Vehicle trim panel having a switching function comprising a decorative front panel which conceals a switching device having switching areas defined on the decorative front panel for controlling vehicle functions and a lighting device for backlighting said switching areas. Particularly the switching device comprises a sensor foil comprising a light transmitting film wherein several independent sensing areas are configured and an elastic rubber-like portion configured to be compressed between the back side of the decorative front panel and the front side of the light guide in order to keep the sensor foil in tight contact free of air-gaps with the back side of the decorative front panel. The elastic rubber-like portion comprises first attaching means to tightly and removably attach the sensor foil to either the light guide or to the decorative front panel.

A vehicle shifter assembly having a housing rotatably supporting a monostable toggle knob accessible to a vehicle operator. A processor enabled printed circuit board is incorporated into the housing and, upon actuation of the knob, instructs a gear shift condition to a display component. The housing can be incorporated into any of a variety of locations accessible to the vehicle operator, including being integrated into the steering wheel so that, and upon rotation of the wheel, the housing or display is continuously reoriented so as to maintain an upright position as viewed by the operator.

A wiring device assembly is provided. The wiring device assembly has a wiring device module and a wall plate. The wiring device module has an electrical wiring device, a mounting plate and a seal member between the mounting plate and the electrical wiring device. The electrical wiring device is attached to the mounting plate and includes at least one sensor. The wall plate is releasably attachable to the mounting plate. The seal member may be a gasket.

Disclosed herein are a display apparatus capable of accomplishing common use of instrument and being repaired by installing a touch panel driving board on the outer side of the display apparatus. A display apparatus comprising a display module comprising a display panel configured to display an image, a panel disposed in front of the display module, a first cover disposed behind the display module, and a panel driving board configured to drive the panel, and disposed to be exposed outside of the first cover.

An apparatus to secure a sensor assembly for a device touch button (such as for a mobile communications device). A touch sensor slot forms a part of the device case interior at a back-side of the touch button surface, and is configured to position the touch sensor (such as a sense coil inductor) relative to the associated touch button. A touch sensor spring clip is inserted within the touch sensor slot to flexibly urge the touch sensor toward the front-side surface of the touch sensor slot (back-side of the touch button surface). The touch sensor can include front-side spacers to maintain a sensing gap between the touch sensor and the touch button surface, and can include a sensor stiffener at the back-side surface of the touch sensor assembly, the touch sensor spring clip contacting the sensor stiffener. The touch sensor assembly can comprise a flex circuit PCB assembly.

A system for sensing touch or proximity include: a first number of input terminals configured to couple one or more capacitive sensors, a second number of transferring units configured to transfer charges from the one or more capacitive sensors through the first number of input terminals in transferring phases of cycles of the one or more capacitive sensor, wherein at least one of the first and second numbers is equal to or greater than two, and a first switching unit, coupled between the first number of input terminals and the second number of transferring units, configured to selectively electrically couple any one of the first number of input terminals to any one of the second number of transferring units in the transferring phases.

A rotary actuator assembly includes a rotary actuator having a rotary body on a capacitively-sensing detection surface of the touch panel. A sensor ring coupled to the rotary body includes on a first ring surface includes alternately arranged contact surfaces and insulating surfaces and on a second ring surface includes a circumferential metal surface that is electrically connected to the contact surfaces. A sliding contact includes a contact pad and a contact spring connected together. The contact pad forms an electrical contact point fixed at a position of the detection surface. The contact spring contacts the contact surfaces and the insulating surfaces in alternation as the sensor ring rotates with rotation of the rotary body whereby a variable electrical signal is generated at the contact point. The electrical signal is detectable by the touch panel and the touch panel includes a mutual capacitance touch sensor assembly.

An input apparatus includes a conductive layer having flexibility, a capacitance-type sensor layer having a plurality of detection units, and a structure layer having a plurality of structures, a reaction force of which is non-linearly changed with respect to a pressing amount. The structure layer is disposed between the conductive layer and the sensor layer. The two or more structures are disposed in an operation area corresponding to the detection units.

Where: the resonance frequency of an LCR resonance circuit 20 is f1 and the determination voltage signal is V1, when an object is not in the proximity of a sensor electrode 22; the resonance frequency of the LCR resonance circuit 20 is f2 and the determination voltage signal is V2, when a human body is in proximity of the sensor electrode 22; and the resonance frequency of the LCR resonance circuit 20 is f3 and the determination voltage signal is V3, when water is in the proximity of the sensor electrode 22, having the relationship

f1>f2>f3, a control unit 42 controls a high-frequency signal S0 so as to satisfy the relationship V2>V1>V3, and a human body or water being in the proximity of the sensor electrode 22 is distinguished.

Disclosed is a beacon for allowing a user to wirelessly manage software applications of a computing device and plurality of vehicle's sensors. The beacon includes a housing, a touch sensor to identify tap from the user, a bi-directional communication unit to wirelessly bi-directionally communicate with the computing device and the vehicle's sensors on receiving tap from the user, a memory unit to store plurality of modules and plurality of instructions, wherein each instruction corresponding to each tap and a processor coupled to the memory unit and configured in the housing to process the plurality of modules. The plurality of modules includes a computing device module opens the specific software application based upon specific number of taps received from the user; a vehicle sensor module operates a specific vehicle sensor based upon a specific number of taps receive from the user; and a vehicle sensor and computing device module opens the status of the vehicle sensor on the computing device depending upon the specific number of taps received from the user.