Static Exciter Transfer Functions (Obsolete)

IEEE Static Excitation System #1 (ST1A)

IEEE Static Excitation System #2 (ST2A)

IEEE Static Excitation System #3 (ST3A)

IEEE Static Excitation System with Digital Control #1 (ST4B)

IEEE Static Excitation System with Digital Control #2 (ST5B)

IEEE Static Potential-source Excitation System with Field Current Limiter (ST6B)

IEEE Static Potential-source Excitation System (ST7B)

 

As indicated previously, each of the exciter models have a unique transfer function.  The schematic diagram of each is given below.

IEEE Static Excitation System #1 (ST1A)

 

 

Where,

 

Output of terminal voltage transducer and load compensation elements [pu]

Voltage regulator reference (determined to satisfy initial conditions) [pu]

Alternate inputs.  Combined power system stabilizer and possibly discontinuous control output after any limits or switching, as summed with terminal voltage and reference signals [pu]

Alternate inputs. Under-excitation limiter input [pu]

Upper and lower limits on error signal [pu]

Internal voltage within voltage regulator [pu]

Over excitation limiter input [pu]

Voltage regulator time constant [s]

1st lag time constant [s]

2nd lag time constant [s]

1st lead time constant [s]

 

2nd lag time constant [s]

Maximum and minimum regulator outputs [pu]

Voltage gain [pu]

Voltage regulator output [pu]

Rate feedback time constant [s]

Rate feedback gain [pu]

Exciter output current limiter gain [pu]

Synchronous machine field current [pu]

Exciter output current limit reference [pu]

Maximum and minimum field voltages [pu]

Synchronous machine terminal voltage [pu]

Field current commutating impedance [pu]

Exciter output voltage [pu]

Regulator time constant [s]

 

 IEEE Static Excitation System #2 (ST2A)

 

 

 

Where,

 

Output of terminal voltage transducer and load compensation elements [pu]

Voltage regulator reference (determined to satisfy initial conditions) [pu]

Combined power system stabilizer and possibly discontinuous control output after any limits or switching, as summed with terminal voltage and reference signals [pu]

Alternate inputs. Under-excitation limiter input [pu]

Excitation system stabilizer output [pu]

Regulator time constant [s]

Regulator gain [pu]

Maximum and minimum regulator outputs [pu]

Rate feedback time constant [s]

Rate feedback gain [pu]

Exciter time constant [s]

Maximum exciter output voltage [pu]

Exciter constant related to field [pu]

Available exciter voltage [pu]

Exciter voltage back of commutating reactance [pu]

Synchronous machine field current [pu]

Rectifier loading factor [pu]

Normalized exciter load current [pu]

Synchronous machine terminal voltage [pu]

Synchronous machine terminal current [pu]

Exciter output voltage [pu]

Rectifier loading factor, a function of IN [pu]

Compounding circuit voltage multiplier [pu]

Compounding circuit current multiplier [pu]

Voltage regulator output [pu]

 

IEEE Static Excitation System #3 (ST3A)

 

 

 

Where,

 

Exciter output voltage [pu]

Maximum exciter output voltage [pu]

Rectifier loading factor, a function of IN [pu]

Synchronous machine field current [pu]

Normalized exciter load current [pu]

Synchronous machine terminal current [pu]

Regulator gain [pu]

Rectifier loading factor [pu]

Field inner loop feedback gain [pu]

Compounding circuit current multiplier [pu]

Magnitude of compounding circuit voltage multiplier [pu]

Field inner loop gain constant [pu]

Regulator time constant [s]

Lag time constant [s]

Lead time constant [s]

THETA_p =

Angle of compounding circuit voltage multiplier [deg]

Field inner loop time constant [s]

Available exciter voltage [pu]

Available exciter voltage maximum [pu]

Output of terminal voltage transducer and load compensation elements [pu]

Exciter voltage back of commutating reactance [pu]

Inner loop voltage feedback [pu]

Field inner loop feedback maximum [pu]

Upper and lower limits on error signal [pu]

Output factor of converter bridge corresponding to firing angle command to thyristors [pu]

Field inner loop maximum and minimum outputs [pu]

Voltage regulator output [pu]

Voltage regulator reference (determined to satisfy initial conditions) [pu]

Maximum and minimum regulator outputs [pu]

Combined power system stabilizer and possibly discontinuous control output after any limits or switching, as summed with terminal voltage and reference signals [pu]

Synchronous machine terminal voltage [pu]

Under-excitation limiter output [pu]

Potential source reactance [pu]

 

IEEE Static Excitation System with Digital Control #1 (ST4B)

