Battery charger system and method for providing detailed battery status and charging method information
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01R-031/36
H02J-007/00
출원번호
US-0224020
(2002-08-20)
발명자
/ 주소
Trembley, Matthew Glen
출원인 / 주소
LSI Logic Corporation
대리인 / 주소
Yee &
인용정보
피인용 횟수 :
28인용 특허 :
14
초록▼
A battery charger system and method are disclosed for providing detailed battery status and charging method information and for controlling the charging of the battery. A controller is provided within the battery charger. The controller starts a measurement cycle. During the measurement cycle, curre
A battery charger system and method are disclosed for providing detailed battery status and charging method information and for controlling the charging of the battery. A controller is provided within the battery charger. The controller starts a measurement cycle. During the measurement cycle, current battery characteristics are determined by the battery charger. The controller determines a current charging method of the battery. Then controller then utilizes the battery characteristics and current charging method to determine an appropriate charging method for the battery. The controller then causes the battery charger to charge the battery utilizing the appropriate charging method.
대표청구항▼
1. A method in a battery charger for charging a battery, said method comprising the steps of:providing a controller within said battery charger, said controller capable of responding to interrupts and capable of being coupled to a processor that is external to said battery charger utilizing a bus in
1. A method in a battery charger for charging a battery, said method comprising the steps of:providing a controller within said battery charger, said controller capable of responding to interrupts and capable of being coupled to a processor that is external to said battery charger utilizing a bus interface that is included in said controller; monitoring, using said controller, battery characteristics of said battery during normal non-charging battery operation and during charging of said battery; maintaining, within status registers in said controller, during said normal operation of said battery, detailed status information including said battery characteristics; maintaining, within said status registers, during charging of said battery, said detailed status information and an identification of a current charging method; starting a measurement cycle; during said measurement cycle: determining current battery characteristics utilizing said battery charger; determining, utilizing said controller, at a start of said measurement cycle, prior to beginning charging or altering said current charging method of said battery, said current charging method of said battery by reading said status registers, utilizing by said controller, said determined battery characteristics and said determined current charging method to determine an appropriate charging method for said battery; and causing, utilizing said controller, said battery charger to charge said battery utilizing said appropriate charging method. 2. The method according to claim 1, further comprising the steps of:coupling said controller to said processor that is external to said battery charger; and providing battery information to said processor from said controller, said battery information including said battery characteristics and charging method information. 3. The method according to claim 1, wherein the step of determining current battery characteristics utilizing said battery charger further comprises the step of determining current battery characteristics utilizing said controller.4. The method according to claim 1, wherein the step of determining said current charging method of said battery utilizing said controller further comprises the step of determining, utilizing said controller, whether said battery is currently being charged utilizing a quick charging method.5. The method according to claim 4, further comprising the steps of:in response to a determination that said battery is currently being charged utilizing a quick charging method, determining, utilizing said controller, whether a temperature of said battery exceeds a first temperature threshold; in response to a determining that said temperature of said battery does not exceed said first threshold, determining whether a time during which said battery has been charged utilizing any method exceeds a time threshold; in response to a determination that said time during which said battery has been charged utilizing any method does exceed a time threshold, determining whether said battery has been fully charged, and in response to a determination that said battery has been fully charged, incrementing a charge counter, said charge counter indicating a number of times said battery has completed a charge cycle. 6. The method according to claim 5, further comprising the steps of:in response to a determination that said temperature of said battery does exceed said first threshold, determining whether said battery has been fully charged; and in response to a determination that said battery has been fully charged, incrementing said charge counter. 7. The method according to claim 6, further comprising the steps ofin response to a determination that said battery has not been fully charged, halting said quick charging method; and charging said battery utilizing a trickle charging method. 8. The method according to claim 5, further comprising the steps of:in response to a determination that said time during which said battery has been charged utilizing any method does not exceed a time threshold, starting said measurement cycle again. 9. The method according to claim 1, wherein the step of determining said current charging method of said battery utilizing said controller further comprises the step of determining, utilizing said controller, whether said battery is currently being charged utilizing a trickle charging method.10. The method according to claim 9, further comprising the steps of:determining whether a voltage of said battery is between a first voltage threshold and a second voltage threshold, end whether a temperature of said battery is between a first temperature threshold and a second temperature threshold; and in response to a determination that said voltage is between said first voltage threshold and said second voltage threshold and that said temperature is between said first temperature threshold and said second temperature threshold, starting charging said battery utilizing a quick charging method. 11. The method according to claim 10, further comprising the step of:starting a timer. 12. The method according to claim 10, further comprising the step of:in response to a determination that either said voltage is not between said first voltage threshold and said second voltage threshold or that said temperature is not between said first temperature threshold and said second temperature threshold, starting said measurement cycle again. 13. The method according to claim 1, wherein the step of determining said current charging method of said battery utilizing said controller further comprises the step of determining, utilizing said controller, whether said battery is currently not being charged.14. The method according to claim 13, further comprising the steps ofdetermining whether a voltage of said battery is less than a first voltage threshold; in response to a determination that said voltage is less than said first voltage threshold, starting charging said battery utilizing a trickle charging method. 15. The method according to claim 14, further comprising the steps of:in response to a determination that said voltage is not less than said first voltage threshold, determining whether said voltage is between said first voltage threshold and a second voltage threshold, and whether a temperature of said battery is between a first temperature threshold and a second temperature threshold; and in response to a determination that said voltage is between said first voltage threshold and said second voltage threshold and that said temperature is between said first temperature threshold and said second temperature threshold, starting charging said battery utilizing a quick charging method. 16. The method according to claim 15, further comprising the steps of:in response to a determination that either said voltage is not between said first voltage threshold and said second voltage threshold or that said temperature is not between said first temperature threshold and said second temperature threshold, starting said measurement cycle again. 