| CPC B41J 2/0457 (2013.01) [B41J 2/04541 (2013.01); B41J 2/0455 (2013.01); B41J 2/04581 (2013.01)] | 11 Claims |
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1. A liquid discharge apparatus comprising:
a liquid discharge head that includes a capacitive load driven by being supplied with a drive signal and discharges a liquid by driving the capacitive load; and
a capacitive load drive circuit that outputs the drive signal, wherein
the capacitive load drive circuit includes
a modulation circuit that outputs a modulation signal obtained by modulating a base drive signal which is a base of the drive signal,
an amplification circuit that outputs an amplified modulation signal obtained by amplifying the modulation signal to a first output point,
a level shift circuit that outputs a level shift amplified modulation signal obtained by level-shifting a reference potential of the amplified modulation signal to a second output point, and
a demodulation circuit that outputs the drive signal by demodulating the level shift amplified modulation signal,
the amplification circuit includes
a first gate drive circuit that outputs a first gate signal and a second gate signal based on the modulation signal,
a first transistor that has one end supplied with a first voltage signal and the other end electrically coupled to the first output point, and operates based on the first gate signal, and
a second transistor that has one end electrically coupled to the first output point and the other end supplied with a second voltage signal, and operates based on the second gate signal,
the level shift circuit includes
a bootstrap circuit that has a capacitor, receives input of a third voltage signal and the amplified modulation signal, and outputs a fourth voltage signal corresponding to the third voltage signal and the amplified modulation signal,
a voltage detection circuit that detects a voltage value of the capacitor,
a second gate drive circuit that outputs a third gate signal and a fourth gate signal based on the base drive signal,
a third transistor that has one end supplied with the fourth voltage signal and the other end electrically coupled to the second output point, and operates based on the third gate signal, and
a fourth transistor that has one end electrically coupled to the second output point and the other end supplied with the amplified modulation signal, and operates based on the fourth gate signal,
the level shift circuit includes
a first mode in which the level shift amplified modulation signal having the reference potential of the amplified modulation signal as a first potential is output by controlling the third transistor to be non-conductive and the fourth transistor to be conductive, and
a second mode in which the level shift amplified modulation signal obtained by level-shifting the reference potential of the amplified modulation signal to a second potential higher than the first potential is output by controlling the third transistor to be conductive and the fourth transistor to be non-conductive, and
in the level shift circuit, when transitioning from the first mode to the second mode,
the second gate drive circuit executes a first control of outputting the third gate signal for controlling the third transistor to be conductive and the fourth gate signal for controlling the fourth transistor to be non-conductive from a state where the third gate signal for controlling the third transistor to be non-conductive and the fourth gate signal for controlling the fourth transistor to be conductive are output, and
after the first control, the second gate drive circuit executes, one or a plurality of times according to the voltage value of the capacitor detected by the voltage detection circuit, a second control of outputting the third gate signal for controlling the third transistor to be non-conductive and the fourth gate signal for controlling the fourth transistor to be conductive, and then, outputting the third gate signal for controlling the third transistor to be conductive and the fourth gate signal for controlling the fourth transistor to be non-conductive.
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