Keyplate system for an input device

What is claimed is: 1. An input device comprising: a housing; a key plate coupled to the housing, the key plate including: a front portion including: a top surface; and a bottom surface; a pivot support portion; and a rear portion including a bottom surface; a shaft coupled to the pivot support portion, wherein the key plate rotates with respect to the shaft; a force sensor coupled to the housing and in contact with the bottom surface of the front portion of the key plate, the force sensor configured to activate in response to receiving a predetermined force from the bottom surface of the front portion of the key plate; and a biasing mechanism coupled to the housing and in contact with the bottom surface of the rear portion of the key plate, the biasing mechanism configured to provide an upward force to the bottom surface of the rear portion of the key plate. 2. The input device of claim 1 wherein the key plate depresses in response to receiving at least a predetermined depression force on the top surface, and wherein the upward force provided by the biasing mechanism is substantially equal to the predetermined depression force. 3. The input device of claim 2 wherein the predetermined depression force is between 5 g to 25 g of force. 4. The input device of claim 1 wherein the force sensor is an actuator. 5. The input device of claim 1 wherein the predetermined force to activate the force sensor is between 50 g to 70 g of force. 6. The input device of claim 1 wherein the pivot support portion is comprised of a polyoxymethylene (POM) material. 7. The input device of claim 1 wherein the biasing mechanism is tunable to provide a range of upward forces on the bottom surface of the rear portion of the key plate. 8. The input device of claim 7 further including a user-accessible control to change the upward force provided by the tunable biasing mechanism. 9. The input device of claim 1 further including a processor, wherein the force sensor is controlled by the processor, wherein the force sensor, in response to being activated, generates an activation signal, and wherein the processor generates a control signal based on the activation signal, the control signal configured to control a computing device coupled to the input device. 10. A computer mouse comprising: a chassis; a key plate disposed in the chassis, the key plate including: a front portion including a top surface and a bottom surface; a pivot support portion; and a rear portion including a bottom surface; a pivot support plate attached to the chassis, the pivot support plate including a shaft configured to couple to the pivot support portion, wherein the key plate rotates with respect to the shaft; a switch attached to the chassis, the switch to activate in response to receiving a threshold activation force received from the bottom surface of the front portion of the key plate; and a biasing mechanism disposed in the chassis and in contact with the bottom surface of the rear portion of the key plate, the biasing mechanism configured to provide an upward force to the bottom surface of the rear portion of the key plate, wherein the key plate depresses in response to receiving at least a threshold depression force substantially normal to the top surface, and wherein the upward force provided by the biasing mechanism is substantially equal to the threshold depression force. 11. The computer mouse of claim 10 wherein the shaft is a metal shaft. 12. The computer mouse of claim 10 wherein the threshold activation force that activates the switch is 60 g of force. 13. The computer mouse of claim 10 wherein the pivot support plate includes a shaft support that houses the shaft, and wherein the pivot support portion is comprised of a polyoxymethylene (POM) material. 14. The computer mouse of claim 10 wherein the biasing mechanism is tunable to change the upward force provided by the biasing mechanism on the bottom surface of the rear portion of the key plate. 15. The computer mouse of claim 14 further including a user-accessible control operable to tune the upward force provide by the biasing mechanism. 16. An input device comprising: a chassis; a key plate coupled to the chassis, the key plate including a front portion and a rear portion, wherein the key plate is depressed in response to receiving a threshold pressing force on the front portion of the key plate; a biasing mechanism disposed in the chassis and coupled to the rear portion of the key plate, the biasing mechanism configured to provide a restoration force to the key plate that is substantially equal to the threshold pressing force; and a switch coupled to the chassis that is configured to generate a control signal in response to receiving a threshold activation force from the front portion of the key plate when the front portion of the key plate is depressed, wherein the key plate further includes a center portion, wherein the chassis includes a metal shaft, and wherein the metal shaft passes through the center portion such that the key plate is rotatably coupled to the metal shaft. 17. The input device of claim 16 wherein the center portion is comprised of a polyoxymethylene (POM) material.