Abstract: An electrical-mechanical brake apparatus includes a bracket and a pedal arm supported by the bracket. The bracket has a cam surface. An arm extends from the pivot arm to a follower. As the pedal arm moves toward the bracket, the follower moves along the cam surface, compressing the cam bias for simulating the feel of a purely mechanical brake system. In certain embodiments, the earn body rotates while in others the cam follower rotates.

Abstract: A pedal assembly using a non-contacting position sensor utilizing a spring-biased roller on a cam surface to simulate the feel of a conventional brake pedal is provided. The pedal assembly includes an elongated brake support bracket having a cam surface and a pedal arm having a spring-biased roller. A spring-biased roller assembly is mounted to an inward side or beside the pedal arm or on both sides of the pedal arm. The roller assembly includes a fixed leg extending on from an inner side of the pedal arm and a movable leg which is pivotally mounted to the pedal arm. A biasing member extends over the support between the fixed leg and movable leg to generate a biasing force against the roller. When the pedal is depressed, the roller is moved along the cam surface of the support bracket thereby creating the ‘feel’ of a traditional pedal assembly.

Abstract: A pedal assembly using a non-contacting position sensor utilizing a spring-biased roller on a cam surface to simulate the feel of a conventional brake pedal is provided. The pedal assembly includes an elongated brake support bracket having a cam surface and a pedal arm having a spring-biased roller. A spring-biased roller assembly is mounted to an inward side or beside the pedal arm or on both sides of the pedal arm. The roller assembly includes a fixed leg extending on from an inner side of the pedal arm and a movable leg which is pivotally mounted to the pedal arm. A biasing member extends over the support between the fixed leg and movable leg to generate a biasing force against the roller. When the pedal is depressed, the roller is moved along the cam surface of the support bracket thereby creating the ‘feel’ of a traditional pedal assembly.

Abstract: An electrical-mechanical brake apparatus includes a bracket (20) and a pedal arm (40) supported by the bracket (20). One of the bracket (20) and the pedal arm (40) presents a cam body (72). The other of the other of the pedal arm (40) and the bracket (20) presents a cam follower (64). One of the cam body (72) and the cam follower (64) is rotatable. A cam bias (86) interconnects the rotatable one of the cam body (72) and the cam follower (64) to one of the bracket (20) and the pedal arm (40). As the pedal arm (40) moves toward the bracket (20), the cam follower (64) moves along the cam body (72), compressing the cam bias (86) for simulating the feel of a purely mechanical brake system. In certain embodiments, the bracket (20) presents the cam body (72) while in other embodiments the pedal arm (40) presents the cam body. In certain embodiments, the cam body (72) rotates while in others the cam follower (64) rotates.

Abstract: A pedal assembly using a non-contacting position sensor utilizing a spring-biased roller on a cam surface to simulate the feel of a conventional brake pedal is provided. The pedal assembly includes an elongated brake support bracket having a cam surface and a pedal arm having a spring-biased roller. A spring-biased roller assembly is mounted to an inward side or beside the pedal arm or on both sides of the pedal arm. The roller assembly includes a fixed leg extending on from an inner side of the pedal arm and a movable leg which is pivotally mounted to the pedal arm. A biasing member extends over the support between the fixed leg and movable leg to generate a biasing force against the roller. When the pedal is depressed, the roller is moved along the cam surface of the support bracket thereby creating the ‘feel’ of a traditional pedal assembly.

Abstract: An electrical-mechanical brake apparatus includes a bracket and a pedal arm supported by the bracket. The bracket has a cam surface. An arm extends from the pivot arm to a follower. As the pedal arm moves toward the bracket, the follower moves along the cam surface, compressing the cam bias for simulating the feel of a purely mechanical brake system. In certain embodiments, the earn body rotates while in others the cam follower rotates.

Abstract: An electrical-mechanical brake apparatus includes a bracket (20) and a pedal arm (40) supported by the bracket (20). One of the bracket (20) and the pedal arm (40) presents a cam body (72). The other of the other of the pedal arm (40) and the bracket (20) presents a cam follower (64). One of the cam body (72) and the cam follower (64) is rotatable. A cam bias (86) interconnects the rotatable one of the cam body (72) and the cam follower (64) to one of the bracket (20) and the pedal arm (40). As the pedal arm (40) moves toward the bracket (20), the cam follower (64) moves along the cam body (72), compressing the cam bias (86) for simulating the feel of a purely mechanical brake system. In certain embodiments, the bracket (20) presents the cam body (72) while in other embodiments the pedal arm (40) presents the cam body. In certain embodiments, the cam body (72) rotates while in others the cam follower (64) rotates.

Abstract: A pedal assembly using a non-contacting position sensor utilizing a spring-biased roller on a cam surface to simulate the feel of a conventional brake pedal is provided. The pedal assembly includes an elongated brake support bracket having a cam surface and a pedal arm having a spring-biased roller. A spring-biased roller assembly is mounted to an inward side or beside the pedal arm or on both sides of the pedal arm. The roller assembly includes a fixed leg extending on from an inner side of the pedal arm and a movable leg which is pivotally mounted to the pedal arm. A biasing member extends over the support between the fixed leg and movable leg to generate a biasing force against the roller. When the pedal is depressed, the roller is moved along the cam surface of the support bracket thereby creating the ‘feel’ of a traditional pedal assembly.