Power supply apparatus, protection apparatus, and protection method

The invention claimed is: 1. A power supply apparatus comprising: a plurality of battery modules that each include a battery and a switch and that are connected in parallel to each other; a voltage detecting unit that detects a voltage of each of the batteries; and a controlling unit that when the voltage detected by the voltage detecting unit is equal to or greater than a first threshold, determines that a voltage detection line between a focused-on battery and the voltage detecting unit has been broken, when the voltage detected by the voltage detecting unit is less than the first threshold and is equal to or greater than a second threshold that is less than the first threshold, determines that the focused-on battery has been overcharged, when the voltage detected by the voltage detecting unit is equal to or less than a third threshold that is less than the second threshold, and is equal to or greater than a fourth threshold that is less than the third threshold, determines that the focused-on battery has been overdischarged, when the voltage detected by the voltage detecting unit is less than the fourth threshold, determines that the voltage detection line between the focused-on battery and the voltage detecting unit has been broken, when the controlling unit has determined that the voltage detection line between the focused-on battery and the voltage detecting unit has been broken, controls operations of each of the switches so as to separate a battery module that includes the voltage detection line from the power supply apparatus, and when the controlling unit has determined that the focused-on battery has been overcharged or overdischarged, limits power input to, or output from, every battery module, wherein when the voltage detected by the voltage detecting unit is equal to or greater than a fifth threshold that is less than the first threshold and that is greater than the second threshold, and is less than the first threshold, the controlling unit controls operations of each of the switches so as to separate all of the battery modules from the power supply apparatus, when the voltage detected by the voltage detecting unit is equal to or greater than the second threshold and is less than the fifth threshold, the controlling unit decrease a value of a maximum input/output of the power supply apparatus, when the voltage detected by the voltage detecting unit is equal to or less than a sixth threshold that is less than the third threshold and that is greater than the fourth threshold, and is equal to or greater than the fourth threshold, the controlling unit controls operations of each of the switches so as to separate all of the battery modules from the power supply apparatus, and when the voltage detected by the voltage detecting unit is equal to or less than the third threshold and is greater than the sixth threshold, the controlling unit decrease a value of a maximum input/output of the power supply apparatus. 2. The power supply apparatus according to claim 1 , wherein when the controlling unit has determined that the focused-on battery has been overcharged or overdischarged, the controlling unit controls operations of each of the switches so as to separate all of the battery modules from the power supply apparatus, or limits a current flowing through every battery module. 3. The power supply apparatus according to claim 1 , wherein when the controlling unit has determined that the voltage detection line has been broken, the controlling unit does not determine whether the focused-on battery has been overcharged or whether it has been overdischarged. 4. The power supply apparatus according to claim 1 , wherein each of the battery modules includes a plurality of said batteries connected in series to each other, and when the controlling unit has determined that a voltage detection line between any of the batteries and the voltage detecting unit has been broken, the controlling unit does not determine whether the focused-on battery has been overcharged or whether it has been overdischarged. 5. A protection apparatus that protects a power supply apparatus that includes a plurality of battery modules that each include a battery and a switch, by separating, from the power supply apparatus, a battery module in which an abnormality has occurred from among the plurality of battery modules, the protection apparatus comprising: a voltage detecting unit that detects a voltage of each of the batteries; and a controlling unit that when the voltage detected by the voltage detecting unit is equal to or greater than a first threshold, determines that a voltage detection line between a focused-on battery and the voltage detecting unit has been broken, when the voltage detected by the voltage detecting unit is less than the first threshold and is equal to or greater than a second threshold that is less than the first threshold, determines that the focused-on battery has been overcharged, when the voltage detected by the voltage detecting unit is equal to or less than a third threshold that is less than the second threshold, and is equal to or greater than a fourth threshold that is less than the third threshold, determines that the focused-on battery has been overdischarged, when the voltage detected by the voltage detecting unit is less than the fourth threshold, determines that the voltage detection line between the focused-on battery and the voltage detecting unit has been broken, when the controlling unit has determined that the voltage detection line between the focused-on battery and the voltage detecting unit has been broken, controls operations of each of the switches so as to separate a battery module that includes the voltage detection line from the power supply apparatus, and when the controlling unit has determined that the focused-on battery has been overcharged or overdischarged, limits power input to, or output from, every battery module, and wherein when the voltage detected by the voltage detecting unit is equal to or greater than a fifth threshold that is less than the first threshold and that is greater than the second threshold, and is less than the first threshold, the controlling unit controls operations of each of the switches so as to separate all of the battery modules from the power supply apparatus, when the voltage detected by the voltage detecting unit is equal to or greater than the second threshold and is less than the fifth threshold, the controlling unit decrease a value of a maximum input/output of the power supply apparatus, when the voltage detected by the voltage detecting unit is equal to or less than a sixth threshold that is less than the third threshold and that is greater than the fourth threshold, and is equal to or greater than the fourth threshold, the controlling unit controls operations of each of the switches so as to separate all of the battery modules from the power supply apparatus, and when the voltage detected by the voltage detecting unit is equal to or less than the third threshold and is greater than the sixth threshold, the controlling unit decrease a value of a maximum input/output of the power supply apparatus. 6. A protection method for protecting a power supply apparatus that includes a plurality of battery modules that each include a battery and a switch, by separating, from the power supply apparatus, a battery module in which an abnormality has occurred from among the plurality of battery modules, the protection method comprising: by using a controlling unit that controls operations of the switches, and when a voltage detected by a voltage detecting unit is equal to or greater than a first threshold, determining that a voltage detection line between a focused-on battery and the voltage detecting unit has been broken;