A battery pack assembly for providing electric power to a load includes a battery pack, preferably made up of a plurality of lithium ion cells. A heating device formed of a flexible material flexes and covers at least part of the battery pack. The heating device includes a meandering heating strip.
A battery pack assembly for providing electric power to a load includes a battery pack, preferably made up of a plurality of lithium ion cells. A heating device formed of a flexible material flexes and covers at least part of the battery pack. The heating device includes a meandering heating strip. A thermal sensor is surrounded by the heating strip to sense the temperature of the battery pack. Electric current is applied to the heating strip to heat the battery pack when its temperature falls too low, thus improving performance of the battery pack. The heating device also includes a plurality of tabs extending beyond the peripheral sides of the heating device for direct connection to the cells. Thus, electric current for the heating strip is provided directly from the cells of the battery pack.
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1. A device for adjusting a temperature of a battery pack, the device comprising: a first flexible non-conductive body defining a plurality of peripheral sides and a stub at one of the plurality of peripheral sides;a flexible conductive heating strip positioned upon the first flexible non-conductive
1. A device for adjusting a temperature of a battery pack, the device comprising: a first flexible non-conductive body defining a plurality of peripheral sides and a stub at one of the plurality of peripheral sides;a flexible conductive heating strip positioned upon the first flexible non-conductive body, the heating strip operable to generate heat when an electric current is applied thereto;a thermal sensor positioned upon the first flexible non-conductive body and surrounded by the heating strip on at least two sides of the thermal sensor, the thermal sensor operable to sense temperature when an electric current is applied thereto;at least one connection pad positioned upon the first flexible non-conductive body, the at least one connection pad capable of receiving electric current;at least one conductive connection tab coupled to the at least one connection pad and extending beyond at least one of the plurality of peripheral sides, the at least one conductive connection tab capable of electrical connection to an external power source; anda first flexible conductive trace positioned upon the first flexible non-conductive body, the first conductive trace coupled to the at least one connection pad and terminating at the stub, the first conductive trace capable of transmitting electric current received by the at least one connection pad from the external power source to the stub. 2. The device of claim 1, wherein the first flexible non-conductive body is sized and shaped to overlap at least a portion of a battery pack. 3. The device of claim 1, wherein the first flexible non-conductive body comprises a material selected from the group consisting of a polyamid and a polyester. 4. The device of claim 1, wherein the heating strip terminates at the stub. 5. The device of claim 1, further comprising: a second flexible conductive trace positioned upon the first flexible non-conductive body, the second conductive trace coupled to the heating strip and terminating at the stub, wherein electric current from the first conductive trace is provided to the second conductive trace by way of a printed circuit board coupled to the stub, wherein said electric current causes the heating strip to generate heat. 6. The device of claim 1, further comprising: a third flexible conductive trace positioned upon the first flexible non-conductive body, the third conductive trace coupled to the thermal sensor and terminating at the stub, wherein electric current from the first conductive trace is provided to the third conductive trace by way of a printed circuit board coupled to the stub, wherein said electric current causes the thermal sensor to operate to sense temperature. 7. The device of claim 1, further comprising: a second flexible non-conductive body positioned upon the heating strip opposite the first flexible non-conductive body, wherein the first flexible non-conductive body and the second flexible nonconductive body encapsulate the heating strip therein. 8. The device of claim 1, wherein the stub is sized and shaped for connection to a printed circuit board. 9. The device of claim 1, wherein the first conductive trace comprises a material selected from the group consisting of silver, gold, copper, and aluminum. 10. The device of claim 1, wherein the thermal sensor comprises a resistive temperature sensor. 11. The device of claim 1, wherein the external power source comprises at least one cell of a battery pack positioned relative to the device, and wherein the at least one connection pad and the at least one conductive connection tab are used to measure a voltage of one or more cells of the battery pack or the battery pack as a whole. 12. The device of claim 1, wherein when the device is positioned relative to a battery pack, the device is capable of increasing the temperature of the battery pack. 13. The device of claim 1, wherein when the device is positioned relative to a battery pack, the device is capable of maintaining the temperature of the battery pack. 14. The device of claim 1, wherein the external power source comprises at least one cell of a battery pack positioned relative to the device, the at least one cell being electrically coupled to the heating strip through the conductive connection tab. 15. The device of claim 14, wherein electric current from the at least one cell causes the heating strip to generate heat to increase the temperature of the battery pack. 16. The device of claim 15, wherein the electric current from the at least one cell is ultimately provided to the heating strip based upon a temperature sensed by the thermal sensor. 17. The device of claim 16, wherein the thermal sensor is positioned generally adjacent to a center of the battery pack positioned relative to the device. 18. A device for adjusting a temperature of a battery pack, the device comprising: a first flexible non-conductive body defining a plurality of peripheral sides and a stub at one of the plurality of peripheral sides;a flexible conductive heating strip supported by the first flexible non-conductive body, the heating strip operable to generate heat when an electric current is applied thereto;a thermal sensor supported by the first flexible non-conductive body and surrounded by the heating strip on at least two sides of the thermal sensor, the thermal sensor operable to sense temperature when an electric current is applied thereto;at least one connection pad supported by the first flexible non-conductive body, the at least one connection pad capable of receiving electric current;at least one conductive connection tab coupled to the at least one connection pad and extending beyond at least one of the plurality of peripheral sides, the at least one conductive connection tab capable of electrical connection to an external power source; anda first flexible conductive trace supported by the first flexible non-conductive body, the first conductive trace coupled to the at least one connection pad and terminating at the stub, the first conductive trace capable of transmitting electric current received by the at least one connection pad from the external power source to the stub.
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