax_a MW Pmax(act.) Type Parameter: t:xd p.u. Synchronous Reactances: xd t:xq p.u. Synchronous Reactances: xq t:q_min p.u. Reactive Power Limits: Minimum Value t:q_max p.u. Reactive Power Limits: Maximum Value t:Q_min Mvar Reactive Power Limits: Minimum Value t:Q_max Mvar Reactive Power Limits: Maximum Value t:x0sy p.u. Zero Sequence Data: Reactance x0 t:r0sy p.u. Zero Sequence Data: Resistance r0 t:x2sy p.u. Neg. Sequence Data: Reactance x2 t:r2sy p.u. Neg. Sequence Data: Resistance r2 Reference Parameter: r:c_psecc ElmSecctrl External Secondary Controller r:c_pstac ElmStactrl External Station Controller r:pQlimType IntQlim Capability Curve r:c_pCtrlHV Controlled HV-busbar VDE/IEC Short-Circuit balanced: ------------------------------ Currents, Voltages and Powers: m:Ikss:bus1 kA Initial Short-Circuit Current

m:ikss:bus1 p.u. Initial Short-Circuit Current, Magnitude m:phii:bus1 deg Phase Current, Angle m:maxIkss:bus1 kA Max. Initial Short-Circuit Current m:Skss:bus1 MVA Initial Short-Circuit Power m:ip:bus1 kA Peak Short-Circuit Current m:maxip:bus1 kA Max. Peak Short-Circuit Current m:maxIb:bus1 kA Max. Breaking Current m:maxIth:bus1 kA Max. Thermal equivalent Short-Circuit Current m:Ib:bus1 kA Short-Circuit Breaking Current m:Sb:bus1 MVA Short-Circuit Breaking Power m:Ik:bus1 kA Steady-State Short-Circuit Current m:Ith:bus1 kA Thermal equivalent Short-Circuit Current m:I:bus1 kA Short-Circuit Current m:R:bus1 Ohm Fault Impedance, Real Part m:X:bus1 Ohm Fault Impedance, Imaginary Part m:Z:bus1 Ohm Fault Impedance, Magnitude m:phiz:bus1 deg Fault Impedance, Angle m:zSbase:bus1 p.u. Fault Impedance, Magnitude m:XtoR:bus1 X/R ratio m:Zs:bus1 Ohm Source Impedance, Magnitude m:phizs:bus1 deg Source Impedance, Angle m:Rs:bus1 Ohm Source Impedance, Real Part m:Xs:bus1 Ohm Source Impedance, Imaginary Part m:i1:bus1 p.u. Positive-Sequence Current, Magnitude m:I1:bus1 kA Positive-Sequence Current, Magnitude m:phii1:bus1 deg Positive-Sequence Current, Angle m:phiui:bus1 deg Angle between Voltage and Current m:phiu1i1:bus1 deg Angle between Voltage and Current in Positive-Sequence System m:cosphiui:bus1 cosphi m:P:bus1 MW Active Power m:Q:bus1 Mvar Reactive Power m:i1P:bus1 p.u. Positive-Sequence Active Current m:i1Q:bus1 p.u. Positive-Sequence Reactive Current m:I1P:bus1 kA Positive-Sequence Active Current m:I1Q:bus1 kA Positive-Sequence Reactive Current m:Tfct:bus1 s Fault Clearing Time m:BrkIpload:bus1 % Breaker Loading (peak) m:BrkIbload:bus1 % Breaker Loading (breaking) m:BrkmaxIb:bus1 kA Max. Breaking Current (breaker time) Bus Results: n:Ikss:bus1 kA Initial Short-Circuit Current n:I:bus1 kA Short-Circuit Current n:phii:bus1 deg Phase Current, Angle n:Skss:bus1 MVA Initial Short-Circuit Power n:ip:bus1 kA Peak Short-Circuit Current n:Ib:bus1 kA Short-Circuit Breaking Current n:Sb:bus1 MVA Short-Circuit Breaking Power n:Ik:bus1 kA Steady-State Short-Circuit Current n:Ith:bus1 kA Thermal equivalent Short-Circuit Current n:R:bus1 Ohm Short-Circuit Impedance, Real Part n:X:bus1 Ohm Short-Circuit Impedance, Imaginary Part n:Z:bus1 Ohm Short-Circuit Impedance, Magnitude n:phiz:bus1 deg Short-Circuit Impedance, Angle n:rSbase:bus1 p.u. Short-Circuit Impedance, Real Part n:xSbase:bus1 p.u. Short-Circuit Impedance, Imaginary Part n:zSbase:bus1 p.u. Short-Circuit Impedance, Magnitude n:XtoR:bus1 X/R ratio (peak) n:RtoX:bus1 R/X ratio (peak) n:ur:bus1 p.u. Voltage, Real Part n:ui:bus1 p.u. Voltage, Imaginary Part n:u:bus1 p.u. Voltage, Magnitude n:upc:bus1 % Voltage, Magnitude n:u1:bus1 p.u. Voltage, Magnitude n:u1pc:bus1 % Voltage, Magnitude n:u1r:bus1 p.u. Positive-Sequence Voltage, Real-Part n:u1i:bus1 p.u. Positive-Sequence Voltage, Imaginary-Part n:U:bus1 kV Line-Ground Voltage, Magnitude n:Ul:bus1 kV Line-Line Voltage, Magnitude n:phiu:bus1 deg Voltage, Angle n:phiurel:bus1 deg Voltage, Relative Angle n:du:bus1 % Voltage Deviation n:urpref:bus1 p.u. Pre-fault Voltage, Real Part n:uipref:bus1 p.u. Pre-fault Voltage, Imaginary Part n:upref:bus1 p.u. Pre-fault Voltage, Magnitude n:uprefpc:bus1 % Pre-fault Voltage, Magnitude n:Upref:bus1 kV Line-Ground Pre-fault Voltage, Magnitude

n:Ulpref:bus1 kV Line-Line Pre-fault Voltage, Magnitude n:phiupref:bus1 deg Line-Ground Pre-fault Voltage, Magnitude n:phiui:bus1 deg Angle between Voltage and Current n:cfac:bus1 Voltage Factor n:idc:bus1 kA Decaying Component n:Iasy:bus1 kA Asymmetrical Breaking Current n:Ithload:bus1 % Loading, Thermal equivalent Current n:Ipload:bus1 % Loading, Peak Short-Circuit Current n:Ithrtk:bus1 kA Rated Short-Time Current (Tk) n:Tn:bus1 ms Grid Time Constant n:XtoR_b:bus1 X/R ratio (dc) n:RtoX_b:bus1 R/X ratio (dc) n:fctof_b:bus1 Equivalent Frequency fc/f (dc) Signals: Calculation Parameter: c:z1:r p.u. Subtransient Impedance, Real Part c:z1:i p.u. Subtransient Impedance, Imaginary Part c:z1:phi deg Subtransient Impedance, Angle c:z1:mag p.u. Subtransient Impedance, Magnitude c:z1:phirad rad Subtransient Impedance, Angle c:rgf p.u. Fictitious Resistance c:uss:r p.u. Subtransient Voltage, Real Part c:uss:i p.u. Subtransient Voltage, Imaginary Part c:uss:phi deg Subtransient Voltage, Angle c:uss:mag p.u. Subtransient Voltage, Magnitude c:uss:phirad rad Subtransient Voltage, Angle c:cosn Nominal-Power factor c:xdsss p.u. Saturated Subtransient Reactance c:xdsat p.u. Saturated Synchronous Reactance c:satur Machine Type IEC909 c:tr2tf PSU Transformer Ratio c:isremote Remote Contribution c:Icontrib kA Contribution Current c:currcont:r p.u. Contribution Current, Real Part c:currcont:i p.u. Contribution Current, Imaginary Part c:currcont:phi deg Contribution Current, Angle c:currcont:mag p.u. Contribution Current, Magnitude c:currcont:phirad rad Contribution Current, Angle Element Parameter: e:pG % Range of Voltage Regulation (+/-) Type Parameter: t:xdsss p.u. Subtransient Reactance: saturated value xd''sat t:rstr p.u. Stator Resistance: rstr t:xtor Stator Resistance: Ratio X/R t:iuseXdk Steady-State Shc. Current: Ik instead of Reactances t:curk kA Steady-State Shc. Current: 3-Phase Ik3p t:curk2p kA Steady-State Shc. Current: 2-Phase Ik2p t:curk1p kA Steady-State Shc. Current: 1-Phase Ik1p t:x0sy p.u. Zero Sequence Data: Reactance x0 t:r0sy p.u. Zero Sequence Data: Resistance r0 t:x2sy p.u. Neg. Sequence Data: Reactance x2 t:r2sy p.u. Neg. Sequence Data: Resistance r2 t:xdsat p.u. For single fed short-circuit: Reciprocal of short-circuit ratio (xdsat) t:satur For single fed short-circuit: Machine Type IEC909/IEC60909 Reference Parameter: VDE/IEC Short-Circuit unbalanced: -------------------------------- Currents, Voltages and Powers: m:Ikss:bus1:A kA Initial Short-Circuit Current m:Ikss:bus1:B kA Initial Short-Circuit Current m:Ikss:bus1:C kA Initial Short-Circuit Current m:ikss:bus1:A p.u. Initial Short-Circuit Current, Magnitude m:ikss:bus1:B p.u. Initial Short-Circuit Current, Magnitude

m:ikss:bus1:C p.u. Initial Short-Circuit Current, Magnitude m:phii:bus1:A deg Phase Current, Angle m:phii:bus1:B deg Phase Current, Angle m:phii:bus1:C deg Phase Current, Angle m:maxIkss:bus1 kA Max. Initial Short-Circuit Current m:Skss:bus1:A MVA Initial Short-Circuit Power m:Skss:bus1:B MVA Initial Short-Circuit Power m:Skss:bus1:C MVA Initial Short-Circuit Power m:Skssx3:bus1:A MVA 3*Initial Short-Circuit Power m:Skssx3:bus1:B MVA 3*Initial Short-Circuit Power m:Skssx3:bus1:C MVA 3*Initial Short-Circuit Power m:ip:bus1:A kA Peak Short-Circuit Current m:ip:bus1:B kA Peak Short-Circuit Current m:ip:bus1:C kA Peak Short-Circuit Current m:maxip:bus1 kA Max. Peak Short-Circuit Current m:maxIth:bus1 kA Max. Thermal equivalent Short-Circuit Current m:Z:bus1:A Ohm Fault Impedance, Magnitude m:Z:bus1:B Ohm Fault Impedance, Magnitude m:Z:bus1:C Ohm Fault Impedance, Magnitude m:phiz:bus1:A deg Fault Impedance, Angle m:phiz:bus1:B deg Fault Impedance, Angle m:phiz:bus1:C deg Fault Impedance, Angle m:Zl:bus1:A Ohm Line to Line Fault Impedance, Magnitude m:Zl:bus1:B Ohm Line to Line Fault Impedance, Magnitude m:Zl:bus1:C Ohm Line to Line Fault Impedance, Magnitude m:phizl:bus1:A deg Line to Line Fault Impedance, Angle m:phizl:bus1:B deg Line to Line Fault Impedance, Angle m:phizl:bus1:C deg Line to Line Fault Impedance, Angle m:Z0:bus1 Ohm Zero-Sequence Fault Impedance, Magnitude m:phiz0:bus1 deg Zero-Sequence Fault Impedance, Angle m:z0Sbase:bus1 p.u. Zero-Sequence Fault Impedance, Magnitude m:I0:bus1 kA Zero-Sequence Current, Magnitude m:I0x3:bus1 kA 3*I0 m:phii0:bus1 deg Zero-Sequence Current, Angle m:i1:bus1 p.u. Positive-Sequence Current, Magnitude m:I1:bus1 kA Positive-Sequence Current, Magnitude m:phii1:bus1 deg Positive-Sequence Current, Angle m:I2:bus1 kA Negative-Sequence Current, Magnitude m:phii2:bus1 deg Negative-Sequence Current, Angle m:phiui:bus1:A deg Angle between Voltage and Current m:phiui:bus1:B deg Angle between Voltage and Current m:phiui:bus1:C deg Angle between Voltage and Current m:phiu0i0:bus1 deg Angle between Voltage and Current in Zero-Sequence System m:phiu1i1:bus1 deg Angle between Voltage and Current in Positive-Sequence System m:phiu2i2:bus1 deg Angle between Voltage and Current in Negative-Sequence System m:cosphiu1i1:bus1 Positive-Sequence cosphi m:I0x3watt:bus1 kA Earth-Fault Residual Current m:I0x3var:bus1 kA Capacitive Earth-Fault Current m:P:bus1:A MW Active Power m:P:bus1:B MW Active Power m:P:bus1:C MW Active Power m:Q:bus1:A Mvar Reactive Power m:Q:bus1:B Mvar Reactive Power m:Q:bus1:C Mvar Reactive Power m:Psum:bus1 MW Total Active Power m:Qsum:bus1 Mvar Total Reactive Power m:P0:bus1 MW P0 m:Q0cap:bus1 Mvar Q0 capacitive m:P2:bus1 MW P2 m:Q2:bus1 Mvar Q2 m:i1P:bus1 p.u. Positive-Sequence Active Current m:i1Q:bus1 p.u. Positive-Sequence Reactive Current m:I1P:bus1 kA Positive-Sequence Active Current m:I1Q:bus1 kA Positive-Sequence Reactive Current m:Zfrel:bus1 Ohm Relay Impedance, Magnitude m:phizfrel:bus1 deg Relay Impedance, Angle m:Rfrel:bus1 Ohm Relay Impedance, Real Part m:Xfrel:bus1 Ohm Relay Impedance, Imaginary Part m:Zs:bus1 Ohm Source Impedance, Magnitude m:phizs:bus1 deg Source Impedance, Angle m:Rs:bus1 Ohm Source Impedance, Real Part m:Xs:bus1 Ohm Source Impedance, Imaginary Part m:Zf:bus1 Ohm Meas. Fault Impedance, Magnitude m:phizf:bus1 deg Meas. Fault Impedance, Angle m:Zf11:bus1 Ohm Positive-Sequence Fault Impedance, Magnitude m:phizf11:bus1 deg Positive-Sequence Fault Impedance, Angle m:ck0:bus1 Earth Factor, Magnitude m:cphik0:bus1 deg Earth Factor, Angle

m:Ikssl:bus1:A kA L-L Initial Short-Circuit Current m:Ikssl:bus1:B kA L-L Initial Short-Circuit Current m:Ikssl:bus1:C kA L-L Initial Short-Circuit Current m:phiil:bus1:A deg Line-Line Current, Angle m:phiil:bus1:B deg Line-Line Current, Angle m:phiil:bus1:C deg Line-Line Current, Angle m:Tfct:bus1 s Fault Clearing Time m:TfctPh:bus1:A s Fault Clearing Time m:TfctPh:bus1:B s Fault Clearing Time m:TfctPh:bus1:C s Fault Clearing Time m:BrkIpload:bus1 % Max. Breaker Loading (peak) Bus Results: n:Ikss:bus1:A kA Initial Short-Circuit Current n:Ikss:bus1:B kA Initial Short-Circuit Current n:Ikss:bus1:C kA Initial Short-Circuit Current n:I:bus1:A kA Short-Circuit Current n:I:bus1:B kA Short-Circuit Current n:I:bus1:C kA Short-Circuit Current n:phii:bus1:A deg Phase Current, Angle n:phii:bus1:B deg Phase Current, Angle n:phii:bus1:C deg Phase Current, Angle n:Skss:bus1:A MVA Initial Short-Circuit Power n:Skss:bus1:B MVA Initial Short-Circuit Power n:Skss:bus1:C MVA Initial Short-Circuit Power n:Skssx3:bus1:A MVA 3*Initial Short-Circuit Power n:Skssx3:bus1:B MVA 3*Initial Short-Circuit Power n:Skssx3:bus1:C MVA 3*Initial Short-Circuit Power n:ip:bus1:A kA Peak Short-Circuit Current n:ip:bus1:B kA Peak Short-Circuit Current n:ip:bus1:C kA Peak Short-Circuit Current n:Ib:bus1:A kA Short-Circuit Breaking Current n:Ib:bus1:B kA Short-Circuit Breaking Current n:Ib:bus1:C kA Short-Circuit Breaking Current n:Sb:bus1:A MVA Short-Circuit Breaking Power n:Sb:bus1:B MVA Short-Circuit Breaking Power n:Sb:bus1:C MVA Short-Circuit Breaking Power n:Ith:bus1:A kA Thermal equivalent Short-Circuit Current n:Ith:bus1:B kA Thermal equivalent Short-Circuit Current n:Ith:bus1:C kA Thermal equivalent Short-Circuit Current n:Ithmax:bus1 kA Max. Thermal equivalent Short-Circuit Current n:Ik:bus1:A kA Steady-State Short-Circuit Current n:Ik:bus1:B kA Steady-State Short-Circuit Current n:Ik:bus1:C kA Steady-State Short-Circuit Current n:R0:bus1 Ohm Zero-Sequence Impedance, Real Part n:X0:bus1 Ohm Zero-Sequence Impedance, Imaginary Part n:Z0:bus1 Ohm Zero-Sequence Impedance, Magnitude n:phiz0:bus1 deg Zero-Sequence Impedance, Angle n:r0Sbase:bus1 p.u. Zero-Sequence Impedance, Real Part n:x0Sbase:bus1 p.u. Zero-Sequence Impedance, Imaginary Part n:z0Sbase:bus1 p.u. Zero-Sequence Impedance, Magnitude n:R1:bus1 Ohm Positive-Sequence Impedance, Real Part n:X1:bus1 Ohm Positive-Sequence Impedance, Imaginary Part n:Z1:bus1 Ohm Positive-Sequence Impedance, Magnitude n:phiz1:bus1 deg Positive-Sequence Impedance, Angle n:r1Sbase:bus1 p.u. Positive-Sequence Impedance, Real Part n:x1Sbase:bus1 p.u. Positive-Sequence Impedance, Imaginary Part n:z1Sbase:bus1 p.u. Positive-Sequence Impedance, Magnitude n:R2:bus1 Ohm Negative-Sequence Impedance, Real Part n:X2:bus1 Ohm Negative-Sequence Impedance, Imaginary Part n:Z2:bus1 Ohm Negative-Sequence Impedance, Magnitude n:phiz2:bus1 deg Negative-Sequence Impedance, Angle n:r2Sbase:bus1 p.u. Negative-Sequence Impedance, Real Part n:x2Sbase:bus1 p.u. Negative-Sequence Impedance, Imaginary Part n:z2Sbase:bus1 p.u. Negative-Sequence Impedance, Magnitude n:R:bus1:A Ohm Network Resistance, Line-Ground n:R:bus1:B Ohm Network Resistance, Line-Ground n:R:bus1:C Ohm Network Resistance, Line-Ground n:X:bus1:A Ohm Network Reactance, Line-Ground n:X:bus1:B Ohm Network Reactance, Line-Ground n:X:bus1:C Ohm Network Reactance, Line-Ground n:Z:bus1:A Ohm Network Impedance, Line-Ground n:Z:bus1:B Ohm Network Impedance, Line-Ground n:Z:bus1:C Ohm Network Impedance, Line-Ground n:phiz:bus1:A deg Angle of Network Impedance, Line-Ground n:phiz:bus1:B deg Angle of Network Impedance, Line-Ground n:phiz:bus1:C deg Angle of Network Impedance, Line-Ground

n:Rl:bus1:A Ohm Network Resistance, Line-Line n:Rl:bus1:B Ohm Network Resistance, Line-Line n:Rl:bus1:C Ohm Network Resistance, Line-Line n:Xl:bus1:A Ohm Network Reactance, Line-Line n:Xl:bus1:B Ohm Network Reactance, Line-Line n:Xl:bus1:C Ohm Network Reactance, Line-Line n:Zl:bus1:A Ohm Network Impedance, Line-Line n:Zl:bus1:B Ohm Network Impedance, Line-Line n:Zl:bus1:C Ohm Network Impedance, Line-Line n:phizl:bus1:A deg Angle of Network Impedance, Line-Line n:phizl:bus1:B deg Angle of Network Impedance, Line-Line n:phizl:bus1:C deg Angle of Network Impedance, Line-Line n:Rln:bus1:A Ohm Network Resistance, Line-Neutral n:Rln:bus1:B Ohm Network Resistance, Line-Neutral n:Rln:bus1:C Ohm Network Resistance, Line-Neutral n:Xln:bus1:A Ohm Network Reactance, Line-Neutral n:Xln:bus1:B Ohm Network Reactance, Line-Neutral n:Xln:bus1:C Ohm Network Reactance, Line-Neutral n:Zln:bus1:A Ohm Network Impedance, Line-Neutral n:Zln:bus1:B Ohm Network Impedance, Line-Neutral n:Zln:bus1:C Ohm Network Impedance, Line-Neutral n:phizln:bus1:A deg Angle of Network Impedance, Line-Neutral n:phizln:bus1:B deg Angle of Network Impedance, Line-Neutral n:phizln:bus1:C deg Angle of Network Impedance, Line-Neutral n:Rn:bus1 Ohm Network Resistance, Neutral n:Xn:bus1 Ohm Network Reactance, Neutral n:Zn:bus1 Ohm Network Impedance, Neutral n:phizn:bus1 deg Angle of Network Impedance, Neutral n:eff:bus1:A Earth Fault Factor n:eff:bus1:B Earth Fault Factor n:eff:bus1:C Earth Fault Factor n:X0toX1:bus1 X0/X1 n:in:bus1 p.u. Neutral Current, Magnitude n:In:bus1 kA Neutral Current, Magnitude n:phiin:bus1 deg Neutral Current, Angle n:i0r:bus1 p.u. Zero-Sequence Current, Real Part n:i0i:bus1 p.u. Zero-Sequence Current, Imaginary Part n:i0:bus1 p.u. Zero-Sequence Current, Magnitude n:I0:bus1 kA Zero-Sequence Current, Magnitude n:I0x3:bus1 kA 3*I0 n:phii0:bus1 deg Zero-Sequence Current, Angle n:i1r:bus1 p.u. Positive-Sequence Current, Real Part n:i1i:bus1 p.u. Positive-Sequence Current, Imaginary Part n:i1:bus1 p.u. Positive-Sequence Current, Magnitude n:I1:bus1 kA Positive-Sequence Current, Magnitude n:phii1:bus1 deg Positive-Sequence Current, Angle n:i2r:bus1 p.u. Negative-Sequence Current, Real Part n:i2i:bus1 p.u. Negative-Sequence Current, Imaginary Part n:i2:bus1 p.u. Negative-Sequence Current, Magnitude n:I2:bus1 kA Negative-Sequence Current, Magnitude n:phii2:bus1 deg Negative-Sequence Current, Angle n:ur:bus1:A p.u. Line-Ground Voltage, Real Part n:ur:bus1:B p.u. Line-Ground Voltage, Real Part n:ur:bus1:C p.u. Line-Ground Voltage, Real Part n:ui:bus1:A p.u. Line-Ground Voltage, Imaginary Part n:ui:bus1:B p.u. Line-Ground Voltage, Imaginary Part n:ui:bus1:C p.u. Line-Ground Voltage, Imaginary Part n:u:bus1:A p.u. Line-Ground Voltage, Magnitude n:u:bus1:B p.u. Line-Ground Voltage, Magnitude n:u:bus1:C p.u. Line-Ground Voltage, Magnitude n:upc:bus1:A % Line-Ground Voltage, Magnitude n:upc:bus1:B % Line-Ground Voltage, Magnitude n:upc:bus1:C % Line-Ground Voltage, Magnitude n:U:bus1:A kV Line-Ground Voltage, Magnitude n:U:bus1:B kV Line-Ground Voltage, Magnitude n:U:bus1:C kV Line-Ground Voltage, Magnitude n:phiu:bus1:A deg Line-Ground Voltage, Angle n:phiu:bus1:B deg Line-Ground Voltage, Angle n:phiu:bus1:C deg Line-Ground Voltage, Angle n:phiurel:bus1:A deg Voltage, Relative Angle n:phiurel:bus1:B deg Voltage, Relative Angle n:phiurel:bus1:C deg Voltage, Relative Angle n:ul:bus1:A p.u. Line to Line Voltage, Magnitude n:ul:bus1:B p.u. Line to Line Voltage, Magnitude n:ul:bus1:C p.u. Line to Line Voltage, Magnitude n:ulpc:bus1:A % Line to Line Voltage, Magnitude n:ulpc:bus1:B % Line to Line Voltage, Magnitude n:ulpc:bus1:C % Line to Line Voltage, Magnitude

