PatentFIZZ™

1. A video game system comprising: a game controller; a hand-held control unit coupled to the game controller and housing an accelerometer and a light sensor, the accelerometer sensing tilt of the control unit with respect to an axis, the accelerometer producing an acceleration signal indicating the tilt of the control unit with respect to the axis, the game controller processing the acceleration signal to control the movement of a game character on a video display coupled to the game controller and further processing the acceleration signal to control directional navigation of the game character through a game environment, said navigation corresponding to the tilt of the hand-held control unit, the light sensor detecting one or more light pixels from the video display corresponding to a direction in which the hand-held control unit is pointing, the light sensor producing a detection signal to the game controller, the game controller determining from the detection signal the light pixels from the video display detected by the light sensor.

2. The video game system of claim 1, wherein the accelerometer is a capacitive accelerometer.

3. The video game system of claim 1, wherein the accelerometer is a two-axis accelerometer.

4. The video game system of claim 1, wherein the video display traces a plurality of individual pixels, one at a time, along horizontal rows.

5. The video game system of claim 4, wherein each pixel has a horizontal and vertical coordinate.

6. The video game system of claim 5, wherein the game controller, upon receiving the detection signal, stores the horizontal and vertical coordinates of the pixels aimed at on the video display.

7. The video game system of claim 1 further comprising a switch on said hand-held control unit for switching between operation of the accelerometer and the light sensor.

8. The video game system of claim 1 further comprising a switch on said hand-held control unit for switching between operation of the accelerometer, operation of the light sensor, and operation of both the light sensor and the accelerometer.

9. A method of making a video game system comprising the steps of: providing a game controller, providing a hand-held control unit coupled to the game controller, housing an accelerometer in the control unit, the accelerometer being adapted to sense tilt of the control unit with respect to an axis, the accelerometer being adapted to produce an acceleration signal to the game controller indicating the tilt of the control unit with resect to the axis, the game controller processing the acceleration signal to control the movement of a game character on a video display coupled to the game controller and further processing the acceleration signal to control directional navigation of the game character through a game environment, said navigation corresponding to the tilt of the hand-held control unit, housing a light sensor in the control unit, the light sensor being adapted to receive one or more light pixels from a video display coupled to the game controller and to produce a detection signal to the game controller, the game controller determining from the detection signal the light pixels from the video display detected by the light sensor; and configuring the game controller to determine from the detection signal where the control unit is aimed at on the video display.

10. The method of claim 9, wherein the accelerometer is a two-axis accelerometer.

11. The method of claim 9, wherein the accelerometer includes a micromachined enclosure, a mass and a pair of tethers, the mass being attached at respective ends to the pair of tethers, each tether being anchored at respective ends to inside surfaces of the micromachined enclosure.

12. The method of claim 11, wherein the accelerometer includes a metallic finger extending from a side of the mass, two generally parallel metallic plates extending from one inside surface of the micromachined enclosure and generally orthogonal thereto, a capacitance being produced between the finger and one of the plates.

13. The method of claim 9, wherein tilting the accelerometer about the axis produces a change in capacitance.

14. The method of claim 9, wherein the control unit is shaped in the form of a gun.

15. A method of controlling a character in a video game system, the system including a game controller, a hand-held control unit, and a video display, the game controller being coupled to the control unit and the video display, the control unit containing an accelerometer and a light sensor, the accelerometer sensing tilt of the control unit with respect to an axis, the light sensor being housed in the control unit, the method comprising the steps of: using the accelerometer in the control unit to produce an acceleration signal indicating the tilt of the control unit with respect to the axis; transmitting the acceleration signal to the game controller; processing the acceleration signal with the game controller to control directional navigation of the game character through a game environment, said navigation corresponding to the tilt of the hand-held control unit; using the light sensor in the control unit to detect one or more light pixels from the video display and thereby produce a detection signal corresponding to a direction in which the control unit is pointing; transmitting the detection signal to the game controller; determining from the detection signal the light pixels detected from the video display by the light sensor; and determining whether a target on the video display has been hit.

16. The method of claim 15, wherein the accelerometer includes a micromachine enclosure and a mass.

17. The method of claim 15, further including the steps of: tilting the accelerometer about the axis; and producing a change in capacitance.

18. The method of claim 15, wherein the control unit is shaped in the form of a gun.

19. The method of claim 15, further including the steps of: tracing a plurality of individual pixels on the video display, one at a time, along horizontal rows.

20. The method of claim 19, further including the step of assigning each pixel a horizontal and vertical coordinate.

21. The method of claim 20, further including the step of storing the horizontal and vertical coordinates of the pixels aimed at on the video display in response to receiving the detection signal at the game controller.