초록 ▼

Handheld electronic devices including motion sensing and processing. In one aspect, a handheld electronic device includes a set of motion sensors provided on a single sensor wafer, including at least one gyroscope sensing rotational rate of the device around at least three axes and at least one acce

Handheld electronic devices including motion sensing and processing. In one aspect, a handheld electronic device includes a set of motion sensors provided on a single sensor wafer, including at least one gyroscope sensing rotational rate of the device around at least three axes and at least one accelerometer sensing gravity and linear acceleration of the device along the at least three axes. Memory stores sensor data derived from the at least one gyroscope and accelerometer, where the sensor data describes movement of the device including a rotation of the device around at least one of the three axes of the device, the rotation causing interaction with the device. The memory is provided on an electronics wafer positioned vertically with respect to the sensor wafer and substantially parallel to the sensor wafer. The electronics wafer is vertically bonded to and electrically connected to the sensor wafer.

대표청구항 ▼

1. A handheld electronic device, the device comprising: three linear accelerometers and three gyroscope sensors provided on a single sensor wafer, the three gyroscopes sensing rotational rate of the device around at least three axes of the device and the three accelerometers sensing gravity and line

1. A handheld electronic device, the device comprising: three linear accelerometers and three gyroscope sensors provided on a single sensor wafer, the three gyroscopes sensing rotational rate of the device around at least three axes of the device and the three accelerometers sensing gravity and linear acceleration of the device along the at least three axes of the device; andmemory for storing sensor data derived from the three gyroscopes and the three accelerometers,a computation unit capable of determining motion data from the sensor data stored in the memory, the motion data derived from a combination of the sensed rotational rate around at least one of the three axes and the sensed gravity and linear acceleration along at least one of the three axes;wherein the memory and the computation unit are provided on an electronics wafer positioned vertically with respect to the sensor wafer and substantially parallel to the sensor wafer, the electronics wafer being vertically bonded to and electrically connected to the sensor wafer, andwherein the sensor data describes movement of the device including a rotation of the device around at least one of the three axes of the device, the rotation causing interaction with the device. 2. The electronic device of claim 1, further comprising a subsystem providing display capability for providing an image on a display attached to the electronic device. 3. The electronic device of claim 1, further comprising an RF chip. 4. The electronic device of claim 1 wherein the sensed linear acceleration along the at least three axes is used to update biases of the at least one gyroscope to reduce gyroscopic drift in the sensed rotational rate around the at least three axes. 5. The electronic device of claim 1, wherein an orientation of the device is described by the motion data, the orientation determined by an integration of the sensed rotational rate and by a feedback term, the feedback term generated from the linear acceleration sensed along the three axes and from gravity. 6. The electronic device of claim 1, wherein the set of motion sensors, the memory, and the computation unit are provided in a single package, the package being connected to a printed circuit board. 7. The electronic device of claim 1, wherein the sensor wafer and the electronics wafer are provided in a single package. 8. The electronic device of claim 1, wherein the memory is a hardware buffer memory for storing the sensor data, the sensor data including a plurality of points of data, each point of data being from a different point in time. 9. The electronic device of claim 1 further comprising at least one additional sensor of a different type than the set of motion sensors, wherein the motion data is determined from the sensed rotational rate, gravity, and linear acceleration in combination with data derived from the at least one additional sensor. 10. The electronic device of claim 9 wherein the at least one additional sensor is at least one compass. 11. The electronic device of claim 1, wherein the motion sensors sensing rotational rate are implemented based on one or more of the following technologies: Micro Electro Mechanical Systems, piezoelectric, hemispherical resonator, tuning fork, quartz, carbon nanotubes. 