Apparatus and method for preventing overcharge of secondary battery

What is claimed is: 1. An apparatus for preventing overcharge of a cell assembly provided in a battery pack, the battery pack including at least one secondary battery, the apparatus comprising: a voltage measuring unit configured to measure a voltage across the cell assembly; a charging FET provided on a charge/discharge line electrically connecting one of a negative terminal of the cell assembly and a positive terminal of the cell assembly to one of a negative terminal of the battery pack and a positive terminal of the battery pack, the charging FET being configured to control the conduction of a charge current flowing in the charge/discharge line; a bypass resistor connected in parallel to the charging FET on a bypass line, the bypass line electrically connecting two terminals of the charging FET, and the bypass line being configured to cause the charge current to flow according to an opening/closing operation of the charging FET; and a processor configured to: be electrically connected to an external device to transmit and to receive an ignition signal from the external device, receive the voltage across the cell assembly from the voltage measuring unit, and control the opening/closing operation of the charging FET based on the voltage across the cell assembly, wherein a gate terminal of the charging FET is directly electrically connected to the processor to transmit and receive an electrical signal to/from the processor, and wherein a drain terminal of the charging FET is directly electrically connected to the negative terminal of the cell assembly. 2. The apparatus for preventing overcharge according to claim 1 , wherein the processor is configured to turn off the charging FET when the charge current charging the cell assembly flows on the charge/discharge line and the voltage across the cell assembly reaches a predetermined upper limit. 3. The apparatus for preventing overcharge according to claim 2 , wherein the processor is configured to turn on the charging FET when the charge current charging the cell assembly flows on the charge/discharge line and the voltage across the cell assembly reaches a predetermined lower limit. 4. The apparatus for preventing overcharge according to claim 3 , wherein the processor is configured to repeatedly turn off and on the charging FET when the voltage across the cell assembly reaches each of the predetermined upper limit and the predetermined lower limit while the cell assembly is charged with the charge current. 5. The apparatus for preventing overcharge according to claim 4 , wherein the voltage measuring unit is further configured to measure a voltage across the battery pack and a voltage across the bypass resistor. 6. The apparatus for preventing overcharge according to claim 5 , wherein the processor is further configured to: receive at least one of the voltage across the battery pack and the voltage across the bypass resistor from the voltage measuring unit, and control the opening/closing operation of the charging FET based on the received at least one of the voltage across the battery pack and the voltage across the bypass resistor. 7. The apparatus for preventing overcharge according to claim 6 , wherein the processor is configured to control the opening/closing operation of the charging FET so that a voltage equal to a sum of a difference between the voltage across the battery pack and the predetermined upper limit, and a voltage drop value of the cell assembly, is applied to the bypass resistor when the charging FET is turned off. 8. The apparatus for preventing overcharge according to claim 7 , wherein the processor is configured to control the opening/closing operation of the charging FET to uniformly maintain the voltage across the battery pack for a turn off period during which the charge current flows in the bypass resistor and the charging FET is turned off. 9. The apparatus for preventing overcharge according to claim 1 , wherein the charging FET includes a gate terminal, a drain terminal and a source terminal, wherein the gate terminal is configured to be electrically connected to the processor, wherein the drain terminal is configured to be electrically connected to the negative terminal of the cell assembly, and wherein the source terminal is configured to be electrically connected to the negative terminal of the battery pack. 10. The apparatus for preventing overcharge according to claim 9 , wherein the bypass resistor has a first terminal connected on the charge/discharge line connecting the negative terminal of the cell assembly to the drain terminal of the charging FET, and a second terminal connected on the charge/discharge line connecting the negative terminal of the battery pack to the source terminal of the charging FET. 11. A battery management system comprising the apparatus for preventing overcharge according to claim 1 . 12. A battery pack comprising the apparatus for preventing overcharge according to claim 1 . 13. A method for preventing overcharge of a cell assembly provided in a battery pack, the battery pack including at least one secondary battery, the method comprising: receiving, by a processor, an ignition signal from an external device; measuring a voltage across the cell assembly; receiving, by the processor, the voltage across the cell assembly measured by the step of measuring voltage, controlling, by the processor, an opening/closing operation of a charging FET based on the voltage across the cell assembly, wherein the charging FET is provided on a charge/discharge line, the charge/discharge line electrically connecting one of a negative terminal of the cell assembly and a positive terminal of the cell assembly to one of a negative terminal of the battery pack and a positive terminal of the battery pack; controlling, by the charging FET, the conduction of a charge current flowing in the charge/discharge line; and controlling, by the processor, the opening/closing operation of the charging FET to cause the charge current to flow through a bypass resistor connected in parallel to the charging FET on a bypass line, the bypass line electrically connecting two terminals of the charging FET, wherein a gate terminal of the charging FET is directly electrically connected to the processor to transmit and receive an electrical signal to/from the processor, and wherein a drain terminal of the charging FET is directly electrically connected to the negative terminal of the cell assembly. 14. The method for preventing overcharge according to claim 13 , wherein the step of controlling the opening/closing operation of the charging FET comprises repeatedly turning off and on the charging FET when the voltage across the cell assembly reaches each of a predetermined upper limit and a predetermined lower limit while the cell assembly is charged with the charge current. 15. The method for preventing overcharge according to claim 13 , wherein the step of controlling the opening/closing operation of the charging FET comprises controlling the opening/closing operation of the charging FET to uniformly maintain the voltage across the battery pack for a turnoff period during which the charge current flows in the bypass resistor and the charging FET is turned off.