Load driving circuit

What is claimed is: 1. A load driving circuit configured to be arranged on a high side of a load for switching the load ON and OFF, comprising: an n-channel transistor configured to be connected between a power supply and the load so as to switch the load ON and OFF; and a charge pump circuit that is powered by an internal power supply that is provided within the load driving circuit and that references to a power supply voltage of the power supply, the charge pump circuit generating a gate voltage that is boosted higher than the power supply voltage of the power supply for switching the n-channel transistor ON, when the n-channel transistor is to be switched ON to turn the load ON, wherein the charge pump circuit includes: an oscillating unit including an oscillator circuit, a first inverter circuit that inverts a signal output from the oscillator circuit and outputs a first oscillation signal, and a second inverter circuit that outputs a second oscillation signal that is inverted relative to the first oscillation signal; a switching unit including a first switch and a second switch that are respectively connected to outputs of the first inverter circuit and the second inverter circuit, that respectively transmit the first oscillation signal and the second oscillation signal while the load is to be switched ON, and that respectively block the first oscillation signal and the second oscillation signal while the load is to be switched OFF; and a charge-up unit including a plurality of capacitors, the charge-up unit generating the boosted gate voltage by charging the plurality of capacitors and sequentially superimposing respective voltages generated at the plurality of capacitors in accordance with the first oscillation signal and the second oscillation signal transmitted from the switching unit. 2. The load driving circuit according to claim 1 , wherein the first switch and the second switch of the switching unit are p-channel MOSFETs that switch ON at a ground voltage of the internal power supply and switch OFF at the power supply voltage of the power supply. 3. The load driving circuit according to claim 1 , wherein the switching unit includes a third switch and a fourth switch that are respectively arranged at nodes between outputs of the first switch and the second switch and the charge-up unit and that connect the outputs of the first switch and the second switch to a ground of the load driving circuit only when the load is to be switched OFF. 4. The load driving circuit according to claim 3 , wherein the third switch and the fourth switch of the switching unit are n-channel MOSFETs that switch OFF upon receiving an input signal that switches the load ON and that switch ON upon receiving an input signal that switches the load OFF. 5. The load driving circuit according to claim 1 , wherein the oscillator circuit receives an internal ground voltage signal from the internal power supply at a ground terminal of the oscillator circuit, the internal ground voltage signal from the internal power supply being a ground voltage set by the internal power supply while the load is to be switched ON, and being changed to the power supply voltage of the power supply while the load is to be switched OFF, the oscillator circuit thereby not outputting the signal while the load is to be switched OFF. 6. The load driving circuit according to claim 1 , wherein the n-channel transistor is an n-channel MOSFET or an n-channel IGBT.