final case class UnderexcLimIEEE2(UnderexcitationLimiterDynamics: UnderexcitationLimiterDynamics = null, k1: Double = 0.0, k2: Double = 0.0, kfb: Double = 0.0, kuf: Double = 0.0, kui: Double = 0.0, kul: Double = 0.0, p0: Double = 0.0, p1: Double = 0.0, p10: Double = 0.0, p2: Double = 0.0, p3: Double = 0.0, p4: Double = 0.0, p5: Double = 0.0, p6: Double = 0.0, p7: Double = 0.0, p8: Double = 0.0, p9: Double = 0.0, q0: Double = 0.0, q1: Double = 0.0, q10: Double = 0.0, q2: Double = 0.0, q3: Double = 0.0, q4: Double = 0.0, q5: Double = 0.0, q6: Double = 0.0, q7: Double = 0.0, q8: Double = 0.0, q9: Double = 0.0, tu1: Double = 0.0, tu2: Double = 0.0, tu3: Double = 0.0, tu4: Double = 0.0, tul: Double = 0.0, tup: Double = 0.0, tuq: Double = 0.0, tuv: Double = 0.0, vuimax: Double = 0.0, vuimin: Double = 0.0, vulmax: Double = 0.0, vulmin: Double = 0.0) extends Element with Product with Serializable
Type UEL2 underexcitation limiter which has either a straight-line or multi-segment characteristic when plotted in terms of machine reactive power output vs. real power output.
Reference: IEEE UEL2 421.5-2005, 10.2 (limit characteristic lookup table shown in Figure 10.4 (p 32)).
- UnderexcitationLimiterDynamics
UnderexcitationLimiterDynamics Reference to the superclass object.
- k1
UEL terminal voltage exponent applied to real power input to UEL limit look-up table (k1). Typical value = 2.
- k2
UEL terminal voltage exponent applied to reactive power output from UEL limit look-up table (k2). Typical value = 2.
- kfb
Gain associated with optional integrator feedback input signal to UEL (KFB). Typical value = 0.
- kuf
UEL excitation system stabilizer gain (KUF). Typical value = 0.
- kui
UEL integral gain (KUI). Typical value = 0,5.
- kul
UEL proportional gain (KUL). Typical value = 0,8.
- p0
Real power values for endpoints (P0). Typical value = 0.
- p1
Real power values for endpoints (P1). Typical value = 0,3.
- p10
Real power values for endpoints (P10).
- p2
Real power values for endpoints (P2). Typical value = 0,6.
- p3
Real power values for endpoints (P3). Typical value = 0,9.
- p4
Real power values for endpoints (P4). Typical value = 1,02.
- p5
Real power values for endpoints (P5).
- p6
Real power values for endpoints (P6).
- p7
Real power values for endpoints (P7).
- p8
Real power values for endpoints (P8).
- p9
Real power values for endpoints (P9).
- q0
Reactive power values for endpoints (Q0). Typical value = -0,31.
- q1
Reactive power values for endpoints (Q1). Typical value = -0,31.
- q10
Reactive power values for endpoints (Q10).
- q2
Reactive power values for endpoints (Q2). Typical value = -0,28.
- q3
Reactive power values for endpoints (Q3). Typical value = -0,21.
- q4
Reactive power values for endpoints (Q4). Typical value = 0.
- q5
Reactive power values for endpoints (Q5).
- q6
Reactive power values for endpoints (Q6).
- q7
Reactive power values for endpoints (Q7).
- q8
Reactive power values for endpoints (Q8).
- q9
Reactive power values for endpoints (Q9).
- tu1
UEL lead time constant (TU1) (>= 0). Typical value = 0.
- tu2
UEL lag time constant (TU2) (>= 0). Typical value = 0.
- tu3
UEL lead time constant (TU3) (>= 0). Typical value = 0.
- tu4
UEL lag time constant (TU4) (>= 0). Typical value = 0.
- tul
Time constant associated with optional integrator feedback input signal to UEL (TUL) (>= 0). Typical value = 0.
- tup
Real power filter time constant (TUP) (>= 0). Typical value = 5.
- tuq
Reactive power filter time constant (TUQ) (>= 0). Typical value = 0.
- tuv
Voltage filter time constant (TUV) (>= 0). Typical value = 5.
- vuimax
UEL integrator output maximum limit (VUIMAX) (> UnderexcLimIEEE2.vuimin). Typical value = 0,25.
- vuimin
UEL integrator output minimum limit (VUIMIN) (< UnderexcLimIEEE2.vuimax). Typical value = 0.
- vulmax
UEL output maximum limit (VULMAX) (> UnderexcLimIEEE2.vulmin). Typical value = 0,25.
