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The present invention is directed to recording changes associated with the acceleration of a structure. An exemplary embodiment includes an accelerometer array having at least one silicon beam type accelerometer, a nonvolatile memory, a clock timer, a programmable control unit operatively coupled to

The present invention is directed to recording changes associated with the acceleration of a structure. An exemplary embodiment includes an accelerometer array having at least one silicon beam type accelerometer, a nonvolatile memory, a clock timer, a programmable control unit operatively coupled to the accelerometer array, at least one non-volatile memory, and clock timer. The accelerometer array, the at least one non-volatile memory, the clock timer and the programmable control unit can be formed on a common semiconductor substrate (e.g., integrated), with the accelerometer array disposed in a central region.

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1. Apparatus for recording changes associated with acceleration of a structure, the apparatus comprising:an accelerometer array having at least one silicon beam type accelerometer; non-volatile memory; a clock timer; and a programmable control unit operatively coupled to the accelerometer array, at

1. Apparatus for recording changes associated with acceleration of a structure, the apparatus comprising:an accelerometer array having at least one silicon beam type accelerometer; non-volatile memory; a clock timer; and a programmable control unit operatively coupled to the accelerometer array, at least one non-volatile memory, and clock timer, wherein the accelerometer array, the at least one non-volatile memory, the clock timer and the programmable control unit are formed as an integrated circuit on a common semiconductor substrate with the accelerometer array provided in a center of the common semiconductor substrate, and wherein the non-volatile memory stores acceleration data related to changes associated with acceleration of the structure along with correlated time data. 2. The apparatus of claim 1 wherein the accelerometer array and the non-volatile memory are disposed adjacent to each other on the common semiconductor substrate.3. The apparatus of claim 2 further comprising an internal power supply.4. The apparatus of claim 1, further comprising an adhesive mount.5. The apparatus of claim 1, wherein the substrate center is the geometric center of the substrate.6. The apparatus of claim 1, wherein the substrate center is the center of gravity of the substrate.7. Apparatus for recording changes associated with acceleration of a structure, the apparatus comprising:means for sensing acceleration; means for storing data; means for measuring temporal data associated with acceleration data; and means operatively coupled to the sensing means, storing means and measuring means for triggering the storing means to record acceleration data and associated temporal data as non-volatile data in response to a predetermined event, wherein the sensing means, storing means and measuring means are formed as an integrated circuit on a common semiconductor substrate with the sensing means provided in a center of the common substrate. 8. The apparatus of claim 7 wherein the sensing means and the storing means are disposed adjacent to each other on the common semiconductor substrate.9. The apparatus of claim 7 wherein the sensing means comprises a plurality of silicon accelerometers disposed along at least one predetermined axis, wherein each accelerometer is configured to generate a signal at a predetermined level of acceleration along a predetermined axis.10. The apparatus of claim 9 wherein the plurality of silicon accelerometers comprise groups of accelerometers, each group of accelerometers being configured to detect acceleration along a particular of axis of acceleration, and each group of accelerometers being operatively coupled to a non-volatile memory through the triggering means, wherein upon the detection of a predetermined event, acceleration data for each particular axis of acceleration along each of the plurality of predetermined axis is recorded in a non-volatile memory.11. The apparatus of claim 7 wherein the sensing means comprises a first silicon beam type accelerometer and a second silicon beam type accelerometer, the first silicon beam type accelerometer being adapted to generate a signal at a first level of acceleration along the predetermined axis, and the second silicon beam type accelerometer is adapted to generate a signal at a level of acceleration along the same axis having a predetermined numerical relationship to the first predetermined level of acceleration.12. The apparatus of claim 11 wherein the triggering means monitors the accelerometers along the at least one predetermined axis and triggers the storing means and measuring means to record time and acceleration data upon the detection of a pre-determined level of acceleration.13. The apparatus of claim 7 comprising a plurality of accelerometer arrays.14. The apparatus of claim 7 wherein the triggering means, comprises means for externally triggering the sensing means.15. The apparatus of claim 7 wherein the triggering means comprises means for interfacing with an external device.16. The apparatus of claim 7 comprising an internal power supply.17. The apparatus of claim 11 wherein the triggering means, sensing means, storing means and measuring means operate in a continuous collection mode, the storing means overwriting previously collected data to retain time and acceleration data regarding a predetermined event.18. The apparatus of claim 7 comprising means for attaching the apparatus to the structure.19. The apparatus of claim 7, further comprising means for adhesively mounting the apparatus to a structure.20. The apparatus of claim 7, wherein the substrate center is the geometric center of the substrate.21. The apparatus of claim 20, wherein the substrate center is the geometric center of the substrate.22. The apparatus of claim 20, wherein the substrate center is the center of gravity of the substrate.23. The apparatus of claim 7, wherein the substrate center is the center of gravity of the substrate.24. A method for recording changes associated with the acceleration of a