Battery management system with over-discharge detection and warning, battery pack comprising the same, and method for protecting a battery from over-discharge

What is claimed is: 1. A battery management system comprising: a recognition unit configured to determine that a battery is in a non-use state if the battery is not in use for a period of time and to generate a recognition signal, wherein the recognition unit is configured to determine that a battery is in the non-use state if the battery current is below a threshold; a timer configured to receive the recognition signal from the recognition unit and provide elapsed time of the non-use state of the battery, wherein the elapsed time of the non-use state includes an elapsed time of neglect after receiving the recognition signal; a detection unit directly connected to at least the recognition unit and the battery, the detection unit configured to receive the recognition signal and to detect a battery voltage, the battery current and a battery temperature of the battery while the battery is in the non-use state; an indicating unit configured to compare the battery voltage detected by the detection unit with an over-discharge reference voltage and, if the battery voltage is less than the over-discharge reference voltage, to generate a warning signal and communicate the elapsed time of the non-use state of the battery, the battery voltage, the battery current and the battery temperature to a display; and a memory unit configured to store the battery voltage, the battery current the battery temperature and the elapsed time of the non-use state of the battery, wherein the memory unit is directly connected to the detection unit. 2. The battery management system of claim 1 , wherein the indicating unit further comprises a display configured to generate a visible indication of the warning signal. 3. The battery management system of claim 1 , wherein the indicating unit further comprises a speaker configured to generate an audible indication of the warning signal. 4. The battery management system of claim 1 , wherein the recognition unit is configured to determine that a battery is in the non-use state if the battery is not connected to an external system, wherein the external system comprises a clock terminal and a data terminal to communicate with the battery, wherein the recognition signal is generated based on the battery not being connected to the clock terminal and data terminal. 5. The battery management system of claim 1 , wherein the over-discharge reference voltage is set to be a value greater than a predetermined minimum over-discharge voltage. 6. A battery pack comprising: a battery including at least one battery cell; and a battery management unit configured to identify a non-use state of the battery if the battery is not used for a period of time, wherein the battery management unit comprises: a recognition unit configured to determine that a battery is in a non-use state if the battery is neither being charged nor discharged for a period of time and to generate a recognition signal, wherein the recognition unit is configured to determine that a battery is in the non-use state if the battery current is below a threshold; a timer configured to receive the recognition signal from the recognition unit and provide elapsed time of the non-use state of the battery, wherein the elapsed time of the non-use state includes an elapsed time of neglect after receiving the recognition signal; a detection unit directly connected to at least the recognition unit and the battery, the detection unit configured to receive the recognition signal and to detect a battery voltage, the battery current and a battery temperature of the battery while the battery is in the non-use state; an indicating unit configured to compare the battery voltage detected by the detection unit with an over-discharge reference voltage and, if the battery voltage is less than the over-discharge reference voltage, to generate an over-discharge warning signal and communicate the elapsed time of the non-use state of the battery, the battery voltage, the battery current and the battery temperature to a display; and a memory unit configured to store the battery voltage, the battery current, the battery temperature and the elapsed time of the non-use state of the battery, wherein the memory unit is directly connected to the detection unit. 7. The battery pack of claim 6 , wherein the indicating unit further comprises a display configured to generate a visible indication of the warning signal. 8. The battery pack of claim 6 , wherein the indicating unit further comprises a speaker configured to generate an audible indication of the warning signal. 9. The battery pack of claim 6 , wherein the recognition unit is configured to determine that a battery is in the non-use state if the battery is not connected to an external system. 10. A method of protecting a battery, the method comprising: determining that a battery is not in use as a result of the battery current being below a threshold; while a battery is not in use for more than a predetermined period of time, detecting a battery voltage, a battery current and a battery temperature of the battery; if determining that the battery is not in use, providing elapsed time of the non-use state of the battery, wherein the elapsed time of the non-use state includes an elapsed time of neglect after determining the battery is not in use; setting an over-discharge reference voltage to be a value greater than a predetermined minimum over-discharge voltage for the battery; comparing the battery voltage with the over-discharge reference voltage; and, if the battery voltage is less than the over-discharge reference voltage, generating a warning signal and communicating the elapsed time of the non-use state of the battery, the battery voltage, the battery current and the battery temperature to a display. 11. The method of claim 10 , further comprising storing the battery voltage and a duration of non-use in a memory. 12. The method of claim 10 , further comprising generating a visible indication of the warning signal. 13. The method of claim 10 , further comprising generating an audible indication of the warning signal. 14. The method of claim 10 , further comprising determining that a battery is not in use as a result of the battery not being connected to an external system.