 

 

 

Where,

 

Exciter output voltage [pu]

Rectifier loading factor, a function of IN [pu]

Synchronous machine field current [pu]

Normalized exciter load current [pu]

Synchronous machine terminal current [pu]

Rectifier loading factor [pu]

Field inner loop feedback gain [pu]

Compounding circuit current multiplier [pu]

Inner loop integral gain [pu]

Regulator integral gain [pu]

Magnitude of compounding circuit voltage multiplier [pu]

Inner loop proportional gain [pu]

Regulator proportional gain [pu]

Regulator time constant [s]

THETA_p =

Angle of compounding circuit voltage multiplier [deg]

Available exciter voltage [pu]

Available exciter voltage maximum [pu]

Output of terminal voltage transducer and load compensation elements [pu]

Exciter voltage back of commutating reactance [pu]

Output factor of converter bridge corresponding to firing angle command to thyristors [pu]

Field inner loop maximum and minimum outputs [pu]

Over-excitation limiter input [pu]

Voltage regulator output [pu]

Voltage regulator reference (determined to satisfy initial conditions) [pu]

Maximum and minimum regulator outputs [pu]

Combined power system stabilizer and possibly discontinuous control output after any limits or switching, as summed with terminal voltage and reference signals [pu]

Synchronous machine terminal voltage [pu]

Under-excitation limiter input [pu]

Potential source reactance [pu]

 

IEEE Static Excitation System with Digital Control #2 (ST5B)

 

 

 

Where,

 

Exciter output voltage [pu]

Synchronous machine field current [pu]

Field current commutating impedance [pu]

Regulator gain [pu]

Regulator time constant [s]

First lag time constant [s]

Second lag time constant [s]

First lead time constant [s]

Second lead time constant [s]

Forward time constant of inner loop field regulator [s]

Overexcitation: 1st lag time constant [s]

Overexcitation: 2nd lag time constant [s]

Overexcitation: 1st lead time constant [s]

Overexcitation: 2nd lead time constant [s]

Underexcitation: 1st lag time constant [s]

Underexcitation: 2nd lag time constant [s]

Underexcitation: 1st lead time constant [s]

Underexcitation: 2nd lead time constant [s]

Maximum and minimum regulator output limits [pu]

Output of terminal voltage transducer and load compensation elements [pu]

Over-excitation limiter input [pu]

Voltage regulator output [pu]

Voltage regulator reference (determined to satisfy initial conditions) [pu]

Maximum and minimum regulator outputs [pu]

Combined power system stabilizer and possibly discontinuous control output after any limits or switching, as summed with terminal voltage and reference signals [pu]

Synchronous machine terminal voltage [pu]

Under-excitation limiter input [pu]

 

IEEE Static Potential-source Excitation System with Field Current Limiter (ST6B)

 

 

Where,

 

Exciter output voltage [pu]

Synchronous machine field current [pu]

Current limit reference [pu]

Current limit adjustment [pu]

Pre-control gain constant [pu]

Field inner loop feedback gain [pu]

Regulator integral gain [pu]

Current limit gain [pu]

Forward gain constant [pu]

Regulator proportional gain [pu]

Field inner loop time constant [s]

Voltage regulator output [pu]

Maximum and minimum regulator output limits [pu]

Available exciter voltage [pu]

Output of terminal voltage transducer and load compensation elements [pu]

Inner loop voltage feedback [pu]

Over-excitation limiter input [pu]

Voltage regulator output [pu]

Voltage regulator reference (determined to satisfy initial conditions) [pu]

Maximum and minimum regulator outputs [pu]

Combined power system stabilizer and possibly discontinuous control output after any limits or switching, as summed with terminal voltage and reference signals [pu]

Under-excitation limiter input [pu]

IEEE Static Potential-Source Excitation System (ST7B)

 

 

 

Where,

 

High band gain [pu]

Feedback gain [pu]

Low band gain [pu]

Regulator proportional gain [pu]

Lag time constant [s]

Lead time constant [s]

Exciter lag time constant [s]

Exciter lead time constant [s]

Feedback time constant [s]

Output of terminal voltage transducer and load compensation elements [pu]

 

Maximum and minimum voltage output [pu]

Over-excitation limiter input [pu]

Voltage regulator output [pu]

Voltage regulator reference (determined to satisfy initial conditions) [pu]

 

Maximum and minimum regulator outputs [pu]

Combined power system stabilizer and possibly discontinuous control output after any limits or switching, as summed with terminal voltage and reference signals [pu]

 

Synchronous machine terminal voltage [pu]

Under-excitation limiter input [pu]

 

 

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