Abstract: An integrated, surface-mount pointing device for controlling the movement of an object on a display screen, comprises a base member; a shaft mounted in the base member; a sensor mounted on the shaft for sensing the amount of strain in the shaft in response to an applied force on the shaft; and a pair of spaced electrical leads extending at least partially through the base member. Each electrical lead has an inner terminal end electrically connected to the sensor and an outer terminal end extending outwardly of the base member. The outer terminal ends of the pair of leads are shaped for mounting on the surface of a circuit board. The circuit board may contain electrical traces and electronic circuitry for processing signals from the sensor. More than one sensor with additional electrical leads may be provided.
Abstract: A position sensor comprises a rotor and shaft connected to a housing for rotation about a rotational axis. A sensor base is fixedly connected to the housing and is spaced from the rotor. A Hall-effect sensor is fixedly connected to the sensor base, and a magnet is connected to the rotor for rotational movement therewith. The magnet has an upper polarized surface that faces the magnetic sensor to thereby generate a magnetic field coincident with the magnetic sensor. The polarized surface is semi-parabolic in shape to form a variable gap between the magnetic sensor and the polarized surface as the shaft and rotor are turned about the rotational axis to thereby vary the strength of the magnetic field at the magnetic sensor. With this arrangement, the strength of the magnetic field sensed by the magnetic sensor is indicative of the amount of relative movement between the rotor and the housing.