Abstract: A passive rebound switch includes an actuation button, an energy collecting module, a detection control, a housing, a power generation module, and a signal transmission circuit. The actuation button is detachably and pivotally connected to the housing. The power generation device, the signal transmission circuit, and the detection control are accommodated in an receiving chamber formed between the actuation button and the housing. When the actuation button is actuated to move in reciprocated rebounding movement, the energy collecting module is actuated to trigger the power generation module for converting mechanical energy into electrical energy to power the signal transmission circuit for transmitting a control signal. The energy collecting module is disposed between the actuation button and the power generation module. The detection switch pre-activates an I/O interface of an encoder device of the signal transmission circuit prior to the power generation module for generating the electrical power.

Abstract: A waterproof passive wireless controller includes at least one waterproof assembly, at least one driver assembly, at least one power generator, at least one communication module, and at least one housing. The waterproof assembly and the housing form at least one waterproof chamber, wherein the power generator and the communication module are disposed in the waterproof chamber. In response to an external force applied on the driver assembly, the power generator is enclosed in a waterproof manner and is driven to actuate by the driver assembly to converts mechanical energy into electrical energy to power the communication module, such that the communication module is activated for sending out a control signal.

Abstract: A passive rebound switch includes an actuation button, an energy collecting module, a detection control, a housing, a power generation module, and a signal transmission circuit. The actuation button is detachably and pivotally connected to the housing. The power generation device, the signal transmission circuit, and the detection control are accommodated in an receiving chamber formed between the actuation button and the housing. When the actuation button is actuated to move in reciprocated rebounding movement, the energy collecting module is actuated to trigger the power generation module for converting mechanical energy into electrical energy to power the signal transmission circuit for transmitting a control signal. The energy collecting module is disposed between the actuation button and the power generation module. The detection switch pre-activates an I/O interface of an encoder device of the signal transmission circuit prior to the power generation module for generating the electrical power.