n:Ul:bus1:A kV Line to Line Voltage, Magnitude n:Ul:bus1:B kV Line to Line Voltage, Magnitude n:Ul:bus1:C kV Line to Line Voltage, Magnitude n:phiul:bus1:A deg Line to Line Voltage, Angle n:phiul:bus1:B deg Line to Line Voltage, Angle n:phiul:bus1:C deg Line to Line Voltage, Angle n:u0:bus1 p.u. Zero-Sequence Voltage, Magnitude n:U0:bus1 kV Zero-Sequence Voltage, Magnitude n:U0x3:bus1 kV 3*U0 n:phiu0:bus1 deg Zero-Sequence Voltage, Angle n:u1:bus1 p.u. Line-Ground Positive-Sequence Voltage, Magnitude n:u1pc:bus1 % Line-Ground Positive-Sequence Voltage, Magnitude n:u1r:bus1 p.u. Positive-Sequence Voltage, Real Part n:u1i:bus1 p.u. Positive-Sequence Voltage, Imaginary Part n:U1:bus1 kV Line-Ground Positive-Sequence Voltage, Magnitude n:phiu1:bus1 deg Line-Ground Positive-Sequence Voltage, Angle n:u2:bus1 p.u. Line-Ground Negative-Sequence Voltage, Magnitude n:U2:bus1 kV Line-Ground Negative-Sequence Voltage, Magnitude n:phiu2:bus1 deg Negative-Sequence Voltage, Angle n:U1l:bus1 kV Line to Line Positive-Sequence Voltage, Magnitude n:U2l:bus1 kV Line to Line Negative-Sequence Voltage, Magnitude n:uln:bus1:A p.u. Line-Neutral Voltage, Magnitude n:uln:bus1:B p.u. Line-Neutral Voltage, Magnitude n:uln:bus1:C p.u. Line-Neutral Voltage, Magnitude n:Uln:bus1:A kV Line-Neutral Voltage, Magnitude n:Uln:bus1:B kV Line-Neutral Voltage, Magnitude n:Uln:bus1:C kV Line-Neutral Voltage, Magnitude n:phiuln:bus1:A deg Line-Neutral Voltage, Angle n:phiuln:bus1:B deg Line-Neutral Voltage, Angle n:phiuln:bus1:C deg Line-Neutral Voltage, Angle n:un:bus1 p.u. Neutral-Ground Voltage, Magnitude n:Un:bus1 kV Neutral-Ground Voltage, Magnitude n:phiun:bus1 deg Neutral-Ground Voltage, Angle n:upht:bus1:A p.u. Phase Technology dependent Voltage, Magnitude n:upht:bus1:B p.u. Phase Technology dependent Voltage, Magnitude n:upht:bus1:C p.u. Phase Technology dependent Voltage, Magnitude n:Upht:bus1:A kV Phase Technology dependent Voltage, Magnitude n:Upht:bus1:B kV Phase Technology dependent Voltage, Magnitude n:Upht:bus1:C kV Phase Technology dependent Voltage, Magnitude n:urpref:bus1:A p.u. Pre-fault Voltage, Real Part n:urpref:bus1:B p.u. Pre-fault Voltage, Real Part n:urpref:bus1:C p.u. Pre-fault Voltage, Real Part n:uipref:bus1:A p.u. Pre-fault Voltage, Imaginary Part n:uipref:bus1:B p.u. Pre-fault Voltage, Imaginary Part n:uipref:bus1:C p.u. Pre-fault Voltage, Imaginary Part n:upref:bus1:A p.u. Pre-fault Voltage, Magnitude n:upref:bus1:B p.u. Pre-fault Voltage, Magnitude n:upref:bus1:C p.u. Pre-fault Voltage, Magnitude n:uprefpc:bus1:A % Pre-fault Voltage, Magnitude n:uprefpc:bus1:B % Pre-fault Voltage, Magnitude n:uprefpc:bus1:C % Pre-fault Voltage, Magnitude n:Upref:bus1:A kV Line-Ground Pre-fault Voltage, Magnitude n:Upref:bus1:B kV Line-Ground Pre-fault Voltage, Magnitude n:Upref:bus1:C kV Line-Ground Pre-fault Voltage, Magnitude n:Ulpref:bus1:A kV Line-Line Pre-fault Voltage, Magnitude n:Ulpref:bus1:B kV Line-Line Pre-fault Voltage, Magnitude n:Ulpref:bus1:C kV Line-Line Pre-fault Voltage, Magnitude n:phiupref:bus1:A deg Line-Ground Pre-fault Voltage, Magnitude n:phiupref:bus1:B deg Line-Ground Pre-fault Voltage, Magnitude n:phiupref:bus1:C deg Line-Ground Pre-fault Voltage, Magnitude n:phiui:bus1:A deg Angle between Voltage and Current n:phiui:bus1:B deg Angle between Voltage and Current n:phiui:bus1:C deg Angle between Voltage and Current n:phiu1i1:bus1 deg Angle between Voltage and Current in positive sequence system n:phiu2i2:bus1 deg Angle between Voltage and Current in negative sequence system n:phiu0i0:bus1 deg Angle between Voltage and Current in zero-sequence system n:Ithload:bus1 % Loading, Thermal equivalent Current n:Ipload:bus1 % Loading, Peak Short-Circuit Current n:Ithrtk:bus1 kA Rated Short-Time Current (Tk) n:cfac:bus1 Voltage Factor n:XtoR:bus1 X/R ratio (peak) n:RtoX:bus1 R/X ratio (peak) Signals: Calculation Parameter:

c:z1:r p.u. Subtransient Impedance, Real Part c:z1:i p.u. Subtransient Impedance, Imaginary Part c:z1:phi deg Subtransient Impedance, Angle c:z1:mag p.u. Subtransient Impedance, Magnitude c:z1:phirad rad Subtransient Impedance, Angle c:z0:r p.u. Subtransient Impedance, Real Part c:z0:i p.u. Subtransient Impedance, Imaginary Part c:z0:phi deg Subtransient Impedance, Angle c:z0:mag p.u. Subtransient Impedance, Magnitude c:z0:phirad rad Subtransient Impedance, Angle c:ze:r p.u. Grounding Impedance, Real Part c:ze:i p.u. Grounding Impedance, Imaginary Part c:ze:phi deg Grounding Impedance, Angle c:ze:mag p.u. Grounding Impedance, Magnitude c:ze:phirad rad Grounding Impedance, Angle c:z2:r p.u. Subtransient Impedance, Real Part c:z2:i p.u. Subtransient Impedance, Imaginary Part c:z2:phi deg Subtransient Impedance, Angle c:z2:mag p.u. Subtransient Impedance, Magnitude c:z2:phirad rad Subtransient Impedance, Angle c:rgf p.u. Fictitious Resistance c:uss:r p.u. Subtransient Voltage, Real Part c:uss:i p.u. Subtransient Voltage, Imaginary Part c:uss:phi deg Subtransient Voltage, Angle c:uss:mag p.u. Subtransient Voltage, Magnitude c:uss:phirad rad Subtransient Voltage, Angle c:Icontrib:A kA Contribution Current c:Icontrib:B kA Contribution Current c:Icontrib:C kA Contribution Current c:Icontrib:N kA Contribution Current c:isremote Remote Contribution c:cosn Nominal-Power factor c:xdsss p.u. Saturated Subtransient Reactance c:tr2tf PSU Transformer Ratio c:pG %. Range of Voltage Regulation (+/-) Element Parameter: e:pG % Range of Voltage Regulation (+/-) Type Parameter: t:xdsss p.u. Subtransient Reactance: saturated value xd''sat t:rstr p.u. Stator Resistance: rstr t:xtor Stator Resistance: Ratio X/R t:iuseXdk Steady-State Shc. Current: Ik instead of Reactances t:curk kA Steady-State Shc. Current: 3-Phase Ik3p t:curk2p kA Steady-State Shc. Current: 2-Phase Ik2p t:curk1p kA Steady-State Shc. Current: 1-Phase Ik1p t:x0sy p.u. Zero Sequence Data: Reactance x0 t:r0sy p.u. Zero Sequence Data: Resistance r0 t:x2sy p.u. Neg. Sequence Data: Reactance x2 t:r2sy p.u. Neg. Sequence Data: Resistance r2 t:xdsat p.u. For single fed short-circuit: Reciprocal of short-circuit ratio (xdsat) t:satur For single fed short-circuit: Machine Type IEC909/IEC60909 Reference Parameter: RMS-Simulation balanced: ----------------------- Currents, Voltages and Powers: m:u1r:bus1 p.u. Positive-Sequence-Voltage, Real Part m:u1i:bus1 p.u. Positive-Sequence-Voltage, Imaginary Part m:u1:bus1 p.u. Positive-Sequence-Voltage, Magnitude m:U1:bus1 kV Line-Ground Positive-Sequence-Voltage, Magnitude m:U1l:bus1 kV Line-Line Positive-Sequence-Voltage, Magnitude m:phiu1:bus1 deg Positive-Sequence-Voltage, Angle m:inet:bus1 p.u. Current, Magnitude, referred to network m:I:bus1 kA Current, Magnitude m:phii:bus1 deg Current, Angle m:i1r:bus1 p.u. Positive-Sequence Current, Real Part m:i1i:bus1 p.u. Positive-Sequence Current, Imaginary Part m:i1:bus1 p.u. Positive-Sequence Current, Magnitude

m:I1:bus1 kA Positive-Sequence Current, Magnitude m:phii1:bus1 deg Positive-Sequence Current, Angle m:P:bus1 MW Active Power m:Q:bus1 Mvar Reactive Power m:S:bus1 MVA Apparent Power m:cosphi:bus1 Power Factor m:Psum:bus1 MW Total Active Power m:Qsum:bus1 Mvar Total Reactive Power m:Ssum:bus1 MVA Total Apparent Power m:cosphisum:bus1 Total Power Factor m:Spu:bus1 MVA/p.u. Apparent Power per p.u. Voltage m:i1P:bus1 p.u. Positive-Sequence Active Current m:i1Q:bus1 p.u. Positive-Sequence Reactive Current m:I1P:bus1 kA Positive-Sequence Active Current m:I1Q:bus1 kA Positive-Sequence Reactive Current m:ur:bus1 p.u. Voltage, Real Part m:ui:bus1 p.u. Voltage, Imaginary Part m:u:bus1 p.u. Voltage, Magnitude m:ir:bus1 p.u. Current, Real Part m:ii:bus1 p.u. Current, Imaginary Part m:i:bus1 p.u. Current, Magnitude m:phiui:bus1 deg Angle between Voltage and Current m:phiu1i1:bus1 deg Angle between Voltage and Current in positive sequence system m:Tfct:bus1 s Fault Clearing Time m:Brkload:bus1 % Breaker Loading Bus Results: n:ur:bus1 p.u. Voltage, Real Part n:ui:bus1 p.u. Voltage, Imaginary Part n:u:bus1 p.u. Voltage, Magnitude n:upc:bus1 % Voltage, Magnitude n:u1:bus1 p.u. Voltage, Magnitude n:u1pc:bus1 % Voltage, Magnitude n:u1r:bus1 p.u. Positive-Sequence Voltage, Real-Part n:u1i:bus1 p.u. Positive-Sequence Voltage, Imaginary-Part n:U:bus1 kV Line-Ground Voltage, Magnitude n:Ul:bus1 kV Line-Line Voltage, Magnitude n:phiu:bus1 deg Voltage, Angle n:phiurel:bus1 deg Voltage, Relative Angle n:du:bus1 % Voltage Deviation n:ishcr:bus1 p.u. Short-Circuit Current, real n:ishci:bus1 p.u. Short-Circuit Current, imag n:ishc:bus1 p.u. Short-Circuit Current, magnitude n:Ishc:bus1 kA Short-Circuit Current, magnitude n:fe:bus1 Electrical Frequency n:frdev:bus1 Hz average frequency n:dfehz:bus1 Hz Deviation of the El. Frequency n:dfedt:bus1 1/s Derivative of El. Frequency n:fehz:bus1 Hz Electrical Frequency n:frnom:bus1 Hz Nominal Frequency Signals: s:psie p.u. STATE Excitation Flux s:psiD p.u. STATE Flux in Damping Winding, d-axix s:psix p.u. STATE Flux in x-Winding s:psiQ p.u. STATE Flux in Damping Winding, q-Axis s:speed p.u. STATE Speed s:phi rad STATE Rotor Angle s:ve p.u. IN Excitation Voltage s:pt p.u. IN Turbine Power s:xmdm p.u. IN Torque Input s:fref p.u. IN Reference Frequency s:ut p.u. OUT Terminal Voltage s:xspeed p.u. OUT Speed s:pgt p.u. OUT Electrical Power s:ie p.u. OUT Excitation Current s:outofstep OUT Out of Step s:xme p.u. OUT Electrical Torque s:xmt p.u. OUT Mechanical Torque s:cur1r p.u. OUT Positive-Sequence Current, Real Part s:cur1i p.u. OUT Positive-Sequence Current, Imaginary Part s:cur1 p.u. OUT Positive-Sequence Current, Magnitude s:P1 MW OUT Positive-Sequence, Active Power s:Q1 Mvar OUT Positive-Sequence, Reactive Power s:utr p.u. OUT Terminal Voltage, Real Part s:uti p.u. OUT Terminal Voltage, Imaginary Part

s:fe p.u. OUT Frequency Output Calculation Parameter: c:sgnn MVA Total Nominal Apparent power (ngnum*sgn) c:c2 Voltage Coefficient (uknom/ugn) c:cosn Nominal-Power factor c:xdss p.u Subtransient Reactance, d-axis c:xqss p.u Subtransient Reactance, q-axis c:xd p.u Synchronous Reactance, d-axis c:xq p.u Synchronous Reactance, q-axis c:rs p.u. Stator Resistance c:Tag s Acceleration Time Constant c:ud p.u. Voltage, d-Axis c:uq p.u. Voltage, q-Axis c:id p.u. Stator Current, d-Axis c:iq p.u. Stator Current, q-Axis c:psid p.u. Stator Flux, d-Axis c:psiq p.u. Stator Flux, q-Axis c:addmt p.u. Additional Torque c:TD0 s D-Time Constant c:Te0 s e-Time Constant c:TQ0 s Q-Time Constant c:Tx0 s x-Time Constant c:Td0s s Td0' c:Ag Saturation Parameter c:Bg Saturation Parameter c:psim p.u. Magnetization Flux c:iD p.u. Current in Damping Winding D c:ix p.u. Current in x Winding c:iQ p.u. Current in Damping Winding Q c:xss p.u. (xdss+xqss)/2 c:dxss p.u. (xdss-xqss)/2 c:dpu p.u. Mechanical Damping c:psidss p.u. Subtransient Flux (d-axis) c:psiqss p.u. Subtransient Flux (q-axis) c:ussd p.u. Subtransient Voltage, d-axis c:ussq p.u. Subtransient Voltage, q-axis c:Qmin Mvar Lower limit of reactive power c:Qmax Mvar Upper limit of reactive power c:dfrotx deg Maximum Rotor Angle difference c:fipol deg Rotor angle with reference to local bus voltage c:firot deg Rotor angle with reference to reference bus voltage c:firel deg Rotor angle with reference to reference machine angle c:dfrot deg Rotor angle with reference to reference machine angle c:dorhz Hz Speed Deviation c:Ptspin MW Total Turbine Power of Area c:Pnomspin MW Total Nominal Power of Spinning Machines in Area c:Presspin MW Spinning Reserve of Area c:Tagav s System Inertia of Area c:p_mag Participation, Magnitude c:p_phi deg Participation, Angle c:p_mags Participation, Magnitude (signed) c:lEVec_mag Controllability, Magnitude c:lEVec_phi deg Controllability, Angle c:lEVec_mags Controllability, Magnitude (signed) c:rEVec_mag Observability, Magnitude c:rEVec_phi deg Observability, Angle c:rEVec_mags Observability, Magnitude (signed) c:fe_bus El. frequency c:loading % Loading c:slipreset Reset out of step c:Gm Conversion Factor (=xhd0/re) c:ve_rated p.u. Rated Excitation Voltage Element Parameter: e:iAstabint A-stable integration algorithm Type Parameter: t:tag s Inertia: Acceleration Time Const. (rated to Pgn) t:tags s Inertia: Acceleration Time Const. (rated to Sgn) t:h s Inertia: Inertia Time Constant (rated to Sgn) H t:hpn s Inertia: Inertia Time Constant (rated to Pgn) H t:dpu p.u. Inertia: Mechanical Damping t:rstr p.u. Stator Resistance: rstr t:xl p.u. Stator Resistance/Leakage Reactances: xl

t:xrl p.u. Stator Resistance/Leakage Reactances: xrl t:xd p.u. Synchronous Reactances: xd t:xq p.u. Synchronous Reactances: xq t:iturbo Rotor Type t:tds s Transient Time Constants: Td' t:tqs s Transient Time Constants: Tq' t:tds0 s Transient Time Constants: Td0' t:tqs0 s Transient Time Constants: Tq0' t:tdss s Subtransient Time Constants: Td'' t:tqss s Subtransient Time Constants: Tq'' t:tdss0 s Subtransient Time Constants: Td0'' t:tqss0 s Subtransient Time Constants: Tq0'' t:xds p.u. Transient Reactances: xd' t:xqs p.u. Transient Reactances: xq' t:xdss p.u. Subtransient Reactances: xd'' t:xqss p.u. Subtransient Reactances: xq'' t:isat Main Flux Saturation t:sg10 p.u. Saturation Parameter: SG10 t:sg12 p.u. Saturation Parameter: SG12 t:satv p.u. Saturation Parameter: Term. voltage t:satse p.u. Saturation Parameter: SG(u) t:ifd % Saturation Parameter: ifd t:smoothfac % Smoothing factor t:x0sy p.u. Zero Sequence Data: Reactance x0 t:r0sy p.u. Zero Sequence Data: Resistance r0 t:x2sy p.u. Neg. Sequence Data: Reactance x2 t:r2sy p.u. Neg. Sequence Data: Resistance r2 Reference Parameter: RMS-Simulation unbalanced: ------------------------- Currents, Voltages and Powers: m:u0:bus1 p.u. Zero-Sequence-Voltage, Magnitude m:phiu0:bus1 deg Zero-Sequence-Voltage, Angle m:u1r:bus1 p.u. Positive-Sequence-Voltage, Real Part m:u1i:bus1 p.u. Positive-Sequence-Voltage, Imaginary Part m:u1:bus1 p.u. Positive-Sequence-Voltage, Magnitude m:U1:bus1 kV Line-Ground Positive-Sequence-Voltage, Magnitude m:U1l:bus1 kV Line-Line Positive-Sequence-Voltage, Magnitude m:phiu1:bus1 deg Positive-Sequence-Voltage, Angle m:u2:bus1 p.u. Negative-Sequence-Voltage, Magnitude m:phiu2:bus1 deg Negative-Sequence-Voltage, Angle m:inet:bus1:A p.u. Phase Current, Magnitude m:inet:bus1:B p.u. Phase Current, Magnitude m:inet:bus1:C p.u. Phase Current, Magnitude m:I:bus1:A kA Phase Current, Magnitude m:I:bus1:B kA Phase Current, Magnitude m:I:bus1:C kA Phase Current, Magnitude m:phii:bus1:A deg Phase Current, Angle m:phii:bus1:B deg Phase Current, Angle m:phii:bus1:C deg Phase Current, Angle m:i0r:bus1 p.u. Zero-Sequence Current, Real Part m:i0i:bus1 p.u. Zero-Sequence Current, Imaginary Part m:i0:bus1 p.u. Zero-Sequence Current, Magnitude m:I0:bus1 kA Zero-Sequence Current, Magnitude m:I0x3:bus1 kA 3*I0 m:phii0:bus1 deg Zero-Sequence Current, Angle m:i1r:bus1 p.u. Positive-Sequence Current, Real Part m:i1i:bus1 p.u. Positive-Sequence Current, Imaginary Part m:i1:bus1 p.u. Positive-Sequence Current, Magnitude m:I1:bus1 kA Positive-Sequence Current, Magnitude m:phii1:bus1 deg Positive-Sequence Current, Angle m:i2r:bus1 p.u. Negative-Sequence Current, Real Part m:i2i:bus1 p.u. Negative-Sequence Current, Imaginary Part m:i2:bus1 p.u. Negative-Sequence Current, Magnitude m:I2:bus1 kA Negative-Sequence Current, Magnitude m:phii2:bus1 deg Negative-Sequence Current, Angle m:P:bus1:A MW Active Power m:P:bus1:B MW Active Power m:P:bus1:C MW Active Power m:Q:bus1:A Mvar Reactive Power m:Q:bus1:B Mvar Reactive Power m:Q:bus1:C Mvar Reactive Power

m:S:bus1:A MVA Apparent Power m:S:bus1:B MVA Apparent Power m:S:bus1:C MVA Apparent Power m:cosphi:bus1:A Power Factor m:cosphi:bus1:B Power Factor m:cosphi:bus1:C Power Factor m:Psum:bus1 MW Total Active Power m:Qsum:bus1 Mvar Total Reactive Power m:Ssum:bus1 MVA Total Apparent Power m:cosphisum:bus1 Total Power Factor m:Pln:bus1:A MW Active Power (Line-Neutral) m:Pln:bus1:B MW Active Power (Line-Neutral) m:Pln:bus1:C MW Active Power (Line-Neutral) m:Qln:bus1:A Mvar Reactive Power (Line-Neutral) m:Qln:bus1:B Mvar Reactive Power (Line-Neutral) m:Qln:bus1:C Mvar Reactive Power (Line-Neutral) m:P1:bus1 MW Positive Sequence Active Power m:Q1:bus1 Mvar Positive Sequence Reactive Power m:P2:bus1 MW Negative Sequence Active Power m:Q2:bus1 Mvar Negative Sequence Active Power m:i1P:bus1 p.u. Positive-Sequence Active Current m:i1Q:bus1 p.u. Positive-Sequence Reactive Current m:I1P:bus1 kA Positive-Sequence Active Current m:I1Q:bus1 kA Positive-Sequence Reactive Current m:i2P:bus1 p.u. Negative-Sequence Active Current m:i2Q:bus1 p.u. Negative-Sequence Reactive Current m:I2P:bus1 kA Negative-Sequence Active Current m:I2Q:bus1 kA Negative-Sequence Reactive Current m:ur:bus1:A p.u. Phase Voltage, Real Part m:ur:bus1:B p.u. Phase Voltage, Real Part m:ur:bus1:C p.u. Phase Voltage, Real Part m:ui:bus1:A p.u. Phase Voltage, Imaginary Part m:ui:bus1:B p.u. Phase Voltage, Imaginary Part m:ui:bus1:C p.u. Phase Voltage, Imaginary Part m:u:bus1:A p.u. Phase Voltage, Magnitude m:u:bus1:B p.u. Phase Voltage, Magnitude m:u:bus1:C p.u. Phase Voltage, Magnitude m:ir:bus1:A p.u. Phase Current, Real Part m:ir:bus1:B p.u. Phase Current, Real Part m:ir:bus1:C p.u. Phase Current, Real Part m:ii:bus1:A p.u. Phase Current, Imaginary Part m:ii:bus1:B p.u. Phase Current, Imaginary Part m:ii:bus1:C p.u. Phase Current, Imaginary Part m:i:bus1:A p.u. Phase Current, Magnitude m:i:bus1:B p.u. Phase Current, Magnitude m:i:bus1:C p.u. Phase Current, Magnitude m:phiui:bus1:A deg Angle between Voltage and Current m:phiui:bus1:B deg Angle between Voltage and Current m:phiui:bus1:C deg Angle between Voltage and Current m:phiu0i0:bus1 deg Angle between Voltage and Current in zero-sequence system m:phiu1i1:bus1 deg Angle between Voltage and Current in positive sequence system m:phiu2i2:bus1 deg Angle between Voltage and Current in negative sequence system m:Tfct:bus1 s Fault Clearing Time m:TfctPh:bus1:A s Fault Clearing Time m:TfctPh:bus1:B s Fault Clearing Time m:TfctPh:bus1:C s Fault Clearing Time m:Brkload:bus1 % Max. Breaker Loading m:BrkloadPh:bus1:A % Breaker Loading m:BrkloadPh:bus1:B % Breaker Loading m:BrkloadPh:bus1:C % Breaker Loading Bus Results: n:ur:bus1:A p.u. Line-Ground Voltage, Real Part n:ur:bus1:B p.u. Line-Ground Voltage, Real Part n:ur:bus1:C p.u. Line-Ground Voltage, Real Part n:ui:bus1:A p.u. Line-Ground Voltage, Imaginary Part n:ui:bus1:B p.u. Line-Ground Voltage, Imaginary Part n:ui:bus1:C p.u. Line-Ground Voltage, Imaginary Part n:u:bus1:A p.u. Line-Ground Voltage, Magnitude n:u:bus1:B p.u. Line-Ground Voltage, Magnitude n:u:bus1:C p.u. Line-Ground Voltage, Magnitude n:upc:bus1:A % Line-Ground Voltage, Magnitude n:upc:bus1:B % Line-Ground Voltage, Magnitude n:upc:bus1:C % Line-Ground Voltage, Magnitude n:U:bus1:A kV Line-Ground Voltage, Magnitude n:U:bus1:B kV Line-Ground Voltage, Magnitude n:U:bus1:C kV Line-Ground Voltage, Magnitude

