A steering column assembly module having an operating device for setting an operating parameter of a motor vehicle comprises a static central element that annularly surrounds a steering axis, and a recess, and has an elongated rotary element with a longitudinal axis, and comprises a grip section, and a bearing section that is fixedly connected to the grip section. In this context, the bearing section of the rotary element is disposed in the recess of the central element at least sectionally, and is mounted in the central element rotatably about the longitudinal axis, wherein a rotation sensor is configured to detect a rotational position of the rotary element, and in dependence upon the detected rotational position, to generate a control signal for setting the operating parameter.

A power seat operating device for a vehicle has a switch module for operating a power seat of the vehicle. In particular, the switch module includes a plurality of seesaw type switches to control operation directions of the power seat, and the operation directions of the power seat according to the operation of each switch is displayed with arrows on a display, thereby improving the switch operating convenience of the user such as accurately controlling the operation direction of the power seat according to the switch operation by the user, and accurately recognizing a selection state and an operation direction of the switch desired by the user.

The composite input device includes a first detector configured to detect a rotating operation, a second detector configured to detect a tilting operation, and a substrate disposed perpendicular to a rotational axis of the rotating operation. In a plan view in a direction perpendicular to the substrate, the first detector is disposed inside an imaginary circle. The imaginary circle has a center at an intersection of the substrate and an the rotational axis of the rotating operation and has an outer circumference that passes through an outer edge of the second detector positioned farthest away from the center of the imaginary circle.

An intelligent hybrid touch display device, including: a touch display unit; a rotary mechanical switch, being integrated with the touch display unit in a body; and a control unit, located in the body and including: a first interface for driving the touch display unit; a second interface coupled with the rotary mechanical switch; a touch and switch detection unit coupled with the first interface and the second interface; a transmission interface for communicating with at least one external device; and a processor and an operating system stored in a memory, the processor being coupled with the touch and switch detection unit and the transmission interface, and being used for executing a control program with a support of the operating system, so that the touch display unit and the rotary mechanical switch can cooperate to provide a hybrid operation for selecting, changing or activating function options.

A remote control device may be configured to be mounted over the toggle actuator of a light switch and to control a load control device. The remote control device may include a mounting assembly and a control unit that is removably attachable to the mounting assembly. The mounting assembly may include a release tab that is configured to be operated from a locking position in which the control unit is secured to the mounting assembly, to a release position in which the control unit may be detached from the mounting assembly. The mounting assembly may include a clamp that is configured to engage with the toggle actuator of a mechanical switch to which the remote control device is mounted.

A press-type input device includes a first pressing member, a second pressing member, a base, and a holding member. The first pressing member has a pressure receiving surface and a first axis and is tiltable around the first axis. The second pressing member has a second axis and is tiltable around the second axis. The base includes a detection unit configured to detect a tilt of the second pressing member. The holding member is configured to hold, together with the base, the first pressing member and the second pressing member. A location of at least one of the first axis or the second axis is variable in accordance with a pushed location on the pressure receiving surface. When viewed in a direction vertical to the pressure receiving surface, the second axis and the detection unit do not overlap each other.

A sensing system is provided. A processing system drives a first subset of sensor electrodes with a sensing signal and receives corresponding resulting signals. The processing system also drives a second subset of the sensor electrodes with a reference signal and a third subset of the sensor electrodes with a guard signal. A rotatable electronic device includes a first coupling electrode and a second coupling electrode. The second coupling electrode couples with and receives the reference signal from the second subset of the sensor electrodes. The rotatable electronic device also includes a conductive region that rotates relative to the first coupling electrode and the second coupling electrode. The resulting signals are affected based on the position of the conductive region relative to the first coupling electrode when the first coupling electrode is coupled with the first subset of the sensor electrodes.

A hybrid touch button, including: a touch display unit having a touch display area; a mechanical switch having a plurality of conductive contacts; and a control unit, having a power interface for coupling with a power source, a first interface coupled with the touch display area, a second interface coupled with the plurality of conductive contacts, and an output interface, wherein the control unit derives first input information from the first interface and second input information from the second interface, and determines an output configuration of the output interface according to the first input information and the second input information.

An input operation device according to the present disclosure includes first to third light-emitting sections, a first light guide body, and a second light guide body. A lower end of the first light guide body faces the first light-emitting section and the second light-emitting section. The first mark emits light on the first light guide body when light is incident on the first light guide body from the first light-emitting section, and the second mark emits light on the first light guide body when light is incident on the first light guide body from the second light-emitting section. The upper surface section of the second light guide body emits light when light is incident on the second light guide body from the third light-emitting section. At least one of the first light-emitting section, the second light-emitting section, and the third light-emitting section can change light emission luminance.

A multifunctional selection operation switch apparatus includes: an operation member including multiple operated portions and capable of being rotationally operated, the operated portions being capable of selective contact operation; a rotational displacement detecting device capable of detecting rotational displacement of the operation member; an operation target detecting device capable of detecting on which of the operated portions contact operation is performed; and a controlling device outputting a command signal corresponding to the displacement and the one operated portion, based on detection results of the detecting devices. Accordingly, even if the operation member is a single member, multifunctional selection operation can be performed without difficulty by outputting, whenever necessary, a desired command from multiple operation commands. It is not necessary to mechanically and operatively connect the operation member and the operated portions by a structurally-complicated interlocking mechanism, thereby achieving reduction in the number of parts and cost.