Patent ID: 7501738

Claim:
A piezoelectric transducer drive circuit to drive a piezoelectric transducer boosting an alternating voltage applied intermittently to a pair of primary electrodes and outputting the boosted alternating voltage from a secondary electrode, the piezoelectric transducer drive circuit comprising: a detection circuit to detect a signal indicating a state of a load connected to the secondary electrode and to output one of a peak voltage and an average voltage thereof; an error amplification circuit to compare the output voltage of the detection circuit with an error reference voltage and to output a voltage according to a difference therebetween; and a voltage-controlled oscillator controlled by the output voltage of the error amplification circuit and arranged to generate a clock determining a frequency of the alternating voltage applied to said primary electrodes, wherein said error amplification circuit controls the voltage-controlled oscillator such that, when a voltage-applying operation is stopped in an intermittent operation and thereafter the voltage-applying operation is started, said frequency of the alternating voltage is always gradually reduced from a high point and stabilized and wherein the error amplification circuit includes: a differential operational amplifier to compare the output voltage of the detection circuit supplied to one input terminal via a resistor with the error reference voltage supplied to the other input terminal, to amplify a differential voltage, and to output the amplified differential voltage; a variable current source controlled by the differential operational amplifier; a constant current source and a switch means connected in series with the variable current source between a power supply voltage and a ground voltage; and a capacitor having opposite ends connected to an output of the variable current source and to the one input terminal of the differential operational amplifier, wherein the switch means becomes nonconductive when the voltage-applying operation is stopped in the intermittent operation, and becomes conductive when the voltage-applying operation is performed; and wherein the error reference voltage has a first value when the voltage-applying operation is stopped in the intermittent operation, and gradually changes to a second value when the voltage-applying operation is started.