Heating system for a battery module and method of heating the battery module
First Claim
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1. A heating system for a battery module, the battery module having first and second battery cell groups, comprising:
- a first resistor configured to be electrically coupled to the first battery cell group when a first switch has a first operational position;
a second resistor configured to be electrically coupled to the second battery cell group when a second switch has a first operational position;
a temperature sensor configured to generate a temperature signal indicative of a temperature level of at least one of the first battery cell group and the second battery cell group;
a first voltage sensor electrically coupled to the first battery cell group, the first voltage sensor configured to generate a first signal indicative of a first voltage level of the first battery cell group;
a second voltage sensor electrically coupled to the second battery cell group, the second voltage sensor configured to generate a second signal indicative of a second voltage level of the second battery cell group;
a computer being operably coupled to the first voltage sensor, the second voltage sensor, and the temperature sensor such that the computer receives the first signal, the second signal, and the temperature signal, respectively;
the computer being further operably coupled of the first switch and the second switch;
the computer being further programmed to determine if the first voltage level is substantially equal to the second voltage level;
the computer being further programmed to generate first and second control signals to induce the first and second switches, respectively, to each have the first operational position to at least partially discharge the first and second battery cell groups, respectively, through the first and second resistors, respectively, to generate heat energy in the first and second resistors, if both the temperature level is less than a threshold temperature level, and the first voltage level is substantially equal to the second voltage level; and
the computer being further programmed to generate a third control signal to turn on a fan to distribute the heat energy in the battery module to increase the temperature level of the battery module.
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Abstract
A heating system and a method for heating a battery module are provided. The method includes generating a temperature signal indicative of a temperature level of at least one of a first battery cell group and a second battery cell group. If a temperature level is less than the threshold temperature level, then the method further includes generating first and second control signals to induce first and second switches, respectively, to each have a first operational position to at least partially discharge the first and second battery cell groups, respectively, through first and second resistors, respectively, to generate heat energy in the first and second resistors.
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Citations
12 Claims
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1. A heating system for a battery module, the battery module having first and second battery cell groups, comprising:
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a first resistor configured to be electrically coupled to the first battery cell group when a first switch has a first operational position; a second resistor configured to be electrically coupled to the second battery cell group when a second switch has a first operational position; a temperature sensor configured to generate a temperature signal indicative of a temperature level of at least one of the first battery cell group and the second battery cell group; a first voltage sensor electrically coupled to the first battery cell group, the first voltage sensor configured to generate a first signal indicative of a first voltage level of the first battery cell group; a second voltage sensor electrically coupled to the second battery cell group, the second voltage sensor configured to generate a second signal indicative of a second voltage level of the second battery cell group; a computer being operably coupled to the first voltage sensor, the second voltage sensor, and the temperature sensor such that the computer receives the first signal, the second signal, and the temperature signal, respectively;
the computer being further operably coupled of the first switch and the second switch;the computer being further programmed to determine if the first voltage level is substantially equal to the second voltage level; the computer being further programmed to generate first and second control signals to induce the first and second switches, respectively, to each have the first operational position to at least partially discharge the first and second battery cell groups, respectively, through the first and second resistors, respectively, to generate heat energy in the first and second resistors, if both the temperature level is less than a threshold temperature level, and the first voltage level is substantially equal to the second voltage level; and the computer being further programmed to generate a third control signal to turn on a fan to distribute the heat energy in the battery module to increase the temperature level of the battery module. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A heating system for a battery module, the battery module having first and second battery cell groups, comprising:
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a first resistor configured to be electrically coupled to the first battery cell group when a first switch has a first operational position; a second resistor configured to be electrically coupled to the second battery cell group when a second switch has a first operational position; a temperature sensor configured to generate a temperature signal indicative of a temperature level of at least one of the first battery cell group and the second battery cell group; a first voltage sensor electrically coupled to the first battery cell group, the first voltage sensor configured to generate a first signal indicative of a first voltage level of the first battery cell group; a second voltage sensor electrically coupled to the second battery cell group, the second voltage sensor configured to generate a second signal indicative of a second voltage level of the second battery cell group; a computer being operably coupled to the first voltage sensor, the second voltage sensor, and the temperature sensor such that the computer receives the first signal, the second signal, and the temperature signal, respectively;
the computer being further operably coupled of the first switch and the second switch;the computer being further programmed to determine a first state-of-charge of the first battery cell group based on the first voltage level and the temperature level; the computer being further programmed to determine a second state-of-charge of the second battery cell group based on the second voltage level and the temperature level; the computer being further programmed to determine if the first state-of-charge is substantially equal to the second state-of-charge; the computer being further programmed to generate first and second control signals to induce the first and second switches, respectively, to each have the first operational position to at least partially discharge the first and second battery cell groups, respectively, through the first and second resistors, respectively, to generate heat energy in the first and second resistors, if both the temperature level is less than a threshold temperature level, and the first state-of-charge is substantially equal to the second state-of-charge; and the computer being further programmed to generate a third control signal to turn on a fan to distribute the heat energy in the battery module to increase the temperature level of the battery module. - View Dependent Claims (8, 9, 10, 11, 12)
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Specification
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Current AssigneeLG Energy Solution Limited (LG Corporation)
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Original AssigneeLG Chem Limited (LG Corporation)
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InventorsRobertson, David C.
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Primary Examiner(s)Ruddock, Ula C.
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Assistant Examiner(s)MARKS, JACOB B
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Application NumberUS13/173,263Publication NumberTime in Patent Office1,202 DaysField of Search429/50US Class Current429/50CPC Class CodesH01M 10/052 Li-accumulatorsH01M 10/615 Heating or keeping warmH01M 10/633 characterised by algorithms...H01M 10/6563 with forced flow, e.g. by b...H01M 10/6571 Resistive heaters arrangeme...Y02E 60/10 Energy storage using batteriesY02T 10/70 Energy storage systems for ...
