Method for charging lithium ion secondary battery and battery charger

What is claimed is: 1. A battery charger comprising: a power conversion unit; a charge control switch and a discharge control switch each connected to the power conversion unit in series; a control circuit configured to control output of the power conversion unit; and a temperature detection unit detecting a temperature of a secondary battery, wherein: the control circuit comprises: a current-voltage switching unit; and a temperature control switching unit, the temperature control switching unit is configured to output signals for supplying output of the current-voltage switching unit to the power conversion unit in accordance with the temperature, the signals comprise: a first signal for permitting constant current charge, constant voltage charge, and discharge, when the temperature is lower than 40° C.; a second signal for prohibiting constant voltage charge and permitting constant current charge and discharge, when the temperature is 40° C. or higher and lower than 60° C.; a third signal for prohibiting constant voltage charge and constant current charge and permitting discharge, when the temperature is 60° C. or higher and lower than 90° C.; and a fourth signal for prohibiting constant voltage charge, constant current charge, and discharge, when the temperature is higher than 90° C., and the control circuit is configured to determine whether charging in accordance with the temperature, and to shift from constant current charge to constant voltage charge when a voltage of the secondary battery reaches a given value during charging. 2. The battery charger according to claim 1 , wherein the secondary battery comprises a positive electrode comprising a positive electrode active material layer containing lithium iron phosphate, a negative electrode comprising a negative electrode active material layer containing graphite, and an electrolyte comprising a lithium salt and a solvent comprising ethylene carbonate and diethyl carbonate between the positive electrode and the negative electrode. 3. The battery charger according to claim 1 , wherein the temperature detection unit is a thermistor. 4. The battery charger according to claim 1 , wherein the power conversion unit supplies electric power from an electric power supply portion as constant current or constant voltage. 5. The battery charger according to claim 2 , wherein the positive electrode active material layer covered with single-layer graphene and multilayer graphene including two to hundred layers. 6. A battery charger comprising: a power conversion unit; a charge control switch and a discharge control switch each connected to the power conversion unit in series; a control circuit configured to control output of the power conversion unit; and a temperature detection unit detecting a temperature of an environment in which a secondary battery is used, wherein: the control circuit comprises: a current-voltage switching unit; and a temperature control switching unit, the temperature control switching unit is configured to output signals for supplying output of the current-voltage switching unit to the power conversion unit in accordance with the temperature, the signals comprise: a first signal for permitting constant current charge, constant voltage charge, and discharge, when the temperature is lower than 40° C.; a second signal for prohibiting constant voltage charge and permitting constant current charge and discharge, when the temperature is 40° C. or higher and lower than 60° C.; a third signal for prohibiting constant voltage charge and constant current charge and permitting discharge, when the temperature is 60° C. or higher and lower than 90° C.; and a fourth signal for prohibiting constant voltage charge, constant current charge, and discharge, when the temperature is higher than 90° C., and the control circuit is configured to determine whether charging in accordance with the temperature, and to shift from constant current charge to constant voltage charge when a voltage of the secondary battery reaches a given value during charging. 7. The battery charger according to claim 6 , wherein the secondary battery comprises a positive electrode comprising a positive electrode active material layer containing lithium iron phosphate, a negative electrode comprising a negative electrode active material layer containing graphite, and an electrolyte comprising a lithium salt and a solvent comprising ethylene carbonate and diethyl carbonate between the positive electrode and the negative electrode. 8. The battery charger according to claim 6 , wherein the temperature detection unit is a thermistor. 9. The battery charger according to claim 6 , wherein the power conversion unit supplies electric power from an electric power supply portion as constant current or constant voltage. 10. The battery charger according to claim 7 , wherein the positive electrode active material layer covered with single-layer graphene and multilayer graphene including two to hundred layers. 11. A battery charger comprising: a power conversion unit; a charge control switch and a discharge control switch each connected to the power conversion unit in series; a control circuit configured to control output of the power conversion unit; and a temperature detection unit detecting a temperature of a second battery, wherein: the control circuit comprises: a current-voltage switching; and temperature control switching unit, the temperature control switching unit is configured to output signals for supplying output of the current-voltage switching unit to the power conversion unit in accordance with the temperature, the signals comprise: a first signal for permitting constant current charge, constant voltage charge, and discharge, when the temperature is lower than T 1 , T 1 being lower than 40° C.; a second signal for prohibiting constant voltage charge and permitting constant current charge and discharge, when the temperature is T 1 or higher and lower than T 2 , T 2 being T 1 or higher and lower than 60° C.; a third signal for prohibiting constant voltage charge and constant current charge and permitting discharge, when the temperature is T 2 or higher and lower than T 3 , T 3 being higher than T 2 ; and a fourth signal for prohibiting constant voltage charge, constant current charge, and discharge, when the temperature is higher than T 3 , and the control circuit is configured to determine whether charging in accordance with the temperature, and to shift from constant current charge to constant voltage charge when a voltage of the secondary battery reaches a given value during charging. 12. The battery charger according to claim 11 , wherein the secondary battery comprises a positive electrode comprising a positive electrode active material layer containing lithium iron phosphate, a negative electrode comprising a negative electrode active material layer containing graphite, and an electrolyte comprising a lithium salt and a solvent comprising ethylene carbonate and diethyl carbonate between the positive electrode and the negative electrode. 13. The battery charger according to claim 11 , wherein the temperature detection unit is a thermistor. 14. The battery charger according to claim 11 , wherein the power conversion unit supplised electric power from an electric power supply portion as constant current or constant voltage. 15. The battery charger according to claim 12 , wherein the positive electrode active material layer covered with single-layer graphene and multilayer graphene including two to hundred layers.