WIDE-BAND ACCELEROMETER SELF-RECOGNISING ITS CALIBRATION

US 20100116020A1
Filed: 08/01/2007
Published: 05/13/2010
Est. Priority Date: 05/15/2007
Status: Abandoned Application

First Claim

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1. A wide-band, single-axis or multiple-axis accelerometer or acceleration-measuring sensor, the accelerometer or sensor being adapted to self-recognise its calibration, wherein the accelerometer or sensor comprises at least one accelerometric detecting unit, the unit being composed of at least two accelerometric transducers adapted to read, in a parallel way, different frequency bands, at least one electronic circuit for conditioning and digitising signals coming from the accelerometric detecting unit and at least one microprocessor adapted to read the signals through the conditioning and digitising circuit and to recombine them for every measuring axis into at least one global output signal.

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Abstract

A wide-band, single-axis or multiple-axis accelerometer or acceleration-measuring sensor, self-recognising its calibration is described, comprising at least one accelerometric detecting unit, such group being composed of at least two accelerometric transducers adapted to read, in a parallel way, different frequency bands, at least one electronic circuit for conditioning and digitising signals coming from the accelerometric detecting unit and at least one microprocessor adapted to read the signals through the conditioning and digitising electronic circuit and to recombine them for every measuring axis into at least one global output signal.

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8 Claims

1. A wide-band, single-axis or multiple-axis accelerometer or acceleration-measuring sensor, the accelerometer or sensor being adapted to self-recognise its calibration, wherein the accelerometer or sensor comprises at least one accelerometric detecting unit, the unit being composed of at least two accelerometric transducers adapted to read, in a parallel way, different frequency bands, at least one electronic circuit for conditioning and digitising signals coming from the accelerometric detecting unit and at least one microprocessor adapted to read the signals through the conditioning and digitising circuit and to recombine them for every measuring axis into at least one global output signal.
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- - 2. The accelerometer of claim 1, wherein the accelerometric detecting unit is oriented according to at least one of the directions of the measuring axes.
  - 3. The accelerometer of claim 1 wherein at least a first of the two transducers reads a frequency band that starts from a frequency with value zero and that at least a second of the two transducers reads a frequency band that is partially overlapped with the band read by said first transducer.
  - 4. The accelerometer of claim 1, wherein the first transducer is autonomously able to check its actual operation and to guarantee a validity and its reading calibration performed in time.
  - 5. The accelerometer of claim 1, wherein the accelerometer comprises three accelerometric detecting units, each one of which is oriented according to one of the three measuring directions, such directions being preferably in agreement with a system of Cartesian axes, each one of the accelerometric detecting units being respectively equipped with the two transducers.
  - 6. The accelerometer of claim 1, wherein the output signal is a wideband signal whose frequency is equal to a lowest value of the band read by the first transducer and has as maximum value a maximum value of the transducer able to measure a frequency band with highest value.
  - 7. The accelerometer of claim 3, wherein the first transducer cooperates with the microprocessor to verify its actual operation and calibration by comparing a gravity acceleration with the frequency reading with value zero.
  - 8. The accelerometer of claim 3, wherein the first transducer is adapted to cooperate with the microprocessor to verify an actual operation and calibration of the transducer by comparing the reading with frequency with value zero with a value of a module of the gravity acceleration.

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Current Assignee
Sequoia It SRL
Original Assignee
Sequoia It SRL
Inventors
Titolo, Massimiliano

Application Number

US12/598,108
Publication Number

US 20100116020A1
Time in Patent Office

Days
Field of Search
US Class Current

73/1.380
CPC Class Codes

G01P 15/18 in two or more dimensions

G01P 21/00 Testing or calibrating of a...

WIDE-BAND ACCELEROMETER SELF-RECOGNISING ITS CALIBRATION

First Claim

1 Assignment

0 Petitions

Accused Products

Abstract

6 Citations

8 Claims

Specification

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WIDE-BAND ACCELEROMETER SELF-RECOGNISING ITS CALIBRATION

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

6 Citations

8 Claims

Specification

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Solutions

Use Cases

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