n:phiu:bus1:A deg Line-Ground Voltage, Angle n:phiu:bus1:B deg Line-Ground Voltage, Angle n:phiu:bus1:C deg Line-Ground Voltage, Angle n:phiurel:bus1:A deg Voltage, Relative Angle n:phiurel:bus1:B deg Voltage, Relative Angle n:phiurel:bus1:C deg Voltage, Relative Angle n:ul:bus1:A p.u. Line to Line Voltage, Magnitude n:ul:bus1:B p.u. Line to Line Voltage, Magnitude n:ul:bus1:C p.u. Line to Line Voltage, Magnitude n:ulpc:bus1:A % Line to Line Voltage, Magnitude n:ulpc:bus1:B % Line to Line Voltage, Magnitude n:ulpc:bus1:C % Line to Line Voltage, Magnitude n:Ul:bus1:A kV Line to Line Voltage, Magnitude n:Ul:bus1:B kV Line to Line Voltage, Magnitude n:Ul:bus1:C kV Line to Line Voltage, Magnitude n:phiul:bus1:A deg Line to Line Voltage, Angle n:phiul:bus1:B deg Line to Line Voltage, Angle n:phiul:bus1:C deg Line to Line Voltage, Angle n:u0:bus1 p.u. Zero-Sequence Voltage, Magnitude n:U0:bus1 kV Zero-Sequence Voltage, Magnitude n:U0x3:bus1 kV 3*U0 n:phiu0:bus1 deg Zero-Sequence Voltage, Angle n:u1:bus1 p.u. Line-Ground Positive-Sequence Voltage, Magnitude n:u1pc:bus1 % Line-Ground Positive-Sequence Voltage, Magnitude n:u1r:bus1 p.u. Positive-Sequence Voltage, Real Part n:u1i:bus1 p.u. Positive-Sequence Voltage, Imaginary Part n:U1:bus1 kV Line-Ground Positive-Sequence Voltage, Magnitude n:phiu1:bus1 deg Line-Ground Positive-Sequence Voltage, Angle n:u2:bus1 p.u. Line-Ground Negative-Sequence Voltage, Magnitude n:U2:bus1 kV Line-Ground Negative-Sequence Voltage, Magnitude n:phiu2:bus1 deg Negative-Sequence Voltage, Angle n:U1l:bus1 kV Line to Line Positive-Sequence Voltage, Magnitude n:U2l:bus1 kV Line to Line Negative-Sequence Voltage, Magnitude n:uln:bus1:A p.u. Line-Neutral Voltage, Magnitude n:uln:bus1:B p.u. Line-Neutral Voltage, Magnitude n:uln:bus1:C p.u. Line-Neutral Voltage, Magnitude n:Uln:bus1:A kV Line-Neutral Voltage, Magnitude n:Uln:bus1:B kV Line-Neutral Voltage, Magnitude n:Uln:bus1:C kV Line-Neutral Voltage, Magnitude n:phiuln:bus1:A deg Line-Neutral Voltage, Angle n:phiuln:bus1:B deg Line-Neutral Voltage, Angle n:phiuln:bus1:C deg Line-Neutral Voltage, Angle n:un:bus1 p.u. Neutral-Ground Voltage, Magnitude n:Un:bus1 kV Neutral-Ground Voltage, Magnitude n:phiun:bus1 deg Neutral-Ground Voltage, Angle n:upht:bus1:A p.u. Phase Technology dependent Voltage, Magnitude n:upht:bus1:B p.u. Phase Technology dependent Voltage, Magnitude n:upht:bus1:C p.u. Phase Technology dependent Voltage, Magnitude n:Upht:bus1:A kV Phase Technology dependent Voltage, Magnitude n:Upht:bus1:B kV Phase Technology dependent Voltage, Magnitude n:Upht:bus1:C kV Phase Technology dependent Voltage, Magnitude n:um:bus1 p.u. Average-Voltage, Magnitude n:Um:bus1 kV Average-Voltage, Magnitude n:ishcr:bus1:A p.u. Short-Circuit Current, real n:ishcr:bus1:B p.u. Short-Circuit Current, real n:ishcr:bus1:C p.u. Short-Circuit Current, real n:ishci:bus1:A p.u. Short-Circuit Current, imag n:ishci:bus1:B p.u. Short-Circuit Current, imag n:ishci:bus1:C p.u. Short-Circuit Current, imag n:ishc:bus1:A p.u. Short-Circuit Current, magnitude n:ishc:bus1:B p.u. Short-Circuit Current, magnitude n:ishc:bus1:C p.u. Short-Circuit Current, magnitude n:Ishc:bus1:A kA Short-Circuit Current, magnitude n:Ishc:bus1:B kA Short-Circuit Current, magnitude n:Ishc:bus1:C kA Short-Circuit Current, magnitude n:inshc:bus1 p.u. Neutral Short-Circuit Current, magnitude n:Inshc:bus1 kA Neutral Short-Circuit Current, magnitude n:fe:bus1 Electrical Frequency n:frdev:bus1 Hz average frequency n:dfehz:bus1 Hz Deviation of the El. Frequency n:dfedt:bus1 1/s Derivative of El. Frequency n:fehz:bus1 Hz Electrical Frequency n:frnom:bus1 Hz Nominal Frequency Signals: s:psie p.u. STATE Excitation Flux s:psiD p.u. STATE Flux in Damping Winding, d-axix

s:psix p.u. STATE Flux in x-Winding s:psiQ p.u. STATE Flux in Damping Winding, q-Axis s:speed p.u. STATE Speed s:phi rad STATE Rotor Angle s:ve p.u. IN Excitation Voltage s:pt p.u. IN Turbine Power s:xmdm p.u. IN Torque Input s:fref p.u. IN Reference Frequency s:ut p.u. OUT Terminal Voltage s:xspeed p.u. OUT Speed s:pgt p.u. OUT Electrical Power s:ie p.u. OUT Excitation Current s:outofstep OUT Out of Step (pole slip) s:xme p.u. OUT Electrical Torque s:xmt p.u. OUT Mechanical Torque s:cur1r p.u. OUT Positive-Sequence Current, Real Part s:cur1i p.u. OUT Positive-Sequence, Imaginary Part s:cur1 p.u. OUT Positive-Sequence, Magnitude s:P1 MW OUT Positive-Sequence, Active Power s:Q1 Mvar OUT Positive-Sequence, Reactive Power s:utr p.u. OUT Terminal Voltage, Real Part s:uti p.u. OUT Terminal Voltage, Imaginary Part s:fe p.u. OUT Frequency Output Calculation Parameter: c:sgnn MVA Total Nominal Apparent power (ngnum*sgn) c:c2 Voltage Coefficient (uknom/ugn) c:cosn Nominal-Power factor c:r0 p.u Zero Sequence Resistance c:x0 p.u Zero Sequence Reactance c:rearth p.u. Grounding Resistance c:xearth p.u. Grounding Reactance c:r2 p.u Negative Sequence Resistance c:x2 p.u Negative Sequence Reactance c:xdss p.u Subtransient Reactance, d-axis c:xqss p.u Subtransient Reactance, q-axis c:xd p.u Synchronous Reactance, d-axis c:xq p.u Synchronous Reactance, q-axis c:rs p.u. Stator Resistance c:Tag s Acceleration Time Constant c:ud p.u. Voltage, d-Axis c:uq p.u. Voltage, q-Axis c:id p.u. Stator Current, d-Axis c:iq p.u. Stator Current, q-Axis c:psid p.u. Stator Flux, d-Axis c:psiq p.u. Stator Flux, q-Axis c:addmt p.u. Additional Torque c:TD0 s D-Time Constant c:Te0 s e-Time Constant c:TQ0 s Q-Time Constant c:Tx0 s x-Time Constant c:Td0s s Td0' c:Ag Saturation Parameter c:Bg Saturation Parameter c:psim p.u. Magnetization Flux c:iD p.u. Current in Damping Winding D c:ix p.u. Current in x Winding c:iQ p.u. Current in Damping Winding Q c:xss p.u. (xdss+xqss)/2 c:dxss p.u. (xdss-xqss)/2 c:dpu p.u. Mechanical Damping c:psidss p.u. Subtransient Flux (d-axis) c:psiqss p.u. Subtransient Flux (q-axis) c:ussd p.u. Subtransient Voltage, d-axis c:ussq p.u. Subtransient Voltage, q-axis c:Qmin Mvar Lower limit of reactive power c:Qmax Mvar Upper limit of reactive power c:dfrotx deg Maximum Rotor Angle difference c:fipol deg Rotor angle with reference to local bus voltage c:firot deg Rotor angle with reference to reference bus voltage c:firel deg Rotor angle with reference to reference machine angle c:dfrot deg Rotor angle with reference to reference machine angle c:dorhz Hz Speed Deviation c:Ptspin MW Total Turbine Power of Area c:Pnomspin MW Total Nominal Power of Spinning Machines in Area c:Presspin MW Spinning Reserve of Area c:Tagav s System Inertia of Area

c:p_mag Participation, Magnitude c:p_phi deg Participation, Angle c:p_mags Participation, Magnitude (signed) c:lEVec_mag Controllability, Magnitude c:lEVec_phi deg Controllability, Angle c:lEVec_mags Controllability, Magnitude (signed) c:rEVec_mag Observability, Magnitude c:rEVec_phi deg Observability, Angle c:rEVec_mags Observability, Magnitude (signed) c:fe_bus El. frequency c:loading % Loading c:slipreset Reset out of step c:Gm Conversion Factor (=xhd0/re) c:ve_rated p.u. Rated Excitation Voltage Element Parameter: e:iAstabint A-stable integration algorithm Type Parameter: t:tag s Inertia: Acceleration Time Const. (rated to Pgn) t:tags s Inertia: Acceleration Time Const. (rated to Sgn) t:h s Inertia: Inertia Time Constant (rated to Sgn) H t:hpn s Inertia: Inertia Time Constant (rated to Pgn) H t:dpu p.u. Inertia: Mechanical Damping t:rstr p.u. Stator Resistance: rstr t:xl p.u. Stator Resistance/Leakage Reactances: xl t:xrl p.u. Stator Resistance/Leakage Reactances: xrl t:xd p.u. Synchronous Reactances: xd t:xq p.u. Synchronous Reactances: xq t:iturbo Rotor Type t:tds s Transient Time Constants: Td' t:tqs s Transient Time Constants: Tq' t:tds0 s Transient Time Constants: Td0' t:tqs0 s Transient Time Constants: Tq0' t:tdss s Subtransient Time Constants: Td'' t:tqss s Subtransient Time Constants: Tq'' t:tdss0 s Subtransient Time Constants: Td0'' t:tqss0 s Subtransient Time Constants: Tq0'' t:xds p.u. Transient Reactances: xd' t:xqs p.u. Transient Reactances: xq' t:xdss p.u. Subtransient Reactances: xd'' t:xqss p.u. Subtransient Reactances: xq'' t:isat Main Flux Saturation t:sg10 p.u. Saturation Parameter: SG10 t:sg12 p.u. Saturation Parameter: SG12 t:satv p.u. Saturation Parameter: Term. voltage t:satse p.u. Saturation Parameter: SG(u) t:ifd % Saturation Parameter: ifd t:smoothfac % Smoothing factor t:x0sy p.u. Zero Sequence Data: Reactance x0 t:r0sy p.u. Zero Sequence Data: Resistance r0 t:x2sy p.u. Neg. Sequence Data: Reactance x2 t:r2sy p.u. Neg. Sequence Data: Resistance r2 Reference Parameter: EMT-Simulation balanced: ----------------------- Currents, Voltages and Powers: Bus Results: Signals: Calculation Parameter:

Element Parameter: Type Parameter: t:tag s Inertia: Acceleration Time Const. (rated to Pgn) t:tags s Inertia: Acceleration Time Const. (rated to Sgn) t:h s Inertia: Inertia Time Constant (rated to Sgn) H t:hpn s Inertia: Inertia Time Constant (rated to Pgn) H t:dpu p.u. Inertia: Mechanical Damping t:rstr p.u. Stator Resistance: rstr t:xl p.u. Stator Resistance/Leakage Reactances: xl t:xrl p.u. Stator Resistance/Leakage Reactances: xrl t:xd p.u. Synchronous Reactances: xd t:xq p.u. Synchronous Reactances: xq t:iturbo Rotor Type t:tds s Transient Time Constants: Td' t:tqs s Transient Time Constants: Tq' t:tds0 s Transient Time Constants: Td0' t:tqs0 s Transient Time Constants: Tq0' t:tdss s Subtransient Time Constants: Td'' t:tqss s Subtransient Time Constants: Tq'' t:tdss0 s Subtransient Time Constants: Td0'' t:tqss0 s Subtransient Time Constants: Tq0'' t:xds p.u. Transient Reactances: xd' t:xqs p.u. Transient Reactances: xq' t:xdss p.u. Subtransient Reactances: xd'' t:xqss p.u. Subtransient Reactances: xq'' t:isat Main Flux Saturation t:sg10 p.u. Saturation Parameter: SG10 t:sg12 p.u. Saturation Parameter: SG12 t:satv p.u. Saturation Parameter: Term. voltage t:satse p.u. Saturation Parameter: SG(u) t:ifd % Saturation Parameter: ifd t:smoothfac % Smoothing factor t:x0sy p.u. Zero Sequence Data: Reactance x0 t:r0sy p.u. Zero Sequence Data: Resistance r0 Reference Parameter: EMT-Simulation unbalanced: ------------------------- Currents, Voltages and Powers: m:u0:bus1 p.u. Zero-Sequence-Voltage m:u1r:bus1 p.u. Voltage Phasor, Real Part m:u1i:bus1 p.u. Voltage Phasor, Imaginary Part m:u1:bus1 p.u. Voltage Phasor, Magnitude m:U1:bus1 kV Line-Ground Voltage Phasor, Magnitude m:U1l:bus1 kV Line-Line Voltage Phasor, Magnitude m:phiu1:bus1 deg Voltage Phasor, Angle m:I:bus1:A kA Phase Current m:I:bus1:B kA Phase Current m:I:bus1:C kA Phase Current m:i0:bus1 p.u. Zero-Sequence Current m:I0:bus1 kA Zero-Sequence Current m:I0x3:bus1 kA 3*I0 m:i1r:bus1 p.u. Current Phasor, Real Part m:i1i:bus1 p.u. Current Phasor, Imaginary Part m:i1:bus1 p.u. Current Phasor, Magnitude m:I1:bus1 kA Current Phasor, Magnitude m:phii1:bus1 deg Current Phasor, Angle m:P:bus1:A MW Active Power m:P:bus1:B MW Active Power m:P:bus1:C MW Active Power m:Psum:bus1 MW Power-Phasor, Active Power m:Qsum:bus1 Mvar Power Phasor, Reactive Part m:Ssum:bus1 MVA Power Phasor, Apparent Power m:cosphi1:bus1 Power-Phasor, Power-Factor m:i1P:bus1 p.u. Current Phasor, Active Current m:i1Q:bus1 p.u. Current Phasor, Reactive Current m:I1P:bus1 kA Current Phasor, Active Current m:I1Q:bus1 kA Current Phasor, Reactive Current

m:u:bus1:A p.u. Phase Voltage m:u:bus1:B p.u. Phase Voltage m:u:bus1:C p.u. Phase Voltage m:i:bus1:A p.u. Phase Current m:i:bus1:B p.u. Phase Current m:i:bus1:C p.u. Phase Current m:phiu1i1:bus1 deg Angle between Voltage and Current Phasor m:Tfct:bus1 s Fault Clearing Time m:TfctPh:bus1:A s Fault Clearing Time m:TfctPh:bus1:B s Fault Clearing Time m:TfctPh:bus1:C s Fault Clearing Time Bus Results: n:u:bus1:A p.u. Phase Voltage n:u:bus1:B p.u. Phase Voltage n:u:bus1:C p.u. Phase Voltage n:upc:bus1:A % Phase Voltage n:upc:bus1:B % Phase Voltage n:upc:bus1:C % Phase Voltage n:U:bus1:A kV Phase Voltage n:U:bus1:B kV Phase Voltage n:U:bus1:C kV Phase Voltage n:ul:bus1:A p.u. Line to Line Voltage n:ul:bus1:B p.u. Line to Line Voltage n:ul:bus1:C p.u. Line to Line Voltage n:ulpc:bus1:A % Line to Line Voltage n:ulpc:bus1:B % Line to Line Voltage n:ulpc:bus1:C % Line to Line Voltage n:Ul:bus1:A kV Line to Line Voltage n:Ul:bus1:B kV Line to Line Voltage n:Ul:bus1:C kV Line to Line Voltage n:u0:bus1 p.u. Zero-Sequence-Voltage n:U0:bus1 kV Zero-Sequence-Voltage n:U0x3:bus1 kV 3*U0 n:u1r:bus1 p.u. Voltage Phasor, Real Part n:u1i:bus1 p.u. Voltage Phasor, Imaginary Part n:u1:bus1 p.u. Voltage Phasor, Magnitude n:u1pc:bus1 % Voltage Phasor, Magnitude n:U1:bus1 kV Voltage Phasor, Magnitude n:phiu1:bus1 deg Voltage Phasor, Angle n:U1l:bus1 kV Line-Line Voltage Phasor, Magnitude n:uln:bus1:A p.u. Line-Neutral Voltage n:uln:bus1:B p.u. Line-Neutral Voltage n:uln:bus1:C p.u. Line-Neutral Voltage n:Uln:bus1:A kV Line-Neutral Voltage n:Uln:bus1:B kV Line-Neutral Voltage n:Uln:bus1:C kV Line-Neutral Voltage n:un:bus1 p.u. Neutral-Ground Voltage n:Un:bus1 kV Neutral-Ground Voltage n:ishc:bus1:A p.u. Short-Circuit Current n:ishc:bus1:B p.u. Short-Circuit Current n:ishc:bus1:C p.u. Short-Circuit Current n:Ishc:bus1:A kA Short-Circuit Current n:Ishc:bus1:B kA Short-Circuit Current n:Ishc:bus1:C kA Short-Circuit Current n:inshc:bus1 p.u. Neutral Short-Circuit Current, magnitude n:Inshc:bus1 kA Neutral Short-Circuit Current, magnitude n:fe:bus1 Electrical Frequency n:frdev:bus1 Hz average frequency n:dfehz:bus1 Hz Deviation of the El. Frequency n:fehz:bus1 Hz Electrical Frequency n:frnom:bus1 Hz Nominal Frequency Signals: s:psie p.u. STATE Excitation Flux s:psiD p.u. STATE Flux in Damping Winding, d-axix s:psix p.u. STATE Flux in x-Winding s:psiQ p.u. STATE Flux in Damping Winding, q-Axis s:speed p.u. STATE Speed s:phi p.u. STATE Rotor Angle s:ve p.u. IN Excitation Voltage s:pt p.u. IN Turbine Power s:xmdm p.u. IN Torque Input s:ussd p.u. OUT Subtransient Voltage, d-axis s:ussq p.u. OUT Subtransient Voltage, q-axis s:ut p.u. OUT Terminal Voltage

s:pgt p.u. OUT Electrical Power s:ie p.u. OUT Excitation Current s:xspeed p.u. OUT Speed s:xme p.u. OUT Electrical Torque s:xmt p.u. OUT Mechanical Torque s:cur1r p.u. OUT Positive-Sequence Current, Real Part s:cur1i p.u. OUT Positive-Sequence, Imaginary Part s:cur1 p.u. OUT Positive-Sequence, Magnitude s:P1 MW OUT Positive-Sequence, Active Power s:Q1 Mvar OUT Positive-Sequence, Reactive Power s:utr p.u. OUT Terminal Voltage, Real Part s:uti p.u. OUT Terminal Voltage, Imaginary Part s:fe p.u. OUT Frequency Output Calculation Parameter: c:sgnn MVA Total Nominal Apparent power (ngnum*sgn) c:c2 Voltage Coefficient (uknom/ugn) c:cosn Nominal-Power Factor c:r0 p.u Zero Sequence Resistance c:x0 p.u Zero Sequence Reactance c:rearth p.u. Grounding Resistance c:xearth p.u. Grounding Reactance c:xdss p.u Subtransient Reactance, d-axis c:xqss p.u Subtransient Reactance, q-axis c:xd p.u Synchronous Reactance, d-axis c:xq p.u Synchronous Reactance, q-axis c:rs p.u. Stator Resistance c:Tag s Acceleration Time Constant c:ud p.u. Voltage, d-Axis c:uq p.u. Voltage, q-Axis c:id p.u. Stator Current, d-Axis c:iq p.u. Stator Current, q-Axis c:psid p.u. Stator Flux, d-Axis c:psiq p.u. Stator Flux, q-Axis c:addmt p.u. Additional Torque c:TD0 s D-Time Constant c:Te0 s e-Time Constant c:TQ0 s Q-Time Constant c:Tx0 s x-Time Constant c:Td0s s Td0' c:Ag Saturation Parameter c:Bg Saturation Parameter c:psim p.u. Magnetization Flux c:iD p.u. Current in Damping Winding D c:ix p.u. Current in x Winding c:iQ p.u. Current in Damping Winding Q c:xss p.u. (xdss+xqss)/2 c:dxss p.u. (xdss-xqss)/2 c:dpu p.u. Mechanical Damping c:psidss p.u. Subtransient Flux, d-axis c:psiqss p.u. Subtransient Flux, q-axis c:dfrotx deg Maximum Rotor Angle difference c:fipol deg Rotor angle with reference to local bus voltage c:firot deg Rotor angle with reference to reference bus voltage c:firel deg Rotor angle with reference to reference machine angle c:dfrot deg Rotor angle with reference to reference machine angle c:dorhz Hz Speed Deviation c:Ptspin MW Total Turbine Power of Area c:Pnomspin MW Total Nominal Power of Spinning Machines in Area c:Presspin MW Spinning Reserve of Area c:Tagav s System Inertia of Area c:Gm Conversion Factor (=xhd0/re) c:ve_rated p.u. Rated Excitation Voltage Element Parameter: Type Parameter: t:tag s Inertia: Acceleration Time Const. (rated to Pgn) t:tags s Inertia: Acceleration Time Const. (rated to Sgn) t:h s Inertia: Inertia Time Constant (rated to Sgn) H t:hpn s Inertia: Inertia Time Constant (rated to Pgn) H t:dpu p.u. Inertia: Mechanical Damping t:rstr p.u. Stator Resistance: rstr t:xl p.u. Stator Resistance/Leakage Reactances: xl

