Voltage detecting apparatus

What is claimed is: 1 . A voltage detecting apparatus that detects a detection voltage generated in a detected object which is covered by an insulator, the voltage detecting apparatus comprising: a detection electrode that is disposed so as to contact the insulator directly, or indirectly via another insulator; a vibrator that causes the insulator to vibrate; a current-to-voltage converter circuit that converts a detection current to a detection voltage signal, the detection current flowing from the detected object via the detection electrode to a reference voltage in a state where the insulator is being caused to vibrate, having an amplitude that is modulated in accordance with a potential difference between the detection voltage and the reference voltage, and being synchronized with vibration of the vibrator; and a detector circuit that detects a detection output indicating the potential difference from the detection voltage signal. 2 . The voltage detecting apparatus according to claim 1 , wherein the detector circuit detects the detection output by detecting the detection voltage signal in synchronization with a synchronization signal that is synchronized with the detection voltage signal. 3 . The voltage detecting apparatus according to claim 1 , wherein the current-to-voltage converter circuit includes an operational amplifier whose first input terminal is set at the reference voltage, whose second input terminal is connected to the detection electrode, which has a feedback circuit connected between the second input terminal and an output terminal, and which converts the detection current flowing in the feedback circuit to the detection voltage signal. 4 . The voltage detecting apparatus according to claim 2 , wherein the current-to-voltage converter circuit includes an operational amplifier whose first input terminal is set at the reference voltage, whose second input terminal is connected to the detection electrode, which has a feedback circuit connected between the second input terminal and an output terminal, and which converts the detection current flowing in the feedback circuit to the detection voltage signal. 5 . The voltage detecting apparatus according to claim 1 , further comprising a case which is formed of an insulating material and inside which the detection electrode, the vibrator, the current-to-voltage converter circuit, and the detector circuit are disposed, wherein the detection electrode is disposed on an inner surface of a wall portion, out of a plurality of wall portions that construct the case, whose outer surface is placed in contact with the insulator with the wall portion as the other insulator, and the vibrator is fixed to an inner surface of one wall portion out of the plurality of wall portions and causes the case to vibrate. 6 . The voltage detecting apparatus according to claim 2 , further comprising a case which is formed of an insulating material and inside which the detection electrode, the vibrator, the current-to-voltage converter circuit, and the detector circuit are disposed, wherein the detection electrode is disposed on an inner surface of a wall portion, out of a plurality of wall portions that construct the case, whose outer surface is placed in contact with the insulator with the wall portion as the other insulator, and the vibrator is fixed to an inner surface of one wall portion out of the plurality of wall portions and causes the case to vibrate. 7 . The voltage detecting apparatus according to claim 3 , further comprising a case which is formed of an insulating material and inside which the detection electrode, the vibrator, the current-to-voltage converter circuit, and the detector circuit are disposed, wherein the detection electrode is disposed on an inner surface of a wall portion, out of a plurality of wall portions that construct the case, whose outer surface is placed in contact with the insulator with the wall portion as the other insulator, and the vibrator is fixed to an inner surface of one wall portion out of the plurality of wall portions and causes the case to vibrate. 8 . The voltage detecting apparatus according to claim 4 , further comprising a case which is formed of an insulating material and inside which the detection electrode, the vibrator, the current-to-voltage converter circuit, and the detector circuit are disposed, wherein the detection electrode is disposed on an inner surface of a wall portion, out of a plurality of wall portions that construct the case, whose outer surface is placed in contact with the insulator with the wall portion as the other insulator, and the vibrator is fixed to an inner surface of one wall portion out of the plurality of wall portions and causes the case to vibrate. 9 . The voltage detecting apparatus according to claim 1 , further comprising a shield member that covers the detection electrode, the vibrator, the current-to-voltage converter circuit, and the detector circuit. 10 . A voltage detecting apparatus that detects a detection voltage generated in a detected object which is covered by an insulator, the voltage detecting apparatus comprising: a detection electrode that is disposed so as to contact the insulator directly, or indirectly via another insulator; an ultrasonic excitation unit that applies a static magnetic field to the detected object and generates an eddy current at an application position of the static magnetic field on the detection object to induce ultrasound in the detected object in a direction that intersects a surface of the application position; a current-to-voltage converter circuit that converts a detection current to a detection voltage signal, the detection current flowing from the detected object via the detection electrode to a reference voltage in a state where the ultrasound is being induced in the detected object, having an amplitude that is modulated in accordance with a potential difference between the detection voltage and the reference voltage, and being synchronized with the ultrasound; and a detector circuit that detects a detection output indicating the potential difference from the detection voltage signal. 11 . The voltage detecting apparatus according to claim 10 , wherein the ultrasonic excitation unit includes a magnet which generates the static magnetic field and applies the static magnetic field to the detected object to generate a static magnetic field along the surface on an inside of the detected object at the application position, and a coil that generates the eddy current in the detected object based on a supplied alternating current, and induces the ultrasonic that vibrates in a direction perpendicular to the surface of the application position. 12 . The voltage detecting apparatus according to claim 11 , wherein the magnet includes: a first magnet that has the coil disposed in a vicinity of a magnetic pole on an application position side; and a second magnet and a third magnet that are disposed so as to sandwich the first magnet and have magnetic poles on an application position side polarized to a different polarity to the magnetic pole of the first magnet. 13 . The voltage detecting apparatus according to claim 10 , wherein the detector circuit detects the detection output by detecting the detection voltage signal in synchronization with a synchronization signal that is synchronized with the detection voltage signal. 14 . The voltage detecting apparatus according to claim 11 , wherein the detector circuit detects the detection output by detecting the detection voltage signal in synchronization with a synchroniz