Battery pack

What is claimed is: 1. A battery pack configured to be attachable to a charger and electrically-powered equipment, the battery pack comprising: a battery that is configured to be chargeable by the charger; a control unit that is configured to monitor a state of the battery to control charges to the battery and discharges from the battery; a power supply circuit that is configured to receive electric power selectively from one of the battery and the charger, and generate a voltage for driving the control unit; and a switch that is provided on a power supply path between the battery and the power supply circuit, the switch configured to be turned on or off by the control unit to thereby connect or disconnect the power supply path, wherein the control unit is further configured to turn off the switch thereby to select the charger as a power supply source to the power supply circuit at least in a case where the battery is not in an overdischarged state and the battery pack is attached to the charger. 2. The battery pack according to claim 1 , wherein the control unit is configured (i) to turn off the switch thereby to select the charger as the power supply source to the power supply circuit in a case where the battery is not in the overdischarged state and a predetermined time elapses since the battery pack is attached to the charger, and (ii) to turn on the switch thereby to select the battery as the power supply source to the power supply circuit in a case where the battery is not in the overdischarged state and the predetermined time does not elapse since the battery pack is attached to the charger. 3. The battery pack according to claim 1 , wherein the control unit is configured to determine whether or not the charger has failed and to turn on the switch thereby to select the battery as the power supply source to the power supply circuit when determining that the charger has failed. 4. The battery pack according to claim 3 further comprising a current detection unit configured to detect a current flowing between the battery and the charger, wherein the control unit is configured to output to the charger a charge permission signal that permits the charger to charge the battery, and to determine that the charger has failed when the current is not detected by the current detection unit after the charge permission signal is outputted from the control unit. 5. The battery pack according to claim 3 further comprising a current detection unit configured to detect a current flowing between the battery and the charger, wherein the control unit is configured to output to the charger a charge stop signal that instructs the charger to stop charging of the battery, and to determine that the charger has failed when the current is detected by the current detection unit after the charge stop signal is outputted from the control unit. 6. The battery pack according to claim 1 , wherein the control unit is configured to turn on the switch thereby to select the battery as the power supply source to the power supply circuit, when power supply to the power supply circuit from the charger is not available. 7. The battery pack according to claim 6 , wherein the control unit is configured to turn off the switch thereby to cut off the power supply path when power supply to the power supply circuit from the charger is not available and an output voltage from the battery is smaller than a predetermined overdischarge determination voltage for determining whether or not the battery is in the overdischarged state.