Apparatus and method for regulating a power line using frequency domain self-synchronization control
First Claim
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1. A circuit for firing solid state devices, comprising:
- a power line output node for connection to a power line carrying a power signal;
a parameter measurement circuit to continuously sample said power signal and obtain a measured power signal;
a power compensation element;
a plurality of solid state devices connected between said power compensation element and said power line output node; and
a self-synchronizing controller connected to said parameter measurement circuit and said plurality of solid state devices to analyze said measured power signal in the frequency domain to identify a frequency domain firing angle and to convert said frequency domain firing angle to a time-domain firing signal command that is applied to said solid state devices to provide selected power conditioning to said power signal.
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Abstract
A frequency domain self-synchronization controller for solid state switches is disclosed. The controller analyzes a measured power signal in the frequency domain to identify a frequency domain firing angle and then converts the frequency domain firing angle to a time-domain firing signal command. The time-domain firing signal command is used to fire selected solid state switches of, for example, a static VAR compensator, precisely when the voltage across the selected solid state switches is at or near zero volts, so that the solid state switches are not damaged. The controller also calculates the line voltage level of the power system and in response to the voltage level it automatically executes either a high voltage coarse line conditioning strategy, a high voltage fine line conditioning strategy, a low voltage coarse line conditioning strategy, or a low voltage fine line conditioning strategy. Each of the line conditioning strategies is used to rapidly accomplish voltage control of the power signal on a cycle-by-cycle basis.
64 Citations
16 Claims
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1. A circuit for firing solid state devices, comprising:
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a power line output node for connection to a power line carrying a power signal; a parameter measurement circuit to continuously sample said power signal and obtain a measured power signal; a power compensation element; a plurality of solid state devices connected between said power compensation element and said power line output node; and a self-synchronizing controller connected to said parameter measurement circuit and said plurality of solid state devices to analyze said measured power signal in the frequency domain to identify a frequency domain firing angle and to convert said frequency domain firing angle to a time-domain firing signal command that is applied to said solid state devices to provide selected power conditioning to said power signal. - View Dependent Claims (2, 3, 4)
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5. A static VAR compensator, comprising:
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a power line output node for connection to a power line carrying a power signal; a parameter measurement circuit to continuously sample said power signal and obtain a measured power signal; a plurality of compensating capacitors, with associated increment VAR values; a compensating inductor; a plurality of thyristor strings each of said thyristor strings connecting a selected compensating capacitor of said plurality of compensating capacitors to said power line output node to provide capacitive reactive power conditioning to said power signal, one of said plurality of thyristor strings connecting said compensating inductor to said power line output node to provide inductive reactive power conditioning to said power signal; a plurality of gate drive circuits corresponding to said plurality of thyristor strings to fire said plurality of thyristor strings; and an SVC controller that assesses the voltage level of said measured power signal and in response thereto selectively executes either a high voltage coarse line conditioning strategy, a high voltage fine line conditioning strategy, a low voltage coarse line conditioning strategy, or a low voltage fine line conditioning strategy, each of said line condition strategies including a corresponding set of gate drive signals that are applied to selected gate drive circuits of said plurality of gate drive circuits to accomplish selective reactive power conditioning of said power signal. - View Dependent Claims (6, 7, 8, 9, 10, 11, 12)
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13. A static VAR compensator, comprising:
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a power line output node for connection to a power line carrying a power signal; a parameter measurement circuit to continuously sample said power signal and obtain a measured power signal; a plurality of compensating capacitors, with associated increment VAR values; a compensating inductor; a plurality of thyristor strings each of said thyristor strings connecting a selected compensating capacitor of said plurality of compensating capacitors to said power line output node to provide capacitive reactive power conditioning to said power signal, one of said plurality of thyristor strings connecting said compensating inductor to said power line output node to provide inductive reactive power conditioning to said power signal; a plurality of gate drive circuits corresponding to said plurality of thyristor strings to fire said plurality of thyristor strings; and a self-synchronizing SVC controller connected to said parameter measurement circuit and said plurality of gate drive circuits to analyze said measured power signal in the frequency domain to identify a frequency domain firing angle and to convert said frequency domain firing angle to a time-domain firing signal command to be applied to selected gate drive circuits of said plurality of gate drive circuits to selectively execute either a high voltage coarse line conditioning strategy, a high voltage fine line conditioning strategy, a low voltage coarse line conditioning strategy, or a low voltage fine line conditioning strategy, to accomplish selective reactive power conditioning for said power signal. - View Dependent Claims (14, 15, 16)
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Specification
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Current AssigneeElectric Power Research Institute Incorporated
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Original AssigneeElectric Power Research Institute Incorporated
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InventorsNorman, Martin I., Kemerer, Ray S.
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Primary Examiner(s)Wong, Peter S.
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Assistant Examiner(s)BERHANE, ADOLF D
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Application NumberUS08/268,762Time in Patent Office1,056 DaysField of Search323/205, 323/207, 323/208, 323/209, 323/210, 323/211, 323/212, 323/218, 307/102, 307/105, 364/137, 361/58, 361/107, 363/39, 363/97US Class Current323/205CPC Class CodesH02J 3/1864 wherein the stepless contro...Y02E 40/10 Flexible AC transmission sy...
