Booster circuit

Abstract

A booster circuit uses a source voltage to generate a boosted voltage that is higher than the source voltage. The booster circuit has two capacitors. The two capacitors are alternately charged and discharged in response to a signal voltage applied to an input terminal. The first capacitor is discharged to boost the voltage at a boosting node, whereas the second capacitor is discharged to boost the voltage at an output terminal. Further, the booster circuit includes a control circuit. When the voltage at the input terminal changes from an “H” level to an “L” level, the control circuit supplies a voltage for discharging the first capacitor to the first capacitor after the second capacitor has been brought into a charging state. Since the voltage at the output terminal is reduced by the charging of the second capacitor, a transistor is deactivated in response to the voltage at the output terminal. As a result, the boosting node and the source voltage can be prevented from being coupled by the transistor. The voltage at the boosting node is boosted by the discharge of the first capacitor, and the output terminal and the source voltage are coupled by a transistor that is activated in response to the boosted voltage at the boosting node. It is thus possible to increase the voltage at the output terminal to the source voltage V,.