t:xrl p.u. Stator Resistance/Leakage Reactances: xrl t:xd p.u. Synchronous Reactances: xd t:xq p.u. Synchronous Reactances: xq t:iturbo Rotor Type t:tds s Transient Time Constants: Td' t:tqs s Transient Time Constants: Tq' t:tds0 s Transient Time Constants: Td0' t:tqs0 s Transient Time Constants: Tq0' t:tdss s Subtransient Time Constants: Td'' t:tqss s Subtransient Time Constants: Tq'' t:tdss0 s Subtransient Time Constants: Td0'' t:tqss0 s Subtransient Time Constants: Tq0'' t:xds p.u. Transient Reactances: xd' t:xqs p.u. Transient Reactances: xq' t:xdss p.u. Subtransient Reactances: xd'' t:xqss p.u. Subtransient Reactances: xq'' t:isat Main Flux Saturation t:sg10 p.u. Saturation Parameter: SG10 t:sg12 p.u. Saturation Parameter: SG12 t:satv p.u. Saturation Parameter: Term. voltage t:satse p.u. Saturation Parameter: SG(u) t:ifd % Saturation Parameter: ifd t:smoothfac % Smoothing factor t:x0sy p.u. Zero Sequence Data: Reactance x0 t:r0sy p.u. Zero Sequence Data: Resistance r0 Reference Parameter: Harmonics balanced: ------------------ Currents, Voltages and Powers: m:I:bus1 A Current, Magnitude m:i:bus1 p.u. Current, Magnitude m:I1:bus1 A Positive-Sequence Current, Magnitude m:I2:bus1 A Negative Sequence Current, Magnitude m:phiui:bus1 deg Angle between Voltage and Current m:phii:bus1 deg Current Angle, Absolute m:P:bus1 kW Active Power m:Q:bus1 kvar Reactive Power m:S:bus1 kVA Apparent Power m:cosphi:bus1 Power Factor m:HD:bus1 % Harmonic Distortion (Current) m:Irms:bus1 kA Current, RMS-Value m:irms:bus1 p.u. Current, RMS-Value m:THD:bus1 % Total Harmonic Distortion (Current) m:TP:bus1 MW Total Active Power m:TQ:bus1 Mvar Total Reactive Power m:TS:bus1 MVA Total Apparent Power m:Tcosphi:bus1 Total Power Factor m:IT:bus1 kA IT-Product m:TAD:bus1 % Arithmetic Distortion m:ki:bus1 Current Diversity Factor m:ku:bus1 Voltage Diversity Factor Bus Results: n:R:bus1 Ohm Network Resistance n:X:bus1 Ohm Network Reactance n:Z:bus1 Ohm Network Impedance, Magnitude n:phiz:bus1 deg Network Impedance, Angle n:u:bus1 p.u. Voltage, Magnitude n:upc:bus1 % Voltage, Magnitude n:u1:bus1 p.u. Voltage, Magnitude n:u1pc:bus1 % Voltage, Magnitude n:U:bus1 kV Line-Ground Voltage, Magnitude n:Ul:bus1 kV Line-Line Voltage, Magnitude n:phiu:bus1 deg Voltage, Angle n:phiurel:bus1 deg Voltage, Relative Angle n:du:bus1 % Voltage Deviation n:HD:bus1 % Harmonic Distortion n:THD:bus1 % Total Harmonic Distortion n:urms:bus1 p.u. RMS-Value of Voltage n:Urms:bus1 kV RMS-Value of Line-Ground Voltage n:Ulrms:bus1 kV RMS-Value of Line to Line Voltage

n:u2:bus1 p.u. Negative Sequence Voltage n:TAD:bus1 % Arithmetic Distortion n:uasum:bus1 p.u. Arithmetic Voltage Sum n:TIF:bus1 Telephone-Interference Factor n:urmsint:bus1 p.u. RMS-Value of Integer Harmonics n:uasumint:bus1 p.u. Arithmetic Sum of Integer Harmonics n:THDint:bus1 % Total Harmonic Distortion, Integer Harmonics n:THDnint:bus1 % Total Harmonic Distortion, Non-Integer Harmonics n:TADint:bus1 % Arithmetic Distortion, Integer Harmonics n:TADnint:bus1 % Arithmetic Distortion, Non-Integer Harmonics n:Pst_cont:bus1 Short-Term Flicker Disturbance Factor, Continuous Operation n:Plt_cont:bus1 Long-Term Flicker Disturbance Factor, Continuous Operation n:Pst_sw:bus1 Short-Term Flicker Disturbance Factor, Switching Operations n:Plt_sw:bus1 Long-Term Flicker Disturbance Factor, Switching Operations n:d_sw:bus1 % Relative Voltage Change Signals: Calculation Parameter: c:z1:r p.u. Subtransient Impedance, Real Part c:z1:i p.u. Subtransient Impedance, Imaginary Part c:z1:phi deg Subtransient Impedance, Angle c:z1:mag p.u. Subtransient Impedance, Magnitude c:z1:phirad rad Subtransient Impedance, Angle c:rgf p.u. Fictitious Resistance c:uss:r p.u. Subtransient Voltage, Real Part c:uss:i p.u. Subtransient Voltage, Imaginary Part c:uss:phi deg Subtransient Voltage, Angle c:uss:mag p.u. Subtransient Voltage, Magnitude c:uss:phirad rad Subtransient Voltage, Angle c:cosn Nominal-Power factor c:xdsss p.u. Saturated Subtransient Reactance c:xdsat p.u. Saturated Synchronous Reactance c:satur Machine Type IEC909 c:tr2tf PSU Transformer Ratio c:isremote Remote Contribution c:Icontrib kA Contribution Current c:currcont:r p.u. Contribution Current, Real Part c:currcont:i p.u. Contribution Current, Imaginary Part c:currcont:phi deg Contribution Current, Angle c:currcont:mag p.u. Contribution Current, Magnitude c:currcont:phirad rad Contribution Current, Angle Element Parameter: Type Parameter: t:rstr p.u. Stator Resistance: rstr t:fcharrstr ChaPol,ChaVec,ChaMat : rs(f) t:xdss p.u. Subtransient Reactances: xd'' t:xqss p.u. Subtransient Reactances: xq'' t:lss p.u. Subtransient Reactances: l'' t:fcharlss ChaPol,ChaVec,ChaMat Subtransient Reactances: l''(f) t:i_trans Consider Transient Parameter t:x0sy p.u. Zero Sequence Data: Reactance x0 t:r0sy p.u. Zero Sequence Data: Resistance r0 t:x2sy p.u. Neg. Sequence Data: Reactance x2 t:r2sy p.u. Neg. Sequence Data: Resistance r2 Reference Parameter: Harmonics unbalanced: -------------------- Currents, Voltages and Powers: m:I:bus1:A A Phase Current m:I:bus1:B A Phase Current m:I:bus1:C A Phase Current m:i:bus1:A p.u. Phase Current m:i:bus1:B p.u. Phase Current

m:i:bus1:C p.u. Phase Current m:phiui:bus1:A deg Angle between Voltage and Current m:phiui:bus1:B deg Angle between Voltage and Current m:phiui:bus1:C deg Angle between Voltage and Current m:phii:bus1:A deg Current Angle, Absolute m:phii:bus1:B deg Current Angle, Absolute m:phii:bus1:C deg Current Angle, Absolute m:HD:bus1:A % Harmonic Distortion m:HD:bus1:B % Harmonic Distortion m:HD:bus1:C % Harmonic Distortion m:P:bus1:A kW Active Power m:P:bus1:B kW Active Power m:P:bus1:C kW Active Power m:Q:bus1:A kvar Reactive Power m:Q:bus1:B kvar Reactive Power m:Q:bus1:C kvar Reactive Power m:S:bus1:A kVA Apparent Power m:S:bus1:B kVA Apparent Power m:S:bus1:C kVA Apparent Power m:cosphi:bus1:A Power Factor m:cosphi:bus1:B Power Factor m:cosphi:bus1:C Power Factor m:i0:bus1 p.u. Zero Sequence Current m:I0:bus1 A Zero Sequence Current m:phiu0i0:bus1 deg Angle between Voltage and Current in Zero-Sequence System m:HD0:bus1 % Harmonic Distortion, Zero Sequence m:i1:bus1 p.u. Positive Sequence Current m:I1:bus1 A Positive Sequence Current m:phiu1i1:bus1 deg Angle between Voltage and Current in Positive-Sequence System m:HD1:bus1 % Harmonic Distortion, Positive Sequence m:i2:bus1 p.u. Negative Sequence Current m:I2:bus1 A Negative Sequence Current m:phiu2i2:bus1 deg Angle between Voltage and Current in Negative-Sequence System m:HD2:bus1 % Harmonic Distortion, Negative Sequence m:Psum:bus1 kW Active Power, All Phases m:Qsum:bus1 kvar Reactive Power, All Phases m:Ssum:bus1 kVA Apparent Power, All Phases m:cosphisum:bus1 Power Factor, All Phases m:Irms:bus1:A kA Phase Current, RMS Value m:Irms:bus1:B kA Phase Current, RMS Value m:Irms:bus1:C kA Phase Current, RMS Value m:irms:bus1:A p.u. Phase Current, RMS Value m:irms:bus1:B p.u. Phase Current, RMS Value m:irms:bus1:C p.u. Phase Current, RMS Value m:THD:bus1:A % Total Harmonic Distortion (Current) m:THD:bus1:B % Total Harmonic Distortion (Current) m:THD:bus1:C % Total Harmonic Distortion (Current) m:TP:bus1:A MW Total Active Power m:TP:bus1:B MW Total Active Power m:TP:bus1:C MW Total Active Power m:TQ:bus1:A Mvar Total Reactive Power m:TQ:bus1:B Mvar Total Reactive Power m:TQ:bus1:C Mvar Total Reactive Power m:TS:bus1:A MVA Total Apparent Power m:TS:bus1:B MVA Total Apparent Power m:TS:bus1:C MVA Total Apparent Power m:Tcosphi:bus1:A Total Power Factor m:Tcosphi:bus1:B Total Power Factor m:Tcosphi:bus1:C Total Power Factor m:i0rms:bus1 p.u. Zero Sequence Current, RMS Value m:I0rms:bus1 kA Zero Sequence Current, RMS Value m:THD0:bus1 % Total Harmonic Distortion (Current, Zero Sequence) m:i1rms:bus1 p.u. Positive Sequence Current, RMS Value m:I1rms:bus1 kA Positive Sequence Current, RMS Value m:THD1:bus1 % Total Harmonic Distortion (Current, Positive Sequence) m:i2rms:bus1 p.u. Negative Sequence Current, RMS Value m:I2rms:bus1 kA Negative Sequence Current, RMS Value m:THD2:bus1 % Total Harmonic Distortion (Current, Negative Sequence) m:TPsum:bus1 MW Total Active Power, All Phases m:TQsum:bus1 Mvar Total Reactive Power, All Phases m:TSsum:bus1 MVA Total Apparent Power, All Phases m:Tcosphisum:bus1 Total Power Factor, All Phases m:ubfac:bus1 Unbalance Factor m:THDbal:bus1 % Total Harmonic Distortion, excl. Zero-Sequence m:THDtot:bus1 % Total Harmonic Distortion, incl. Zero Sequence m:TAD:bus1:A % Arithmetic Distortion m:TAD:bus1:B % Arithmetic Distortion m:TAD:bus1:C % Arithmetic Distortion

m:TADmx:bus1 % Arithmetic Distortion m:TADint:bus1 % Arithmetic Distortion, only Integer Harmonics m:THDint:bus1 % Total Harmonic Distortion, only Integer Harmonics m:TADnint:bus1 % Arithmetic Distortion, only non-Integer Harmonics m:THDnint:bus1 % Total Harmonic Distortion, only Non-Integer Harmonics m:TAD_3:bus1 % Arithmetic Distortion, only Multiples of three m:THD_3:bus1 % Total Harmonic Distortion, only Multiples of three m:TAD_2:bus1 % Arithmetic Distortion, only even Harmonics m:THD_2:bus1 % Total Harmonic Distortion, only Even Harmonics m:IT:bus1:A kA IT-Product m:IT:bus1:B kA IT-Product m:IT:bus1:C kA IT-Product m:ITmx:bus1 kA IT-Product (maximum phase value) m:ki:bus1:A Current Diversity Factor m:ki:bus1:B Current Diversity Factor m:ki:bus1:C Current Diversity Factor m:ku:bus1:A Voltage Diversity Factor m:ku:bus1:B Voltage Diversity Factor m:ku:bus1:C Voltage Diversity Factor Bus Results: n:uln:bus1:A p.u. Line-Neutral Voltage, Magnitude n:uln:bus1:B p.u. Line-Neutral Voltage, Magnitude n:uln:bus1:C p.u. Line-Neutral Voltage, Magnitude n:Uln:bus1:A kV Line-Neutral Voltage, Magnitude n:Uln:bus1:B kV Line-Neutral Voltage, Magnitude n:Uln:bus1:C kV Line-Neutral Voltage, Magnitude n:phiuln:bus1:A deg Line-Neutral Voltage, Angle n:phiuln:bus1:B deg Line-Neutral Voltage, Angle n:phiuln:bus1:C deg Line-Neutral Voltage, Angle n:un:bus1 p.u. Neutral-Ground Voltage, Magnitude n:Un:bus1 kV Neutral-Ground Voltage, Magnitude n:phiun:bus1 deg Neutral-Ground Voltage, Angle n:upht:bus1:A p.u. Phase Technology dependent Voltage, Magnitude n:upht:bus1:B p.u. Phase Technology dependent Voltage, Magnitude n:upht:bus1:C p.u. Phase Technology dependent Voltage, Magnitude n:Upht:bus1:A kV Phase Technology dependent Voltage, Magnitude n:Upht:bus1:B kV Phase Technology dependent Voltage, Magnitude n:Upht:bus1:C kV Phase Technology dependent Voltage, Magnitude n:u:bus1:A p.u. Line-Ground Voltage, Magnitude n:u:bus1:B p.u. Line-Ground Voltage, Magnitude n:u:bus1:C p.u. Line-Ground Voltage, Magnitude n:upc:bus1:A % Line-Ground Voltage, Magnitude n:upc:bus1:B % Line-Ground Voltage, Magnitude n:upc:bus1:C % Line-Ground Voltage, Magnitude n:U:bus1:A kV Line-Ground Voltage, Magnitude n:U:bus1:B kV Line-Ground Voltage, Magnitude n:U:bus1:C kV Line-Ground Voltage, Magnitude n:phiu:bus1:A deg Line-Ground Voltage, Angle n:phiu:bus1:B deg Line-Ground Voltage, Angle n:phiu:bus1:C deg Line-Ground Voltage, Angle n:phiurel:bus1:A deg Voltage, Relative Angle n:phiurel:bus1:B deg Voltage, Relative Angle n:phiurel:bus1:C deg Voltage, Relative Angle n:ul:bus1:A p.u. Line to Line Voltage, Magnitude n:ul:bus1:B p.u. Line to Line Voltage, Magnitude n:ul:bus1:C p.u. Line to Line Voltage, Magnitude n:ulpc:bus1:A % Line to Line Voltage, Magnitude n:ulpc:bus1:B % Line to Line Voltage, Magnitude n:ulpc:bus1:C % Line to Line Voltage, Magnitude n:Ul:bus1:A kV Line to Line Voltage, Magnitude n:Ul:bus1:B kV Line to Line Voltage, Magnitude n:Ul:bus1:C kV Line to Line Voltage, Magnitude n:phiul:bus1:A deg Line to Line Voltage, Angle n:phiul:bus1:B deg Line to Line Voltage, Angle n:phiul:bus1:C deg Line to Line Voltage, Angle n:u0:bus1 p.u. Zero-Sequence Voltage, Magnitude n:U0:bus1 kV Zero-Sequence Voltage, Magnitude n:U0x3:bus1 kV 3*U0 n:phiu0:bus1 deg Zero-Sequence Voltage, Angle n:u1:bus1 p.u. Line-Ground Positive-Sequence Voltage, Magnitude n:u1pc:bus1 % Line-Ground Positive-Sequence Voltage, Magnitude n:U1:bus1 kV Line-Ground Positive-Sequence Voltage, Magnitude n:phiu1:bus1 deg Line-Ground Positive-Sequence Voltage, Angle n:u2:bus1 p.u. Line-Ground Negative-Sequence Voltage, Magnitude n:U2:bus1 kV Line-Ground Negative-Sequence Voltage, Magnitude n:phiu2:bus1 deg Negative-Sequence Voltage, Angle

n:U1l:bus1 kV Line to Line Positive-Sequence Voltage, Magnitude n:U2l:bus1 kV Line to Line Negative-Sequence Voltage, Magnitude n:R0:bus1 Ohm Network Resistance, Zero Sequence n:X0:bus1 Ohm Network Reactance, Zero Sequence n:Z0:bus1 Ohm Network Impedance, Zero Sequence n:phiz0:bus1 deg Angle of Network Impedance, Zero Sequence n:R1:bus1 Ohm Network Resistance, Positive Sequence n:X1:bus1 Ohm Network Reactance, Positive Sequence n:Z1:bus1 Ohm Network Impedance, Positive Sequence n:phiz1:bus1 deg Angle of Network Impedance, Positive Sequence n:R2:bus1 Ohm Network Resistance, Negative Sequence n:X2:bus1 Ohm Network Reactance, Negative Sequence n:Z2:bus1 Ohm Network Impedance, Negative Sequence n:phiz2:bus1 deg Angle of Network Impedance, Negative Sequence n:R:bus1:A Ohm Network Resistance, Line-Ground n:R:bus1:B Ohm Network Resistance, Line-Ground n:R:bus1:C Ohm Network Resistance, Line-Ground n:X:bus1:A Ohm Network Reactance, Line-Ground n:X:bus1:B Ohm Network Reactance, Line-Ground n:X:bus1:C Ohm Network Reactance, Line-Ground n:Z:bus1:A Ohm Network Impedance, Line-Ground n:Z:bus1:B Ohm Network Impedance, Line-Ground n:Z:bus1:C Ohm Network Impedance, Line-Ground n:phiz:bus1:A deg Angle of Network Impedance, Line-Ground n:phiz:bus1:B deg Angle of Network Impedance, Line-Ground n:phiz:bus1:C deg Angle of Network Impedance, Line-Ground n:Rl:bus1:A Ohm Network Resistance, Line-Line n:Rl:bus1:B Ohm Network Resistance, Line-Line n:Rl:bus1:C Ohm Network Resistance, Line-Line n:Xl:bus1:A Ohm Network Reactance, Line-Line n:Xl:bus1:B Ohm Network Reactance, Line-Line n:Xl:bus1:C Ohm Network Reactance, Line-Line n:Zl:bus1:A Ohm Network Impedance, Line-Line n:Zl:bus1:B Ohm Network Impedance, Line-Line n:Zl:bus1:C Ohm Network Impedance, Line-Line n:phizl:bus1:A deg Angle of Network Impedance, Line-Line n:phizl:bus1:B deg Angle of Network Impedance, Line-Line n:phizl:bus1:C deg Angle of Network Impedance, Line-Line n:Rln:bus1:A Ohm Network Resistance, Line-Neutral n:Rln:bus1:B Ohm Network Resistance, Line-Neutral n:Rln:bus1:C Ohm Network Resistance, Line-Neutral n:Xln:bus1:A Ohm Network Reactance, Line-Neutral n:Xln:bus1:B Ohm Network Reactance, Line-Neutral n:Xln:bus1:C Ohm Network Reactance, Line-Neutral n:Zln:bus1:A Ohm Network Impedance, Line-Neutral n:Zln:bus1:B Ohm Network Impedance, Line-Neutral n:Zln:bus1:C Ohm Network Impedance, Line-Neutral n:phizln:bus1:A deg Angle of Network Impedance, Line-Neutral n:phizln:bus1:B deg Angle of Network Impedance, Line-Neutral n:phizln:bus1:C deg Angle of Network Impedance, Line-Neutral n:Rn:bus1 Ohm Network Resistance, Neutral n:Xn:bus1 Ohm Network Reactance, Neutral n:Zn:bus1 Ohm Network Impedance, Neutral n:phizn:bus1 deg Angle of Network Impedance, Neutral n:HD:bus1:A % Harmonic Distortion n:HD:bus1:B % Harmonic Distortion n:HD:bus1:C % Harmonic Distortion n:HD0:bus1 % Harmonic Distortion, Zero Sequence n:HD1:bus1 % Harmonic Distortion, Positive Sequence n:HD2:bus1 % Harmonic Distortion, Negative Sequence n:ubfac:bus1 Unbalance Factor n:Urms:bus1:A kV Line to Neutral Voltage, RMS-Value n:Urms:bus1:B kV Line to Neutral Voltage, RMS-Value n:Urms:bus1:C kV Line to Neutral Voltage, RMS-Value n:Ulrms:bus1:A kV Line to Line Voltage, RMS-Value n:Ulrms:bus1:B kV Line to Line Voltage, RMS-Value n:Ulrms:bus1:C kV Line to Line Voltage, RMS-Value n:urms:bus1:A p.u. Line to Neutral Voltage, RMS-Value n:urms:bus1:B p.u. Line to Neutral Voltage, RMS-Value n:urms:bus1:C p.u. Line to Neutral Voltage, RMS-Value n:ulrms:bus1:A p.u. Line to Line Voltage, RMS-Value n:ulrms:bus1:B p.u. Line to Line Voltage, RMS-Value n:ulrms:bus1:C p.u. Line to Line Voltage, RMS-Value n:U0rms:bus1 kV Voltage, RMS-Value, Zero Sequence n:u0rms:bus1 p.u. Voltage, RMS-Value, Zero Sequence n:U1rms:bus1 kV Line-Ground Voltage, RMS-Value, Positive Sequence n:U1lrms:bus1 kV Line-Line Voltage, RMS-Value, Positive Sequence n:u1rms:bus1 p.u. Voltage, RMS-Value, Positive Sequence

n:U2rms:bus1 kV Line-Ground Voltage, RMS-Value, Negative Sequence n:U2lrms:bus1 kV Line-Line Voltage, RMS-Value, Negative Sequence n:u2rms:bus1 p.u. Voltage, RMS-Value, Negative Sequence n:urmsint:bus1 p.u. RMS-Value of Integer Harmonics n:urmsnint:bus1 p.u. RMS-Value of Non-Integer Harmonics n:THD:bus1:A % Total Distortion Factor n:THD:bus1:B % Total Distortion Factor n:THD:bus1:C % Total Distortion Factor n:THD0:bus1 % Total Distortion Factor, Zero Sequence n:THD1:bus1 % Total Distortion Factor, Positive Sequence n:THD2:bus1 % Total Distortion Factor, Negative Sequence n:THDbal:bus1 % Total Harmonic Distortion, excl. Zero Sequence n:THDtot:bus1 % Total Harmonic Distortion, incl. Zero Sequence n:THDint:bus1 % Total Harmonic Distortion, Integer Harmonics n:THDnint:bus1 % Total Harmonic Distortion, Non-Integer Harmonics n:THD_2:bus1 % Total Harmonic Distortion, Even Harmonics n:THD_3:bus1 % Total Harmonic Distortion, Multiples of three n:TAD:bus1:A % Arithmetic Distortion n:TAD:bus1:B % Arithmetic Distortion n:TAD:bus1:C % Arithmetic Distortion n:TADmx:bus1 % Arithmetic Distortion n:TADint:bus1 % Arithmetic Distortion, Integer Harmonics n:TADnint:bus1 % Arithmetic Distortion, Non-Integer Harmonics n:TAD_2:bus1 % Arithmetic Distortion, even Harmonics n:TAD_3:bus1 % Arithmetic Distortion, Multiples of three n:uasum:bus1:A p.u. Arithmetic Sum of Magnitudes n:uasum:bus1:B p.u. Arithmetic Sum of Magnitudes n:uasum:bus1:C p.u. Arithmetic Sum of Magnitudes n:uasummx:bus1 p.u. Arithmetic Sum of Magnitudes n:uasumint:bus1 p.u. Arithmetic Sum of Integer Harmonics n:uasumnint:bus1 p.u. Arithmetic Sum of Magnitudes of Non-Integer Harmonics n:TIF:bus1:A Telephone-Interference Factor n:TIF:bus1:B Telephone-Interference Factor n:TIF:bus1:C Telephone-Interference Factor n:TIFmx:bus1 Telephone-Interference Factor n:Pst_cont:bus1 Short-Term Flicker Disturbance Factor, Continuous Operation n:Plt_cont:bus1 Long-Term Flicker Disturbance Factor, Continuous Operation n:Pst_sw:bus1 Short-Term Flicker Disturbance Factor, Switching Operations n:Plt_sw:bus1 Long-Term Flicker Disturbance Factor, Switching Operations n:d_sw:bus1 % Relative Voltage Change Signals: Calculation Parameter: c:z1:r p.u. Subtransient Impedance, Real Part c:z1:i p.u. Subtransient Impedance, Imaginary Part c:z1:phi deg Subtransient Impedance, Angle c:z1:mag p.u. Subtransient Impedance, Magnitude c:z1:phirad rad Subtransient Impedance, Angle c:z0:r p.u. Subtransient Impedance, Real Part c:z0:i p.u. Subtransient Impedance, Imaginary Part c:z0:phi deg Subtransient Impedance, Angle c:z0:mag p.u. Subtransient Impedance, Magnitude c:z0:phirad rad Subtransient Impedance, Angle c:ze:r p.u. Grounding Impedance, Real Part c:ze:i p.u. Grounding Impedance, Imaginary Part c:ze:phi deg Grounding Impedance, Angle c:ze:mag p.u. Grounding Impedance, Magnitude c:ze:phirad rad Grounding Impedance, Angle c:z2:r p.u. Subtransient Impedance, Real Part c:z2:i p.u. Subtransient Impedance, Imaginary Part c:z2:phi deg Subtransient Impedance, Angle c:z2:mag p.u. Subtransient Impedance, Magnitude c:z2:phirad rad Subtransient Impedance, Angle c:rgf p.u. Fictitious Resistance c:uss:r p.u. Subtransient Voltage, Real Part c:uss:i p.u. Subtransient Voltage, Imaginary Part c:uss:phi deg Subtransient Voltage, Angle c:uss:mag p.u. Subtransient Voltage, Magnitude c:uss:phirad rad Subtransient Voltage, Angle c:Icontrib:A kA Contribution Current c:Icontrib:B kA Contribution Current c:Icontrib:C kA Contribution Current c:Icontrib:N kA Contribution Current c:isremote Remote Contribution

c:cosn Nominal-Power factor c:xdsss p.u. Saturated Subtransient Reactance c:tr2tf PSU Transformer Ratio c:pG %. Range of Voltage Regulation (+/-) Element Parameter: Type Parameter: t:rstr p.u. Stator Resistance: rstr t:fcharrstr ChaPol,ChaVec,ChaMat : rs(f) t:xdss p.u. Subtransient Reactances: xd'' t:xqss p.u. Subtransient Reactances: xq'' t:lss p.u. Subtransient Reactances: l'' t:fcharlss ChaPol,ChaVec,ChaMat Subtransient Reactances: l''(f) t:i_trans Consider Transient Parameter t:x0sy p.u. Zero Sequence Data: Reactance x0 t:r0sy p.u. Zero Sequence Data: Resistance r0 t:x2sy p.u. Neg. Sequence Data: Reactance x2 t:r2sy p.u. Neg. Sequence Data: Resistance r2 Reference Parameter: Protection balanced: ------------------- Currents, Voltages and Powers: Bus Results: Signals: Calculation Parameter: Element Parameter: Type Parameter: Reference Parameter: Protection unbalanced: --------------------- Currents, Voltages and Powers: Bus Results: Signals: Calculation Parameter: Element Parameter:

Type Parameter: Reference Parameter: Optimization balanced: --------------------- Currents, Voltages and Powers: Bus Results: Signals: Calculation Parameter: Element Parameter: e:ictpg Optimal Power Flow Controls: Active Power e:ictqg Optimal Power Flow Controls: Reactive Power e:iOPFCPmin Optimal Power Flow Active Power Limits: Min. e:iOPFCPmax Optimal Power Flow Active Power Limits: Max. e:Pmin_uc MW Operational Limits: Min. e:Pmax_uc MW Operational Limits: Max. e:iqtype Reactive Power Limits: Use limits specified in type e:iOPFCQmin Optimal Power Flow Reactive Power Limits: Min. e:iOPFCQmax Optimal Power Flow Reactive Power Limits: Max. e:q_min p.u. Reactive Power Limits: Min. e:q_max p.u. Reactive Power Limits: Max. e:cQ_min Mvar Reactive Power Limits: Minimum e:cQ_max Mvar Reactive Power Limits: Maximum e:cq_min p.u. Reactive Power Limits: Min. e:cq_max p.u. Reactive Power Limits: Max. e:cpower MW Optimal Power Flow: Power e:ccost $/h Optimal Power Flow: Costs e:avgCosts $/MWh Optimal Power Flow: Average Costs e:pBMU ElmBmu Unit Commitment Automatic Dispatch: Virtual Power Plant e:priority Unit Commitment Automatic Dispatch: Merit Order e:fixed Unit Commitment Automatic Dispatch: Must run e:iunitcom Unit Commitment: Optimized in unit commitment e:cost_up $ Unit Commitment Transition Costs: Startup e:cost_down $ Unit Commitment Transition Costs: Shutdown e:tmin_up h Unit Commitment: Minimum up-time e:tmin_down h Unit Commitment: Minimum down-time e:t_on h Unit Commitment: Initial Condition: In Service for e:t_off h Unit Commitment: Initial Condition: Out of Service for Type Parameter: Reference Parameter: r:pBMU ElmBmu Virtual Power Plant Optimization unbalanced: ----------------------- Currents, Voltages and Powers: Bus Results:

Signals: Calculation Parameter: Element Parameter: e:ictpg Optimal Power Flow Controls: Active Power e:ictqg Optimal Power Flow Controls: Reactive Power e:iOPFCPmin Optimal Power Flow Active Power Limits: Min. e:iOPFCPmax Optimal Power Flow Active Power Limits: Max. e:Pmin_uc MW Operational Limits: Min. e:Pmax_uc MW Operational Limits: Max. e:iqtype Reactive Power Limits: Use limits specified in type e:iOPFCQmin Optimal Power Flow Reactive Power Limits: Min. e:iOPFCQmax Optimal Power Flow Reactive Power Limits: Max. e:q_min p.u. Reactive Power Limits: Min. e:q_max p.u. Reactive Power Limits: Max. e:cQ_min Mvar Reactive Power Limits: Minimum e:cQ_max Mvar Reactive Power Limits: Maximum e:cq_min p.u. Reactive Power Limits: Min. e:cq_max p.u. Reactive Power Limits: Max. e:cpower MW Optimal Power Flow: Power e:ccost $/h Optimal Power Flow: Costs e:avgCosts $/MWh Optimal Power Flow: Average Costs e:pBMU ElmBmu Unit Commitment Automatic Dispatch: Virtual Power Plant e:priority Unit Commitment Automatic Dispatch: Merit Order e:fixed Unit Commitment Automatic Dispatch: Must run e:iunitcom Unit Commitment: Optimized in unit commitment e:cost_up $ Unit Commitment Transition Costs: Startup e:cost_down $ Unit Commitment Transition Costs: Shutdown e:tmin_up h Unit Commitment: Minimum up-time e:tmin_down h Unit Commitment: Minimum down-time e:t_on h Unit Commitment: Initial Condition: In Service for e:t_off h Unit Commitment: Initial Condition: Out of Service for Type Parameter: Reference Parameter: r:pBMU ElmBmu Virtual Power Plant Reliability balanced: -------------------- Currents, Voltages and Powers: Bus Results: Signals: Calculation Parameter: c:C_SAIFI 1/Ca Contribution to SAIFI c:C_SAIDI h/Ca Contribution to SAIDI c:C_ASIFI 1/a Contribution to ASIFI c:C_ASIDI h/a Contribution to ASIDI c:cosn Nominal-Power factor c:Snom MVA Nom. Apparent Power (1 mach.) c:Sact MVA Present Apparent Power (1 mach.) c:Nnom Number of Parallel Machines c:Nact Number of Available Machines c:Qmin Mvar Lower limit reactive power (1 mach.) c:Qmax Mvar Upper limit reactive power (1 mach.)

Element Parameter: e:Pctrl Active power control: Active power steps e:i_prty Active power control: Priority e:Pmin_uc MW Operational Limits: Min. e:Pmax_uc MW Operational Limits: Max. e:Pnom MW Operational Limits: Pn e:pStoch StoSym Stochastic model Type Parameter: Reference Parameter: r:pStoch StoSym Stochastic model Reliability unbalanced: ---------------------- Currents, Voltages and Powers: Bus Results: Signals: Calculation Parameter: Element Parameter: e:Pctrl Active power control: Active power steps e:i_prty Active power control: Priority e:Pmin_uc MW Operational Limits: Min. e:Pmax_uc MW Operational Limits: Max. e:Pnom MW Operational Limits: Pn e:pStoch StoSym Stochastic model Type Parameter: Reference Parameter: r:pStoch StoSym Stochastic model Description balanced: -------------------- Currents, Voltages and Powers: Bus Results: Signals: Calculation Parameter: Element Parameter: e:gnrl_modif Object modified e:gnrl_modby Object modified by e:sernum Serial Number e:constr Year of Construction

e:iComDate Commissioning Date e:chr_name Characteristic Name e:for_name Foreign Key e:dat_src Data source e:doc_id Additional Data e:pOwner ElmOwner Owner e:pOperator ElmOperator Operator e:desc Description e:appr_status Approval Information: Status e:appr_modif Approval Information: Modified e:appr_modby Approval Information: Modified by e:sOpComment Operator Comment e:cimRdfId RDF ID e:dpl1 dpl1 e:dpl2 dpl2 e:dpl3 dpl3 e:dpl4 dpl4 e:dpl5 dpl5 Type Parameter: t:gnrl_modif Object modified t:gnrl_modby Object modified by t:manuf Manufacturer t:chr_name Characteristic Name t:for_name Foreign Key t:dat_src Data source t:doc_id Additional Data t:desc Description t:appr_status Approval Information: Status t:appr_modif Approval Information: Modified t:appr_modby Approval Information: Modified by Reference Parameter: r:doc_id Additional Data r:pOwner ElmOwner Owner r:pOperator ElmOperator Operator Description unbalanced: ---------------------- Currents, Voltages and Powers: Bus Results: Signals: Calculation Parameter: Element Parameter: e:sernum Serial Number e:constr Year of Construction e:iComDate Commissioning Date e:chr_name Characteristic Name e:for_name Foreign Key e:dat_src Data source e:doc_id Additional Data e:pOwner ElmOwner Owner e:pOperator ElmOperator Operator e:desc Description e:appr_status Approval Information: Status e:appr_modif Approval Information: Modified e:appr_modby Approval Information: Modified by e:sOpComment Operator Comment e:cimRdfId RDF ID e:dpl1 dpl1 e:dpl2 dpl2 e:dpl3 dpl3

e:dpl4 dpl4 e:dpl5 dpl5 Type Parameter: t:manuf Manufacturer t:chr_name Characteristic Name t:for_name Foreign Key t:dat_src Data source t:doc_id Additional Data t:desc Description t:appr_status Approval Information: Status t:appr_modif Approval Information: Modified t:appr_modby Approval Information: Modified by Reference Parameter: r:doc_id Additional Data r:pOwner ElmOwner Owner r:pOperator ElmOperator Operator Complete Short-Circuit balanced: ------------------------------- Currents, Voltages and Powers: m:Ikss:bus1 kA Initial Short-Circuit Current m:ikss:bus1 p.u. Initial Short-Circuit Current, Magnitude m:phii:bus1 deg Phase Current, Angle m:maxIkss:bus1 kA Max. Initial Short-Circuit Current m:maxIks:bus1 kA Max. Transient Current m:Skss:bus1 MVA Initial Short-Circuit Power m:ip:bus1 kA Peak Short-Circuit Current m:maxip:bus1 kA Max. Peak Short-Circuit Current m:maxIb:bus1 kA Max. Breaking Current m:maxIth:bus1 kA Max. Thermal equivalent Short-Circuit Current m:Ib:bus1 kA Short-Circuit Breaking Current m:Sb:bus1 MVA Short-Circuit Breaking Power m:Ik:bus1 kA Steady-State Short-Circuit Current m:Ith:bus1 kA Thermal equivalent Short-Circuit Current m:I:bus1 kA Short-Circuit Current m:R:bus1 Ohm Fault Impedance, Real Part m:X:bus1 Ohm Fault Impedance, Imaginary Part m:Z:bus1 Ohm Fault Impedance, Magnitude m:phiz:bus1 deg Fault Impedance, Angle m:zSbase:bus1 p.u. Fault Impedance, Magnitude m:XtoR:bus1 X/R ratio m:Zs:bus1 Ohm Source Impedance, Magnitude m:phizs:bus1 deg Source Impedance, Angle m:Rs:bus1 Ohm Source Impedance, Real Part m:Xs:bus1 Ohm Source Impedance, Imaginary Part m:i1:bus1 p.u. Positive-Sequence Current, Magnitude m:I1:bus1 kA Positive-Sequence Current, Magnitude m:phii1:bus1 deg Positive-Sequence Current, Angle m:phiui:bus1 deg Angle between Voltage and Current m:phiu1i1:bus1 deg Angle between Voltage and Current in Positive-Sequence System m:cosphiui:bus1 cosphi m:P:bus1 MW Active Power m:Q:bus1 Mvar Reactive Power m:i1P:bus1 p.u. Positive-Sequence Active Current m:i1Q:bus1 p.u. Positive-Sequence Reactive Current m:I1P:bus1 kA Positive-Sequence Active Current m:I1Q:bus1 kA Positive-Sequence Reactive Current m:Tfct:bus1 s Fault Clearing Time m:BrkIpload:bus1 % Breaker Loading (peak) m:BrkIbload:bus1 % Breaker Loading (breaking) m:BrkmaxIb:bus1 kA Max. Breaking Current (breaker time) m:Iks:bus1 kA Transient Short-Circuit Current m:phiiks:bus1 deg Transient Short-Circuit Current, Angle Bus Results: n:Ikss:bus1 kA Initial Short-Circuit Current n:I:bus1 kA Short-Circuit Current n:phii:bus1 deg Phase Current, Angle n:Skss:bus1 MVA Initial Short-Circuit Power n:Iks:bus1 kA Transient Short-Circuit Current n:phiiks:bus1 deg Transient Short-Circuit Current, Angle

n:ip:bus1 kA Peak Short-Circuit Current n:Ib:bus1 kA Short-Circuit Breaking Current n:Sb:bus1 MVA Short-Circuit Breaking Power n:ib:bus1 kA Peak Breaking Current n:Ibasym:bus1 kA Asymmetrical Breaking Current n:idc:bus1 kA Decaying Component n:Ith:bus1 kA Thermal equivalent Short-Circuit Current n:R:bus1 Ohm Short-Circuit Impedance, Real Part n:X:bus1 Ohm Short-Circuit Impedance, Imaginary Part n:Z:bus1 Ohm Short-Circuit Impedance, Magnitude n:phiz:bus1 deg Short-Circuit Impedance, Angle n:rSbase:bus1 p.u. Short-Circuit Impedance, Real Part n:xSbase:bus1 p.u. Short-Circuit Impedance, Imaginary Part n:zSbase:bus1 p.u. Short-Circuit Impedance, Magnitude n:XtoR:bus1 X/R ratio (peak) n:RtoX:bus1 R/X ratio (peak) n:XtoR_b:bus1 X/R ratio (dc) n:RtoX_b:bus1 R/X ratio (dc) n:fctof_b:bus1 Equivalent Frequency fc/f (dc) n:ur:bus1 p.u. Voltage, Real Part n:ui:bus1 p.u. Voltage, Imaginary Part n:u:bus1 p.u. Voltage, Magnitude n:upc:bus1 % Voltage, Magnitude n:u1:bus1 p.u. Voltage, Magnitude n:u1pc:bus1 % Voltage, Magnitude n:u1r:bus1 p.u. Positive-Sequence Voltage, Real-Part n:u1i:bus1 p.u. Positive-Sequence Voltage, Imaginary-Part n:U:bus1 kV Line-Ground Voltage, Magnitude n:Ul:bus1 kV Line-Line Voltage, Magnitude n:phiu:bus1 deg Voltage, Angle n:phiurel:bus1 deg Voltage, Relative Angle n:du:bus1 % Voltage Deviation n:urpref:bus1 p.u. Pre-fault Voltage, Real Part n:uipref:bus1 p.u. Pre-fault Voltage, Imaginary Part n:upref:bus1 p.u. Pre-fault Voltage, Magnitude n:uprefpc:bus1 % Pre-fault Voltage, Magnitude n:Upref:bus1 kV Line-Ground Pre-fault Voltage, Magnitude n:Ulpref:bus1 kV Line-Line Pre-fault Voltage, Magnitude n:phiupref:bus1 deg Line-Ground Pre-fault Voltage, Magnitude n:phiui:bus1 deg Angle between Voltage and Current n:cfac:bus1 Voltage Factor n:Ithload:bus1 % Loading, Thermal equivalent Current n:Ipload:bus1 % Loading, Peak Short-Circuit Current n:Ithrtk:bus1 kA Rated Short-Time Current (Tk) n:Tn:bus1 ms Grid Time Constant n:us:bus1 p.u. Transient Voltage, Magnitude n:uspc:bus1 % Transient Voltage, Magnitude n:Us:bus1 kV Transient Voltage, Magnitude n:Uls:bus1 kV Tranient Line-Line Voltage, Magnitude n:phius:bus1 deg Transient Voltage, Angle Signals: Calculation Parameter: c:z1:r p.u. Subtransient Impedance, Real Part c:z1:i p.u. Subtransient Impedance, Imaginary Part c:z1:phi deg Subtransient Impedance, Angle c:z1:mag p.u. Subtransient Impedance, Magnitude c:z1:phirad rad Subtransient Impedance, Angle c:rgf p.u. Fictitious Resistance c:uss:r p.u. Subtransient Voltage, Real Part c:uss:i p.u. Subtransient Voltage, Imaginary Part c:uss:phi deg Subtransient Voltage, Angle c:uss:mag p.u. Subtransient Voltage, Magnitude c:uss:phirad rad Subtransient Voltage, Angle c:cosn Nominal-Power factor c:xdsss p.u. Saturated Subtransient Reactance c:xdsat p.u. Saturated Synchronous Reactance c:satur Machine Type IEC909 c:tr2tf PSU Transformer Ratio c:isremote Remote Contribution c:Icontrib kA Contribution Current c:currcont:r p.u. Contribution Current, Real Part c:currcont:i p.u. Contribution Current, Imaginary Part c:currcont:phi deg Contribution Current, Angle

c:currcont:mag p.u. Contribution Current, Magnitude c:currcont:phirad rad Contribution Current, Angle Element Parameter: Type Parameter: t:rstr p.u. Stator Resistance: rstr t:xtor Stator Resistance: Ratio X/R t:iusesat Subtransient Reactances: Use saturated value t:xdss p.u. Subtransient Reactances: xd'' t:xdsss p.u. Subtransient Reactance: saturated value xd''sat t:xds p.u. Transient Reactances: xd' t:x0sy p.u. Zero Sequence Data: Reactance x0 t:r0sy p.u. Zero Sequence Data: Resistance r0 t:x2sy p.u. Neg. Sequence Data: Reactance x2 t:r2sy p.u. Neg. Sequence Data: Resistance r2 Reference Parameter: Complete Short-Circuit unbalanced: --------------------------------- Currents, Voltages and Powers: m:Ikss:bus1:A kA Initial Short-Circuit Current m:Ikss:bus1:B kA Initial Short-Circuit Current m:Ikss:bus1:C kA Initial Short-Circuit Current m:ikss:bus1:A p.u. Initial Short-Circuit Current, Magnitude m:ikss:bus1:B p.u. Initial Short-Circuit Current, Magnitude m:ikss:bus1:C p.u. Initial Short-Circuit Current, Magnitude m:phii:bus1:A deg Phase Current, Angle m:phii:bus1:B deg Phase Current, Angle m:phii:bus1:C deg Phase Current, Angle m:Skss:bus1:A MVA Initial Short-Circuit Power m:Skss:bus1:B MVA Initial Short-Circuit Power m:Skss:bus1:C MVA Initial Short-Circuit Power m:Skssx3:bus1:A MVA 3*Initial Short-Circuit Power m:Skssx3:bus1:B MVA 3*Initial Short-Circuit Power m:Skssx3:bus1:C MVA 3*Initial Short-Circuit Power m:Iks:bus1:A kA Transient Short-Circuit Current m:Iks:bus1:B kA Transient Short-Circuit Current m:Iks:bus1:C kA Transient Short-Circuit Current m:phiiks:bus1:A deg Transient Short-Circuit Current, Angle m:phiiks:bus1:B deg Transient Short-Circuit Current, Angle m:phiiks:bus1:C deg Transient Short-Circuit Current, Angle m:ip:bus1:A kA Peak Short-Circuit Current m:ip:bus1:B kA Peak Short-Circuit Current m:ip:bus1:C kA Peak Short-Circuit Current m:maxIkss:bus1 kA Max. Initial Short-Circuit Current m:maxIks:bus1 kA Max. Transient Current m:maxip:bus1 kA Max. Peak Short-Circuit Current m:maxIth:bus1 kA Max. Thermal equivalent Short-Circuit Current m:maxIb:bus1 kA Max. Breaking Current m:Z:bus1:A Ohm Fault Impedance, Magnitude m:Z:bus1:B Ohm Fault Impedance, Magnitude m:Z:bus1:C Ohm Fault Impedance, Magnitude m:phiz:bus1:A deg Fault Impedance, Angle m:phiz:bus1:B deg Fault Impedance, Angle m:phiz:bus1:C deg Fault Impedance, Angle m:Zl:bus1:A Ohm Line to Line Fault Impedance, Magnitude m:Zl:bus1:B Ohm Line to Line Fault Impedance, Magnitude m:Zl:bus1:C Ohm Line to Line Fault Impedance, Magnitude m:phizl:bus1:A deg Line to Line Fault Impedance, Angle m:phizl:bus1:B deg Line to Line Fault Impedance, Angle m:phizl:bus1:C deg Line to Line Fault Impedance, Angle m:Z0:bus1 Ohm Zero-Sequence Fault Impedance, Magnitude m:phiz0:bus1 deg Zero-Sequence Fault Impedance, Angle m:z0Sbase:bus1 p.u. Zero-Sequence Fault Impedance, Magnitude m:I0:bus1 kA Zero-Sequence Current, Magnitude m:I0x3:bus1 kA 3*I0 m:phii0:bus1 deg Zero-Sequence Current, Angle m:i1:bus1 p.u. Positive-Sequence Current, Magnitude m:I1:bus1 kA Positive-Sequence Current, Magnitude

