IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0900931
(2004-07-28)
|
우선권정보 |
JP-2003-295575(2003-08-19) |
발명자
/ 주소 |
- Ichinose,Toshihiko
- Takada,Masahiro
- Kozu,Katsumi
- Kuranaka,So
|
출원인 / 주소 |
- Matsushita Electric Industrial Co., Ltd.
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
4 인용 특허 :
1 |
초록
▼
The power supply apparatus of the present invention comprises a fuel cell, a secondary battery for supplying power to a load, a power measurement section for measuring the output power of the fuel cell, a power converter which inputs output of the fuel cell, controls the output power so that the inp
The power supply apparatus of the present invention comprises a fuel cell, a secondary battery for supplying power to a load, a power measurement section for measuring the output power of the fuel cell, a power converter which inputs output of the fuel cell, controls the output power so that the input voltage or the input current approaches the operation target value, supplies the output power to the load and/or the secondary battery and conducts a power conversion, and a control section which controls quantity of fuel to be supplied to the fuel cell, and also indicates to the power converter of an operation target value that comes within predetermined range which includes the smallest quantity of fuel the fuel cell discharges, wherein the control section sequentially indicates a plurality of the target values for power measurement to the power converter, the power measurement section measures the output power of the fuel cell for each target value for power measurement, and the control section seeks the target value which gives the maximum power within a plurality of output powers, and updates the operation target value based on that value.
대표청구항
▼
The invention claimed is: 1. A power supply apparatus comprising: a fuel cell; a secondary battery for supplying power to a load; a power measurement section for measuring an output power of said fuel cell; a power converter which inputs said output power of said fuel cell, controls an output power
The invention claimed is: 1. A power supply apparatus comprising: a fuel cell; a secondary battery for supplying power to a load; a power measurement section for measuring an output power of said fuel cell; a power converter which inputs said output power of said fuel cell, controls an output power so that an input voltage or an input current approaches an operation target value, supplies said output power to said load and/or said secondary battery and conducts a power conversion; and a control section which: controls quantity of fuel to be supplied to said fuel cell, indicates a selected value to said power converter as said operation target value, said selected value being a value within a predetermined range of values that corresponds to the smallest quantity of fuel that said fuel cell discharges, indicates a plurality of power measurement target values to said power converter, and updates said operation target value of said power converter based on a plurality of output power measurements of said fuel cell, each of said plurality of output power measurements being measured by said power measurement section for each of said plurality of said power measurement target values. 2. A power supply apparatus comprising: a fuel cell; a secondary battery for supplying power to a load; a power measurement section for measuring an output power of said fuel cell; a power converter which inputs said output of said fuel cell, controls said output power so that an input voltage or an input current approaches the operation target value, supplies said output power to said load and/or said secondary battery and conducts a power conversion; and a control section which: controls quantity of fuel to be supplied to said fuel cell, indicates a selected value to said power converter as said operation target value, said selected value being a value within a predetermined range of values that corresponds to the smallest quantity of fuel said fuel cell discharges, sequentially indicates a plurality of power measurement target values to said power converter, seeks a target value which gives the maximum power as a criterion among a plurality of output power measurements of said fuel cell, each being measured by said power measurement section for each of said plurality of power measurement target values, and updates said operation target value to be said target value which gives the maximum power itself or values which are gained from subtracting or adding the predetermined current or voltage from said target value which gives the maximum power. 3. A power supply apparatus, as claimed in claim 2, wherein said control section has a plurality of power generating modes, and supplies to said fuel cell a certain quantity of fuel per unit time which varies for each said power generating modes; said power supply apparatus further comprising a memory section for storing said operation target value and/or said target value which allies maximum power for each said power generating modes; wherein at a startup of the power supply apparatus, or when said power generating mode is changed, or at least once in a predetermined time, said control section indicates a plurality of power measurement target values to said power converter, said power measurement section measures output power of said fuel cell at each said power measurement target value said control section seeks said target value which gives the maximum power among said plurality of output powers, and updates said operation target value based on said target value which gives the maximum power, and said memory section stores said operation target value and/or said target value which gives said maximum power for each said power generating mode. 4. A power supply apparatus, as claimed in claim 2, characterized in that a plurality of power measurement target values are determined, centering on the present operation target value. 5. A power supply apparatus, as claimed in claim 2, characterized in that in a case where said output power of said fuel cell in regard to a second power measurement target value is larger than the output power of said fuel cell in regard to a first power measurement target value, wherein said second power measurement target value is larger than said first power measurement target value the output power of said fuel cell in regard to a third power measurement target value which is still larger than said second power measurement target value is measured, and in a case where said output power of said fuel cell in regard to said second power measurement target value is smaller than said output power of said fuel cell in regard to said first power measurement target value, said output power of said fuel cell in regard to said third power measurement target value which is still smaller than said first power measurement target value is measured. 6. A power supply apparatus, as claimed in claim 5, comprising a memory section for storing change in said target value which gives the maximum power; wherein in a case where said target value which gives the maximum power has increased as to that change, said output power of said fuel cell is measured at the power measurement target value which is larger than the present said target value which gives the maximum power, and in a case where said target value which gives the maximum power has decreased as to that change, said output power of said fuel cell is measured at said power measurement target value which is smaller than the present said target value which gives the maximum power. 7. A power supply apparatus, as claimed in claim 1, comprising a memory section for storing a target output power of said fuel cell for each said power generating mode; wherein said control section has a plurality of power generating modes, and supplies to said fuel cell a certain quantity of fuel per unit time which varies for each said power generating modes; and wherein in a case where the finite difference between said output power of said fuel cell in regard to said target value which gives the maximum power or said operation target value corresponding to said target value which gives the maximum power, and said target output power, is not within the predetermined range, said control section changes the quantity of fuel to be supplied to said fuel cell so as to minimize that finite difference. 8. A power supply apparatus, as claimed in claim 1, characterized in that said fuel cell is a direct methanol fuel cell. 9. A power supply apparatus, as claimed in claim 1, characterized in that said fuel cell is a balance type which balances fuel and said output power of said fuel cell. 10. A power supply apparatus, as claimed in claim 2, comprising a memory section for storing a target output power of said fuel cell for each said power generating mode; wherein said control section has a plurality of power generating modes, and supplies to said fuel cell a certain quantity of fuel per unit time which varies for each said power generating modes; and wherein in a case where the finite difference between said output power of said fuel cell in regard to said target value which gives the maximum power or said operation target value corresponding to said target value which gives the maximum power, and said target output power, is not within the predetermined range, said control section changes the quantity of fuel to be supplied to said fuel cell so as to minimize that finite difference. 11. A power supply apparatus, as claimed in claim 2, characterized in that said fuel cell is a direct methanol fuel cell. 12. A power supply apparatus, as claimed in claim 2, characterized in that said fuel cell is a balance type which balances fuel and said output power of said fuel cell.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.