139 results about "Capacitive switch" patented technology

A DC/DC converter includes a pre-converter stage, which may include a charge pump, and a post-regulator stage, which may include a boost converter. The duty factor of the post-regulator stage is controlled by a feedback path that extends from the output terminal of the DC/DC converter to an input terminal in the post-regulator stage. The pre-converter steps the input DC voltage up or down by a positive or negative integral or fractional value, and the post-regulator steps the voltage up by a variable amount depending on the duty factor at which the post-regulator is driven. The converter overcomes the problems of noise glitches, poor regulation, and instability, even near unity input-to-output voltage conversion ratios.

A pointing device some or all of whose elements are made from capacitive sensors. Such elements may include a rotary motion detector which includes a rotating member and a plurality of fixed capacitive detecting members; a rolling ball with patterned conductive surface and a plurality of fixed capacitive detecting members; capacitive touch sensors or capacitive switches to serve as mouse buttons; and a scrolling wheel, knob, or touch surface built from capacitive sensors. The pointing device further includes a capacitance measuring circuit and processor to measure variations of capacitance on the various capacitive elements and to determine the movement of and other activations of the mouse.

This invention is directed to a polymer thick film conductive composition that may be used in applications where thermoforming of the base substrate occurs, e.g., as in capacitive switches. Polycarbonate substrates are often used as the substrate and the polymer thick film conductive composition may be used without any barrier layer. Thermoformable electric circuits benefit from the presence of an encapsulant layer over the dried polymer thick film conductive composition. The electrical circuit is subsequently subjected to an injection molding process.

This invention is directed to a polymer thick film conductive composition. More specifically, the polymer thick film conductive composition may be used in applications where thermoforming of the base substrate occurs as in capacitive switches. Polycarbonate substrates are often used as the substrate and the polymer thick film conductive composition may be used without any barrier layer. Thermoformable electric circuits benefit from the presence of an encapsulant layer over the dried polymer thick film conductive composition.

A waterproof housing to contain and operate an electronic device with capacitive touch screen and electrically conductive outer case includes interfitting pieces configured to form a waterproof shell to removably receive and immobilize the electronic device. One or more electrical circuits extend within the shell between the outer case of the electronic device installed in the shell and one or more respective control regions of the screen. Manual actuators such as buttons are provided in openings through the shell to selectively manually complete each circuit from outside the housing.

This invention is related to process for the production of a interior trim piece, comprising the steps of: —providing a film layer—applying conductive ink/paint to the back surface of the film layer to provide a circuit path and—attaching a substrate on the back surface of the film layer. This invention further relates to a interior trim piece comprising a film layer with a circuit path on its back surface, whereas the circuit path is made from conductive ink/paint.

A hearing aid includes at least one capacitive switch for controlling or communicating with the hearing aid by touch. The capacitive switch is an electrode on the inside of the housing coupled to a touch detector. Touching the outside of the hearing aid adjacent the electrode produces a switching operation. The hearing aid includes a programmed microprocessor coupled to the touch detector. The microprocessor is programmed to effect predetermined functions in response to particular touch patterns.

The invention belongs to the technical field of electronic science, and relates to an MEMS capacitive switch. The MEMS capacitive switch comprises a substrate with an insulation layer, a signal transmission line and ground electrodes on the two sides, a dielectric layer is arranged on the surface of the signal transmission line, three metal coverage areas are arranged on the surface of the dielectric layer, the two ground electrodes are respectively provided with a fixed anchor point, and the two fixed anchor points support a drive electrode structure. The drive electrode structure is of a two-wing type phase step structure, and comprises a first drive electrode in the middle, a second drive electrode and a third electrode, the second drive electrode and the third electrode are arranged on the two wings, the two sides of the first drive electrode are connected with the fixed anchor points through clamped beams, the second drive electrode and the third drive electrode are connected with the first drive electrode through cantilever beams, and the distance between the second drive electrode and the third drive electrode and the signal transmission line is larger than the distance between the first drive electrode and the signal transmission line. The areas of the three drive electrodes are increased in sequence. Three work frequency bands can be achieved, and the MEMS capacitive switch has the advantages of being low in insertion loss, high in isolation degree and low in drop-down voltage and can be applied to a radio-frequency or microwave communication system.

An article of manufacture having an in-molded capacitive switch and method of making the same are shown and described. In one disclosed method, a conductive ink sensing zone is printed on a film. The film is formed to a desired shape and put in an injection mold. A molten plastic material is introduced into the injection mold to form a rigid structure that retains the film.

The present invention provides a capacitive switch device comprising: a touch sensing unit (100) including a sensing electrode (110) and a transmission electrode (120), which are disposed on a substrate (2); and a touch control module (200) disposed on a substrate (2), and configured to confirm a manipulator's contact manipulation state based on a sensing signal from the touch sensing unit (100) and output a touch output signal, wherein the transmission electrode (120) outputs a transmission signal in response to a transmission control signal from the touch control module (200), and the sensing electrode (110) detects a signal in response to a sensing control signal from the touch control module (200) for application to the touch control module (200), and wherein the touch control module (200) activates the sensing electrode (110) and the transmission electrode (120) according to a preset mode, and a method for controlling the same.

This invention is directed to a polymer thick film conductive composition that may be used in applications where thermoforming of the base substrate occurs, e.g., as in capacitive switches. Polycarbonate substrates are often used as the substrate and the polymer thick film conductive composition may be used without any barrier layer. Thermoformable electric circuits benefit from the presence of an encapsulant layer over the dried polymer thick film conductive composition. The electrical circuit is subsequently subjected to an injection molding process.

A segmented capacitive liquid level sensor and a liquid level measuring method thereof, comprising a microprocessor, a sine wave generating circuit connected with the microprocessor, and a multiplex switch connected with the microprocessor and the sine wave generating circuit, A segmented capacitor connected to the multi-way switch, the segmented capacitor is composed of at least two mutually insulated capacitor arrangements, the multi-way switch is connected to each segment of the capacitor in the segmented capacitor respectively, and the microprocessor A leakage resistance detection circuit and a phase difference detection circuit are respectively connected between the multi-way switch and the multi-way switch; the microprocessor controls the multi-way switch to connect the input terminals of each segment capacitor in the segmented capacitor to the sine wave through a charging resistor The generating circuit is connected to the leakage resistance detection circuit and the phase difference detection circuit respectively at the output end. The invention adopts a leakage resistance detection circuit and a phase difference detection circuit to accurately measure the capacitance of each segment of the segmented capacitor, so that the liquid level measurement is more accurate, the reliability is high, and the anti-interference ability is strong.

The invention relates to a device for touch/proximity detection, especially a capacitive switch device, which is designed to set switching states by approaching the switch device or by touching the switch device, in order to perform, for example, switching actions on an instrument. The invention also relates to a switch device, especially a switch device on a capacitive basis, for a cooktop, for operating the cooktop.

A multi-action capacitive switch comprising a capacitive sensing area in a surface, a plunger comprising conductive material, and a structure of flexible conductive material. A change in capacitance caused by the presence of a user's finger travels from the capacitive sensing area, down the conductive material of the plunger, over the structure, and to a capacitive touch detector in contact with the structure. An actuation of the switch, for example by pressing, is detected by an actuation detector. In a handheld electronic device, a user may initiate a phone call using such a multi-action capacitive switch. The method includes displaying a list of phone numbers in response to detection of a user's finger on a predetermined key and calling one of the numbers when the user actuates the predetermined key.