Electric power conversion optimized for efficient harmonic elimination
First Claim
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1. A power conversion apparatus comprising:
- two power conversion units, each power conversion unit producing multi-phase power, respective phases of each power conversion unit being connected in parallel via respective reactors and connected to a power system at a point of connection of the reactors, each of the two power conversion units being connected to a respective digitally-operated pulse width modulation apparatus, each digital pulse width modulation apparatus comprising;
a pulse pattern storage unit storing numeral tables mapping a voltage instruction to pulse duration; and
an operation instruction unit determining a target pulse pattern by referring to said pulse pattern storage unit in accordance with the voltage instruction, and supplying an operation instruction signal corresponding to the target pulse pattern to the power conversion unit, wherein the pulse pattern is calculated such that fifth harmonics, seventh harmonics, eleventh harmonics, and thirteenth harmonics of a voltage at the point of connection of the reactors are substantially zero, and third harmonics present in respective output voltages of-the two power conversion units are substantially identical in magnitude and are phase-displaced by 180°
from each other, and the third harmonics present in the voltage at the point of connection of the reactors is smaller in magnitude than the third harmonic in each of the two power conversion units.
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Abstract
Power conversion units using pulse width modulation for elimination of harmonics of specific orders are connected in parallel with an ac power system so that the power conversion units supply voltages of mutually different waveforms to the ac power system.
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4 Claims
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1. A power conversion apparatus comprising:
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two power conversion units, each power conversion unit producing multi-phase power, respective phases of each power conversion unit being connected in parallel via respective reactors and connected to a power system at a point of connection of the reactors, each of the two power conversion units being connected to a respective digitally-operated pulse width modulation apparatus, each digital pulse width modulation apparatus comprising;
a pulse pattern storage unit storing numeral tables mapping a voltage instruction to pulse duration; and
an operation instruction unit determining a target pulse pattern by referring to said pulse pattern storage unit in accordance with the voltage instruction, and supplying an operation instruction signal corresponding to the target pulse pattern to the power conversion unit, wherein the pulse pattern is calculated such that fifth harmonics, seventh harmonics, eleventh harmonics, and thirteenth harmonics of a voltage at the point of connection of the reactors are substantially zero, and third harmonics present in respective output voltages of-the two power conversion units are substantially identical in magnitude and are phase-displaced by 180°
from each other, andthe third harmonics present in the voltage at the point of connection of the reactors is smaller in magnitude than the third harmonic in each of the two power conversion units. - View Dependent Claims (2)
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3. A power conversation apparatus comprising:
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three power conversion units, each power conversion unit producing multi-phase power, respective phases of each power conversion unit being connected in parallel via respective reactors and connected to a power system at a point of connection of the reactors, each of the three power conversion units being connected to a respective digitally-operated pulse width modulation apparatus, each digital pulse width modulation apparatus comprising;
a pulse pattern storage unit storing numeral tables mapping a voltage instruction to pulse duration; and
an operation instruction unit determining a target pulse pattern by referring to said pulse pattern storage unit in accordance with the voltage instruction, and supplying an operation instruction signal corresponding to the target pulse pattern to the power conversion unit, wherein the pulse pattern is calculated such that fifth harmonics, seventh harmonics, eleventh harmonics, and thirteenth harmonics of a voltage at the point of connection of the reactors are substantially zero, and third harmonics present in respective output voltages of the three power conversion units are substantially identical in magnitude and are phase-displaced by 120°
from each other, andthe third harmonics present in the voltage at the point of connection of the reactors is smaller in magnitude than the third harmonics occurring in each of the three power conversion units. - View Dependent Claims (4)
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Specification