Patent ID: 9475283
Filing Date: 2016-10-25
CPC Classification: B41J

Claim Text:
1. A liquid discharging apparatus comprising: a modulation portion that generates a modulation signal obtained by pulse-modulating a source signal; an amplifier that includes a first gate driver generating a first amplification control signal based on the modulation signal, a second gate driver generating a second amplification control signal based on the modulation signal, a first transistor operating based on the first amplification control signal, a second transistor connected to the first transistor on a low-potential side in series and operating based on the second amplification control signal, a connection node electrically connecting the first transistor and the second transistor, a capacitive element electrically connected to the first gate driver on a high-potential side, a rectifying element provided between the second gate driver on the high-potential side and the capacitive element, and a power source circuit supplying power to the second gate driver and supplying power to the capacitive element via the rectifying element; an operation control portion that controls operations of the first gate driver and the second gate driver; a low-pass filter that generates a driving signal by demodulating an amplification modulation signal generated based on operations of the first transistor and the second transistor; a piezoelectric element that is displaced by applying the driving signal; a cavity of which an inside is filled with a liquid and an internal volume is changed by displacement of the piezoelectric element; and a nozzle that communicates with the cavity and discharges the liquid on the inside of the cavity as liquid droplets in accordance with the change in the internal volume of the cavity, wherein when stopping an amplification operation of the amplifier, the operation control portion allows the first gate driver to generate the first amplification control signal so as to make the first transistor be in a non-conductive state in which a current does not flow through the first transistor, and the second gate driver to generate the second amplification control signal of which a voltage is lower than a maximum voltage of the second amplification control signal if the amplification operation of the amplifier is not stopped so as to make the second transistor be in a conductive state in which the current flows through the second transistor.