ST2A Excitation System
Implements IEEE type ST2A excitation system model
Library
Simscape / Electrical / Specialized Power Systems / Electrical Machines / Synchronous Machine Control
Description
This block models a compound source rectifier excitation system. It utilizes both terminal voltage, Vt, and terminal current, It, to form a model of the exciter power source.
This block is an adaptation of the ST2A excitation system of the IEEE® 421 standard, copyright IEEE 2005, all rights reserved.
Parameters
Controllers Tab
- Low-pass filter time constant
The time constant Tr of the first-order system representing the stator terminal voltage transducer. Default is
20e-3.- Voltage regulator gain and time constant
The gain Ka and time constant Ta of the first-order system representing the main regulator. Default is
[120 0.15].- Voltage regulator output limits
The voltage regulator output limits VRmin and VRmax, in p.u. Default is
[0 1.0].- Damping filter gain and time constant
The gain Kf and time constant Tf of the first-order system representing the derivative feedback. Default is
[0.05 1.0].
Exciter and Rectifier Tab
- Exciter gain and time constant
The gain Ke and time constant Te of the first-order system representing the exciter. Default is
[1.0 0.5].- Current circuit gain coefficient KI
The current circuit gain coefficient. Default is
8.0.- Potential circuit gain coefficient Kp
The potential circuit gain coefficient. Default is
4.88.- Direct axis synchronous machine reactance
Enter the value of the Xd reactance of the controlled Synchronous Machine block. Default is
1.56.- Rectifier loading factor Kc
The rectifier loading factor, proportional to commutating reactance. Default is
1.82.
Initial Values Tab
- Initial values of terminal voltage and field voltage
The initial values of terminal voltage Vt0 and field voltage Efd0, both in p.u. Initial terminal voltage is normally set to 1 pu. The Vt0 and Efd0 values can be determined using the Powergui Load Flow tool. Default is
[1 1].- Initial value of terminal current
The initial value of terminal current It0, in p.u. This value can be determined using the Powergui Load Flow tool. Default is
1.- Sample time
Specify a value greater than zero to discretize the block at the given sample time. Set to -1 to inherit the simulation type and sample time parameters of the Powergui block. Default is
0.
Ports
- Vref
The reference value of the stator terminal voltage, in p.u.
- Vt
The measured value in p.u. of the stator terminal voltage of the controlled Synchronous Machine block.
- It
It The measured value in p.u. of the stator terminal current of the controlled Synchronous Machine block.
- Ifd
The measured value in p.u. of the stator field current of the controlled Synchronous Machine block.
- Vstab
Connect this input to a power system stabilizer to provide additional stabilization of power system oscillations. When you do not use this option, connect to a Simulink® ground block. The input is in p.u.
- Efd
The field voltage to apply to the
Vfinput of the controlled Synchronous Machine block. The output is in p.u.
References
[1] “IEEE Recommended Practice for Excitation System Models for Power System Stability Studies.” IEEE Standard, Vol. 421, No. 5, 2005 (Revision of IEEE 521.5-1992).
Version History
Introduced in R2012b
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