A switch control module including a master switch, a clamping element and a diode is provided. The master switch is configured to receive a control signal having a conducting interval and a non-conducting interval. The diode couples the clamping element and the master switch.

Systems, methods, and apparatuses are provided for a single or multi-dimmer system having improved reliable connectivity between a dimmer assembly and a switch or between two or more dimmer assemblies.

A recreational vehicle control apparatus and a recreational vehicle are provided. The recreational vehicle control apparatus includes a first controlled switch configured to generate a first output signal in response to receiving a first control signal, and switch a polarity of the first output signal based on a status of the first control signal. A second controlled switch is configured to generate a second output signal in response to receiving the first control signal. The second controlled switch outputs the second output signal to a first controlled end of a controlled object group. A third controlled switch is configured to generate a third output signal in response to receiving the second control signal and the first output signal transmitted by the first controlled switch. The third controlled switch outputs the third output signal to a second controlled end of the controlled object group. The present application may save wires and equipment with high integration level and small space occupation.

A system on an integrated circuit (IC) chip includes an input terminal and a return terminal. A heater coupled between the input terminal and the return terminal. A thermopile is spaced apart from the heater by a galvanic isolation region. A switch device includes a control input coupled to an output of the thermopile. The switch device is coupled to at least one output terminal of the IC chip.

Various examples are provided related to diode clamped solid-state circuit breakers (SSCBs). Their configuration allows operation of the SSCB without dynamic voltage balancing issues. In one example, a diode clamped SSCB includes source-side switches and line-side switches connected between a DC source connection and a line-side connection. Clamping capacitors are connected at a common connection point between the source-side and line side switches and source-side and line-side clamping diodes are connected between the source-side switches and line-side switches and the clamping capacitors. Sequential switching of the source-side switches or line-side switches can avoid dynamic voltage balancing issues.

Apparatus and methods for providing hot-switching immunity for radio frequency switching circuits are disclosed. A radio frequency switching circuit may include both a mechanical switch and a solid-state switch. The mechanical switch may be configurable to couple an output path of a power amplifier to a subsequent component in its transmission path when in a first mechanical switch state and to decouple the output path of the power amplifier from the subsequent component when in a second mechanical switch state. The solid-state switch may be configurable to operatively decouple the mechanical switch from a radio frequency power source when in a first solid-state switch state but not when in a second solid-state switch state. The solid-state switch may be in the first solid-state switch state during transitions of the mechanical switch between the first and second mechanical switch states.

A recreational vehicle control apparatus and a recreational vehicle are provided. The recreational vehicle control apparatus includes a first controlled switch configured to generate a first output signal in response to receiving a first control signal, and switch a polarity of the first output signal based on a status of the first control signal. A second controlled switch is configured to generate a second output signal in response to receiving the first control signal. The second controlled switch outputs the second output signal to a first controlled end of a controlled object group. A third controlled switch is configured to generate a third output signal in response to receiving the second control signal and the first output signal transmitted by the first controlled switch. The third controlled switch outputs the third output signal to a second controlled end of the controlled object group. The present application may save wires and equipment with high integration level and small space occupation.

A semiconductor relay device includes a conversion circuit configured to receive an input signal from outside and pass a first current to a first node based on the input signal. A zener diode has an anode coupled to a second node and a cathode coupled to the first node. A resistor is coupled between the second node and a third node. A number n of diodes are serially coupled. A thyristor has an anode coupled to the first node, a cathode coupled to the second node, and a control terminal coupled to the third node. A transistor has a gate coupled to the first node. An anode of a diode at a first end of the n diodes is coupled to the first node, and a cathode of a diode at a second end of the n diodes is coupled to a third node.

A semiconductor relay device includes a conversion circuit configured to receive an input signal from outside and pass a first current to a first node based on the input signal. A zener diode has an anode coupled to a second node and a cathode coupled to the first node. A resistor is coupled between the second node and a third node. A number n of diodes are serially coupled. A thyristor has an anode coupled to the first node, a cathode coupled to the second node, and a control terminal coupled to the third node. A transistor has a gate coupled to the first node. An anode of a diode at a first end of the n diodes is coupled to the first node, and a cathode of a diode at a second end of the n diodes is coupled to a third node.

The present invention provides a single-pole double-throw switch circuit with a Type-C interface, an analog switch chip and an electronic device, which can generate a reverse bias voltage across a first diode, so that a capacitance value of a PN junction can be significantly reduced after the reverse bias voltage is applied to the PN junction. Further, a ground capacitance corresponding to a COM point when the first diode is turned off can be effectively reduced, avoiding the reduction of a bandwidth of a digital path due to excessive capacitance. It can be seen that the present invention can realize a large size of a first field effect transistor and a high bandwidth of the digital path simultaneously, thereby facilitating the simultaneous improvement of the THD performance of an analog audio path and the bandwidth of the digital path, and avoiding conflicts between the two.