METHOD FOR OPTIMIZED DESIGN AND OPERATION OF BATTERY COOLING SYSTEM IN ELECTRIC VEHICLES
First Claim
1. A method for thermal management of a battery pack, said method comprising:
- defining a maximum allowable temperature in the battery pack which is a function of state of charge of the battery pack, where the defined maximum allowable temperature increases as the state of charge decreases;
measuring temperature in the battery pack and the state of charge of the battery pack during discharging of the battery pack and charging of the battery pack, where the state of charge last measured is designated as current state of charge; and
controlling the temperature in the battery pack to prevent the temperature in the battery pack from exceeding the maximum allowable temperature for the current state of charge.
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Accused Products
Abstract
A method and system for controlling temperature in an electric vehicle battery pack such that battery pack longevity is preserved, while vehicle driving range is maximized. A controller prescribes a maximum allowable temperature in the battery pack as a function of state of charge, reflecting evidence that lithium-ion battery pack temperatures can be allowed to increase as state of charge decreases, without having a detrimental effect on battery pack life. During vehicle driving, battery pack temperature is allowed to increase with decreasing state of charge, and a cooling system is only used as necessary to maintain temperature beneath the increasing maximum level. The decreased usage of the cooling system reduces energy consumption and increases vehicle driving range. During charging operations, the cooling system must remove enough heat from the battery pack to maintain temperatures below a decreasing maximum, but this has no impact on driving range.
21 Citations
20 Claims
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1. A method for thermal management of a battery pack, said method comprising:
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defining a maximum allowable temperature in the battery pack which is a function of state of charge of the battery pack, where the defined maximum allowable temperature increases as the state of charge decreases; measuring temperature in the battery pack and the state of charge of the battery pack during discharging of the battery pack and charging of the battery pack, where the state of charge last measured is designated as current state of charge; and controlling the temperature in the battery pack to prevent the temperature in the battery pack from exceeding the maximum allowable temperature for the current state of charge. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method for thermal management of a lithium-ion battery pack in an electric vehicle, said method comprising:
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defining a maximum allowable temperature in the battery pack which is a function of state of charge of the battery pack, where the defined maximum allowable temperature increases as the state of charge decreases; measuring temperature in the battery pack and the state of charge of the battery pack during discharging of the battery pack and charging of the battery pack, where the state of charge last measured is designated as current state of charge; and controlling the temperature in the battery pack to prevent the temperature in the battery pack from exceeding the maximum allowable temperature for the current state of charge, where controlling the temperature in the battery pack includes allowing the temperature in the battery pack to rise as the state of charge of the battery pack falls during discharging, and removing heat from the battery pack only as necessary to prevent the temperature in the battery pack from exceeding the maximum allowable temperature for the current state of charge. - View Dependent Claims (10, 11, 12, 13, 14)
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15. A thermal management system for a battery pack providing electrical energy to an apparatus, said thermal management system comprising:
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a plurality of sensors for measuring state of charge of the battery pack and temperature in the battery pack, where the state of charge last measured is designated as current state of charge; a cooling system and cooling lines for removing heat from the battery pack; and a controller for managing the temperature in the battery pack, where the controller is configured to control the temperature in the battery pack as a function of the state of charge of the battery pack, such that the maximum allowable temperature increases as the state of charge decreases, and the controller uses the cooling system and the cooling lines to control the temperature in the battery pack. - View Dependent Claims (16, 17, 18, 19, 20)
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Specification