Method of and device for controlling pulse width modulation inverter
First Claim
1. A method of controlling pulse width modulation (PWM) of a PWM-controlled inverter for generating AC output voltages for driving an electrical apparatus, the method comprising:
- generating a reference voltage vector for setting AC output voltages; and
changing times at which the AC output voltages are generated, during a period of time determined by a carrier signal, at intervals based on the carrier signal, without changing pulse widths of the AC output voltages produced in response to PWM control, so that a vector representing averages of instantaneous amplitudes of the AC output voltages for a period of time agrees with the reference voltage vector, and so that high-frequency components of each of the AC output voltages are spread over ranges of frequencies not including natural resonant frequencies of an electrical apparatus driven by the inverter.
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Abstract
A method of controlling a pulse width modulation or PWM inverter apparatus that generates and controls AC output voltages with PWM control, comprises the steps of: generating a reference voltage vector for setting the AC output voltages; and changing timing of the generation of the AC output voltages during a predetermined period of time determined by a carrier signal at predetermined intervals determined by the carrier signal without changing the pulse widths of the AC output voltages determined by the PWM control so that a vector representing the averages of instantaneous amplitudes of the AC output voltages for a predetermined period of time agrees with the reference voltage vector, and so that the spectra of high-frequency components of each of the AC output voltages are spread out over a predetermined wide range of frequencies.
44 Citations
6 Claims
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1. A method of controlling pulse width modulation (PWM) of a PWM-controlled inverter for generating AC output voltages for driving an electrical apparatus, the method comprising:
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generating a reference voltage vector for setting AC output voltages; and changing times at which the AC output voltages are generated, during a period of time determined by a carrier signal, at intervals based on the carrier signal, without changing pulse widths of the AC output voltages produced in response to PWM control, so that a vector representing averages of instantaneous amplitudes of the AC output voltages for a period of time agrees with the reference voltage vector, and so that high-frequency components of each of the AC output voltages are spread over ranges of frequencies not including natural resonant frequencies of an electrical apparatus driven by the inverter. - View Dependent Claims (2)
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3. A device for controlling pulse width modulation (PWM) of a PWM-controlled inverter including a three-phase inverter circuit, the inverter circuit including three sets of first and second switching elements connected in series between positive and negative electrodes of a DC power supply and three output terminals, each of the three output terminals being connected to a respective point between said first and second switching elements of each of said three sets, for generating three AC output voltages from said DC power supply, said device comprising:
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means for generating a carrier signal; means for generating a reference voltage vector for setting three AC output voltages furnished by said three-phase inverter circuit; means for determining a range of phase angles, the phase angle of the reference voltage vector lying at intervals determined by the carrier signal, and for selecting two voltage vectors corresponding to the range of phase angles from among a plurality of voltage vectors; means for computing time durations of the two voltage vectors and for computing a sum of time durations of two zero-voltage vectors, so that a vector representing averages of instantaneous amplitudes of the three AC output voltages for a period of time agrees with the reference voltage vector; means for computing a ratio of the time duration of one of the two zero-voltage vectors to the sum using a function of time such that the ratio varies with time and so that high-frequency components of each of the three AC output voltages are spread over ranges of frequencies not including natural resonant frequencies of an electrical apparatus driven by said three-phase inverter circuit, and for computing the time durations of the zero-voltage vectors using the ratio, and for generating three reference phase voltage signals according to the time durations of the two voltage vectors selected and the two zero-voltage vectors; and means for generating switching signals for driving said three sets of first and second switching elements of said three-phase inverter circuit according to the three reference phase voltage signals. - View Dependent Claims (4)
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5. A device for controlling pulse width modulation (PWM) of a PWM-controlled inverter for generating AC output voltages, said device comprising:
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means for generating a carrier signal; means for generating sine-wave voltage signals without a DC component; means for generating a DC voltage signal and for respectively adding the DC voltage signal to the sine-wave voltage signals to produce sums and to furnish the sums as reference phase voltage signals for setting the AC output voltages furnished by said PWM inverter; and means, responsive to the carrier signal, for generating switching signals for driving switching elements corresponding to the AC output voltages, respectively, according to the reference phase voltage signals. - View Dependent Claims (6)
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Specification