Battery cell assembly with a thin profile sensor

What is claimed is: 1. A battery cell assembly, comprising: a pouch-type battery cell having a housing and first and second electrical terminals extending outwardly from the housing; a thin profile sensor having a flexible plastic sheet, a microprocessor, a sensing circuit, a heat generating circuit, and a data transmitting circuit; the microprocessor being operably coupled to the sensing circuit, the heat generating circuit, and the data transmitting circuit; the microprocessor, the sensing circuit, the heat generating circuit, and the data transmitting circuit being disposed on and coupled to a first side of the flexible plastic sheet, the flexible plastic sheet further having an adhesive portion disposed on the first side on a peripheral region of the flexible plastic sheet, and adhesive portion adhering at least a portion of the first side of the flexible plastic sheet to an exterior surface of the housing of the pouch-type battery cell such that the microprocessor, the sensing circuit, and the heat generating circuit are disposed between the flexible plastic sheet and the exterior surface of the housing of the pouch-type battery cell; the microprocessor being electrically coupled to the first and second electrical terminals of the pouch-type battery cell, the first and second electrical terminals supplying an operational voltage to the microprocessor; the microprocessor being programmed to determine a first voltage value corresponding to an open circuit voltage of the pouch-type battery cell between the first and second electrical terminals; the microprocessor being further programmed to determine a second voltage value corresponding to a first voltage of the pouch-type battery cell between the first and second electrical terminals when the pouch-type battery cell is supplying electrical current through the heat generating circuit; the microprocessor being further programmed to determine a current value corresponding to an electrical current level flowing through the pouch-type battery cell when the pouch-type battery cell is supplying the electrical current through the heat generating circuit; the microprocessor being further programmed to determine an internal resistance value corresponding to an internal resistance level of the pouch-type battery cell based on the first voltage value, the second voltage value, and the current value; the microprocessor being further programmed to store the internal resistance value in a memory device; and the microprocessor being further programmed to generate a control signal to induce the data transmitting circuit to transmit a signal having a first binary message with a battery cell identifier value and the internal resistance value of the battery cell therein. 2. The battery cell assembly of claim 1 , wherein: the sensing circuit having a resistive trace having a resistance level that varies based on a temperature level of the pouch-type battery cell; the sensing circuit configured to generate an output voltage that is indicative of a temperature value of the pouch-type battery cell, the temperature value indicating a temperature level of the pouch-type battery cell; and the microprocessor being further programmed to determine the temperature value of the pouch-type battery cell based on the output voltage. 3. The battery cell assembly of claim 2 , wherein the resistive trace being disposed on the first side of the flexible plastic sheet. 4. The battery cell assembly of claim 2 , wherein: the microprocessor being further programmed to determine a state-of-charge value corresponding to a state-of-charge of the pouch-type battery cell based on the internal resistance value and the temperature value; and the microprocessor being further programmed to store the state-of-charge value in the memory device. 5. The battery cell assembly of claim 4 , wherein the first binary message further includes the state-of-charge value of the pouch-type battery cell therein. 6. The battery cell assembly of claim 4 , wherein the heat generating circuit further includes a heating element trace disposed on the flexible plastic sheet, the heating element trace being electrically coupled to the microprocessor. 7. The battery cell assembly of claim 6 , wherein the microprocessor is further programmed to generate a control voltage to induce the heat generating circuit to supply electrical current to the heating element trace if the state-of-charge value of the pouch-type battery cell is greater than a state-of-charge threshold value. 8. The battery cell assembly of claim 7 , wherein the microprocessor is further programmed to stop generating the control voltage to induce the heat generating circuit to stop supplying the electrical current to the heating element trace if the state-of-charge value of the pouch-type battery cell is less than or equal to the state-of-charge threshold value. 9. The battery cell assembly of claim 8 , wherein the thin profile sensor further includes a data receiving circuit coupled to the flexible plastic sheet, the data receiving circuit configured to receive a signal having a second binary message therein from an external battery control module, and to output a voltage signal having the first binary message in response to the signal from the external battery control module, the second binary message indicating the state-of-charge threshold value, and the first binary message being received by the microprocessor. 10. The battery cell assembly of claim 1 , wherein the microprocessor is coupled directly to the first side of the flexible plastic sheet. 11. The battery cell assembly of claim 1 , wherein the microprocessor is coupled directly to a circuit board, the circuit board being coupled directly to the first side of the flexible plastic sheet. 12. The battery cell assembly of claim 1 , wherein the housing of the pouch-type battery cell is a pouch-type housing. 13. A battery cell assembly, comprising: a pouch-type battery cell having a pouch-type housing and first and second electrical terminals extending outwardly from the pouch-type housing; a thin profile sensor having a flexible plastic sheet, a microprocessor, a sensing circuit, a heat generating circuit, and a data transmitting circuit; the microprocessor being operably coupled to the sensing circuit, the heat generating circuit, and the data transmitting circuit; the microprocessor, the sensing circuit, the heat generating circuit, and the data transmitting circuit being disposed on and coupled to the flexible plastic sheet, the flexible plastic sheet being disposed on and coupled to an exterior surface of the pouch-type housing of the pouch-type battery cell; the sensing circuit having a resistive trace disposed directly on and coupled to the flexible plastic sheet, the resistive trace having at least first and second resistive trace portions spaced apart from one another, the sensing circuit generating a first voltage indicative of a temperature level of the pouch-type battery cell; the heat generating circuit having a heating element trace being disposed directly on and coupled to the flexible plastic sheet, the heating element trace having at least first and second heating element trace portions spaced apart from one another, the first resistive trace portion being disposed between the first and second heating element trace portions on the flexible plastic sheet, the heating element trace being electrically coupled to the microprocessor; the microprocessor being electrically coupled to the first and second electrical terminals of the pouch-type battery cell, the first and second electrical terminals supplying an operational voltage to the mic