Static power conversion method and apparatus having essentially zero switching losses and clamped voltage levels
First Claim
1. A power converter adapted to convert input power which is at first frequency, comprising:
- (a) means for receiving the input power at a first frequency and for providing a uni-directional output voltage on a DC bus which cyclically reaches zero voltage at a second frequency which is substantially higher than the first frequency, wherein the means receiving power includes a resonant circuit having an indicator and a capacitor connected together, converter means receiving the input power at the first frequency for rectifying the input power and providing the rectified power to the resonant circuit, and further including means for causing the resonant circuit to oscillate stably at the second frequency such that the voltage across the DC bus goes to zero voltage at least once during each cycle of oscillation;
(b) inverter means, connected to receive the power from the DC bus and having switching devices therein, for converting the DC power from the DC bus to AC power at a third frequency which is substantially lower than the second frequency, the switching devices in the inverter means being switched only when the voltage at the DC bus is substantially at zero volts; and
(c) clamping means for limiting the voltage across the DC bus to a selected maximum level.
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Accused Products
Abstract
A high efficiency power converter is achieved utilizing a resonant DC link between a DC source, such as a converter rectifying power from an AC power system, to a variable frequency voltage source inverter. A resonant circuit composed of an inductor and capacitor is connected to the DC power supply and to a DC bus supplying the inverter and is caused to oscillate stably at a high frequency to provide a uni-directional voltage across the DC bus which reaches zero volts during each cycle of oscillation of the resonant circuit. The switching devices of the inverter are controlled to switch on and off only at times when the DC bus voltage is zero, thereby eliminating switching losses in the inverter. The resonant circuit can be caused to oscillate utilizing pairs of switching devices in the inverter or a separate switching device across the capacitor, which again are caused to switch on and off only at times of zero voltage on the DC bus. For AC to AC conversion, enabling bi-directional power flow, the switching devices of the power source which converts AC power to DC power may have switching devices which are also switched only at the times of zero voltage so that switching losses in these devices is also minimized. A clamp limits the maximum voltage applied to the switching devices, thereby reducing voltage stresses on the devices, and preferably returns energy to the resonant circuit during each cycle of oscillation.
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Citations
28 Claims
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1. A power converter adapted to convert input power which is at first frequency, comprising:
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(a) means for receiving the input power at a first frequency and for providing a uni-directional output voltage on a DC bus which cyclically reaches zero voltage at a second frequency which is substantially higher than the first frequency, wherein the means receiving power includes a resonant circuit having an indicator and a capacitor connected together, converter means receiving the input power at the first frequency for rectifying the input power and providing the rectified power to the resonant circuit, and further including means for causing the resonant circuit to oscillate stably at the second frequency such that the voltage across the DC bus goes to zero voltage at least once during each cycle of oscillation; (b) inverter means, connected to receive the power from the DC bus and having switching devices therein, for converting the DC power from the DC bus to AC power at a third frequency which is substantially lower than the second frequency, the switching devices in the inverter means being switched only when the voltage at the DC bus is substantially at zero volts; and (c) clamping means for limiting the voltage across the DC bus to a selected maximum level. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A power converter for converting DC power to AC power comprising:
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(a) a resonant circuit having an inductor adapted to receive a DC power input, a capacitor connected to the inductor, and a DC bus providing the output voltage from the resonant circuit; (b) means for causing the resonant circuit to oscillate stably at or below its resonant frequency and for the voltage across the DC bus to be maintained at an average DC level and to go to zero voltage at least once during each cycle of oscillation of the resonant circuit; (c) an inverter connected to receive the voltage on the DC bus and having gated switching devices which are switched on and off only when the voltage on the DC bus is substantially zero; and (d) clamping means for limiting the voltage across the DC bus to a selected maximum level. - View Dependent Claims (8, 9, 10, 11, 12)
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13. A resonant DC power supply comprising:
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(a) a converter including pairs of gate turn off switching devices connected in a bridge configuration to receive AC power from an AC power system and to be switched to rectify the AC power to uni-directional power at an output and including inductance connected between the AC power system input lines and its uni-directional output; (b) a resonant circuit having an inductor and a capacitor connected together, the resonant circuit connected to the output of the bridge converter switching devices, and an additional power supply capacitor connected in series with the inductor, and including a DC output bus connected to the resonant circuit; (c) means for causing the resonant circuit to oscillate stably at or below its resonant frequency such that the voltage across the DC output bus goes to zero voltage at least once during each cycle of oscillation and such that an average voltage is maintained across the power supply capacitor and across the DC bus, and wherein the switching devices in the converter are controlled to switch at times of zero voltage across the DC bus; and (d) clamping means for limiting the voltage across the DC bus to a selected maximum level. - View Dependent Claims (14, 15, 16)
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17. A power converter comprising:
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(a) power supply means for providing DC output power; (b) a resonant circuit having an inductor and a capacitor connected together to receive the DC power from the power supply means and to provide direct current voltage to a DC bus; (c) means for causing the resonant circuit to oscillate stably at or below its resonant frequency such that the voltage on the DC bus goes to zero at least once during each cycle of oscillation of the resonant circuit; (d) an inverter connected to receive the voltage on the DC bus and having gated switching devices which are switched on and off only when the voltage provided on the DC bus is substantially zero; and (e) clamping means for limiting the voltage across the DC bus to a selected maximum level. - View Dependent Claims (18, 19, 20, 21, 22)
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23. A power converter comprising:
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(a) power supply means for receiving AC power at a first frequency and providing DC output power; (b) a resonant circuit having an inductor and a capacitor connected together to receive the DC power from the power supply means and to provide direct current voltage to a DC bus; (c) means for causing the resonant circuit to oscillate stably at or below its resonant frequency at a second frequency substantially higher than the first frequency such that the voltage on the DC bus goes to zero at least once during each cycle of oscillation of the resonant circuit; (d) an inverter connected to receive the voltage on the DC bus and having switching devices which are switched only when the voltage provided on the DC bus is substantially zero to provide AC output power at a third frequency which is substantially lower than the second frequency; and (e) clamping means for limiting the voltage across the DC bus to a selected maximum level. - View Dependent Claims (24, 25, 26, 27, 28)
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Specification