- vulmin
UEL output minimum limit (VULMIN) (< UnderexcLimIEEE2.vulmax). Typical value = 0.
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UnderexcLimIEEE2(UnderexcitationLimiterDynamics: UnderexcitationLimiterDynamics = null, k1: Double = 0.0, k2: Double = 0.0, kfb: Double = 0.0, kuf: Double = 0.0, kui: Double = 0.0, kul: Double = 0.0, p0: Double = 0.0, p1: Double = 0.0, p10: Double = 0.0, p2: Double = 0.0, p3: Double = 0.0, p4: Double = 0.0, p5: Double = 0.0, p6: Double = 0.0, p7: Double = 0.0, p8: Double = 0.0, p9: Double = 0.0, q0: Double = 0.0, q1: Double = 0.0, q10: Double = 0.0, q2: Double = 0.0, q3: Double = 0.0, q4: Double = 0.0, q5: Double = 0.0, q6: Double = 0.0, q7: Double = 0.0, q8: Double = 0.0, q9: Double = 0.0, tu1: Double = 0.0, tu2: Double = 0.0, tu3: Double = 0.0, tu4: Double = 0.0, tul: Double = 0.0, tup: Double = 0.0, tuq: Double = 0.0, tuv: Double = 0.0, vuimax: Double = 0.0, vuimin: Double = 0.0, vulmax: Double = 0.0, vulmin: Double = 0.0)
- UnderexcitationLimiterDynamics
UnderexcitationLimiterDynamics Reference to the superclass object.
- k1
UEL terminal voltage exponent applied to real power input to UEL limit look-up table (k1). Typical value = 2.
- k2
UEL terminal voltage exponent applied to reactive power output from UEL limit look-up table (k2). Typical value = 2.
- kfb
Gain associated with optional integrator feedback input signal to UEL (KFB). Typical value = 0.
- kuf
UEL excitation system stabilizer gain (KUF). Typical value = 0.
- kui
UEL integral gain (KUI). Typical value = 0,5.
- kul
UEL proportional gain (KUL). Typical value = 0,8.
- p0
Real power values for endpoints (P0). Typical value = 0.
- p1
Real power values for endpoints (P1). Typical value = 0,3.
- p10
Real power values for endpoints (P10).
- p2
Real power values for endpoints (P2). Typical value = 0,6.
- p3
Real power values for endpoints (P3). Typical value = 0,9.
- p4
Real power values for endpoints (P4). Typical value = 1,02.
- p5
Real power values for endpoints (P5).
- p6
Real power values for endpoints (P6).
- p7
Real power values for endpoints (P7).
- p8
Real power values for endpoints (P8).
- p9
Real power values for endpoints (P9).
- q0
Reactive power values for endpoints (Q0). Typical value = -0,31.
- q1
Reactive power values for endpoints (Q1). Typical value = -0,31.
- q10
Reactive power values for endpoints (Q10).
- q2
Reactive power values for endpoints (Q2). Typical value = -0,28.
- q3
Reactive power values for endpoints (Q3). Typical value = -0,21.
- q4
Reactive power values for endpoints (Q4). Typical value = 0.
- q5
Reactive power values for endpoints (Q5).
- q6
Reactive power values for endpoints (Q6).
- q7
Reactive power values for endpoints (Q7).
- q8
Reactive power values for endpoints (Q8).
- q9
Reactive power values for endpoints (Q9).
- tu1
UEL lead time constant (TU1) (>= 0). Typical value = 0.
- tu2
UEL lag time constant (TU2) (>= 0). Typical value = 0.
- tu3
UEL lead time constant (TU3) (>= 0). Typical value = 0.
- tu4
UEL lag time constant (TU4) (>= 0). Typical value = 0.
- tul
Time constant associated with optional integrator feedback input signal to UEL (TUL) (>= 0). Typical value = 0.
- tup
Real power filter time constant (TUP) (>= 0). Typical value = 5.
- tuq
Reactive power filter time constant (TUQ) (>= 0). Typical value = 0.
- tuv
Voltage filter time constant (TUV) (>= 0). Typical value = 5.
- vuimax
UEL integrator output maximum limit (VUIMAX) (> UnderexcLimIEEE2.vuimin). Typical value = 0,25.
- vuimin
UEL integrator output minimum limit (VUIMIN) (< UnderexcLimIEEE2.vuimax). Typical value = 0.
- vulmax
UEL output maximum limit (VULMAX) (> UnderexcLimIEEE2.vulmin). Typical value = 0,25.
- vulmin
UEL output minimum limit (VULMIN) (< UnderexcLimIEEE2.vulmax). Typical value = 0.
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- val p0: Double
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- val vuimax: Double
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