Systems and methods for determining battery capacity level
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01N-027/416
H02J-007/00
출원번호
US-0570148
(2009-09-30)
등록번호
US-8384390
(2013-02-26)
발명자
/ 주소
Zhang, Wei
출원인 / 주소
O2Micro Inc
인용정보
피인용 횟수 :
2인용 특허 :
4
초록▼
A battery gas gauge includes a voltage detection unit and a processor. The voltage detection unit is coupled to a battery pack and can measure a plurality of open circuit voltages of a plurality of cells in the battery pack respectively. The processor is coupled to the voltage detection unit and can
A battery gas gauge includes a voltage detection unit and a processor. The voltage detection unit is coupled to a battery pack and can measure a plurality of open circuit voltages of a plurality of cells in the battery pack respectively. The processor is coupled to the voltage detection unit and can determine a minimum open circuit voltage of the open circuit voltages, and can determine a first relative state of charge of the battery pack based on a relationship between the minimum open circuit voltage and a corresponding relative state of charge of a cell having the minimum open circuit voltage. The processor can further determine a capacity level of the battery pack based on the first relative state of charge and a rated full capacity level of the battery pack.
대표청구항▼
1. A battery gas gauge for energy efficient measuring of charge of a battery pack comprising a rechargeable multi-cell battery pack, comprising: a voltage detection unit coupled to said battery pack and operable for measuring a plurality of open circuit voltages of a plurality of cells in said batte
1. A battery gas gauge for energy efficient measuring of charge of a battery pack comprising a rechargeable multi-cell battery pack, comprising: a voltage detection unit coupled to said battery pack and operable for measuring a plurality of open circuit voltages of a plurality of cells in said battery pack respectively; anda processor coupled to said voltage detection unit and operable for determining a minimum open circuit voltage of said open circuit voltages, and for determining a first relative state of charge of said battery pack based on a relationship between said minimum open circuit voltage and a corresponding relative state of charge of a cell having said minimum open circuit voltage. 2. The battery gas gauge of claim 1, further comprising: a storage unit coupled to said processor and for storing a lookup table indicating said relationship. 3. The battery gas gauge of claim 1, wherein said processor is operable for determining a remaining capacity level of said battery pack based on said first relative state of charge and a rated full capacity level of said battery pack. 4. The battery gas gauge of claim 3, wherein said processor is operable for determining an average open circuit voltage of said cells, and for determining a second relative state of charge of said battery pack based on said average open circuit voltage, and for determining an estimated full capacity level of said battery pack based on said remaining capacity level and said second relative state of charge. 5. The battery gas gauge of claim 4, wherein said voltage detection unit is operable for dividing said remaining capacity level by said second relative state of charge to determine said estimated full capacity level. 6. The battery gas gauge of claim 4, wherein said processor is operable for determining a current remaining capacity level of said battery pack by adding charges accumulated in said battery pack during a charging process to said remaining capacity level, and is operable for determining a third relative state of charge of said battery pack by dividing said current remaining capacity level by said estimated full capacity level. 7. The battery gas gauge of claim 4, wherein said processor is operable for determining a current remaining capacity level of said battery pack by subtracting charges consumed by said battery pack during a discharging process from said remaining capacity level, and is operable for determining a third relative state of charge of said battery pack by dividing said current remaining capacity level by said estimated full capacity level. 8. An electronic system for energy efficient measuring of charge of a battery pack comprising a rechargeable multi-cell battery pack, comprising: a voltage detection unit coupled to a said battery pack and operable for measuring a plurality of open circuit voltages of a plurality of cells in said battery pack respectively;a processor coupled to said voltage detection unit and operable for determining a minimum open circuit voltage of said open circuit voltages, and for determining a first relative state of charge of said battery pack based on said minimum open circuit voltage and a predetermined lookup table; anda storage unit coupled to said processor and for storing said predetermined lookup table, wherein said predetermined lookup table stores different relative state of charges of said battery pack corresponding to different levels of said minimum open circuit voltage. 9. The electronic system of claim 8, wherein said processor is operable for determining a remaining capacity level of said battery pack based on said first relative state of charge and a rated full capacity level of said battery pack. 10. The electronic system of claim 9, wherein said processor is operable for determining an average open circuit voltage of said cells, and for determining a second relative state of charge of said battery pack based on said lookup table and said average open circuit voltage, and for determining an estimated full capacity level of said battery pack based on said remaining capacity level and said second relative state of charge. 11. The electronic system of claim 10, wherein said voltage detection unit is operable for dividing said remaining capacity level by said second relative state of charge to determine said estimated full capacity level. 12. The electronic system of claim 10, wherein said processor is operable for determining a current remaining capacity level of said battery pack by adding charges accumulated in said battery pack during a charging process to said remaining capacity level, and is operable for determining a third relative state of charge of said battery pack by dividing said current remaining capacity level by said estimated full capacity level. 13. The electronic system of claim 10, wherein said processor is operable for determining a current remaining capacity level of said battery pack by subtracting charges consumed by said battery pack during a discharging process from said remaining capacity level, and is operable for determining a third relative state of charge of said battery pack by dividing said current remaining capacity level by said estimated full capacity level. 14. A method for energy efficient determining a capacity level of a battery pack comprising a plurality of cells, said battery pack comprising a rechargeable multi-cell battery pack, said method comprising: measuring a plurality of open circuit voltages of said cells respectively;determining a minimum open circuit voltage of said open circuit voltages; anddetermining a first relative state of charge of said battery pack based on said minimum open circuit voltage and a predetermined lookup table,wherein said lookup table indicates a relationship between said minimum open circuit voltage and a corresponding relative state of charge of a cell having said minimum open circuit voltage. 15. The method of claim 14, further comprising: determining a remaining capacity level of said battery pack based on said first relative state of charge and a rated full capacity level of said battery pack. 16. The method of claim 15, further comprising: determining an average open circuit voltage of said cells;determining a second relative state of charge of said battery pack based on said lookup table and said average open circuit voltage; anddetermining an estimated full capacity level of said battery pack based on said remaining capacity level and said second relative state of charge. 17. The method of claim 16, further comprising: dividing said remaining capacity level of said battery pack by said second relative state of charge to determine said estimated full capacity level. 18. The method of claim 16, further comprising: determining a current remaining capacity level of said battery pack by adding charges accumulated in said battery pack during a charging process to said remaining capacity level; anddetermining a third relative state of charge of said battery pack by dividing said current remaining capacity level by said estimated full capacity level. 19. The method of claim 16, further comprising: determining a current remaining capacity level of said battery pack by subtracting charges consumed by said battery pack during a discharging process from said remaining capacity level; anddetermining a third relative state of charge of said battery pack by dividing said current remaining capacity level by said estimated full capacity level.
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