A keyboard apparatus including a key module and a detection circuit is provided. The key module includes a plurality of keys, a plurality of scan lines and a plurality of return lines. The scan lines and the return lines are crossed to each other and respectively coupled to the keys. The detection circuit detects a plurality of return voltages of the return lines and generates a plurality of detection signals accordingly so as to indicate that a switch of each of the keys is at an on state or at an off state. The detection circuit includes a plurality of P-type transistors. A first terminal of each P-type transistor is coupled to a ground terminal, a control terminal of each P-type transistor is directly coupled to a corresponding one of the return lines, and a second terminal of each P-type transistor generates and outputs one of the detection signals.

One aspect is a circuit for tuning a resonance frequency of an electrically small antenna and directly exciting the electrically small antenna. The circuit includes a first source configured for providing a constant voltage. The circuit also includes an antenna and a switched capacitor configured for being alternatively alternately coupled to the first source to be charged thereby and to the antenna for exciting the antenna. Another aspect is a transmitter for transmitting a wireless signal using an antenna without using a variable voltage source to excite the antenna. The transmitter includes a first source configured for providing a constant voltage. The transmitter further includes an antenna and a switched capacitor configured for being alternately coupled to the first source to be charged thereby and to the antenna for exciting the antenna and for tuning a resonance frequency of the antenna.

A keypad is described. The keypad comprises: a keypad housing defining a plurality of key apertures; a plurality of physical keys, each physical key located in a respective key aperture and being moveable with respect to the key aperture; and a non-contact (for example, capacitive) sensing layer located beneath the plurality of keys. A touch controller is coupled to the capacitive sensing layer and is operable to ascertain a touch location corresponding to a depressed key. A cryptographic controller may be provided in communication with the touch controller and is operable to interpret the touch location.

A touch sensor includes electrodes that are serially arranged and a processor with multiple input terminals. The electrodes are grouped into first, second and third groups of electrodes. Each electrode of the first group is coupled with a corresponding input terminal of the processor. The electrodes of the second group are sequentially coupled with the input terminals of the processor by way of odd numbered electrodes of the first group. The electrodes of the third group are sequentially coupled with the input terminals of the processor by way of even numbered electrodes of the first group. Each of the electrodes, other than the electrodes on the ends, is triggered simultaneously with at least one of its neighboring electrodes to provide sensed signals to the processor.

A touch sensor includes electrodes that are serially arranged and a processor with multiple input terminals. The electrodes are grouped into first, second and third groups of electrodes. Each electrode of the first group is coupled with a corresponding input terminal of the processor. The electrodes of the second group are sequentially coupled with the input terminals of the processor by way of odd numbered electrodes of the first group. The electrodes of the third group are sequentially coupled with the input terminals of the processor by way of even numbered electrodes of the first group. Each of the electrodes, other than the electrodes on the ends, is triggered simultaneously with at least one of its neighboring electrodes to provide sensed signals to the processor.

A keyboard apparatus including a key module and a detection circuit is provided. The key module includes a plurality of keys, a plurality of scan lines, and a plurality of return lines. The scan lines and the return lines are crossed to each other and coupled to the keys respectively. The detection circuit is coupled to the return lines and configured to detect a current flowing through each of the return lines and indicate that a switch of each of the keys is in an on state or in an off state according to a value of the current.

A method for realizing the remote control based on the Bluetooth HID protocol includes connecting a manipulation device with a remote device by a BLUETOOTH; mapping, by the manipulation device, control keys into a HID command by using the Bluetooth HID protocol and sends the HID command to the remote device, if the manipulation device receives an operation that a user presses the control keys during the remote device executes a functional software; and translating, by the remote device, the HID command to a logic key and executing the logic key to realize the remote control after the remote device receives the HID command.

An input assistance device has a rotation support body having a central axis, an attachment mechanism that removably attaches the rotation support body to the panel surface of a sensor panel so that the central axis is along a direction perpendicular to the panel surface, and a rotational part supported by the rotation support body so as to be rotatable around the central axis. At least the side surface of the rotational part is formed from a conductive material. Conductive areas electrically connected to the side surface are allocated in part of a surface of the rotational part, the surface facing the panel surface.

A load control device may be used to control and deliver power to an electrical load. The load control device may comprise a control circuit for controlling the power delivered to the electrical load. The load control device may comprise multiple actuators, where each of the actuators is connected between a terminal of the control circuit and a current regulating device. The number of the actuators may be greater than the number of the terminals. The control circuit may measure signals at the terminals and determine a state configuration for the actuators based on the measured signals. The control circuit may compare the state configuration to a predetermined dataset to detect a ghosting condition.

Various implementations relate to keyboard data communicated from a client device to a remote access manager. For example, the remote access manager may receive the keyboard data via a communication channel. The keyboard data may include key down states. The remote access manager may insert a key up state after each key down state in the received keyboard data to generate modified keyboard data.