A method and apparatus for controlling a power switch are disclosed. A power switch may be coupled between a power supply signal and a virtual power supply signal coupled to a circuit block. The power switch may be configured to couple the power supply signal to the virtual power supply signal based on a first control signal, and reduce a voltage level of the virtual power supply signal to a voltage level less than a voltage level of the power supply signal based on a second control signal. The power switch may be further configured to change a current flowing from the power supply signal to the virtual power supply signal based on a third control signal.

A method and apparatus for controlling a power switch are disclosed. A power switch may be coupled between a power supply signal and a virtual power supply signal coupled to a circuit block. The power switch may be configured to couple the power supply signal to the virtual power supply signal based on a first control signal, and reduce a voltage level of the virtual power supply signal to a voltage level less than a voltage level of the power supply signal based on a second control signal. The power switch may be further configured to change a current flowing from the power supply signal to the virtual power supply signal based on a third control signal.

A non-contacting switch control system includes: a switch set, configured to receive a sensing signal from a sensing target, the switch set including a first non-contacting switch and a second non-contacting switch; a storage unit, configured to store a control program; and a processing unit, connected to the switch set and the storage unit, and configured to execute the control program and control the switch set based on the sensing signal. The control program includes: in a first operating mode, determining whether the first non-contacting switch receives an identification signal, and obtaining a first determination result; and when the first determination result is true, configuring the non-contacting switch control system to enter a second operating mode and disabling the second non-contacting switch.

A method and apparatus for controlling a power switch are disclosed. A power switch may be coupled between a power supply signal and a virtual power supply signal coupled to a circuit block. The power switch may be configured to couple the power supply signal to the virtual power supply signal based on a first control signal, and reduce a voltage level of the virtual power supply signal to a voltage level less than a voltage level of the power supply signal based on a second control signal. The power switch may be further configured to change a current flowing from the power supply signal to the virtual power supply signal based on a third control signal.

A power drive circuit is disclosed. The power circuit includes: a pulse detector, configured to generate first and second control signals in response to first and second pulse signals, respectively. The power drive circuit also includes a state storage device, configured to generate first and second driver input signals in response to the first and second control signals, respectively. The power drive circuit also includes a driver configured to generate first and second gate drive signals in response to the first and second driver input signals, respectively. The power drive circuit also includes a power switch, configured to receive the first and second gate drive signals, where the first and second gate drive signals control the power switch to selectively conduct or not conduct current between first and second terminals.

A power drive circuit is disclosed. The power circuit includes: a pulse detector, configured to generate first and second control signals in response to first and second pulse signals, respectively. The power drive circuit also includes a state storage device, configured to generate first and second driver input signals in response to the first and second control signals, respectively. The power drive circuit also includes a driver configured to generate first and second gate drive signals in response to the first and second driver input signals, respectively. The power drive circuit also includes a power switch, configured to receive the first and second gate drive signals, where the first and second gate drive signals control the power switch to selectively conduct or not conduct current between first and second terminals.