A user input assembly for controlling operation of a trolling motor assembly including a propulsion motor is provided herein. The user input assembly includes a support plate and a foot pedal defining a top surface that is configured to receive a user's foot thereon. The foot pedal is pivotably mounted to the support plate. A deflection sensor is in communication with the foot pedal and is configured to detect an angle of orientation of the foot pedal and output a signal corresponding with the angle of orientation of the foot pedal. The signal is receivable by a controller that is configured to control a direction of the propulsion motor of the trolling motor assembly. A feedback device is coupled with the foot pedal and configured to, in response to pivotal movement of the foot pedal about the first axis, provide a resistance force to the pivotal movement.

A system and method for controlling various types of messages, including a MIDI signal of a MIDI instrument, bi-directionally with a center detent and a resting plate for a user's foot is disclosed. A foot pedal system has a base, a pedal, a sensing mechanism, a foot rest bar, a MIDI pedal controller, a MIDI-In port for receiving the first MIDI signal from the MIDI instrument, and a MIDI-Out port for outputting the second MIDI signal. The pedal has a center detent and a spring mechanism for returning the pedal to a default position.

A probe switching device comprising at least two switching switch assemblies and at least two probes, wherein each of the switching switch assemblies corresponds to each of the probes, each of the switching switch assemblies comprises a first switch component and a second switch component, the first switch component is provided with a force applying block, and the second switch component mainly consists of two fixed contactors and a bridge contactor, each of the probes corresponding to each of the switching switch assemblies is connected to one of the two fixed contactors. Thereby, the probe can be switched using the switching switch assembly without using a relay, the force applying block acts on the bridge contactor to connect the first switch component and the second switch component.

A foot pedal assembly for controlling a robotic surgical system includes a foot pedal assembly base including an axle, a foot pedal slidably and pivotally coupled to the axle, and a sensor arrangement configured to detect an axial position of the foot pedal along the axle and a pivoted position of the foot pedal around the axle. Different combinations of different detected axial positions and detected pivoted positions are correlateable to different functions of the robotic surgical system.

A foot pedal assembly for controlling a robotic surgical system includes a foot pedal assembly base including an axle, a foot pedal slidably and pivotally coupled to the axle, and a sensor arrangement configured to detect an axial position of the foot pedal along the axle and a pivoted position of the foot pedal around the axle. Different combinations of different detected axial positions and detected pivoted positions are correlateable to different functions of the robotic surgical system.

A pedal apparatus for a vehicle includes a pedal member to which a pedal arm is rotatably coupled, a cowl bracket fixedly coupled to the pedal member, and a collision rotation bracket coupled to the cowl bracket. The collision rotation bracket is configured to be rotated with respect to the cowl bracket when the collision rotation bracket comes into contact with a vehicle body fixture in accordance with rearward movement of the pedal member caused upon occurrence of a collision accident. The pedal arm is configured to be forcibly pushed in a forward direction by the collision rotation bracket during rotation of the collision rotation bracket, thereby causing the pedal arm to be forcibly rotated in the forward direction.

A pedal apparatus for a vehicle includes a pedal member to which a pedal arm is rotatably coupled, a cowl bracket fixedly coupled to the pedal member, and a collision rotation bracket coupled to the cowl bracket. The collision rotation bracket is configured to be rotated with respect to the cowl bracket when the collision rotation bracket comes into contact with a vehicle body fixture in accordance with rearward movement of the pedal member caused upon occurrence of a collision accident. The pedal arm is configured to be forcibly pushed in a forward direction by the collision rotation bracket during rotation of the collision rotation bracket, thereby causing the pedal arm to be forcibly rotated in the forward direction.

Disclosed is a vehicle accelerator pedal that may include a cylindrical hinge unit, a lever unit having one side configured to operate in a first direction and another side formed to correspond to an inner circumferential edge of the hinge unit and configured to operate in a second direction opposite the first direction. An outer circumferential edge may be configured to come into close contact with an upper inner circumferential edge of the hinge unit such that a moment of force is applied in a first rotation direction by the hinge unit. An elastic unit having one side may be configured to elastically support one side of the lever unit, the other side formed to correspond to the inner circumferential edge of the hinge unit. An outer circumferential edge may be configured to come into close contact with a lower inner circumferential edge of the hinge unit.

A foot operated controlling device comprises an oriental base, a pedal, a sensing module and a transmission mechanism. The pedal is connected to the oriental base and tiltable relative to the oriental base. The sensing module comprises a first sensor and a second sensor. The transmission mechanism is connected to the pedal and the sensing module. The transmission mechanism comprises a transmission rod and a swing rod. The transmission rod is connected to the pedal. The swing rod is connected to the transmission rod, and an extension direction along which the swing rod is oriented is independent of an extension direction along which the transmission rod is oriented.

A foot operated controlling device comprises an oriental base, a pedal, a sensing module and a transmission mechanism. The pedal is connected to the oriental base and tiltable relative to the oriental base. The sensing module comprises a first sensor and a second sensor. The transmission mechanism is connected to the pedal and the sensing module. The transmission mechanism comprises a transmission rod and a swing rod. The transmission rod is connected to the pedal. The swing rod is connected to the transmission rod, and an extension direction along which the swing rod is oriented is independent of an extension direction along which the transmission rod is oriented.