A detection circuit for detecting a clock signal includes a multiplexer, a digital-to-analog converter, a comparator, and a counter. The multiplexer outputs either a first signal or a second signal as a selection signal. The digital-to-analog converter outputs a reference voltage according to the selection signal. The comparator compares the clock signal to the reference voltage to generate a comparison signal. The counter counts a reference clock signal to generate an overflow signal, and resets the overflow signal according to the comparison signal. The overflow signal indicates the amplitude of the clock signal.

The present invention provides a differential to single-ended converter including a first input node, a second input node, an operational amplifier and a feedback circuit. The operational amplifier has a first terminal and a second terminal, wherein the first terminal of the operational amplifier receives a first signal from the first input terminal, and the second terminal of the operational amplifier receives a second signal from the second input terminal. The feedback circuit is configured to receive an output signal of the operational amplifier and generate a first feedback signal to the first terminal of the operational amplifier to reduce a swing of the first signal, and generate a second feedback signal to the second terminal of the operational amplifier to balance noises induced by the feedback circuit and inputted to the first terminal and the second terminal.

The present disclosure relates to a drain pump driving apparatus and a laundry treatment machine including the same. A drain pump driving apparatus according to an embodiment of the present disclosure includes: a converter; a voltage dropper to drop the DC voltage from the converter; an inverter module to operate based on a first voltage from the voltage dropper and to output AC voltage converted by a switching operation to a drain pump motor; a controller to operate based on a second voltage from the voltage dropper and to control the inverter module; and a voltage adjuster to adjust the level of voltage information of the motor outputted from the inverter module and to output the adjusted voltage information to the controller. Accordingly, it is possible to stably drive the drain motor.

A receiver circuit is configured to receive input signals having a first reference voltage level. The first reference voltage level is a first logical high voltage level. The receiver circuit comprises an input stage comprising a resistive voltage divider. The resistive voltage divider is configured to convert the input signals having the first reference voltage level to input signals having a second reference voltage level. The second reference voltage level is a second logical high voltage level. The receiver circuit comprises a preamplifier configured to receive and amplify the input signals having the second reference voltage level.

The present invention provides a differential to single-ended converter including a first input node, a second input node, an operational amplifier and a feedback circuit. The operational amplifier has a first terminal and a second terminal, wherein the first terminal of the operational amplifier receives a first signal from the first input terminal, and the second terminal of the operational amplifier receives a second signal from the second input terminal. The feedback circuit is configured to receive an output signal of the operational amplifier and generate a first feedback signal to the first terminal of the operational amplifier to reduce a swing of the first signal, and generate a second feedback signal to the second terminal of the operational amplifier to balance noises induced by the feedback circuit and inputted to the first terminal and the second terminal.

A receiver circuit is configured to receive input signals having a first reference voltage level. The first reference voltage level is a first logical high voltage level. The receiver circuit comprises an input stage comprising a resistive voltage divider. The resistive voltage divider is configured to convert the input signals having the first reference voltage level to input signals having a second reference voltage level. The second reference voltage level is a second logical high voltage level. The receiver circuit comprises a preamplifier configured to receive and amplify the input signals having the second reference voltage level.

An integrated circuit is disclosed. The integrated circuit comprises an input interface and an optical receiver. The optical receiver includes a photodiode, level shifter, and differential transimpedance amplifier (TIA). The photodiode has a cathode and anode terminal and is configured to receive an optical signal via the input interface. The level shifter includes a parallel RC circuit. The differential TIA has first and second conversion circuits. The first conversion circuit is connected to the cathode terminal and a first output terminal of the optical receiver. The second conversion circuit is connected between the anode terminal and a second output terminal of the optical receiver. The parallel RC circuit is connected between the cathode terminal of the photodiode and the first conversion circuit. The differential TIA is configured to provide a differential voltage signal at the first and second output terminals of the optical receiver based on the optical signal.