12. The electronic device of claim 2, wherein the interaction with the device includes change of the image on the display in response to the rotation of the device along at least one of the three axes of the device, the three axes including a roll axis, a pitch axis, and a yaw axis. 13. A handheld electronic device, the device comprising: three linear accelerometers and three gyroscopes provided on a single sensor wafer, the three gyroscopes sensing rotational rate of the device around at least three axes of the device and the three accelerometers sensing gravity and linear acceleration of the device along the at least three axes of the device;memory for storing sensor data derived from the three gyroscopes and the three accelerometers; anda computation unit capable of determining motion data from the sensor data stored in the memory,wherein the memory and the computation unit are provided on an electronics wafer positioned vertically with respect to the sensor wafer and substantially parallel to the sensor wafer, the electronics wafer being vertically bonded to and electrically connected to the sensor wafer, andwherein the motion data describes movement of the device including a rotation of the device around at least one of the three axes of the device, the rotation causing interaction with the device. 14. The electronic device of claim 13, further comprising a subsystem providing display capability for providing an image on a display attached to the device. 15. The electronic device of claim 13, further comprising an RF chip. 16. The electronic device of claim 13, wherein the set of motion sensors, the memory, and the computation unit are provided in a single package, the package being connected to a printed circuit board. 17. The electronic device of claim 13, wherein the sensor wafer and the electronics wafer are provided in a single package. 18. The electronic device of claim 13 further comprising at least one additional sensor of a different type than the set of motion sensors, wherein the motion data is determined from the sensed rotational rate, gravity, and linear acceleration in combination with data derived from the at least one additional sensor. 19. The electronic device of claim 18 wherein the at least one additional sensor is at least one compass. 20. A method for providing a handheld electronic device, the method comprising: sensing rotational rate of the device around at least three axes of the device using three gyroscopes and sensing gravity and linear acceleration of the device along the at least three axes of the device using three accelerometers, the three gyroscopes and the three accelerometers provided on a single sensor wafer in the device; andstoring sensor data derived from the three gyroscopes and the three accelerometers in a memory of the device,determining motion data from the sensor data stored in the memory by a computation unit, the motion data derived from a combination of the sensed rotational rate around at least one of the three axes and the sensed gravity and linear acceleration along at least one of the three axes,wherein the memory and the computation unit are provided on an electronics wafer positioned vertically with respect to the sensor wafer and substantially parallel to the sensor wafer, the electronics wafer being vertically bonded to and electrically connected to the sensor wafer, andwherein the sensor data describes movement of the device including a rotation of the device around at least one of the three axes of the device, the rotation causing interaction with the device. 21. A handheld electronic device, the device comprising: a set of motion sensors provided on a single sensor die, the motion sensors including three gyroscopes sensing rotational rate of the device around at least three axes of the device and three accelerometers sensing gravity and linear acceleration of the device along the at least three axes of the device;a computation unit capable of determining motion data from the sensor data stored in the memory, the motion data derived from a combination of the sensed rotational rate around at least one of the three axes and the sensed gravity and linear acceleration along at least one of the three axes; andmemory for storing sensor data derived from the three gyroscopes and three accelerometers,wherein the memory and computation unit are provided on an electronics die positioned vertically with respect to the sensor die and substantially parallel to the sensor die, the electronics die being vertically bonded to and electrically connected to the sensor die, andwherein the sensor data describes movement of the device including a rotation of the device around at least one of the three axes of the device, the rotation causing interaction with the device. 22. A handheld electronic device, the device comprising: a set of motion sensors provided on a single sensor die, the motion sensors including three gyroscopes sensing rotational rate of the device around at least three axes of the device and three accelerometers sensing gravity and linear acceleration of the device along the at least three axes of the device;memory for storing sensor data derived from the three gyroscopes and the three accelerometers; anda computation unit capable of determining motion data from the sensor data stored in the memory,wherein the memory and the computation unit are provided on an electronics die positioned vertically with respect to the sensor die and substantially parallel to the sensor die, the electronics die being vertically bonded to and electrically connected to the sensor die, and wherein the motion data describes movement of the device including a rotation of the device around at least one of the three axes of the device, the rotation causing interaction with the device.