OpenIPSL.Electrical.Controls.PSSE.ES.BaseClasses

Base classes used in excitation systems from PSSE

Information

Extends from Modelica.Icons.BasesPackage (Icon for packages containing base classes).

Package Content

Name	Description
SelectLogic	Selection of voltage signal depending on the Excitation limiters
BaseExciter	Base exciter model for PSSE excitation systems
RotatingExciter	Base model for a rotating exciter system
RotatingExciterLimited	Base model for a rotating exciter system with limited output
RotatingExciterWithDemagnetization	Base model for a rotating exciter system with demagnetization effect
RotatingExciterWithDemagnetizationLimited	Base model for a rotating exciter system with demagnetization effect and limited output
RotatingExciterWithDemagnetizationVarLim	Base model for a rotating exciter system with demagnetization effect and variable limits in output
RectifierCommutationVoltageDrop	Base model for excitation system with commutation voltage drop on rectifier
calculate_dc_exciter_params	Automatic Calculation of DC Exciter Parameters
RotatingExciterBase	Base model for a rotating exciter
invFEX	Inverse F_EX function for initialization

OpenIPSL.Electrical.Controls.PSSE.ES.BaseClasses.SelectLogic

Selection of voltage signal depending on the Excitation limiters

Connectors

Name	Description
V1
V2
V3
VOEL
VUEL
VERR
Vout

OpenIPSL.Electrical.Controls.PSSE.ES.BaseClasses.BaseExciter

Base exciter model for PSSE excitation systems

Connectors

Name	Description
VUEL
VOEL
EFD	Excitation Voltage [pu]
EFD0
VOTHSG
ECOMP
XADIFD

OpenIPSL.Electrical.Controls.PSSE.ES.BaseClasses.RotatingExciter

Base model for a rotating exciter system

Information

Extends from OpenIPSL.Electrical.Controls.PSSE.ES.BaseClasses.RotatingExciterBase (Base model for a rotating exciter).

Parameters

Name	Description
T_E	Exciter time constant [s]
K_E	Exciter field gain
E_1	Exciter saturation point 1 [1]
E_2	Exciter saturation point 2 [1]
S_EE_1	Saturation at E_1 [1]
S_EE_2	Saturation at E_2 [1]
Efd0	[1]
Sum

Connectors

Name	Description
I_C
EFD

OpenIPSL.Electrical.Controls.PSSE.ES.BaseClasses.RotatingExciterLimited

Base model for a rotating exciter system with limited output

Information

Extends from RotatingExciterBase (Base model for a rotating exciter).

Parameters

Name	Description
T_E	Exciter time constant [s]
K_E	Exciter field gain
E_1	Exciter saturation point 1 [1]
E_2	Exciter saturation point 2 [1]
S_EE_1	Saturation at E_1 [1]
S_EE_2	Saturation at E_2 [1]
Efd0	[1]
Sum

Connectors

Name	Description
I_C
EFD

OpenIPSL.Electrical.Controls.PSSE.ES.BaseClasses.RotatingExciterWithDemagnetization

Base model for a rotating exciter system with demagnetization effect

Information

Extends from OpenIPSL.Electrical.Controls.PSSE.ES.BaseClasses.RotatingExciterBase (Base model for a rotating exciter).

Parameters

Name	Description
T_E	Exciter time constant [s]
K_E	Exciter field gain
E_1	Exciter saturation point 1 [1]
E_2	Exciter saturation point 2 [1]
S_EE_1	Saturation at E_1 [1]
S_EE_2	Saturation at E_2 [1]
Efd0	[1]
K_D	Exciter demagnetizing factor [1]

Connectors

Name	Description
I_C
EFD
XADIFD
V_FE

OpenIPSL.Electrical.Controls.PSSE.ES.BaseClasses.RotatingExciterWithDemagnetizationLimited

Base model for a rotating exciter system with demagnetization effect and limited output

Information

Extends from RotatingExciterWithDemagnetization (Base model for a rotating exciter system with demagnetization effect).

Parameters

Name	Description
T_E	Exciter time constant [s]
K_E	Exciter field gain
E_1	Exciter saturation point 1 [1]
E_2	Exciter saturation point 2 [1]
S_EE_1	Saturation at E_1 [1]
S_EE_2	Saturation at E_2 [1]
Efd0	[1]
K_D	Exciter demagnetizing factor [1]

Connectors

Name	Description
I_C
EFD
XADIFD
V_FE

OpenIPSL.Electrical.Controls.PSSE.ES.BaseClasses.RotatingExciterWithDemagnetizationVarLim

Base model for a rotating exciter system with demagnetization effect and variable limits in output

Information

Extends from RotatingExciterWithDemagnetization (Base model for a rotating exciter system with demagnetization effect).

Parameters

Name	Description
T_E	Exciter time constant [s]
K_E	Exciter field gain
E_1	Exciter saturation point 1 [1]
E_2	Exciter saturation point 2 [1]
S_EE_1	Saturation at E_1 [1]
S_EE_2	Saturation at E_2 [1]
Efd0	[1]
K_D	Exciter demagnetizing factor [1]

Connectors

Name	Description
I_C
EFD
XADIFD
V_FE
outMin
outMax

OpenIPSL.Electrical.Controls.PSSE.ES.BaseClasses.RectifierCommutationVoltageDrop

Base model for excitation system with commutation voltage drop on rectifier

Parameters

Name	Description
K_C	Rectifier load factor [1]

Connectors

Name	Description
V_EX
XADIFD
EFD

OpenIPSL.Electrical.Controls.PSSE.ES.BaseClasses.calculate_dc_exciter_params

Automatic Calculation of DC Exciter Parameters

Inputs

Name	Description
V_RMAX_init
V_RMIN_init
K_E_init
E_2
S_EE_2
Efd0
SE_Efd0

Outputs

Name	Description
V_RMAX
V_RMIN
K_E

OpenIPSL.Electrical.Controls.PSSE.ES.BaseClasses.RotatingExciterBase

Base model for a rotating exciter

Parameters

Name	Description
T_E	Exciter time constant [s]
K_E	Exciter field gain
E_1	Exciter saturation point 1 [1]
E_2	Exciter saturation point 2 [1]
S_EE_1	Saturation at E_1 [1]
S_EE_2	Saturation at E_2 [1]
Efd0	[1]
Sum
sISO

Connectors

Name	Description
I_C
EFD

OpenIPSL.Electrical.Controls.PSSE.ES.BaseClasses.invFEX

Inverse F_EX function for initialization

Inputs

Name	Description
K_C
Efd0
Ifd0

Outputs

Name	Description
VE0

Automatically generated Thu Oct 6 17:41:44 2022.