ExcPIC

Class Description

Proportional/integral regulator excitation system. This model can be used to represent excitation systems with a proportional-integral (PI) voltage regulator controller.

Attributes

Name	Type	Description
ta2	Seconds	Voltage regulator time constant (T_a2) (>= 0). Typical value = 0,01.
ta3	Seconds	Lead time constant (T_a3) (>= 0). Typical value = 0.
ta4	Seconds	Lag time constant (T_a4) (>= 0). Typical value = 0.
te	Seconds	Exciter time constant (T_e) (>= 0). Typical value = 0.
tf1	Seconds	Rate feedback time constant (T_f1) (>= 0). Typical value = 0.
tf2	Seconds	Rate feedback lag time constant (T_f2) (>= 0). Typical value = 0.
vr1	PU	PI maximum limit (V_r1). Typical value = 1.
vr2	PU	PI minimum limit (V_r2). Typical value = -0,87.
vrmax	PU	Voltage regulator maximum limit (V_rmax) (> ExcPIC.vrmin). Typical value = 1.
vrmin	PU	Voltage regulator minimum limit (V_rmin) (< ExcPIC.vrmax). Typical value = -0,87.
e1	PU	Field voltage value 1 (E₁). Typical value = 0.
e2	PU	Field voltage value 2 (E₂). Typical value = 0.
efdmax	PU	Exciter maximum limit (E_fdmax) (> ExcPIC.efdmin). Typical value = 8.
efdmin	PU	Exciter minimum limit (E_fdmin) (< ExcPIC.efdmax). Typical value = -0,87.
ka	PU	PI controller gain (K_a). Typical value = 3,15.
kc	PU	Exciter regulation factor (K_c). Typical value = 0,08.
ke	PU	Exciter constant (K_e). Typical value = 0.
kf	PU	Rate feedback gain (K_f). Typical value = 0.
ki	PU	Current source gain (K_i). Typical value = 0.
kp	PU	Potential source gain (K_p). Typical value = 6,5.
se1	PU	Saturation factor at E₁ (Se₁). Typical value = 0.
se2	PU	Saturation factor at E₂ (Se₂). Typical value = 0.
ta1	Seconds	PI controller time constant (T_a1) (>= 0). Typical value = 1.

Relationships

Inherits from

ExcitationSystemDynamics

Descendant classes

No descendant classes

Leaf/Root class

IsLeaf	IsRoot
False	False

Associations

None