Static reactive power compensator
First Claim
1. A static VAR compensator for supplying reactive power to a polyphase electric power supply having a plurality of phase lines, said static VAR compensator comprising:
- an energy storage device that stores energy at a constant voltage;
current regulation means, coupled to the energy storage device, for regulating the instantaneous current in each of the phase lines of the polyphase electric power supply, wherein said current regulation means includes an inverter;
means for providing a current control waveform to said current regulation means so that the current in each of the phase lines is regulated by the current control waveform;
said current control waveform having a shape to provide a selected constant number of VARs to the polyphase electric power supply, said selected constant number of VARs being substantially independent of the amount of real power provided to the polyphase electric power supply from the static VAR compensator; and
voltage regulation means for regulating the voltage across the energy storage device, wherein the voltage regulation means includes;
means for forming a reference waveform from the voltage waveform of the utility grid;
means for applying the reference waveform to form a real waveform;
means for determining a multiplier as a function of the voltage across the energy storage device;
means for multiplying the multiplier by the real waveform to form a multiplied real waveform; and
means for including the multiplied real waveform in the current control waveform.
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Accused Products
Abstract
An apparatus and method for compensating a polyphase electrical power supply for reactive power loads on an AC supply line is disclosed. The static VAR compensator disclosed herein can provide a selectable, constant amount of VARs to compensate for reactive loads on the line, or alternately provide a fixed phase angle. The static VAR compensator may be controlled to compensate for fluctuating reactive loads. The static VAR compensator includes a transistorized inverter, connected between the AC supply and a constant voltage, that has switches to control the instantaneous current on each phase line of the AC power supply. By modulating the inverter switches at a high frequency, the instantaneous currents flowing through each of the phase lines can be modulated for precise control of the real and the reactive power. A voltage waveform is obtained from each phase of the utility grid, and used as a reference waveform. The control system applies the reference waveform to create two waveforms: a real waveform and an imaginary waveform for each phase. The imaginary waveform is multiplied by a VAR multiplier M1 to supply the desired number of VARs, the real waveform is multiplied by a real multiplier M2 that is derived to control the constant voltage source, and resultant waveforms are added together to provide a current control waveform for each phase that is applied to the inverter through a current regulator and drive circuits.
97 Citations
15 Claims
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1. A static VAR compensator for supplying reactive power to a polyphase electric power supply having a plurality of phase lines, said static VAR compensator comprising:
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an energy storage device that stores energy at a constant voltage; current regulation means, coupled to the energy storage device, for regulating the instantaneous current in each of the phase lines of the polyphase electric power supply, wherein said current regulation means includes an inverter; means for providing a current control waveform to said current regulation means so that the current in each of the phase lines is regulated by the current control waveform; said current control waveform having a shape to provide a selected constant number of VARs to the polyphase electric power supply, said selected constant number of VARs being substantially independent of the amount of real power provided to the polyphase electric power supply from the static VAR compensator; and voltage regulation means for regulating the voltage across the energy storage device, wherein the voltage regulation means includes; means for forming a reference waveform from the voltage waveform of the utility grid; means for applying the reference waveform to form a real waveform; means for determining a multiplier as a function of the voltage across the energy storage device; means for multiplying the multiplier by the real waveform to form a multiplied real waveform; and means for including the multiplied real waveform in the current control waveform. - View Dependent Claims (2)
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3. A static VAR compensator for supplying reactive power to a polyphase electric power supply having a plurality of phase lines, said static VAR compensator comprising:
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current regulation means for regulating the instantaneous current in each of the phase lines of the polyphase electric power supply; and waveform means for providing a current control waveform to said current regulation means so that the current in each of the phase lines is regulated by the current control waveform, said waveform means including means for forming a reference waveform from the voltage waveform of the utility grid; wherein the waveform means further includes; means for rotating the reference waveform by 90°
to form an imaginary waveform; andmeans for multiplying the imaginary waveform by a multiplier selected to provide a selected number of VARs; said current control waveform having a shape to provide a selected constant number of VARs to the polyphase electric power supply, said selected constant number of VARs being substantially independent of the amount of real power provided to the polyphase electric power supply from the static VAR compensator. - View Dependent Claims (4, 5)
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6. A static VAR compensator for supplying a selectable number of VARs of reactive power to a polyphase electric power supply having a plurality of phase lines, said static VAR compensator comprising:
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an inverter including a plurality of switch pairs that regulate the instantaneous current, each switch pair being associated with one of said plurality of phase lines; a voltage means for supplying a constant voltage to each switch pair in the inverter; switch pair control means for controlling the switch pairs to provide a selected constant number of VARs to the polyphase electric power supply, said selected constant number of VARs being substantially independent of the amount of real power provided to the polyphase electric power supply, said switch pair control means including means for sensing the voltage waveforms of each of the phase lines of the polyphase electric power supply, said voltage waveform defining a reference waveform; a control unit for providing a control waveform from the reference waveform, including means for rotating the reference waveform by 90°
to form in imaginary waveform; andmeans for multiplying the imaginary waveform by a first multiplier selected to provide a predetermined number of VARs; and a current regulator and a drive circuit for switching said switch pairs in accordance with the control waveform; - View Dependent Claims (7, 8, 14, 15)
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9. A method for generating a current control waveform from a reference voltage waveform supplied from each phase line of a polyphase electrical power signal, said current control waveform being provided to an inverter connected between a constant voltage link and a polyphase electric power supply, said current control waveform generation method comprising the steps of:
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(a) applying the reference waveform for each phase line to a provide a real waveform for each phase line; (b) applying the reference waveform for each phase line to a provide an imaginary waveform for each phase line rotated by 90°
from the reference waveform;(c) multiplying said imaginary waveforms by a VAR multiplier to provide a multiplied imaginary waveform for each phase, wherein the VAR multiplier has a value that is indicative of the number of VARs to be supplied on the output line; (d) multiplying the reference waveform on each phase line by a real multiplier to provide a multiplied real waveform for each phase; and (e) adding the results of said steps (c) and (d) of each phase so that, for each phase, the multiplied imaginary waveform is added to the multiplied real waveform to provide a current control waveform; and (f) controlling the instantaneous current in each phase line to approximate the current control waveform for the respective phase line. - View Dependent Claims (10, 11, 12, 13)
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Specification