Power conversion device for solar cell
First Claim
1. A power conversion device for a solar cell having a pair of output terminals between which a dc output voltage is produced, comprising a voltage controlled oscillator (VCO) connected to the output terminals for generating an output oscillation with a frequency which is the function of the dc output voltage of said solar cell, an inverter having a chopping frequency which is controlled based on the output frequency of said voltage controlled oscillator, the inverter connected to the output terminals in parallel with the VCO to receive a dc output current of said solar cell and convert said dc output current into an alternating current (ac) output, the output frequency of the VCO and a frequency of the ac output tending to increase in the dc output voltage so that the ac output frequency is synchronized with a frequency of a commercial power source, and an inductor to couple therethrough the ac output from said inverter to the commercial power source.
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Abstract
A power conversion device of simple configuration for a solar cell which permits the solar cell to be connected to the commercial power source and enables the maximum electric power corresponding to the amount of incident sunlight to be drawn from the solar cell.
A power conversion device for a solar cell of this invention comprises a voltage controlled oscillator capable of generating oscillation with a frequency which is the function of the dc output voltage of said solar cell, an inverter controlled based on the output frequency of said voltage controlled oscillator to receive the dc output current of said solar cell and convert said dc output current into an alternating current, and an inductor serving to connect the ac output from said inverter to a commercial power source.
237 Citations
6 Claims
- 1. A power conversion device for a solar cell having a pair of output terminals between which a dc output voltage is produced, comprising a voltage controlled oscillator (VCO) connected to the output terminals for generating an output oscillation with a frequency which is the function of the dc output voltage of said solar cell, an inverter having a chopping frequency which is controlled based on the output frequency of said voltage controlled oscillator, the inverter connected to the output terminals in parallel with the VCO to receive a dc output current of said solar cell and convert said dc output current into an alternating current (ac) output, the output frequency of the VCO and a frequency of the ac output tending to increase in the dc output voltage so that the ac output frequency is synchronized with a frequency of a commercial power source, and an inductor to couple therethrough the ac output from said inverter to the commercial power source.
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4. A power conversion device for converting DC electrical power produced by a solar cell as a result of incident light received to AC electrical power and providing the AC electrical power to a commercial AC power source with the AC electrical power having a frequency which is automatically maintained in a predetermined relationship with a frequency of the commercial AC power source, wherein a DC output voltage of the solar cell increases with increases in amounts of incident light reaching the solar cell;
- the power conversion device comprised of;
a voltage controlled oscillator powered by the solar cell for producing a VCO output with a VCO frequency which varies as a function of a DC output voltage of the solar cell; an inverter connected to the solar cell in parallel with the VCO and responsive to the VCO output for converting a DC output current from the solar cell into the AC electrical power having a frequency which varies with VCO frequency so that the frequency of the AC electrical power increases with an increase in the DC output voltage; and an inductor for coupling therethrough the AC electrical power from the inverter to the commercial power source with a phase difference which varies as a function of the frequency of the AC electrical power, and wherein an amount of the AC electrical power coupled through the inductor increases with increases in the phase difference;
wherein the DC output current flowing from the solar cell increases with increases in the AC electrical power coupled through the inductor; and
wherein the DC output voltage of the solar cell tends to decrease with increases in the DC output current flow so that the frequency of the AC electrical power is automatically maintained at an essentially fixed level and is synchronized with the frequency of the commercial AC power source despite variations in the incident light received by the solar cell. - View Dependent Claims (5, 6)
- the power conversion device comprised of;
Specification