m:phii1:bus1 deg Positive-Sequence Current, Angle m:I2:bus1 kA Negative-Sequence Current, Magnitude m:phii2:bus1 deg Negative-Sequence Current, Angle m:phiui:bus1:A deg Angle between Voltage and Current m:phiui:bus1:B deg Angle between Voltage and Current m:phiui:bus1:C deg Angle between Voltage and Current m:phiu0i0:bus1 deg Angle between Voltage and Current in Zero-Sequence System m:phiu1i1:bus1 deg Angle between Voltage and Current in Positive-Sequence System m:phiu2i2:bus1 deg Angle between Voltage and Current in Negative-Sequence System m:cosphiu1i1:bus1 Positive-Sequence cosphi m:I0x3watt:bus1 kA Earth-Fault Residual Current m:I0x3var:bus1 kA Capacitive Earth-Fault Current m:I0ks:bus1 kA Transient Zero-Sequence Current, Magnitude m:phii0ks:bus1 deg Transient Zero-Sequence Current, Angle m:I1ks:bus1 kA Transient Positive-Sequence Current, Magnitude m:phii1ks:bus1 deg Transient Positive-Sequence Current, Angle m:I2ks:bus1 kA Transient Negative-Sequence Current, Magnitude m:phii2ks:bus1 deg Transient Negative-Sequence Current, Angle m:P:bus1:A MW Active Power m:P:bus1:B MW Active Power m:P:bus1:C MW Active Power m:Q:bus1:A Mvar Reactive Power m:Q:bus1:B Mvar Reactive Power m:Q:bus1:C Mvar Reactive Power m:Psum:bus1 MW Total Active Power m:Qsum:bus1 Mvar Total Reactive Power m:P0:bus1 MW P0 m:Q0cap:bus1 Mvar Q0 capacitive m:P2:bus1 MW P2 m:Q2:bus1 Mvar Q2 m:i1P:bus1 p.u. Positive-Sequence Active Current m:i1Q:bus1 p.u. Positive-Sequence Reactive Current m:I1P:bus1 kA Positive-Sequence Active Current m:I1Q:bus1 kA Positive-Sequence Reactive Current m:Zfrel:bus1 Ohm Relay Impedance, Magnitude m:phizfrel:bus1 deg Relay Impedance, Angle m:Rfrel:bus1 Ohm Relay Impedance, Real Part m:Xfrel:bus1 Ohm Relay Impedance, Imaginary Part m:Zs:bus1 Ohm Source Impedance, Magnitude m:phizs:bus1 deg Source Impedance, Angle m:Rs:bus1 Ohm Source Impedance, Real Part m:Xs:bus1 Ohm Source Impedance, Imaginary Part m:Zf:bus1 Ohm Meas. Fault Impedance, Magnitude m:phizf:bus1 deg Meas. Fault Impedance, Angle m:Zf11:bus1 Ohm Positive-Sequence Fault Impedance, Magnitude m:phizf11:bus1 deg Positive-Sequence Fault Impedance, Angle m:ck0:bus1 Earth Factor, Magnitude m:cphik0:bus1 deg Earth Factor, Angle m:Ikssl:bus1:A kA L-L Initial Short-Circuit Current m:Ikssl:bus1:B kA L-L Initial Short-Circuit Current m:Ikssl:bus1:C kA L-L Initial Short-Circuit Current m:phiil:bus1:A deg Line-Line Current, Angle m:phiil:bus1:B deg Line-Line Current, Angle m:phiil:bus1:C deg Line-Line Current, Angle m:Tfct:bus1 s Fault Clearing Time m:TfctPh:bus1:A s Fault Clearing Time m:TfctPh:bus1:B s Fault Clearing Time m:TfctPh:bus1:C s Fault Clearing Time m:BrkIpload:bus1 % Max. Breaker Loading (peak) Bus Results: n:Ikss:bus1:A kA Initial Short-Circuit Current n:Ikss:bus1:B kA Initial Short-Circuit Current n:Ikss:bus1:C kA Initial Short-Circuit Current n:I:bus1:A kA Short-Circuit Current n:I:bus1:B kA Short-Circuit Current n:I:bus1:C kA Short-Circuit Current n:phii:bus1:A deg Phase Current, Angle n:phii:bus1:B deg Phase Current, Angle n:phii:bus1:C deg Phase Current, Angle n:Skss:bus1:A MVA Initial Short-Circuit Power n:Skss:bus1:B MVA Initial Short-Circuit Power n:Skss:bus1:C MVA Initial Short-Circuit Power n:Skssx3:bus1:A MVA 3*Initial Short-Circuit Power n:Skssx3:bus1:B MVA 3*Initial Short-Circuit Power n:Skssx3:bus1:C MVA 3*Initial Short-Circuit Power n:Iks:bus1:A kA Transient Short-Circuit Current

n:Iks:bus1:B kA Transient Short-Circuit Current n:Iks:bus1:C kA Transient Short-Circuit Current n:phiiks:bus1:A deg Transient Short-Circuit Current, Angle n:phiiks:bus1:B deg Transient Short-Circuit Current, Angle n:phiiks:bus1:C deg Transient Short-Circuit Current, Angle n:ip:bus1:A kA Peak Short-Circuit Current n:ip:bus1:B kA Peak Short-Circuit Current n:ip:bus1:C kA Peak Short-Circuit Current n:Ib:bus1:A kA Short-Circuit Breaking Current n:Ib:bus1:B kA Short-Circuit Breaking Current n:Ib:bus1:C kA Short-Circuit Breaking Current n:Sb:bus1:A MVA Short-Circuit Breaking Power n:Sb:bus1:B MVA Short-Circuit Breaking Power n:Sb:bus1:C MVA Short-Circuit Breaking Power n:ib:bus1:A kA Peak Breaking Current n:ib:bus1:B kA Peak Breaking Current n:ib:bus1:C kA Peak Breaking Current n:Ibasym:bus1:A kA Asymmetrical Breaking Current n:Ibasym:bus1:B kA Asymmetrical Breaking Current n:Ibasym:bus1:C kA Asymmetrical Breaking Current n:idc:bus1:A kA Decaying Component n:idc:bus1:B kA Decaying Component n:idc:bus1:C kA Decaying Component n:Ith:bus1:A kA Thermal equivalent Short-Circuit Current n:Ith:bus1:B kA Thermal equivalent Short-Circuit Current n:Ith:bus1:C kA Thermal equivalent Short-Circuit Current n:Ithmax:bus1 kA Max. Thermal equivalent Short-Circuit Current n:R0:bus1 Ohm Zero-Sequence Impedance, Real Part n:X0:bus1 Ohm Zero-Sequence Impedance, Imaginary Part n:Z0:bus1 Ohm Zero-Sequence Impedance, Magnitude n:phiz0:bus1 deg Zero-Sequence Impedance, Angle n:r0Sbase:bus1 p.u. Zero-Sequence Impedance, Real Part n:x0Sbase:bus1 p.u. Zero-Sequence Impedance, Imaginary Part n:z0Sbase:bus1 p.u. Zero-Sequence Impedance, Magnitude n:R1:bus1 Ohm Positive-Sequence Impedance, Real Part n:X1:bus1 Ohm Positive-Sequence Impedance, Imaginary Part n:Z1:bus1 Ohm Positive-Sequence Impedance, Magnitude n:phiz1:bus1 deg Positive-Sequence Impedance, Angle n:r1Sbase:bus1 p.u. Positive-Sequence Impedance, Real Part n:x1Sbase:bus1 p.u. Positive-Sequence Impedance, Imaginary Part n:z1Sbase:bus1 p.u. Positive-Sequence Impedance, Magnitude n:R2:bus1 Ohm Negative-Sequence Impedance, Real Part n:X2:bus1 Ohm Negative-Sequence Impedance, Imaginary Part n:Z2:bus1 Ohm Negative-Sequence Impedance, Magnitude n:phiz2:bus1 deg Negative-Sequence Impedance, Angle n:r2Sbase:bus1 p.u. Negative-Sequence Impedance, Real Part n:x2Sbase:bus1 p.u. Negative-Sequence Impedance, Imaginary Part n:z2Sbase:bus1 p.u. Negative-Sequence Impedance, Magnitude n:R:bus1:A Ohm Network Resistance, Line-Ground n:R:bus1:B Ohm Network Resistance, Line-Ground n:R:bus1:C Ohm Network Resistance, Line-Ground n:X:bus1:A Ohm Network Reactance, Line-Ground n:X:bus1:B Ohm Network Reactance, Line-Ground n:X:bus1:C Ohm Network Reactance, Line-Ground n:Z:bus1:A Ohm Network Impedance, Line-Ground n:Z:bus1:B Ohm Network Impedance, Line-Ground n:Z:bus1:C Ohm Network Impedance, Line-Ground n:phiz:bus1:A deg Angle of Network Impedance, Line-Ground n:phiz:bus1:B deg Angle of Network Impedance, Line-Ground n:phiz:bus1:C deg Angle of Network Impedance, Line-Ground n:Rl:bus1:A Ohm Network Resistance, Line-Line n:Rl:bus1:B Ohm Network Resistance, Line-Line n:Rl:bus1:C Ohm Network Resistance, Line-Line n:Xl:bus1:A Ohm Network Reactance, Line-Line n:Xl:bus1:B Ohm Network Reactance, Line-Line n:Xl:bus1:C Ohm Network Reactance, Line-Line n:Zl:bus1:A Ohm Network Impedance, Line-Line n:Zl:bus1:B Ohm Network Impedance, Line-Line n:Zl:bus1:C Ohm Network Impedance, Line-Line n:phizl:bus1:A deg Angle of Network Impedance, Line-Line n:phizl:bus1:B deg Angle of Network Impedance, Line-Line n:phizl:bus1:C deg Angle of Network Impedance, Line-Line n:Rln:bus1:A Ohm Network Resistance, Line-Neutral n:Rln:bus1:B Ohm Network Resistance, Line-Neutral n:Rln:bus1:C Ohm Network Resistance, Line-Neutral n:Xln:bus1:A Ohm Network Reactance, Line-Neutral n:Xln:bus1:B Ohm Network Reactance, Line-Neutral n:Xln:bus1:C Ohm Network Reactance, Line-Neutral

n:Zln:bus1:A Ohm Network Impedance, Line-Neutral n:Zln:bus1:B Ohm Network Impedance, Line-Neutral n:Zln:bus1:C Ohm Network Impedance, Line-Neutral n:phizln:bus1:A deg Angle of Network Impedance, Line-Neutral n:phizln:bus1:B deg Angle of Network Impedance, Line-Neutral n:phizln:bus1:C deg Angle of Network Impedance, Line-Neutral n:Rn:bus1 Ohm Network Resistance, Neutral n:Xn:bus1 Ohm Network Reactance, Neutral n:Zn:bus1 Ohm Network Impedance, Neutral n:phizn:bus1 deg Angle of Network Impedance, Neutral n:eff:bus1:A Earth Fault Factor n:eff:bus1:B Earth Fault Factor n:eff:bus1:C Earth Fault Factor n:X0toX1:bus1 X0/X1 n:in:bus1 p.u. Neutral Current, Magnitude n:In:bus1 kA Neutral Current, Magnitude n:phiin:bus1 deg Neutral Current, Angle n:i0r:bus1 p.u. Zero-Sequence Current, Real Part n:i0i:bus1 p.u. Zero-Sequence Current, Imaginary Part n:i0:bus1 p.u. Zero-Sequence Current, Magnitude n:I0:bus1 kA Zero-Sequence Current, Magnitude n:I0x3:bus1 kA 3*I0 n:phii0:bus1 deg Zero-Sequence Current, Angle n:i1r:bus1 p.u. Positive-Sequence Current, Real Part n:i1i:bus1 p.u. Positive-Sequence Current, Imaginary Part n:i1:bus1 p.u. Positive-Sequence Current, Magnitude n:I1:bus1 kA Positive-Sequence Current, Magnitude n:phii1:bus1 deg Positive-Sequence Current, Angle n:i2r:bus1 p.u. Negative-Sequence Current, Real Part n:i2i:bus1 p.u. Negative-Sequence Current, Imaginary Part n:i2:bus1 p.u. Negative-Sequence Current, Magnitude n:I2:bus1 kA Negative-Sequence Current, Magnitude n:phii2:bus1 deg Negative-Sequence Current, Angle n:ur:bus1:A p.u. Line-Ground Voltage, Real Part n:ur:bus1:B p.u. Line-Ground Voltage, Real Part n:ur:bus1:C p.u. Line-Ground Voltage, Real Part n:ui:bus1:A p.u. Line-Ground Voltage, Imaginary Part n:ui:bus1:B p.u. Line-Ground Voltage, Imaginary Part n:ui:bus1:C p.u. Line-Ground Voltage, Imaginary Part n:u:bus1:A p.u. Line-Ground Voltage, Magnitude n:u:bus1:B p.u. Line-Ground Voltage, Magnitude n:u:bus1:C p.u. Line-Ground Voltage, Magnitude n:upc:bus1:A % Line-Ground Voltage, Magnitude n:upc:bus1:B % Line-Ground Voltage, Magnitude n:upc:bus1:C % Line-Ground Voltage, Magnitude n:U:bus1:A kV Line-Ground Voltage, Magnitude n:U:bus1:B kV Line-Ground Voltage, Magnitude n:U:bus1:C kV Line-Ground Voltage, Magnitude n:phiu:bus1:A deg Line-Ground Voltage, Angle n:phiu:bus1:B deg Line-Ground Voltage, Angle n:phiu:bus1:C deg Line-Ground Voltage, Angle n:phiurel:bus1:A deg Voltage, Relative Angle n:phiurel:bus1:B deg Voltage, Relative Angle n:phiurel:bus1:C deg Voltage, Relative Angle n:ul:bus1:A p.u. Line to Line Voltage, Magnitude n:ul:bus1:B p.u. Line to Line Voltage, Magnitude n:ul:bus1:C p.u. Line to Line Voltage, Magnitude n:ulpc:bus1:A % Line to Line Voltage, Magnitude n:ulpc:bus1:B % Line to Line Voltage, Magnitude n:ulpc:bus1:C % Line to Line Voltage, Magnitude n:Ul:bus1:A kV Line to Line Voltage, Magnitude n:Ul:bus1:B kV Line to Line Voltage, Magnitude n:Ul:bus1:C kV Line to Line Voltage, Magnitude n:phiul:bus1:A deg Line to Line Voltage, Angle n:phiul:bus1:B deg Line to Line Voltage, Angle n:phiul:bus1:C deg Line to Line Voltage, Angle n:u0:bus1 p.u. Zero-Sequence Voltage, Magnitude n:U0:bus1 kV Zero-Sequence Voltage, Magnitude n:U0x3:bus1 kV 3*U0 n:phiu0:bus1 deg Zero-Sequence Voltage, Angle n:u1:bus1 p.u. Line-Ground Positive-Sequence Voltage, Magnitude n:u1pc:bus1 % Line-Ground Positive-Sequence Voltage, Magnitude n:u1r:bus1 p.u. Positive-Sequence Voltage, Real Part n:u1i:bus1 p.u. Positive-Sequence Voltage, Imaginary Part n:U1:bus1 kV Line-Ground Positive-Sequence Voltage, Magnitude n:phiu1:bus1 deg Line-Ground Positive-Sequence Voltage, Angle n:u2:bus1 p.u. Line-Ground Negative-Sequence Voltage, Magnitude n:U2:bus1 kV Line-Ground Negative-Sequence Voltage, Magnitude

n:phiu2:bus1 deg Negative-Sequence Voltage, Angle n:U1l:bus1 kV Line to Line Positive-Sequence Voltage, Magnitude n:U2l:bus1 kV Line to Line Negative-Sequence Voltage, Magnitude n:uln:bus1:A p.u. Line-Neutral Voltage, Magnitude n:uln:bus1:B p.u. Line-Neutral Voltage, Magnitude n:uln:bus1:C p.u. Line-Neutral Voltage, Magnitude n:Uln:bus1:A kV Line-Neutral Voltage, Magnitude n:Uln:bus1:B kV Line-Neutral Voltage, Magnitude n:Uln:bus1:C kV Line-Neutral Voltage, Magnitude n:phiuln:bus1:A deg Line-Neutral Voltage, Angle n:phiuln:bus1:B deg Line-Neutral Voltage, Angle n:phiuln:bus1:C deg Line-Neutral Voltage, Angle n:un:bus1 p.u. Neutral-Ground Voltage, Magnitude n:Un:bus1 kV Neutral-Ground Voltage, Magnitude n:phiun:bus1 deg Neutral-Ground Voltage, Angle n:upht:bus1:A p.u. Phase Technology dependent Voltage, Magnitude n:upht:bus1:B p.u. Phase Technology dependent Voltage, Magnitude n:upht:bus1:C p.u. Phase Technology dependent Voltage, Magnitude n:Upht:bus1:A kV Phase Technology dependent Voltage, Magnitude n:Upht:bus1:B kV Phase Technology dependent Voltage, Magnitude n:Upht:bus1:C kV Phase Technology dependent Voltage, Magnitude n:urpref:bus1:A p.u. Pre-fault Voltage, Real Part n:urpref:bus1:B p.u. Pre-fault Voltage, Real Part n:urpref:bus1:C p.u. Pre-fault Voltage, Real Part n:uipref:bus1:A p.u. Pre-fault Voltage, Imaginary Part n:uipref:bus1:B p.u. Pre-fault Voltage, Imaginary Part n:uipref:bus1:C p.u. Pre-fault Voltage, Imaginary Part n:upref:bus1:A p.u. Pre-fault Voltage, Magnitude n:upref:bus1:B p.u. Pre-fault Voltage, Magnitude n:upref:bus1:C p.u. Pre-fault Voltage, Magnitude n:uprefpc:bus1:A % Pre-fault Voltage, Magnitude n:uprefpc:bus1:B % Pre-fault Voltage, Magnitude n:uprefpc:bus1:C % Pre-fault Voltage, Magnitude n:Upref:bus1:A kV Line-Ground Pre-fault Voltage, Magnitude n:Upref:bus1:B kV Line-Ground Pre-fault Voltage, Magnitude n:Upref:bus1:C kV Line-Ground Pre-fault Voltage, Magnitude n:Ulpref:bus1:A kV Line-Line Pre-fault Voltage, Magnitude n:Ulpref:bus1:B kV Line-Line Pre-fault Voltage, Magnitude n:Ulpref:bus1:C kV Line-Line Pre-fault Voltage, Magnitude n:phiupref:bus1:A deg Line-Ground Pre-fault Voltage, Magnitude n:phiupref:bus1:B deg Line-Ground Pre-fault Voltage, Magnitude n:phiupref:bus1:C deg Line-Ground Pre-fault Voltage, Magnitude n:phiui:bus1:A deg Angle between Voltage and Current n:phiui:bus1:B deg Angle between Voltage and Current n:phiui:bus1:C deg Angle between Voltage and Current n:phiu1i1:bus1 deg Angle between Voltage and Current in positive sequence system n:phiu2i2:bus1 deg Angle between Voltage and Current in negative sequence system n:phiu0i0:bus1 deg Angle between Voltage and Current in zero-sequence system n:Ithload:bus1 % Loading, Thermal equivalent Current n:Ipload:bus1 % Loading, Peak Short-Circuit Current n:Ithrtk:bus1 kA Rated Short-Time Current (Tk) n:cfac:bus1 Voltage Factor n:XtoR:bus1 X/R ratio (peak) n:RtoX:bus1 R/X ratio (peak) n:XtoR_b:bus1 X/R ratio (dc) n:RtoX_b:bus1 R/X ratio (dc) n:fctof_b:bus1 Equivalent Frequency fc/f (dc) n:Ins:bus1 kA Transient Neutral Current, Magnitude n:phiins:bus1 deg Transient Neutral Current, Angle n:I0s:bus1 kA Transient Zero-Sequence Current, Magnitude n:I0x3s:bus1 kA 3*I0' n:phii0s:bus1 deg Transient Zero-Sequence Current, Angle n:I1s:bus1 kA Transient Positive-Sequence Current, Magnitude n:phii1s:bus1 deg Transient Positive-Sequence Current, Angle n:I2s:bus1 kA Transient Negative-Sequence Current, Magnitude n:phii2s:bus1 deg Transient Negative-Sequence Current, Angle n:us:bus1:A p.u. Transient Voltage, Magnitude n:us:bus1:B p.u. Transient Voltage, Magnitude n:us:bus1:C p.u. Transient Voltage, Magnitude n:uspc:bus1:A % Transient Voltage, Magnitude n:uspc:bus1:B % Transient Voltage, Magnitude n:uspc:bus1:C % Transient Voltage, Magnitude n:Us:bus1:A kV Transient Voltage, Magnitude n:Us:bus1:B kV Transient Voltage, Magnitude n:Us:bus1:C kV Transient Voltage, Magnitude n:Uls:bus1:A kV Tranient Line-Line Voltage, Magnitude n:Uls:bus1:B kV Tranient Line-Line Voltage, Magnitude n:Uls:bus1:C kV Tranient Line-Line Voltage, Magnitude

n:phius:bus1:A deg Transient Voltage, Angle n:phius:bus1:B deg Transient Voltage, Angle n:phius:bus1:C deg Transient Voltage, Angle n:u0s:bus1 p.u. Transient Zero-Sequence Voltage, Magnitude n:U0s:bus1 kV Transient Zero-Sequence Voltage, Magnitude n:phiu0s:bus1 deg Transient Zero-Sequence Voltage, Angle n:u1s:bus1 p.u. Transient Positive-Sequence Voltage, Magnitude n:u1spc:bus1 % Transient Positive-Sequence Voltage, Magnitude n:U1s:bus1 kV Transient Positive-Sequence Voltage, Magnitude n:phiu1s:bus1 deg Transient Positive-Sequence Voltage, Angle n:u2s:bus1 p.u. Transient Negative-Sequence Voltage, Magnitude n:U2s:bus1 kV Transient Negative-Sequence Voltage, Magnitude n:phiu2s:bus1 deg Transient Negative-Sequence Voltage, Angle Signals: Calculation Parameter: c:z1:r p.u. Subtransient Impedance, Real Part c:z1:i p.u. Subtransient Impedance, Imaginary Part c:z1:phi deg Subtransient Impedance, Angle c:z1:mag p.u. Subtransient Impedance, Magnitude c:z1:phirad rad Subtransient Impedance, Angle c:z0:r p.u. Subtransient Impedance, Real Part c:z0:i p.u. Subtransient Impedance, Imaginary Part c:z0:phi deg Subtransient Impedance, Angle c:z0:mag p.u. Subtransient Impedance, Magnitude c:z0:phirad rad Subtransient Impedance, Angle c:ze:r p.u. Grounding Impedance, Real Part c:ze:i p.u. Grounding Impedance, Imaginary Part c:ze:phi deg Grounding Impedance, Angle c:ze:mag p.u. Grounding Impedance, Magnitude c:ze:phirad rad Grounding Impedance, Angle c:z2:r p.u. Subtransient Impedance, Real Part c:z2:i p.u. Subtransient Impedance, Imaginary Part c:z2:phi deg Subtransient Impedance, Angle c:z2:mag p.u. Subtransient Impedance, Magnitude c:z2:phirad rad Subtransient Impedance, Angle c:rgf p.u. Fictitious Resistance c:uss:r p.u. Subtransient Voltage, Real Part c:uss:i p.u. Subtransient Voltage, Imaginary Part c:uss:phi deg Subtransient Voltage, Angle c:uss:mag p.u. Subtransient Voltage, Magnitude c:uss:phirad rad Subtransient Voltage, Angle c:Icontrib:A kA Contribution Current c:Icontrib:B kA Contribution Current c:Icontrib:C kA Contribution Current c:Icontrib:N kA Contribution Current c:isremote Remote Contribution c:cosn Nominal-Power factor c:xdsss p.u. Saturated Subtransient Reactance c:tr2tf PSU Transformer Ratio c:pG %. Range of Voltage Regulation (+/-) Element Parameter: Type Parameter: t:rstr p.u. Stator Resistance: rstr t:xtor Stator Resistance: Ratio X/R t:iusesat Subtransient Reactances: Use saturated value t:xdss p.u. Subtransient Reactances: xd'' t:xdsss p.u. Subtransient Reactance: saturated value xd''sat t:xds p.u. Transient Reactances: xd' t:x0sy p.u. Zero Sequence Data: Reactance x0 t:r0sy p.u. Zero Sequence Data: Resistance r0 t:x2sy p.u. Neg. Sequence Data: Reactance x2 t:r2sy p.u. Neg. Sequence Data: Resistance r2 Reference Parameter: ANSI Short-Circuit balanced:

--------------------------- Currents, Voltages and Powers: m:Isym_m:bus1 kA Sym. Momentary Current m:phii_m:bus1 deg Sym. Momentary Current, Angle m:Ssym_m:bus1 MVA Sym. Momentary Power m:phiui_m:bus1 deg Momentary Angle between Voltage and Current m:cosphiui_m:bus1 Momentary cosphi m:XtoR_m:bus1 Momentary Branch X/R Ratio m:maxIsym_m:bus1 kA Max. sym. Momentary Current m:maxI16asym_m:bus1 kA Asym. Momentary Current, Duty m:maxI27peak_m:bus1 kA Asym. Momentary Peak Current, Duty m:maxIasym_m:bus1 kA Asym. Momentary Current, calculated m:maxIpeak_m:bus1 kA Asym. Momentary Peak Current, calculated m:maxIlvcb:bus1 kA LV Power Fuse Breaker m:maxIlvfuse:bus1 kA LV Fuse m:maxIlvmccbg20:bus1 kA Molded Case Circuit Breaker > 20 kA m:maxIlvmccb1020:bus1 kA Molded Case Circuit Breaker 10-20 kA m:maxIlvmccb010:bus1 kA Molded Case Circuit Breaker 0-10 kA m:Isym_i:bus1 kA Sym. Interrupting Current m:phii_i:bus1 deg Sym. Interrupting Current, Angle m:Ssym_i:bus1 MVA Sym. Interrupting Power m:phiui_i:bus1 deg Interrupting Angle between Voltage and Current m:cosphiui_i:bus1 Interrupting cosphi m:XtoR_i:bus1 Interrupting Branch X/R Ratio m:maxIsym_i:bus1 kA Max. Sym. Interrupting Current m:maxIsym2c:bus1 kA 2 cycle Sym. Interrupting Current m:maxIsym3c:bus1 kA 3 cycle Sym. Interrupting Current m:maxIsym5c:bus1 kA 5 cycle Sym. Interrupting Current m:maxIsym8c:bus1 kA 8 cycle Sym. Interrupting Current m:maxItot2c:bus1 kA 2 cycle Total Interrupting Current m:maxItot3c:bus1 kA 3 cycle Total Interrupting Current m:maxItot5c:bus1 kA 5 cycle Total Interrupting Current m:maxItot8c:bus1 kA 8 cycle Total Interrupting Current m:Isym_30:bus1 kA 30cycle Sym. Current m:phii_30:bus1 deg 30cycle Sym. Current, Angle m:Ssym_30:bus1 MVA 30cycle Sym. Power m:phiui_30:bus1 deg 30cycle Angle between Voltage and Current m:cosphiui_30:bus1 30cycle cosphi m:XtoR_30:bus1 30cycle Branch X/R Ratio m:maxIsym_30:bus1 kA Max. Sym. 30cycle Current m:I:bus1 kA Short-Circuit Current m:phii:bus1 deg Short-Circuit Current, Angle m:phiui:bus1 deg Angle between Voltage and Current m:S:bus1 MVA Short-Circuit Power m:R:bus1 Ohm Fault Impedance, Real Part m:X:bus1 Ohm Fault Impedance, Imaginary Part m:Z:bus1 Ohm Fault Impedance, Magnitude m:phiz:bus1 deg Fault Impedance, Angle m:zSbase:bus1 p.u. Fault Impedance, Magnitude m:XtoR:bus1 X/R ratio m:Zs:bus1 Ohm Source Impedance, Magnitude m:phizs:bus1 deg Source Impedance, Angle m:Rs:bus1 Ohm Source Impedance, Real Part m:Xs:bus1 Ohm Source Impedance, Imaginary Part m:P:bus1 MW Active Power m:Q:bus1 Mvar Reactive Power m:i1P:bus1 p.u. Positive-Sequence Active Current m:i1Q:bus1 p.u. Positive-Sequence Reactive Current m:I1P:bus1 kA Positive-Sequence Active Current m:I1Q:bus1 kA Positive-Sequence Reactive Current m:Tfct:bus1 s Fault Clearing Time m:BrkIpload:bus1 % Breaker Loading (peak) m:BrkIbload:bus1 % Breaker Loading (Interrupting) m:BrkmaxIb:bus1 kA Max. Breaking Current (breaker time) Bus Results: n:Isym_m:bus1 kA Sym. Momentary Current n:phii_m:bus1 deg Sym. Momentary Current, Angle n:Ssym_m:bus1 MVA Sym. Momentary Power n:I16asym_m:bus1 kA Asym. Momentary Current, Duty n:I27peak_m:bus1 kA Asym. Momentary Peak Current, Duty n:Iasym_m:bus1 kA Asym. Momentary Current, calculated n:Ipeak_m:bus1 kA Asym. Momentary Peak Current, calculated n:XtoR_m:bus1 Momentary X/R Ratio n:Mfact_m:bus1 Momentary Mult. Factor

n:R_m:bus1 Ohm Momentary Short-Circuit Impedance, Real Part n:X_m:bus1 Ohm Momentary Short-Circuit Impedance, Imaginary Part n:Z_m:bus1 Ohm Momentary Short-Circuit Impedance, Magnitude n:phiz_m:bus1 deg Momentary Short-Circuit Impedance, Angle n:phiui_m:bus1 deg Momentary Angle between Voltage and Current n:upref_m:bus1 p.u. Momentary Pre-fault Voltage n:Upref_m:bus1 kV Momentary Pre-fault Voltage n:Ilvcb:bus1 kA LV Power Fuse Breaker n:Ilvfuse:bus1 kA LV Fuse n:Ilvmccbg20:bus1 kA Molded Case Circuit Breaker > 20 kA n:Ilvmccb1020:bus1 kA Molded Case Circuit Breaker 10-20 kA n:Ilvmccb010:bus1 kA Molded Case Circuit Breaker 0-10 kA n:Isym_i:bus1 kA Sym. Interrupting Current n:phii_i:bus1 deg Sym. Interrupting Current, Angle n:Ssym_i:bus1 MVA Sym. Interrupting Power n:XtoR_i:bus1 Interrupting X/R Ratio n:NACD:bus1 No AC Current Decay n:Iremote:bus1 kA Remote Current Contribution n:phiIrem:bus1 deg Remote Current Contribution, Angle n:R_i:bus1 Ohm Interrupting Short-Circuit Impedance, Real Part n:X_i:bus1 Ohm Interrupting Short-Circuit Impedance, Imaginary Part n:Z_i:bus1 Ohm Interrupting Short-Circuit Impedance, Magnitude n:phiz_i:bus1 deg Interrupting Short-Circuit Impedance, Angle n:phiui_i:bus1 deg Interrupting Angle between Voltage and Current n:upref_i:bus1 p.u. Interrupting Pre-fault Voltage n:Upref_i:bus1 kV Interrupting Pre-fault Voltage n:Isym2c:bus1 kA 2 cycle Sym. Interrupting Current n:Isym3c:bus1 kA 3 cycle Sym. Interrupting Current n:Isym5c:bus1 kA 5 cycle Sym. Interrupting Current n:Isym8c:bus1 kA 8 cycle Sym. Interrupting Current n:Mfsym2c:bus1 2 cycle Int. Mult. Factor n:Mfsym3c:bus1 3 cycle Int. Mult. Factor n:Mfsym5c:bus1 5 cycle Int. Mult. Factor n:Mfsym8c:bus1 8 cycle Int. Mult. Factor n:Itot2c:bus1 kA 2 cycle Total Interrupting Current n:Itot3c:bus1 kA 3 cycle Total Interrupting Current n:Itot5c:bus1 kA 5 cycle Total Interrupting Current n:Itot8c:bus1 kA 8 cycle Total Interrupting Current n:Mftot2c:bus1 2 cycle Total Mult. Factor n:Mftot3c:bus1 3 cycle Total Mult. Factor n:Mftot5c:bus1 5 cycle Total Mult. Factor n:Mftot8c:bus1 8 cycle Total Mult. Factor n:Isym_30:bus1 kA 30cycle Sym. Current n:phii_30:bus1 deg 30cycle Sym. Current, Angle n:Ssym_30:bus1 MVA 30cycle Sym. Power n:R_30:bus1 Ohm 30cycle Short-Circuit Impedance, Real Part n:X_30:bus1 Ohm 30cycle Short-Circuit Impedance, Imaginary Part n:Z_30:bus1 Ohm 30cycle Short-Circuit Impedance, Magnitude n:phiz_30:bus1 deg 30cycle Short-Circuit Impedance, Angle n:phiui_30:bus1 deg 30cycle Angle between Voltage and Current n:upref_30:bus1 p.u. 30cycle Pre-fault Voltage n:Upref_30:bus1 kV 30cycle Pre-fault Voltage n:I:bus1 kA Short-Circuit Current n:phii:bus1 deg Short-Circuit Current, Angle n:phiui:bus1 deg Angle between Voltage and Current n:S:bus1 MVA Short-Circuit Power n:ur:bus1 p.u. Voltage, Real Part n:ui:bus1 p.u. Voltage, Imaginary Part n:u:bus1 p.u. Voltage, Magnitude n:upc:bus1 % Voltage, Magnitude n:u1:bus1 p.u. Voltage, Magnitude n:u1pc:bus1 % Voltage, Magnitude n:u1r:bus1 p.u. Positive-Sequence Voltage, Real-Part n:u1i:bus1 p.u. Positive-Sequence Voltage, Imaginary-Part n:U:bus1 kV Line-Ground Voltage, Magnitude n:Ul:bus1 kV Line-Line Voltage, Magnitude n:phiu:bus1 deg Voltage, Angle n:phiurel:bus1 deg Voltage, Relative Angle n:du:bus1 % Voltage Deviation n:Ipload:bus1 % Loading, Peak Short-Circuit Current Signals: Calculation Parameter: c:z1:r p.u. Subtransient Impedance, Real Part

c:z1:i p.u. Subtransient Impedance, Imaginary Part c:z1:phi deg Subtransient Impedance, Angle c:z1:mag p.u. Subtransient Impedance, Magnitude c:z1:phirad rad Subtransient Impedance, Angle c:rgf p.u. Fictitious Resistance c:uss:r p.u. Subtransient Voltage, Real Part c:uss:i p.u. Subtransient Voltage, Imaginary Part c:uss:phi deg Subtransient Voltage, Angle c:uss:mag p.u. Subtransient Voltage, Magnitude c:uss:phirad rad Subtransient Voltage, Angle c:cosn Nominal-Power factor c:xdsss p.u. Saturated Subtransient Reactance c:xdsat p.u. Saturated Synchronous Reactance c:satur Machine Type IEC909 c:tr2tf PSU Transformer Ratio c:isremote Remote Contribution c:Icontrib kA Contribution Current c:currcont:r p.u. Contribution Current, Real Part c:currcont:i p.u. Contribution Current, Imaginary Part c:currcont:phi deg Contribution Current, Angle c:currcont:mag p.u. Contribution Current, Magnitude c:currcont:phirad rad Contribution Current, Angle Element Parameter: Type Parameter: t:xdsss p.u. Subtransient Reactance: saturated value xd''sat t:rstr p.u. Stator Resistance: rstr t:xtor Stator Resistance: Ratio X/R t:iturbo Rotor Type t:iamort with amortisseur windings t:x0sy p.u. Zero Sequence Data: Reactance x0 t:r0sy p.u. Zero Sequence Data: Resistance r0 t:x2sy p.u. Neg. Sequence Data: Reactance x2 t:r2sy p.u. Neg. Sequence Data: Resistance r2 Reference Parameter: ANSI Short-Circuit unbalanced: ----------------------------- Currents, Voltages and Powers: m:Isym_m:bus1 kA Sym. Momentary Current m:phii_m:bus1 deg Sym. Momentary Current, Angle m:phiui_m:bus1 deg Angle between Voltage and Current m:Ssym_m:bus1 MVA Sym. Momentary Power m:I0_m:bus1 kA Momentary Zero-Sequence Current, Magnitude m:I0x3_m:bus1 kA Momentary 3*I0 m:phii0_m:bus1 deg Momentary Zero-Sequence Current, Angle m:i1_m:bus1 p.u. Momentary Positive-Sequence Current, Magnitude m:I1_m:bus1 kA Momentary Positive-Sequence Current, Magnitude m:phii1_m:bus1 deg Momentary Positive-Sequence Current, Angle m:I2_m:bus1 kA Momentary Negative-Sequence Current, Magnitude m:phii2_m:bus1 deg Momentary Negative-Sequence Current, Angle m:phiu0i0_m:bus1 deg Momentary Angle between Voltage and Current in 0-seq. system m:phiu1i1_m:bus1 deg Momentary Angle between Voltage and Current in +seq. system m:phiu2i2_m:bus1 deg Momentary Angle between Voltage and Current in -seq. system m:cosphiu1i1_m:bus1 Momentary Positive-Sequence cosphi m:maxIsym_m:bus1 kA Max. sym. Momentary Current m:maxI16asym_m:bus1 kA Asym. Momentary Current, Duty m:maxI27peak_m:bus1 kA Asym. Momentary Peak Current, Duty m:maxIasym_m:bus1 kA Asym. Momentary Current, calculated m:maxIpeak_m:bus1 kA Asym. Momentary Peak Current, calculated m:maxIlvcb:bus1 kA LV Power Fuse Breaker m:maxIlvfuse:bus1 kA LV Fuse m:maxIlvmccbg20:bus1 kA Molded Case Circuit Breaker > 20 kA m:maxIlvmccb1020:bus1 kA Molded Case Circuit Breaker 10-20 kA m:maxIlvmccb010:bus1 kA Molded Case Circuit Breaker 0-10 kA m:Isym_i:bus1 kA Sym. Interrupting Current m:phii_i:bus1 deg Sym. Interrupting Current, Angle m:phiui_i:bus1 deg Interrupting Angle between Voltage and Current m:Ssym_i:bus1 MVA Sym. Interrupting Power

m:I0_i:bus1 kA Interrupting Zero-Sequence Current, Magnitude m:I0x3_i:bus1 kA Interrupting 3*I0 m:phii0_i:bus1 deg Interrupting Zero-Sequence Current, Angle m:i1_i:bus1 p.u. Interrupting Positive-Sequence Current, Magnitude m:I1_i:bus1 kA Interrupting Positive-Sequence Current, Magnitude m:phii1_i:bus1 deg Interrupting Positive-Sequence Current, Angle m:I2_i:bus1 kA Interrupting Negative-Sequence Current, Magnitude m:phii2_i:bus1 deg Interrupting Negative-Sequence Current, Angle m:phiu0i0_i:bus1 deg Interrupting Angle between U0 and I0 in 0-seq. system m:phiu1i1_i:bus1 deg Interrupting Angle between U1 and I1 in +seq. system m:phiu2i2_i:bus1 deg Interrupting Angle between U2 and I2 in -seq. system m:cosphiu1i1_i:bus1 Interrupting Positive-Sequence cosphi m:maxIsym_i:bus1 kA Max. Sym. Interrupting Current m:maxIsym2c:bus1 kA 2 cycle Sym. Interrupting Current m:maxIsym3c:bus1 kA 3 cycle Sym. Interrupting Current m:maxIsym5c:bus1 kA 5 cycle Sym. Interrupting Current m:maxIsym8c:bus1 kA 8 cycle Sym. Interrupting Current m:maxItot2c:bus1 kA 2 cycle Total Interrupting Current m:maxItot3c:bus1 kA 3 cycle Total Interrupting Current m:maxItot5c:bus1 kA 5 cycle Total Interrupting Current m:maxItot8c:bus1 kA 8 cycle Total Interrupting Current m:Isym_30:bus1 kA 30cycle Sym. Current m:phii_30:bus1 deg 30cycle Sym. Current, Angle m:phiui_30:bus1 deg 30cycle Angle between Voltage and Current m:Ssym_30:bus1 MVA 30cycle Sym. Power m:I0_30:bus1 kA 30cycle Zero-Sequence Current, Magnitude m:I0x3_30:bus1 kA 30cycle 3*I0 m:phii0_30:bus1 deg 30cycle Zero-Sequence Current, Angle m:i1_30:bus1 p.u. 30cycle Positive-Sequence Current, Magnitude m:I1_30:bus1 kA 30cycle Positive-Sequence Current, Magnitude m:phii1_30:bus1 deg 30cycle Positive-Sequence Current, Angle m:I2_30:bus1 kA 30cycle Negative-Sequence Current, Magnitude m:phii2_30:bus1 deg 30cycle Negative-Sequence Current, Angle m:phiu0i0_30:bus1 deg 30cycle Angle between Voltage and Current in 0-seq. system m:phiu1i1_30:bus1 deg 30cycle Angle between Voltage and Current in +seq. system m:phiu2i2_30:bus1 deg 30cycle Angle between Voltage and Current in -seq. system m:cosphiu1i1_30:bus1 30cycle Positive-Sequence cosphi m:maxIsym_30:bus1 kA Max. Sym. 30cycle Current m:I:bus1:A kA Short-Circuit Current m:I:bus1:B kA Short-Circuit Current m:I:bus1:C kA Short-Circuit Current m:phii:bus1:A deg Short-Circuit Current, Angle m:phii:bus1:B deg Short-Circuit Current, Angle m:phii:bus1:C deg Short-Circuit Current, Angle m:phiui:bus1:A deg Angle between Voltage and Current m:phiui:bus1:B deg Angle between Voltage and Current m:phiui:bus1:C deg Angle between Voltage and Current m:S:bus1:A MVA Short-Circuit Power m:S:bus1:B MVA Short-Circuit Power m:S:bus1:C MVA Short-Circuit Power m:I0:bus1 kA Zero-Sequence Current, Magnitude m:I0x3:bus1 kA 3*I0 m:phii0:bus1 deg Zero-Sequence Current, Angle m:I1:bus1 kA Positive-Sequence Current, Magnitude m:phii1:bus1 deg Positive-Sequence Current, Angle m:I2:bus1 kA Negative-Sequence Current, Magnitude m:phii2:bus1 deg Negative-Sequence Current, Angle m:phiu0i0:bus1 deg Angle between Voltage and Current in 0-seq. system m:phiu1i1:bus1 deg Angle between Voltage and Current in +seq. system m:phiu2i2:bus1 deg Angle between Voltage and Current in -seq. system m:Zfrel:bus1 Ohm Relay Impedance, Magnitude m:phizfrel:bus1 deg Relay Impedance, Angle m:Rfrel:bus1 Ohm Relay Impedance, Real Part m:Xfrel:bus1 Ohm Relay Impedance, Imaginary Part m:Zs:bus1 Ohm Source Impedance, Magnitude m:phizs:bus1 deg Source Impedance, Angle m:Rs:bus1 Ohm Source Impedance, Real Part m:Xs:bus1 Ohm Source Impedance, Imaginary Part m:Z:bus1:A Ohm Fault Impedance, Magnitude m:Z:bus1:B Ohm Fault Impedance, Magnitude m:Z:bus1:C Ohm Fault Impedance, Magnitude m:phiz:bus1:A deg Fault Impedance, Angle m:phiz:bus1:B deg Fault Impedance, Angle m:phiz:bus1:C deg Fault Impedance, Angle m:Zl:bus1:A Ohm Line to Line Fault Impedance, Magnitude m:Zl:bus1:B Ohm Line to Line Fault Impedance, Magnitude m:Zl:bus1:C Ohm Line to Line Fault Impedance, Magnitude m:phizl:bus1:A deg Line to Line Fault Impedance, Angle

m:phizl:bus1:B deg Line to Line Fault Impedance, Angle m:phizl:bus1:C deg Line to Line Fault Impedance, Angle m:Il:bus1:A kA Line-Line Current m:Il:bus1:B kA Line-Line Current m:Il:bus1:C kA Line-Line Current m:phiil:bus1:A deg Line-Line Current, Angle m:phiil:bus1:B deg Line-Line Current, Angle m:phiil:bus1:C deg Line-Line Current, Angle m:I0x3watt:bus1 kA Earth-Fault Residual Current m:I0x3var:bus1 kA Capacitive Earth-Fault Current m:P:bus1:A MW Active Power m:P:bus1:B MW Active Power m:P:bus1:C MW Active Power m:Q:bus1:A Mvar Reactive Power m:Q:bus1:B Mvar Reactive Power m:Q:bus1:C Mvar Reactive Power m:Psum:bus1 MW Total Active Power m:Qsum:bus1 Mvar Total Reactive Power m:P0:bus1 MW P0 m:Q0cap:bus1 Mvar Q0 capacitive m:P2:bus1 MW P2 m:Q2:bus1 Mvar Q2 m:i1P:bus1 p.u. Positive-Sequence Active Current m:i1Q:bus1 p.u. Positive-Sequence Reactive Current m:I1P:bus1 kA Positive-Sequence Active Current m:I1Q:bus1 kA Positive-Sequence Reactive Current m:Tfct:bus1 s Fault Clearing Time m:TfctPh:bus1:A s Fault Clearing Time m:TfctPh:bus1:B s Fault Clearing Time m:TfctPh:bus1:C s Fault Clearing Time Bus Results: n:Isym_m:bus1 kA Sym. Momentary Current n:phii_m:bus1 deg Sym. Momentary Current, Angle n:phiui_m:bus1 deg Momentary Angle between Voltage and Current n:Ssym_m:bus1 MVA Sym. Momentary Power n:I16asym_m:bus1 kA Asym. Momentary Current, Duty n:I27peak_m:bus1 kA Asym. Momentary Peak Current, Duty n:Iasym_m:bus1 kA Asym. Momentary Current, calculated n:Ipeak_m:bus1 kA Asym. Momentary Peak Current, calculated n:XtoR_m:bus1 Momentary X/R Ratio n:Mfact_m:bus1 Momentary Mult. Factor n:R0_m:bus1 Ohm Momentary Zero-Sequence Impedance, Real Part n:X0_m:bus1 Ohm Momentary Zero-Sequence Impedance, Imaginary Part n:Z0_m:bus1 Ohm Momentary Zero-Sequence Impedance, Magnitude n:phiz0_m:bus1 deg Momentary Zero-Sequence Impedance, Angle n:R1_m:bus1 Ohm Momentary Positive-Sequence Impedance, Real Part n:X1_m:bus1 Ohm Momentary Positive-Sequence Impedance, Imaginary Part n:Z1_m:bus1 Ohm Momentary Positive-Sequence Impedance, Magnitude n:phiz1_m:bus1 deg Momentary Positive-Sequence Impedance, Angle n:R2_m:bus1 Ohm Momentary Negative-Sequence Impedance, Real Part n:X2_m:bus1 Ohm Momentary Negative-Sequence Impedance, Imaginary Part n:Z2_m:bus1 Ohm Momentary Negative-Sequence Impedance, Magnitude n:phiz2_m:bus1 deg Momentary Negative-Sequence Impedance, Angle n:i0_m:bus1 p.u. Momentary Zero-Sequence Current, Magnitude n:I0_m:bus1 kA Momentary Zero-Sequence Current, Magnitude n:I0x3_m:bus1 kA Momentary 3*I0 n:phii0_m:bus1 deg Momentary Zero-Sequence Current, Angle n:i1_m:bus1 p.u. Momentary Positive-Sequence Current, Magnitude n:I1_m:bus1 kA Momentary Positive-Sequence Current, Magnitude n:phii1_m:bus1 deg Momentary Positive-Sequence Current, Angle n:i2_m:bus1 p.u. Momentary Negative-Sequence Current, Magnitude n:I2_m:bus1 kA Momentary Negative-Sequence Current, Magnitude n:phii2_m:bus1 deg Momentary Negative-Sequence Current, Angle n:in_m:bus1 p.u. Momentary Neutral Current, Magnitude n:In_m:bus1 kA Momentary Neutral Current, Magnitude n:phiin_m:bus1 deg Momentary Neutral Current, Angle n:phiu1i1_m:bus1 deg Momentary Angle between Voltage and Current in +seq. system n:phiu2i2_m:bus1 deg Momentary Angle between Voltage and Current in -seq. system n:phiu0i0_m:bus1 deg Momentary Angle between Voltage and Current in 0-seq. system n:Ilvcb:bus1 kA LV Power Fuse Breaker n:Ilvfuse:bus1 kA LV Fuse n:Ilvmccbg20:bus1 kA Molded Case Circuit Breaker > 20 kA n:Ilvmccb1020:bus1 kA Molded Case Circuit Breaker 10-20 kA n:Ilvmccb010:bus1 kA Molded Case Circuit Breaker 0-10 kA n:Isym_i:bus1 kA Sym. Interrupting Current n:phii_i:bus1 deg Sym. Interrupting Current, Angle

