Abstract: Devices used to pressurize, depressurize, or otherwise displace fluid are disclosed. The devices may be configured to displace fluid in order to inflate or deflate a medical device, such as a balloon. The devices further include features and mechanisms for limiting pressure generation so as to avoid damage due to overpressurization.

Abstract: The present disclosure is directed to a pedal assembly that includes a pedal arm configured to move based on a load applied thereon and a housing that includes a first housing member having a first cavity and a pushrod operably connected to the pedal arm and to the first housing member. A first cradle positioned within the first cavity. The first cradle includes a second cavity. A first pair of springs positioned to extend within the second cavity. A second housing member having a third cavity. A second pair of springs positioned to extend within the second cavity and the third cavity. When a first predetermined load is applied to the pedal arm, the pushrod moves which drives the first cradle against the first pair of springs such that at least a compression energy by the first pair of springs generates a first force feedback onto the pedal arm.

Abstract: Embodiments herein are directed to an emulator assembly. The assembly includes a housing with a cavity, a pedal arm, an elongated member, a carrier, an end plate and a compressible member. The pedal arm is at least partially received in the cavity and has a pedal pad on one end. The elongated member extends and couples to the pedal arm on one end and couples to a carrier on an opposite other end. The end plate is spaced apart from the carrier. The compressible member is positioned in the space between the carrier and the end plate. When the pedal pad is depressed, the elongated member moves the carrier in a direction towards the end plate which drives the carrier into the compressible member such that the compressible material compresses to generate a force feedback onto a foot positioned on the pedal pad.

Abstract: Embodiments herein are directed to an emulator assembly. The assembly includes a housing with a cavity, a pedal arm, an elongated member, a carrier, an end plate and a compressible member. The pedal arm is at least partially received in the cavity and has a pedal pad on one end. The elongated member extends and couples to the pedal arm on one end and couples to a carrier on an opposite other end. The end plate is spaced apart from the carrier. The compressible member is positioned in the space between the carrier and the end plate. When the pedal pad is depressed, the elongated member moves the carrier in a direction towards the end plate which drives the carrier into the compressible member such that the compressible material compresses to generate a force feedback onto a foot positioned on the pedal pad.

Abstract: Embodiments herein are directed to an emulator assembly. The assembly includes a housing with a cavity, a pedal arm, an elongated member, a carrier, an end plate and a compressible member. The pedal arm is at least partially received in the cavity and has a pedal pad on one end. The elongated member extends and couples to the pedal arm on one end and couples to a carrier on an opposite other end. The end plate is spaced apart from the carrier. The compressible member is positioned in the space between the carrier and the end plate. When the pedal pad is depressed, the elongated member moves the carrier in a direction towards the end plate which drives the carrier into the compressible member such that the compressible material compresses to generate a force feedback onto a foot positioned on the pedal pad.

Abstract: A power electronic assembly is provided. The power electronic assembly includes a housing, a plurality of modules, a first circuit board, a second circuit board, and a cooling structure. The housing has a lower wall and an outer wall that circumferential surrounds the lower wall. The lower wall has an interior surface and an opposite exterior surface. The plurality of modules are in contact with the interior surface of the lower wall. The lower wall is a heatsink configured to assist in removing heat generated by the plurality of modules. The first circuit board is positioned above the plurality of modules in the system vertical direction and communicatively coupled to the plurality of modules. The second circuit board is positioned between the plurality of modules and the first printed circuit board. The cooling structure is coupled to the exterior surface of the lower wall to cool the heatsink.

Abstract: The invention relates to a pedal pad force sensing assembly having a force sensing capacitor. The force sensing capacitor includes an upper plate which is overmolded into the pad body and a lower plate supported on the pedal arm. A sensing module includes an electronic circuitry to determine change of capacitance when pressure is placed on an upper surface of the pad. The sensing assembly may advantageously include a reference capacitor which is mounted near the sensing capacitor but not subjected to pressure.

Abstract: An inductive sensor device for sensing the level of a liquid within a reservoir. The inductive sensor device includes a rotor pivotally connected to an overmold housing. Further, an inductive coupler is mounted to the rotor. Moreover, a float is connected to the rotor to pivot the inductive coupler by the at least one receiving coil to determine the level of liquid within the reservoir.

Abstract: A pedal assembly having a hysteresis creating configuration in communication with a sensor of a pedal assembly. The assembly includes a housing and a pedal arm wherein the pedal arm is pivotally mounted by bushings to the housing. A connector and sensor assembly is provided connected through the pivot point (hub) where the pedal arm connects to the housing of the pedal assembly. A spring connects to a spring carrier wherein the spring is depressed upon depression of the pedal arm of the pedal assembly. As the spring applies a force to the spring carrier, the spring carrier slides down an inclined wall and applies a force to a friction shoe. The friction shoe is in contact with the generally circular hub of the pedal arm thus providing a hysteresis effect as the friction shoe contacts the hub of the pedal arm.

Abstract: A sensor assembly for a vehicle electronic braking system including a housing, at least one linear sensor, the at least one sensor contained within the housing, the linear sensor adapted to measure the linear distance traveled of a brake pedal. The assembly further includes a rotary sensor, the rotary sensor also contained within the same housing, the rotary sensor adapted to measure rotary motion of a DC motor in an the electronic braking system. The rotary sensor and the at least one linear sensor each in communication with a brake control unit. The at least one linear sensor and the at least one rotary sensor is encapsulated, either together or separately. The at least one linear sensor is a Hall-effect sensor. A wake up switch circuit is integrated with at least one of the linear sensors to wake up the system when the driver depresses the brake pedal in the electronic braking system. The rotary sensor is an inductive sensor.

