Provided herein are an input system, a peripheral device and an adjustment method. The peripheral device includes an input interface, a transmission interface and a processing module. The transmission interface is used for connecting a computer. The processing module is connected to the input interface and the transmission interface. The processing module transmits an input signal inputted from the input interface to the computer through the transmission interface at a repeat rate. The processing module receives an adjustment signal from the transmission interface and adjusts the repeat rate according to the adjustment signal, wherein the adjustment signal is outputted from another peripheral device connected to the computer. Accordingly, the present invention can operate a peripheral device to adjust the repeat rate of another peripheral device.

A mouse having a movable lighting structure includes a mouse body, the movable lighting structure, a lighting module and a wire. The mouse body has a longitudinal axis defining a longitudinal axis direction, and has a top surface and a bottom surface opposite to each other. The movable lighting structure is movably disposed on the mouse body, and has an accommodating space formed therein. The lighting module is disposed in the accommodating space, and has at least one light-emitting element. The wire is connected between the mouse body and the lighting module for supplying power required by the lighting module.

A mouse device includes a main body, an air cushion and a first hidden key. The first hidden key is located at a first side of the main body. The air cushion is located under the main body, and contactable with a working surface. The first hidden key is arranged between the main body and the air cushion. The first hidden key is not exposed outside. When the main body is leaned in a first direction and pressed down, the first hidden key is triggered to generate a first leaning signal. The first hidden key can be used to replace the key of the conventional keyboard. Due to the structure of the mouse device, the mouse device can be operated more intuitively.

A rechargeable wireless mouse includes a wireless electrical-energy-receiving circuit, a transformation circuit, a wireless transmission circuit and a control circuit. The wireless electrical-energy-receiving circuit receives an electromagnetic energy from a charging plate. The transformation circuit is electrically connected to the wireless electrical-energy-receiving circuit and transforms the electromagnetic energy into an electric potential energy. The wireless transmission circuit transmits a control signal to the charging plate. The control circuit is electrically connected to the transformation circuit and the wireless transmission circuit. The control circuit receives the electric potential energy transmitted by the transformation circuit and outputs the control signal to the charging plate according to the electric potential energy. The control signal controls the charging plate such that the charging power supplied by the charging plate and received by the rechargeable wireless mouse switches between a first charging mode and a second charging mode.

A method, a computer-readable medium, and an apparatus for adjusting feedback parameters are provided. The apparatus may determine a duration of pressing a button of an input device based on a signal associated with the button. To determine the duration of pressing the button, the apparatus may calculate the duration based on a start time and an end time. The start time may be a first time instance at which the button is pressed and the end time may be a second time instance at which the pressed button is released. The apparatus may classify the press force applied on the button of the input device into a category of a plurality of categories based on the duration. The apparatus may adjust a parameter of a feedback corresponding to the press force based on the category. The apparatus may control the feedback based on the parameter.

Disclosed herein are a controller device and a method of detecting user inputs. According to at least one embodiment, an electronic controller device includes first and second button components, a processing circuit and a communication interface. The first and second button components respectively include first and second touch pads. The first and second button components are configured to register click operations by respectively first and second fingers of a user. The first and second touch pads are configured to register touch operations by fingers. The processing circuit is configured to convert the click operations and the touch operations into input signals. The communication interface is configured to transmit the input signals to at least one external device.

A method, a computer readable medium, and an apparatus for wireless communication are provided. The apparatus may receive, via a radio frequency channel, a first data from a first human interface device at a first time slot of a frame. The apparatus may transmit the first data to a computing device. The apparatus may receive, via the radio frequency channel, a second data from a second human interface device at a second time slot of the frame. The apparatus may transmit the second data to the computing device. The apparatus may transmit, via the radio frequency channel at a third time slot of the frame, at least one of a first acknowledgment to the first data, a first lighting effect configuration data for the first human interface device, a second acknowledgment to the second data, or a second lighting effect configuration data for the second human interface device.

A mouse device includes a main body, an air cushion and a first hidden key. The first hidden key is located at a first side of the main body. The air cushion is located under the main body, and contactable with a working surface. The first hidden key is arranged between the main body and the air cushion. The first hidden key is not exposed outside. When the main body is leaned in a first direction and pressed down, the first hidden key is triggered to generate a first leaning signal. The first hidden key can be used to replace the key of the conventional keyboard. Due to the structure of the mouse device, the mouse device can be operated more intuitively.

An electronic device capable of adjusting light emitting frequency includes an oscillator used to generate an oscillation signal, a microcontroller connected to the oscillator, and a light emitting module connected to the microcontroller. The microcontroller is used to define that an oscillation times of the oscillator within a unit time period is an original oscillation times. The microcontroller sets a correspondence between a switching period and the original oscillation times. The microcontroller is further used to receive the oscillation signal to calculate a time elapse. The microcontroller is configured to control on or off of the light emitting module according to the switching period and the time elapse.

A rechargeable wireless mouse includes a wireless electrical-energy-receiving circuit, a transformation circuit, a wireless transmission circuit and a control circuit. The wireless electrical-energy-receiving circuit receives an electromagnetic energy from a charging plate. The transformation circuit is electrically connected to the wireless electrical-energy-receiving circuit and transforms the electromagnetic energy into an electric potential energy. The wireless transmission circuit transmits a control signal to the charging plate. The control circuit is electrically connected to the transformation circuit and the wireless transmission circuit. The control circuit receives the electric potential energy transmitted by the transformation circuit and outputs the control signal to the charging plate according to the electric potential energy. The control signal controls the charging plate such that the charging power supplied by the charging plate and received by the rechargeable wireless mouse switches between a first charging mode and a second charging mode.