Multiphase DC-DC series-resonant converter
First Claim
1. A DC-DC converter for converting input DC power from a DC source into output DC power at a certain level, comprising:
- a plurality of N successive DC-DC sine wave resonant subconverters each for converting the input DC power into a subconverter output having a ripple component at a particular frequency;
means for operating the N subconverters so that a phase displacement of 2π
/N electrical degrees exists between output currents of successive subconverter outputs; and
means for summing the subconverter outputs to develop output power having a ripple component at a frequency equal to N times the frequency of a subconverter output ripple component.
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Accused Products
Abstract
Prior DC-DC converters of the resonant type often require the use of parallel-connected power switches to provide adequate current levels and further require large input and output filters. However, parallel operation of switching devices encounters the problem of current sharing and large filters are disadvantageous from a size and weight standpoint. Such problems are overcome by the DC-DC converter of the present invention which includes a plurality of subconverters having outputs which are combined to produce the output power. Each subconverter includes an inverter and a rectifier for developing a full wave rectified output having a ripple component therein. The subconverters are operated so that a phase displacement of 2π/N electrical degrees exists in the output current from one subconverter relative to the output current from other subconverters. The combined output therefore comprises a ripple component superimposed on a DC level, with the ripple component having a smaller amplitude and a greater frequency than the ripple component supplied by prior converters providing the same DC output level. The reduced ripple amplitude and increased frequency result in a reduction in size of the input and output filters. Further, since each subconverter handles only a portion of the total output power, parallel-connected switching devices need not be used.
96 Citations
10 Claims
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1. A DC-DC converter for converting input DC power from a DC source into output DC power at a certain level, comprising:
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a plurality of N successive DC-DC sine wave resonant subconverters each for converting the input DC power into a subconverter output having a ripple component at a particular frequency; means for operating the N subconverters so that a phase displacement of 2π
/N electrical degrees exists between output currents of successive subconverter outputs; andmeans for summing the subconverter outputs to develop output power having a ripple component at a frequency equal to N times the frequency of a subconverter output ripple component. - View Dependent Claims (2, 3)
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4. A power converter for converting input power supplied by a power source into output power at a specified level, comprising:
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a plurality of N sine wave resonant subconverters for converting the input power into a plurality of subconverter outputs, each subconverter including at least one switch operated at a controllable frequency to develop intermediate AC power at a phase displacement of 2π
/N electrical degrees with respect to the AC power of other subconverters;means for combining the subconverter outputs to develop the output power; and means for operating the subconverters including means for detecting a malfunction of one of the subconverters and means for adjusting the frequency of operation of the switches in the remaining subconverters when the malfunction is detected to maintain the output power at the specified level.
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5. A DC-DC converter for converting DC input power from a DC source into DC output power at a specified level, comprising:
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a plurality of N DC-DC sine wave resonant subconverters each coupled to the DC source and including a sine wave resonant inverter for converting the DC input power into AC power and having at least one power switch and a rectifier coupled to the inverter output for converting the AC power into a subconverter DC output; means for summing together the N subconverter DC outputs to produce the DC output power; and means for operating the subconverter inverters at a phase displacement of 2π
/N electrical degrees in the AC power from each inverter relative to the AC power from other inverters including means for developing an error signal representing the deviation of a parameter of the DC output power from a desired level, a voltage controlled oscillator (VCO) responsive to the error signal for developing a VCO clock signal at a frequency related to the magnitude of the error signal, means for sensing the AC power developed by each subconverter inverter and means responsive to the VCO clock signal and to the sensing means for controlling the subconverter inverter switches to minimize the deviation of the DC output power parameter from the desired level. - View Dependent Claims (6, 7, 8, 9, 10)
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Specification