In-vehicle charging apparatus

The invention claimed is: 1. An in-vehicle charging apparatus that charges a high voltage battery and a low voltage battery with use of a charging cable configured to start supply of power to the in-vehicle charging apparatus based on a state of a voltage of a pulse signal preliminarily sent to the in-vehicle charging apparatus, the in-vehicle charging apparatus comprising: a charging control section that operates with power supplied from the low voltage battery, and controls the charging; a voltage drop switch whose on/off is controlled by the charging control section, the voltage drop switch being configured to reduce the voltage of the pulse signal sent by the charging cable when the voltage drop switch is in an on state; and a first switch that is turned on by a physical auxiliary charging switch and reduces the voltage of the pulse signal sent by the charging cable when the first switch is in an on state, wherein the power from the charging cable is supplied to the low voltage battery or the charging control section when the first switch is turned on. 2. The in-vehicle charging apparatus according to claim 1 further comprising: an AC/DC conversion section that converts the power from the charging cable from AC to DC; and a second switch that is turned on by the physical auxiliary charging switch to allow the power from the charging cable to be supplied to the AC/DC conversion section, wherein, when the first switch is turned on, the second switch is turned on to allow the power from the charging cable to be supplied to the AC/DC conversion section, and the AC/DC conversion section converts the power from the charging cable from AC to DC and supplies the power to the charging control section. 3. The in-vehicle charging apparatus according to claim 1 further comprising: an AC/DC conversion section that converts the power from the charging cable from AC to DC; and a second switch that is turned on by the physical auxiliary charging switch to allow the power from the charging cable to be supplied to the AC/DC conversion section, wherein, when the first switch is turned on, the second switch is turned on to allow the power from the charging cable to be supplied to the AC/DC conversion section, and the AC/DC conversion section converts the power from the charging cable from AC to DC and supplies the power to the low voltage battery that serves as a power source of the charging control section. 4. The in-vehicle charging apparatus according to claim 2 further comprising a third switch that is turned on by the physical auxiliary charging switch to prevent the power from the AC/DC conversion section from being supplied to the low voltage battery, wherein, when the first switch and the second switch are turned on, the third switch is turned off to prevent the power from the AC/DC conversion section from being supplied to the low voltage battery. 5. The in-vehicle charging apparatus according to claim 4 , wherein the physical auxiliary charging switch is configured to turn on the first switch and the second switch and turn off the third switch at a same time. 6. The in-vehicle charging apparatus according to claim 1 , wherein the charging cable is configured to start supply of power to the in-vehicle charging apparatus when it is detected that the voltage of the pulse signal is a predetermined value. 7. The in-vehicle charging apparatus according to claim 2 , wherein the second switch is a switch for turning on or off a power supply line between a connecting part of the in-vehicle charging apparatus and the AC/DC conversion section, the connecting part being fitted to a connecting part of the charging cable. 8. The in-vehicle charging apparatus according to claim 4 , wherein the third switch is a switch for turning on or off a power supply line between the low voltage battery and the charging control section.