Abstract: An inductive sensor device for sensing the level of a liquid within a reservoir. The inductive sensor device includes a rotor pivotally connected to an overmold housing. Further, an inductive coupler is mounted to the rotor. Moreover, a float is connected to the rotor to pivot the inductive coupler by the at least one receiving coil to determine the level of liquid within the reservoir.

Abstract: An active release system for a pedal assembly which permits the pedal to be operated after releasing. A pivot pin supporting the pedal arm is mounted in a plurality of slots. The pin is held in position in the slots by a release lever assembly. The release lever assembly is held in position by two shear pins. The force of the discharge during a crash breaks the shear pins to rotate a release lever away from the pivot pin. The pedal pivot pin is then free to travel in the slots in the mounting bracket towards the occupant thereby pivoting the pedal arm from the passenger compartment allowing the pedal to be operated after releasing.

Abstract: A pedal assembly for simulating the feel of a standard pedal assembly in a vehicle. The pedal assembly includes a pedal pivotally mounted to a housing. A lever arm is further provided connecting the pedal to the housing. A kickdown subassembly is mounted within the housing. The kickdown subassembly includes a bead and an abutment portion. Depression of the pedal assembly results in movement of the bead towards the abutment portion and provides for kickdown when the bead contacts the abutment portion and then subsequently moves past the abutment portion.

Abstract: A pedal assembly having a hysteresis creating configuration in communication with a sensor of a pedal assembly. The assembly includes a housing and a pedal arm wherein the pedal arm is pivotally mounted by bushings to the housing. A connector and sensor assembly is provided connected through the pivot point (hub) where the pedal arm connects to the housing of the pedal assembly. A spring connects to a spring carrier wherein the spring is depressed upon depression of the pedal arm of the pedal assembly. As the spring applies a force to the spring carrier, the spring carrier slides down an inclined wall and applies a force to a friction shoe. The friction shoe is in contact with the generally circular hub of the pedal arm thus providing a hysteresis effect as the friction shoe contacts the hub of the pedal arm.

Abstract: A pedal assembly having crash absorption features. The pedal assembly includes a pedal arm having a lower end. A slider bracket is provided connected to the rear surface of the pedal arm. A slider mounted within the slider bracket is connected to a housing of the pedal assembly. The slider bracket includes at least one shear tab breakable by the slider. A crush block is provided mounted within the housing of the pedal assembly. The crush block is further connected to the pedal arm. An absorption block is provided mounted adjacent to and forward of the crush block. In the event of a front end crash, a forward force is applied on the pedal pad. As this happens, the slider moves downwards within the slider bracket thereby breaking the shear tabs and allowing further rotation of the pedal arm.

Abstract: A sensor assembly for a vehicle electronic braking system including a housing, at least one linear sensor, the at least one sensor contained within the housing, the linear sensor adapted to measure the linear distance traveled of a brake pedal. The assembly further includes a rotary sensor, the rotary sensor also contained within the same housing, the rotary sensor adapted to measure rotary motion of a DC motor in an the electronic braking system. The rotary sensor and the at least one linear sensor each in communication with a brake control unit. The at least one linear sensor and the at least one rotary sensor is encapsulated, either together or separately. The at least one linear sensor is a Hall-effect sensor. A wake up switch circuit is integrated with at least one of the linear sensors to wake up the system when the driver depresses the brake pedal in the electronic braking system. The rotary sensor is an inductive sensor.

Abstract: The electronic clutch pedal assembly includes a housing bracket for mounting the pedal assembly to the vehicle, a pedal arm, and a biasing device. The pedal arm includes an upper end and a pedal pad at a lower end. The upper end of the pedal arm is pivotally supported within the housing bracket for movement along a pedal path between an undepressed position and a depressed position. The biasing device includes a first end cap pivotally attached to the housing bracket and a second end cap pivotally attached to the pedal arm. The biasing device includes a compressible member disposed between the first end cap and the second end cap. The compressible member biases the pedal arm towards the undepressed position. Upon depression of the pedal arm towards the depressed position, the compressible member compresses as the biasing device rotates to provide a variable pedal resistance over the pedal path.

Abstract: An electronically controlled floor mounted pedal assembly with a position sensor includes a base. A control arm is pivotally mounted to the base member at a control arm pivot axis, and a pedal arm is pivotally mounted to the base member at a pedal arm pivot axis. The control arm free end is positioned adjacent an inner surface of the pedal arm. A friction generating member mounted on the control arm free end contacts a pedal arm friction member positioned on the inner surface of the pedal arm to generate frictional hysteresis force. A spring positioned between the base member and the control arm free end initially biases the control arm against the pedal arm. A position sensor supported on the base member about the control arm pivot axis senses angular rotation of the control arm about the control arm pivot axis as the pedal arm rotates about the pedal arm pivot axis.

Abstract: A pedal assembly having crash absorption features. The pedal assembly includes a pedal arm having a lower end. A slider bracket is provided connected to the rear surface of the pedal arm. A slider mounted within the slider bracket is connected to a housing of the pedal assembly. The slider bracket includes at least one shear tab breakable by the slider. A crush block is provided mounted within the housing of the pedal assembly. The crush block is further connected to the pedal arm. An absorption block is provided mounted adjacent to and forward of the crush block. In the event of a front end crash, a forward force is applied on the pedal pad. As this happens, the slider moves downwards within the slider bracket thereby breaking the shear tabs and allowing further rotation of the pedal arm.

Abstract: An electronic throttle control pedal assembly includes a housing having a cavity formed therein which is mounted to the vehicle. A hub is rotatably attached to the housing within the cavity. The hub includes at least a portion having a circumferential outer wall having an engagement portion. The pedal assembly includes a pedal arm having a pedal pad positioned at one end, and an opposite end operatively attached to the hub such that depression of the pedal pad rotates the hub.