17. The method according to claim 1, further comprising the step of:determining characteristics of said current charging method of said battery utilizing said controller. 18. The method according to claim 17, further comprising the step ofdetermining, utilizing said controller, said characteristics including a number of times said battery has been charged. 19. The method according to claim 17, further comprising the step of:determining, utilizing said controller, said characteristics including a length of time said battery has been charging. 20. The method according to claim 17, further comprising the step of:obtaining, by said processor that is external to said battery charger, said battery characteristics and said characteristics of said current charging method using said bus interface. 21. A battery charger comprising:a controller within said battery charger, said controller capable of responding to interrupts and capable of being coupled to a processor that is external to said battery charger utilizing a bus interface that is included in said controller; said controller for monitoring battery characteristics of said battery during normal non-charging battery operation and during charging of said battery: said controller including status registers for maintaining, during normal operation of said battery, detailed status information including said battery characteristics; said status registers for maintaining, during charging of said battery, said detailed status information and an identification of a current charging method; said controller for starting a measurement cycle; during said measurement cycle: said controller for determining current battery characteristics; said controller for determining, at a start of said measurement cycle, prior to beginning charging or altering said current charging method of said battery, said current charging method of said battery by reading said status registers; said controller for utilizing said determined battery characteristics and said determined current charging method to determine an appropriate charging method for said battery; and said controller for causing said battery charger to charge said battery utilizing said appropriate charging method. 22. The charger according to claim 21, further comprising:said controller being coupled to said processor that is external to said battery charger; and battery information being provided to said processor from said controller, said battery information including said battery characteristics and charging method information. 23. The charger according to claim 21, further comprising:said controller for determining charging method information including a number of times said battery has been charged. 24. The charger according to claim 21, further comprising:said controller for determining whether said battery is currently being charged utilizing a quick charging method. 25. The charger according to claim 24, further comprising:in response to a determination that said battery is currently being charged utilizing a quick charging method, said controller for determining whether a temperature of said battery exceeds a first temperature threshold; in response to a determination that said temperature of said battery does not exceed said first threshold, said controller for determining whether a time during which said battery has been charged utilizing any method exceeds a time threshold; in response to a determination that said time during which said battery has been charged utilizing any method does exceed a time threshold, said controller for determining whether said battery has been fully charged, and in response to a determination that said battery has been fully charged, said controller for incrementing a charge counter, said charge counter indicating a number of times said battery has completed a charge cycle. 26. The charger according to claim 25, further comprising:in response to a determination that said temperature of said battery does exceed said first threshold, said controller for determining whether said battery has been fully charged; and in response to a determination that said battery has been fully charged, said controller for incrementing said charge counter. 27. The charger according to claim 26, further comprising:in response to a determination that said battery baa not been fully charged, said controller for halting said quick charging method; and said controller for causing said battery to be charged utilizing a trickle charging method. 28. The charger according to claim 25, further comprising:in response to a determination that said time during which said battery has been charged utilizing any method does not exceed a time threshold, said controller for starting said measurement cycle again. 29. The charger according to claim 21, further comprising:said controller for determining whether said battery is currently being charged utilizing a trickle charging method. 30. The charger according to claim 29, further comprising:said controller for determining whether a voltage of said battery is between a first voltage threshold and a second voltage threshold, and whether a temperature of said battery is between a first temperature threshold and a second temperature threshold; and in response to a determination that said voltage is between said first voltage threshold and said second voltage threshold and that said temperature is between said first temperature threshold and said second temperature threshold, said controller for causing said battery to be charged utilizing a quick charging method. 31. The charger according to claim 30, further comprising:said controller for starting a timer. 32. The charger according to claim 30, further comprising:in response to a determination that either said voltage is not between said first voltage threshold and said second voltage threshold or that said temperature is not between said first temperature threshold and said second temperature threshold, said controller for starting said measurement cycle again. 33. The charger according to claim 21, further comprising:said controller for determining whether said battery is currently not being charged. 34. The charger according to claim 33, further comprising:said controller for determining whether a voltage of said battery is less than a first voltage threshold; in response to a determination that said voltage is less than said first voltage threshold, said controller for causing said battery to be charged utilizing a trickle charging method. 35. The charger according to claim 34, further comprising:in response to a determination that said voltage is not less than said first voltage threshold, said controller for determining whether said voltage is between said first voltage threshold and a second voltage threshold, and whether a temperature of said battery is between a first temperature threshold and a second temperature threshold; and in response to a determination that said voltage is between said first voltage threshold and said second voltage threshold and that said temperature is between said first temperature threshold and said second temperature threshold, said controller for causing said battery to be charged utilizing a quick charging method. 36. The charger according to claim 35, further comprising:in response to a determination that either said voltage is not between said first voltage threshold and said second voltage threshold or that said temperature is not between said first temperature threshold and said second temperature threshold, said controller for starting said measurement cycle again. 37. The charger according to claim 21, further comprising:said controller for determining characteristics of said current charging method of said battery. 38. The charger according to claim 37, further comprising:said controller for determining said characteristics including a number of times said battery has been charged. 39. The charger according to claim 37, further comprising:said controller for determining said characteristics including a length of time said battery has been charging. 40. The charger according to claim 37, further comprising:said processor that is external to said buttery charger capable of obtaining from said controller said battery characteristics and said characteristics of said current charging method.
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이 특허에 인용된 특허 (14)
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