The present disclosure provides an intelligent lighting control system. The lighting control system includes a base module including a base housing forming a well and including a first electrical connector positioned in the well. A depressible switch is housed in the well that includes a spring biasing the depressible switch into an extended position that opens an electrical circuit between the power terminal and the first electrical connector. The lighting control system also includes a light switch module configured for nesting, at least in part, in the well of the base module. The light switch module includes a module housing configured to press the depressible switch into a retracted position upon nesting in the well and thereby close the electrical circuit between the power terminal and the first electrical connector and release the depressible switch into the extended position when unnested from the well of the base module.

Methods, systems, apparatuses, and computer program products are provided for a user input device, such as a game controller, that includes a finger-pressable (“tactile”) switch. The switch is adjustable to change the amount of force used to actuate the switch. In an example implementation, a tactile switch comprises a housing, a button interposer, a dome switch, and an adjustment mechanism. A user or other entity may press the button interposer. The dome switch is contained in the housing, and is actuated by the button interposer being pressed. The adjustment mechanism is contained at least partially in the housing, and is configured to enable an amount of force used to press the button interposer to actuate the dome switch to be adjusted.

The signal input device according to an embodiment of the present inventive concept may have effects in that the number of buttons included in the signal input device can be reduced because different types of input signals can be generated depending on a direction of a laterally pushed manipulation force, and a configuration can be simplified, a production cost can be significantly reduced and two or more input signals can be simultaneously generated because a laterally pushed manipulation force can be detected although a separate pressure sensor is not provided.

A foot pedal system for controlling a surgical robotic system, the foot pedal system comprising a foot pedal assembly movably coupled to a foot pedal assembly platform. The foot pedal assembly having a foot pedal base, a foot pedal pivotally coupled to the foot pedal base, and a foot pedal platform, the foot pedal base operable to slide across the foot pedal platform along an x-axis and a y-axis to an arrangement of activation positions. The foot pedal platform operable to translate and rotate with respect to the foot pedal assembly platform to any position along the foot pedal assembly platform, and the foot pedal platform is operable to engage or disengage with the foot pedal assembly platform at the any position along the foot pedal assembly platform.

The present teachings provide for a device with a membrane and an underlying switch, an underlying switch actuator, or both that has a unique tactile pattern that is felt through the membrane when the membrane is aligned with the switch, switch actuator, or both, corresponding to the electrical state of the device. The membrane, the switch, the switch actuator or a combination thereof can be repositioned from a first position to a second position so that a different tactile feel is present through the membrane corresponding to a second electrical state.

An input device includes: an operation part being slidable in a first direction along a reference plane and in a second direction along the reference plane; and a slide detector detecting that the operation part slides. The slide detector includes a rocking body and a rocking motion detector, the rocking body is inclined with respect to the reference plane in accordance with a sliding movement of the operation part, and the rocking motion detector detects that the rocking body is inclined.

A foot pedal system for controlling a surgical robotic system, the foot pedal system comprising a foot pedal assembly movably coupled to a foot pedal assembly platform. The foot pedal assembly having a foot pedal base, a foot pedal pivotally coupled to the foot pedal base, and a foot pedal platform, the foot pedal base operable to slide across the foot pedal platform along an x-axis and a y-axis to an arrangement of activation positions. The foot pedal platform operable to translate and rotate with respect to the foot pedal assembly platform to any position along the foot pedal assembly platform, and the foot pedal platform is operable to engage or disengage with the foot pedal assembly platform at the any position along the foot pedal assembly platform.

An apparatus adapted to prevent unintended seat adjust switch actuation in a vehicle side impact or crash includes a wall, having a window, a seat adjustment switch behind the wall, an actuator connected to the seat adjustment switch and extending through the window and a stop adapted to limit displacement of the actuator when the actuator is displaced inboard toward the wall. That stop may be carried on one of the wall or the actuator. A new and improved seat assembly is also disclosed.

A switch mechanism for a vehicle interior is disclosed. The switch mechanism may comprise a slide within a carrier, at least one pin movable within the slide to center the slide in the carrier and a spring to move the pin within the slide. The pin may comprise a protrusion movable against the slide to guide pin movement. The slide may comprise a rib; the protrusion may slide against the rib to guide pin movement. The rib may comprise two ribs; the protrusion may move between the two ribs. The spring may be contained within an opening in the slide; the rib may extend beyond the opening. The pin may comprise first and second guides to slide along first and second slide walls to guide pin movement. The vehicle interior component may be at least one of a console, an overhead console, a vehicle system actuator, a sunroof actuator.

Methods, systems, apparatuses, and computer program products are provided for a user input device, such as a game controller, that includes a finger-pressable (tactile) switch. The switch is adjustable to change the amount of force used to actuate the switch. In an example implementation, a tactile switch comprises a housing, a button interposer, a dome switch, and an adjustment mechanism. A user or other entity may press the button interposer. The dome switch is contained in the housing, and is actuated by the button interposer being pressed. The adjustment mechanism is contained at least partially in the housing, and is configured to enable an amount of force used to press the button interposer to actuate the dome switch to be adjusted.