n:phiui_i:bus1 deg Interrupting Angle between Voltage and Current n:Ssym_i:bus1 MVA Sym. Interrupting Power n:XtoR_i:bus1 Interrupting X/R Ratio n:NACD:bus1 No AC Current Decay n:Iremote:bus1 kA Remote Current Contribution n:phiIrem:bus1 deg Remote Current Contribution, Angle n:R0_i:bus1 Ohm Interrupting Zero-Sequence Impedance, Real Part n:X0_i:bus1 Ohm Interrupting Zero-Sequence Impedance, Imaginary Part n:Z0_i:bus1 Ohm Interrupting Zero-Sequence Impedance, Magnitude n:phiz0_i:bus1 deg Interrupting Zero-Sequence Impedance, Angle n:R1_i:bus1 Ohm Interrupting Positive-Sequence Impedance, Real Part n:X1_i:bus1 Ohm Interrupting Positive-Sequence Impedance, Imaginary Part n:Z1_i:bus1 Ohm Interrupting Positive-Sequence Impedance, Magnitude n:phiz1_i:bus1 deg Interrupting Positive-Sequence Impedance, Angle n:R2_i:bus1 Ohm Interrupting Negative-Sequence Impedance, Real Part n:X2_i:bus1 Ohm Interrupting Negative-Sequence Impedance, Imaginary Part n:Z2_i:bus1 Ohm Interrupting Negative-Sequence Impedance, Magnitude n:phiz2_i:bus1 deg Interrupting Negative-Sequence Impedance, Angle n:Isym2c:bus1 kA 2 cycle Sym. Interrupting Current n:Isym3c:bus1 kA 3 cycle Sym. Interrupting Current n:Isym5c:bus1 kA 5 cycle Sym. Interrupting Current n:Isym8c:bus1 kA 8 cycle Sym. Interrupting Current n:Mfsym2c:bus1 2 cycle Int. Mult. Factor n:Mfsym3c:bus1 3 cycle Int. Mult. Factor n:Mfsym5c:bus1 5 cycle Int. Mult. Factor n:Mfsym8c:bus1 8 cycle Int. Mult. Factor n:Itot2c:bus1 kA 2 cycle Total Interrupting Current n:Itot3c:bus1 kA 3 cycle Total Interrupting Current n:Itot5c:bus1 kA 5 cycle Total Interrupting Current n:Itot8c:bus1 kA 8 cycle Total Interrupting Current n:Mftot2c:bus1 2 cycle Total Mult. Factor n:Mftot3c:bus1 3 cycle Total Mult. Factor n:Mftot5c:bus1 5 cycle Total Mult. Factor n:Mftot8c:bus1 8 cycle Total Mult. Factor n:i0_i:bus1 p.u. Interrupting Zero-Sequence Current, Magnitude n:I0_i:bus1 kA Interrupting Zero-Sequence Current, Magnitude n:I0x3_i:bus1 kA Interrupting 3*I0 n:phii0_i:bus1 deg Interrupting Zero-Sequence Current, Angle n:i1_i:bus1 p.u. Interrupting Positive-Sequence Current, Magnitude n:I1_i:bus1 kA Interrupting Positive-Sequence Current, Magnitude n:phii1_i:bus1 deg Interrupting Positive-Sequence Current, Angle n:i2_i:bus1 p.u. Interrupting Negative-Sequence Current, Magnitude n:I2_i:bus1 kA Interrupting Negative-Sequence Current, Magnitude n:phii2_i:bus1 deg Interrupting Negative-Sequence Current, Angle n:in_i:bus1 p.u. Interrupting Neutral Current, Magnitude n:In_i:bus1 kA Interrupting Neutral Current, Magnitude n:phiin_i:bus1 deg Interrupting Neutral Current, Angle n:phiu1i1_i:bus1 deg Interrupting Angle between Voltage and Current, +sequence n:phiu2i2_i:bus1 deg Interrupting Angle between Voltage and Current in -sequence n:phiu0i0_i:bus1 deg Interrupting Angle between Voltage and Current in 0-sequence n:Isym_30:bus1 kA 30cycle Sym. Current n:phii_30:bus1 deg 30cycle Sym. Current, Angle n:phiui_30:bus1 deg 30cycle Angle between Voltage and Current n:Ssym_30:bus1 MVA 30cycle Sym. Power n:R0_30:bus1 Ohm 30cycle Zero-Sequence Impedance, Real Part n:X0_30:bus1 Ohm 30cycle Zero-Sequence Impedance, Imaginary Part n:Z0_30:bus1 Ohm 30cycle Zero-Sequence Impedance, Magnitude n:phiz0_30:bus1 deg 30cycle Zero-Sequence Impedance, Angle n:R1_30:bus1 Ohm 30cycle Positive-Sequence Impedance, Real Part n:X1_30:bus1 Ohm 30cycle Positive-Sequence Impedance, Imaginary Part n:Z1_30:bus1 Ohm 30cycle Positive-Sequence Impedance, Magnitude n:phiz1_30:bus1 deg 30cycle Positive-Sequence Impedance, Angle n:R2_30:bus1 Ohm 30cycle Negative-Sequence Impedance, Real Part n:X2_30:bus1 Ohm 30cycle Negative-Sequence Impedance, Imaginary Part n:Z2_30:bus1 Ohm 30cycle Negative-Sequence Impedance, Magnitude n:phiz2_30:bus1 deg 30cycle Negative-Sequence Impedance, Angle n:i0_30:bus1 p.u. 30cycle Zero-Sequence Current, Magnitude n:I0_30:bus1 kA 30cycle Zero-Sequence Current, Magnitude n:I0x3_30:bus1 kA 30cycle 3*I0 n:phii0_30:bus1 deg 30cycle Zero-Sequence Current, Angle n:i1_30:bus1 p.u. 30cycle Positive-Sequence Current, Magnitude n:I1_30:bus1 kA 30cycle Positive-Sequence Current, Magnitude n:phii1_30:bus1 deg 30cycle Positive-Sequence Current, Angle n:i2_30:bus1 p.u. 30cycle Negative-Sequence Current, Magnitude n:I2_30:bus1 kA 30cycle Negative-Sequence Current, Magnitude n:phii2_30:bus1 deg 30cycle Negative-Sequence Current, Angle n:in_30:bus1 p.u. 30cycle Neutral Current, Magnitude n:In_30:bus1 kA 30cycle Neutral Current, Magnitude

n:phiin_30:bus1 deg 30cycle Neutral Current, Angle n:phiu1i1_30:bus1 deg 30cycle Angle between Voltage and Current in +sequence n:phiu2i2_30:bus1 deg 30cycle Angle between Voltage and Current in -sequence n:phiu0i0_30:bus1 deg 30cycle Angle between Voltage and Current in 0-sequence n:I:bus1:A kA Short-Circuit Current n:I:bus1:B kA Short-Circuit Current n:I:bus1:C kA Short-Circuit Current n:phii:bus1:A deg Short-Circuit Current, Angle n:phii:bus1:B deg Short-Circuit Current, Angle n:phii:bus1:C deg Short-Circuit Current, Angle n:phiui:bus1:A deg Angle between Voltage and Current n:phiui:bus1:B deg Angle between Voltage and Current n:phiui:bus1:C deg Angle between Voltage and Current n:S:bus1:A MVA Short-Circuit Power n:S:bus1:B MVA Short-Circuit Power n:S:bus1:C MVA Short-Circuit Power n:I0:bus1 kA Zero-Sequence Current, Magnitude n:I0x3:bus1 kA 3*I0 n:phii0:bus1 deg Zero-Sequence Current, Angle n:I1:bus1 kA Positive-Sequence Current, Magnitude n:phii1:bus1 deg Positive-Sequence Current, Angle n:I2:bus1 kA Negative-Sequence Current, Magnitude n:phii2:bus1 deg Negative-Sequence Current, Angle n:In:bus1 kA Neutral Current, Magnitude n:phiin:bus1 deg Neutral Current, Angle n:phiu1i1:bus1 deg Angle between Voltage and Current in +seq. system n:phiu2i2:bus1 deg Angle between Voltage and Current in -seq. system n:phiu0i0:bus1 deg Angle between Voltage and Current in 0-seq. system n:ur:bus1:A p.u. Line-Ground Voltage, Real Part n:ur:bus1:B p.u. Line-Ground Voltage, Real Part n:ur:bus1:C p.u. Line-Ground Voltage, Real Part n:ui:bus1:A p.u. Line-Ground Voltage, Imaginary Part n:ui:bus1:B p.u. Line-Ground Voltage, Imaginary Part n:ui:bus1:C p.u. Line-Ground Voltage, Imaginary Part n:u:bus1:A p.u. Line-Ground Voltage, Magnitude n:u:bus1:B p.u. Line-Ground Voltage, Magnitude n:u:bus1:C p.u. Line-Ground Voltage, Magnitude n:upc:bus1:A % Line-Ground Voltage, Magnitude n:upc:bus1:B % Line-Ground Voltage, Magnitude n:upc:bus1:C % Line-Ground Voltage, Magnitude n:U:bus1:A kV Line-Ground Voltage, Magnitude n:U:bus1:B kV Line-Ground Voltage, Magnitude n:U:bus1:C kV Line-Ground Voltage, Magnitude n:phiu:bus1:A deg Line-Ground Voltage, Angle n:phiu:bus1:B deg Line-Ground Voltage, Angle n:phiu:bus1:C deg Line-Ground Voltage, Angle n:phiurel:bus1:A deg Voltage, Relative Angle n:phiurel:bus1:B deg Voltage, Relative Angle n:phiurel:bus1:C deg Voltage, Relative Angle n:ul:bus1:A p.u. Line to Line Voltage, Magnitude n:ul:bus1:B p.u. Line to Line Voltage, Magnitude n:ul:bus1:C p.u. Line to Line Voltage, Magnitude n:ulpc:bus1:A % Line to Line Voltage, Magnitude n:ulpc:bus1:B % Line to Line Voltage, Magnitude n:ulpc:bus1:C % Line to Line Voltage, Magnitude n:Ul:bus1:A kV Line to Line Voltage, Magnitude n:Ul:bus1:B kV Line to Line Voltage, Magnitude n:Ul:bus1:C kV Line to Line Voltage, Magnitude n:phiul:bus1:A deg Line to Line Voltage, Angle n:phiul:bus1:B deg Line to Line Voltage, Angle n:phiul:bus1:C deg Line to Line Voltage, Angle n:u0:bus1 p.u. Zero-Sequence Voltage, Magnitude n:U0:bus1 kV Zero-Sequence Voltage, Magnitude n:U0x3:bus1 kV 3*U0 n:phiu0:bus1 deg Zero-Sequence Voltage, Angle n:u1:bus1 p.u. Line-Ground Positive-Sequence Voltage, Magnitude n:u1pc:bus1 % Line-Ground Positive-Sequence Voltage, Magnitude n:u1r:bus1 p.u. Positive-Sequence Voltage, Real Part n:u1i:bus1 p.u. Positive-Sequence Voltage, Imaginary Part n:U1:bus1 kV Line-Ground Positive-Sequence Voltage, Magnitude n:phiu1:bus1 deg Line-Ground Positive-Sequence Voltage, Angle n:u2:bus1 p.u. Line-Ground Negative-Sequence Voltage, Magnitude n:U2:bus1 kV Line-Ground Negative-Sequence Voltage, Magnitude n:phiu2:bus1 deg Negative-Sequence Voltage, Angle n:U1l:bus1 kV Line to Line Positive-Sequence Voltage, Magnitude n:U2l:bus1 kV Line to Line Negative-Sequence Voltage, Magnitude n:uln:bus1:A p.u. Line-Neutral Voltage, Magnitude n:uln:bus1:B p.u. Line-Neutral Voltage, Magnitude

n:uln:bus1:C p.u. Line-Neutral Voltage, Magnitude n:Uln:bus1:A kV Line-Neutral Voltage, Magnitude n:Uln:bus1:B kV Line-Neutral Voltage, Magnitude n:Uln:bus1:C kV Line-Neutral Voltage, Magnitude n:phiuln:bus1:A deg Line-Neutral Voltage, Angle n:phiuln:bus1:B deg Line-Neutral Voltage, Angle n:phiuln:bus1:C deg Line-Neutral Voltage, Angle n:un:bus1 p.u. Neutral-Ground Voltage, Magnitude n:Un:bus1 kV Neutral-Ground Voltage, Magnitude n:phiun:bus1 deg Neutral-Ground Voltage, Angle n:upht:bus1:A p.u. Phase Technology dependent Voltage, Magnitude n:upht:bus1:B p.u. Phase Technology dependent Voltage, Magnitude n:upht:bus1:C p.u. Phase Technology dependent Voltage, Magnitude n:Upht:bus1:A kV Phase Technology dependent Voltage, Magnitude n:Upht:bus1:B kV Phase Technology dependent Voltage, Magnitude n:Upht:bus1:C kV Phase Technology dependent Voltage, Magnitude n:Ipload:bus1 % Loading, Peak Short-Circuit Current Signals: Calculation Parameter: c:z1:r p.u. Subtransient Impedance, Real Part c:z1:i p.u. Subtransient Impedance, Imaginary Part c:z1:phi deg Subtransient Impedance, Angle c:z1:mag p.u. Subtransient Impedance, Magnitude c:z1:phirad rad Subtransient Impedance, Angle c:z0:r p.u. Subtransient Impedance, Real Part c:z0:i p.u. Subtransient Impedance, Imaginary Part c:z0:phi deg Subtransient Impedance, Angle c:z0:mag p.u. Subtransient Impedance, Magnitude c:z0:phirad rad Subtransient Impedance, Angle c:ze:r p.u. Grounding Impedance, Real Part c:ze:i p.u. Grounding Impedance, Imaginary Part c:ze:phi deg Grounding Impedance, Angle c:ze:mag p.u. Grounding Impedance, Magnitude c:ze:phirad rad Grounding Impedance, Angle c:z2:r p.u. Subtransient Impedance, Real Part c:z2:i p.u. Subtransient Impedance, Imaginary Part c:z2:phi deg Subtransient Impedance, Angle c:z2:mag p.u. Subtransient Impedance, Magnitude c:z2:phirad rad Subtransient Impedance, Angle c:rgf p.u. Fictitious Resistance c:uss:r p.u. Subtransient Voltage, Real Part c:uss:i p.u. Subtransient Voltage, Imaginary Part c:uss:phi deg Subtransient Voltage, Angle c:uss:mag p.u. Subtransient Voltage, Magnitude c:uss:phirad rad Subtransient Voltage, Angle c:Icontrib:A kA Contribution Current c:Icontrib:B kA Contribution Current c:Icontrib:C kA Contribution Current c:Icontrib:N kA Contribution Current c:isremote Remote Contribution c:cosn Nominal-Power factor c:xdsss p.u. Saturated Subtransient Reactance c:tr2tf PSU Transformer Ratio c:pG %. Range of Voltage Regulation (+/-) Element Parameter: Type Parameter: t:xdsss p.u. Subtransient Reactance: saturated value xd''sat t:rstr p.u. Stator Resistance: rstr t:xtor Stator Resistance: Ratio X/R t:iturbo Rotor Type t:iamort with amortisseur windings t:x0sy p.u. Zero Sequence Data: Reactance x0 t:r0sy p.u. Zero Sequence Data: Resistance r0 t:x2sy p.u. Neg. Sequence Data: Reactance x2 t:r2sy p.u. Neg. Sequence Data: Resistance r2 Reference Parameter:

State Estimator balanced: ------------------------ Currents, Voltages and Powers: Bus Results: Signals: Calculation Parameter: Element Parameter: e:iestp State Estimation: Estimate Active Power e:iestq State Estimation: Estimate Reactive Power Type Parameter: Reference Parameter: State Estimator unbalanced: -------------------------- Currents, Voltages and Powers: Bus Results: Signals: Calculation Parameter: Element Parameter: e:iestp State Estimation: Estimate Active Power e:iestq State Estimation: Estimate Reactive Power Type Parameter: Reference Parameter: IEC 61363 balanced: ------------------ Currents, Voltages and Powers: m:Skss:bus1 MVA Initial Short-Circuit Power m:Ikss:bus1 kA Initial Short-Circuit Current m:ib_dc:bus1 kA Decaying Component (breaker time) m:ip:bus1 kA Peak Short-Circuit Current m:Ib:bus1 kA Short-Circuit Breaking Current m:Ikdss:bus1 kA Subtransient Short-Circuit Current m:Ikds:bus1 kA Transient Short-Circuit Current

m:Ikd:bus1 kA Steady-State Short-Circuit Current m:I0:bus1 kA Pre-fault Operational Current m:Tdss:bus1 s Subtransient Time Constant m:Tds:bus1 s Transient Time Constant m:Tdc:bus1 s D.C. Time Constant m:phi0:bus1 rad Pre-fault Phase Angle Bus Results: n:Skss:bus1 MVA Initial Short-Circuit Power n:Ikss:bus1 kA Initial Short-Circuit Current n:ib_dc:bus1 kA Decaying Component (breaker time) n:ip:bus1 kA Peak Short-Circuit Current n:Ib:bus1 kA Short-Circuit Breaking Current n:Ikdss:bus1 kA Subtransient Short-Circuit Current n:Ikds:bus1 kA Transient Short-Circuit Current n:Ikd:bus1 kA Steady-State Short-Circuit Current n:I0:bus1 kA Pre-fault Operational Current n:Tdss:bus1 s Subtransient Time Constant n:Tds:bus1 s Transient Time Constant n:Tdc:bus1 s D.C. Time Constant n:phi0:bus1 rad Pre-fault Phase Angle Signals: Calculation Parameter: c:z1:r p.u. Subtransient Impedance, Real Part c:z1:i p.u. Subtransient Impedance, Imaginary Part c:z1:phi deg Subtransient Impedance, Angle c:z1:mag p.u. Subtransient Impedance, Magnitude c:z1:phirad rad Subtransient Impedance, Angle c:rgf p.u. Fictitious Resistance c:uss:r p.u. Subtransient Voltage, Real Part c:uss:i p.u. Subtransient Voltage, Imaginary Part c:uss:phi deg Subtransient Voltage, Angle c:uss:mag p.u. Subtransient Voltage, Magnitude c:uss:phirad rad Subtransient Voltage, Angle c:cosn Nominal-Power factor c:xdsss p.u. Saturated Subtransient Reactance c:xdsat p.u. Saturated Synchronous Reactance c:satur Machine Type IEC909 c:tr2tf PSU Transformer Ratio c:isremote Remote Contribution c:Icontrib kA Contribution Current c:currcont:r p.u. Contribution Current, Real Part c:currcont:i p.u. Contribution Current, Imaginary Part c:currcont:phi deg Contribution Current, Angle c:currcont:mag p.u. Contribution Current, Magnitude c:currcont:phirad rad Contribution Current, Angle Element Parameter: Type Parameter: t:tdss s Subtransient Time Constants: Td'' t:tds s Transient Time Constants: Td' t:Tdc s Time Constants: Tdc t:cTdc s Time Constants: Tdc t:iTdcManual Time Constants: Enter Tdc manually t:rstr p.u. Stator Resistance: rstr t:xdss p.u. Subtransient Reactances: xd'' t:xds p.u. Transient Reactances: xd' t:Ikd p.u. Steady-State Shc. Current: Ikd t:frequ Hz Nominal Frequency Reference Parameter: IEC 61363 unbalanced: -------------------- Currents, Voltages and Powers:

Bus Results: Signals: Calculation Parameter: c:z1:r p.u. Subtransient Impedance, Real Part c:z1:i p.u. Subtransient Impedance, Imaginary Part c:z1:phi deg Subtransient Impedance, Angle c:z1:mag p.u. Subtransient Impedance, Magnitude c:z1:phirad rad Subtransient Impedance, Angle c:z0:r p.u. Subtransient Impedance, Real Part c:z0:i p.u. Subtransient Impedance, Imaginary Part c:z0:phi deg Subtransient Impedance, Angle c:z0:mag p.u. Subtransient Impedance, Magnitude c:z0:phirad rad Subtransient Impedance, Angle c:ze:r p.u. Grounding Impedance, Real Part c:ze:i p.u. Grounding Impedance, Imaginary Part c:ze:phi deg Grounding Impedance, Angle c:ze:mag p.u. Grounding Impedance, Magnitude c:ze:phirad rad Grounding Impedance, Angle c:z2:r p.u. Subtransient Impedance, Real Part c:z2:i p.u. Subtransient Impedance, Imaginary Part c:z2:phi deg Subtransient Impedance, Angle c:z2:mag p.u. Subtransient Impedance, Magnitude c:z2:phirad rad Subtransient Impedance, Angle c:rgf p.u. Fictitious Resistance c:uss:r p.u. Subtransient Voltage, Real Part c:uss:i p.u. Subtransient Voltage, Imaginary Part c:uss:phi deg Subtransient Voltage, Angle c:uss:mag p.u. Subtransient Voltage, Magnitude c:uss:phirad rad Subtransient Voltage, Angle c:Icontrib:A kA Contribution Current c:Icontrib:B kA Contribution Current c:Icontrib:C kA Contribution Current c:Icontrib:N kA Contribution Current c:isremote Remote Contribution c:cosn Nominal-Power factor c:xdsss p.u. Saturated Subtransient Reactance c:tr2tf PSU Transformer Ratio c:pG %. Range of Voltage Regulation (+/-) Element Parameter: Type Parameter: t:tdss s Subtransient Time Constants: Td'' t:tds s Transient Time Constants: Td' t:Tdc s Time Constants: Tdc t:cTdc s Time Constants: Tdc t:iTdcManual Time Constants: Enter Tdc manually t:rstr p.u. Stator Resistance: rstr t:xdss p.u. Subtransient Reactances: xd'' t:xds p.u. Transient Reactances: xd' t:Ikd p.u. Steady-State Shc. Current: Ikd t:frequ Hz Nominal Frequency Reference Parameter: Generation Adequacy balanced: ---------------------------- Currents, Voltages and Powers: Bus Results:

Signals: Calculation Parameter: Element Parameter: e:pgini MW Dispatch: Active Power e:pGRStoch StoGen Stochastic Model for Generation: Stochastic Model e:Pngrel MW Stochastic Model for Generation: Based on Nominal Power (Pn) e:stowind Wind Model e:iopt_windm Wind Model: Wind Model e:mean m/s Wind Model Weibull Distribution for Wind Speed: Mean e:lambda m/s Wind Model Weibull Distribution for Wind Speed: Lambda e:variance m/s Wind Model Weibull Distribution for Wind Speed: Variance e:beta Wind Model Weibull Distribution for Wind Speed: Beta e:pPowerCrv TypPowercurve Wind Model: Wind Power Curve e:pMeteostat ElmMeteostat Wind Model: Meteo Station (Correlation) e:cnwsamples Wind Model Time Series Characteristics: Annual Samples: Number of Samples e:pCharYrMW ChaVec,ChaVecfile Wind Model Time Series Characteristics: Annual Samples: Time Series Characteristics of Active Power Contribution (MW) e:pCharYrWS ChaVec,ChaVecfile Wind Model Time Series Characteristics: Annual Samples: Time Series Characteristics for Wind Speed (m/s) e:iOPFCPmin Optimal Power Flow Active Power Limits: Min. e:Pmin_uc MW Operational Limits: Min. Type Parameter: Reference Parameter: r:pGRStoch StoGen Stochastic Model r:pPowerCrv TypPowercurve Wind Power Curve r:pMeteostat ElmMeteostat Meteo Station (Correlation) r:pCharYrMW ChaVec,ChaVecfile Time Series Characteristics of Active Power Contribution (MW) r:pCharYrWS ChaVec,ChaVecfile Time Series Characteristics for Wind Speed (m/s) Generation Adequacy unbalanced: ------------------------------ Currents, Voltages and Powers: Bus Results: Signals: Calculation Parameter: Element Parameter: e:pgini MW Dispatch: Active Power e:pGRStoch StoGen Stochastic Model for Generation: Stochastic Model e:Pngrel MW Stochastic Model for Generation: Based on Nominal Power (Pn) e:stowind Wind Model e:iopt_windm Wind Model: Wind Model e:mean m/s Wind Model Weibull Distribution for Wind Speed: Mean e:lambda m/s Wind Model Weibull Distribution for Wind Speed: Lambda e:variance m/s Wind Model Weibull Distribution for Wind Speed: Variance e:beta Wind Model Weibull Distribution for Wind Speed: Beta e:pPowerCrv TypPowercurve Wind Model: Wind Power Curve e:pMeteostat ElmMeteostat Wind Model: Meteo Station (Correlation) e:cnwsamples Wind Model Time Series Characteristics: Annual Samples: Number of Samples e:pCharYrMW ChaVec,ChaVecfile Wind Model Time Series Characteristics: Annual Samples: Time Series Characteristics of Active Power Contribution (MW) e:pCharYrWS ChaVec,ChaVecfile Wind Model Time Series Characteristics: Annual Samples: Time Series Characteristics for Wind Speed (m/s) e:iOPFCPmin Optimal Power Flow Active Power Limits: Min.

e:Pmin_uc MW Operational Limits: Min. Type Parameter: Reference Parameter: r:pGRStoch StoGen Stochastic Model r:pPowerCrv TypPowercurve Wind Power Curve r:pMeteostat ElmMeteostat Meteo Station (Correlation) r:pCharYrMW ChaVec,ChaVecfile Time Series Characteristics of Active Power Contribution (MW) r:pCharYrWS ChaVec,ChaVecfile Time Series Characteristics for Wind Speed (m/s) Tie Open Point Opt. balanced: ---------------------------- Currents, Voltages and Powers: Bus Results: Signals: Calculation Parameter: Element Parameter: Type Parameter: Reference Parameter: Tie Open Point Opt. unbalanced: ------------------------------ Currents, Voltages and Powers: Bus Results: Signals: Calculation Parameter: Element Parameter: Type Parameter: Reference Parameter: