System and method for determining isolation resistances of a battery pack
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G01N-027/416
G01R-031/36
G01R-027/14
출원번호
US-0961834
(2013-08-07)
등록번호
US-9164151
(2015-10-20)
발명자
/ 주소
Bober, Greg
출원인 / 주소
LG Chem, Ltd.
대리인 / 주소
Buckert Patent & Trademark Law Firm, PC
인용정보
피인용 횟수 :
0인용 특허 :
13
초록▼
A system for determining isolation resistances of a battery pack includes a voltage source, a voltage meter, and a microprocessor. The voltage source is disposed external of the battery pack. The voltage source applies an output voltage on first and second electrical terminals. The voltage meter mea
A system for determining isolation resistances of a battery pack includes a voltage source, a voltage meter, and a microprocessor. The voltage source is disposed external of the battery pack. The voltage source applies an output voltage on first and second electrical terminals. The voltage meter measures a first voltage level between the first electrical terminal and the housing, and a second voltage level between the first electrical terminal and the housing when a resistor is electrically coupled between the first electrical terminal and the housing. The voltage meter measures a third voltage level between the second electrical terminal and the housing, and a fourth voltage level between the second electrical terminal and the housing when the resistor is electrically coupled between the second electrical terminal and the housing. The microprocessor determines a first isolation resistance value based on the first, second, and third voltage levels.
대표청구항▼
1. A system for determining isolation resistances of a battery pack, the battery pack having a housing and at least first and second battery modules disposed in the housing, the battery pack further having first and second electrical terminals, comprising: a voltage source configured to be electrica
1. A system for determining isolation resistances of a battery pack, the battery pack having a housing and at least first and second battery modules disposed in the housing, the battery pack further having first and second electrical terminals, comprising: a voltage source configured to be electrically coupled to the first and second electrical terminals of the battery pack, the voltage source further configured to apply a first output voltage level at a first time between the first and second electrical terminals when the first and second battery modules are not electrically coupled in series with one another;a voltage meter configured to measure a first voltage level between the first electrical terminal and the housing when the first output voltage level is being output;the voltage meter further configured to measure a second voltage level between the first electrical terminal and the housing, when the first output voltage level is being output, and a resistor is electrically coupled between the first electrical terminal and the housing; the resistor having a predetermined resistance level;the voltage meter further configured to measure a third voltage level between the second electrical terminal and the housing when the first output voltage level is being output;the voltage meter is further configured to measure a fourth voltage level between the second electrical terminal and the housing, when the first output voltage level is being output, and the resistor is electrically coupled between the second electrical terminal and the housing;a microprocessor programmed to operably communicate with the voltage meter, the microprocessor further programmed to determine a first isolation resistance value associated with the battery pack at the first time based on the first voltage level, the second voltage level, the third voltage level, and the predetermined resistance level;the microprocessor further programmed to determine a second isolation resistance value associated with the battery pack at the first time based on the first voltage level, the third voltage level, the fourth voltage level, and the predetermined resistance level; andthe microprocessor further programmed to determine which of the first isolation resistance value and the second isolation resistance value has a smallest value relative to one another, and to store the smallest value of the first and second isolation resistance values in a memory device. 2. The system of claim 1, wherein: the voltage source further configured to apply a second output voltage level at a second time between the first and second electrical terminals when the first and second battery modules are not electrically coupled in series with one another, the second time being after the first time, the second output voltage level being greater than the first output voltage level;the voltage meter further configured to measure a fifth voltage level between the first electrical terminal and the housing when the second output voltage level is being output;the voltage meter further configured to measure a sixth voltage level between the first electrical terminal and the housing, when the second output voltage level is being output, and the resistor is electrically coupled between the first electrical terminal and the housing;the voltage meter further configured to measure a seventh voltage level between the second electrical terminal and the housing when the second output voltage level is being output;the voltage meter is further configured to measure an eighth voltage level between the second electrical terminal and the housing, when the second output voltage level is being output, and the resistor is electrically coupled between the second electrical terminal and the housing;the microprocessor further programmed to determine a third isolation resistance value associated with the battery pack at the second time based on the fifth voltage level, the sixth voltage level, the seventh voltage level, and the predetermined resistance level;the microprocessor further programmed to determine a fourth isolation resistance value associated with the battery pack at the second time based on the fifth voltage level, the seventh voltage level, the eighth voltage level, and the predetermined resistance level; andthe microprocessor further programmed to determine which of the third isolation resistance value and the fourth isolation resistance value has a smallest value relative to one another, and to store the smallest value of the third and fourth isolation resistance values in the memory device. 3. The system of claim 1, wherein the battery pack is less than 50% fully charged. 4. A method for determining isolation resistances of a battery pack, the battery pack having a housing and at least first and second battery modules disposed in the housing, the battery pack further having first and second electrical terminals, comprising: applying a first output voltage level at a first time between the first and second electrical terminals utilizing a voltage source when the first and second battery modules are not electrically coupled in series with one another;measuring a first voltage level between the first electrical terminal and the housing when the first output voltage level is being output, utilizing a voltage meter;measuring a second voltage level between the first electrical terminal and the housing utilizing the voltage meter, when the first output voltage level is being output, and a resistor is electrically coupled between the first electrical terminal and the housing; the resistor having a predetermined resistance level;measuring a third voltage level between the second electrical terminal and the housing when the first output voltage level is being output, utilizing the voltage meter;measuring a fourth voltage level between the second electrical terminal and the housing utilizing the voltage meter, when the first output voltage level is being output, and the resistor is electrically coupled between the second electrical terminal and the housing;determining a first isolation resistance value associated with the battery pack at the first time utilizing a microprocessor based on the first voltage level, the second voltage level, the third voltage level, and the predetermined resistance level;determining a second isolation resistance value associated with the battery pack at the first time utilizing the microprocessor based on the first voltage level, the third voltage level, the fourth voltage level, and the predetermined resistance level; anddetermining which of the first isolation resistance value and the second isolation resistance value has a smallest value relative to one another, and storing the smallest value of the first and second isolation resistance values in a memory device utilizing the microprocessor. 5. The method of claim 4, further comprising: applying a second output voltage level at a second time between the first and second electrical terminals utilizing the voltage source when the first and second battery modules are not electrically coupled in series with one another, the second time being after the first time, the second output voltage level being greater than the first output voltage level;measuring a fifth voltage level between the first electrical terminal and the housing when the second output voltage level is being output, utilizing a voltage meter;measuring a sixth voltage level between the first electrical terminal and the housing utilizing the voltage meter, when the second output voltage level is being output, and the resistor is electrically coupled between the first electrical terminal and the housing;measuring a seventh voltage level between the second electrical terminal and the housing when the second output voltage level is being output, utilizing the voltage meter;measuring an eighth voltage level between the second electrical terminal and the housing utilizing the voltage meter, when the second output voltage level is being output, and the resistor is electrically coupled between the second electrical terminal and the housing;determining a third isolation resistance value associated with the battery pack at the second time utilizing a microprocessor based on the fifth voltage level, the sixth voltage level, the seventh voltage level, and the predetermined resistance level;determining a fourth isolation resistance value associated with the battery pack at the second time utilizing the microprocessor based on the fifth voltage level, the seventh voltage level, the eighth voltage level, and the predetermined resistance level; anddetermining which of the third isolation resistance value and the fourth isolation resistance value has a smallest value relative to one another, and storing the smallest value of the third and fourth isolation resistance values in the memory device utilizing the microprocessor.
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