structure using at least one accelerometer, non-volatile memory, clock timer, and programmable control unit integrated on a common semiconductor substrate with the accelerometer provided in a center of the semiconductor substrate, the method comprising:detecting a predetermined event; monitoring temporal data from the clock timer correlated with acceleration data from the accelerometer; and triggering the non-volatile memory with the programmable control unit to record in the non-volatile memory acceleration data from the accelerometer and the temporal data. 25. The method of claim 24 wherein the predetermined event is the receipt of a signal from an external trigger.26. The method of claim 24 wherein the programmable control unit monitors the accelerometer and triggers the non-volatile memory and clock timer, upon the detection of a predetermined acceleration level.27. The method of claim 24 wherein the programmable control unit, accelerometer, clock timer and non-volatile memory, operate in a continuous collection mode overwriting previously recorded time and acceleration data, to retain time and acceleration data regarding a predetermined event.28. The method of claim 24 wherein the programmable control unit triggers the non-volatile memory and accelerometer upon detection of an acceleration event lasting a predetermined duration.29. The method of claim 24, comprising:comparing acceleration data to a threshold; and recording acceleration data which satisfies the threshold. 30. The method of claim 24, comprising:recording the acceleration data of variable time intervals. 31. The apparatus of claim 24, wherein the substrate center is the geometric center of the substrate.32. The apparatus of claim 24, wherein the substrate center is the center of gravity of the substrate.33. A method for recording changes associated with the acceleration of a structure using at least one accelerometer, non-volatile memory, clock timer, and programmable control unit integrated on a common semiconductor substrate, the method comprising:detecting a predetermined event; monitoring temporal data from the clock timer correlated with acceleration data from the accelerometer; triggering the non-volatile memory with the programmable control unit to record in the non-volatile memory acceleration data from the accelerometer and the temporal data; and determining peak acceleration data associated with at least one of a predetermined event and time period. 34. Apparatus for recording an acceleration of a structure, the apparatus comprising:an accelerometer; non-volatile memory; a clock timer; and a programmable control unit operatively coupled to the accelerometer, the non-volatile memory and clock timer, wherein the accelerometer, the non-volatile memory, the clock timer, and the programmable control unit are integrated on a common semiconductor substrate, and wherein the programmable control unit is operable to determine and store in the non-volatile memory peak acceleration data associated with at least one of a predetermined event and time period. 35. The apparatus of claim 34, wherein the accelerometer comprises arrays of silicon beams, each array being arranged along a respective axis.36. The apparatus of claim 34, wherein with the accelerometer formed in a center of the semiconductor substrate.37. Apparatus for attachment to a rigid structure to record acceleration and corresponding time data associated with the structure, comprising:a self-contained package containing a semiconductor substrate, said substrate having integrated thereon: an accelerometer for sensing acceleration of the rigid body along at least one axis; a clock for providing a time data clocked at a predetermined rate; non-volatile memory; and a programmable control unit for triggering recording in the non-volatile memory at least one amount of the sensed acceleration along with associated time data according to the rate provided by the clock; and means provided on the self-contained package for adhering the package to the rigid structure. 38. The apparatus of claim 37, wherein the package further comprises means for receiving programming instructions and for outputting the recorded data.39. The apparatus of claim 37, wherein the adhering means comprises a peel and stick type adhesive.40. The apparatus of claim 37, wherein recorded temporal data comprises chronological time.41. The apparatus of claim 37, wherein recorded temporal data comprises time instances associated with at least one acceleration event.42. The apparatus of claim 41, wherein recorded temporal data comprises times of the duration of a recorded acceleration event.43. The apparatus of claim 37, wherein when sensed acceleration meets or exceeds a predetermined threshold amount, the programmable control unit triggers recording in the non-volatile memory each acceleration event meeting or exceeding said threshold amount and associated temporal data.44. The apparatus of claim 37, wherein the programmable control unit is programmable to trigger recording of sensed acceleration and associated temporal data at a predetermined time.45. The apparatus of claim 37, wherein triggering by the programmable control unit is controlled by means external to the package.46. The apparatus of claim 37, wherein the accelerometer and the non-volatile memory are provided in direct proximity to each other on the common semiconductor substrate, with the accelerometer being provided in the substrate center.47. The apparatus of claim 37, wherein the accelerometer comprises an array of silicon beams along at least one direction corresponding to an axis of acceleration.48. The apparatus of claim 47, wherein each beam in an array of silicon beams along at least one direction corresponds to a one bit representation of acceleration along the corresponding axis of acceleration.49. The apparatus of claim 37, wherein the non-volatile memory comprises at least first and second separate non-volatile memories, and acceleration sensed along two different axis are recorded in the first and second memories, respectively.50. The apparatus of claim 37, wherein the accelerometer includes means for sensing acceleration along more than one axis and different acceleration threshold amounts are associated with the axes to cause triggering of recording by the programmable control unit.