Mechanical sensor diagnostic method and system
First Claim
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1. A system for diagnosing the operation of a sensor used in a vehicle crash discrimination system having an output responsive to a predetermined amount of deceleration comprising:
- a sensor means for measuring deceleration having a continuous output signal representative of the amount of deceleration acting on said vehicle and,a processor having a first input means responsive to the output of said sensor to determine when the output is generated, a second input means responsive to the continuous output signal of said sensor means, and means for performing signal analysis on the continuous output signal to determine whether the continuous output signal is indicative of an amount of deceleration sufficient to generate the output of said sensor.
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Abstract
A system 10 and method for performing diagnostic testing on a mechanical safing sensor used in vehicular safety restraint and vehicle crash discrimination systems includes an accelerometer 12 having an output 14 representative of acceleration, and a processor 20 having an first input 22 responsive to the accelerometer output 14 and a second input 24 responsive to a binary output 18 generated by a mechanical safing sensor 16. The system utilizes normally occurring deceleration events to reliably diagnose safing sensor malfunctions while requiring minimal additional hardware over conventional vehicle safety restraint systems.
31 Citations
7 Claims
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1. A system for diagnosing the operation of a sensor used in a vehicle crash discrimination system having an output responsive to a predetermined amount of deceleration comprising:
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a sensor means for measuring deceleration having a continuous output signal representative of the amount of deceleration acting on said vehicle and, a processor having a first input means responsive to the output of said sensor to determine when the output is generated, a second input means responsive to the continuous output signal of said sensor means, and means for performing signal analysis on the continuous output signal to determine whether the continuous output signal is indicative of an amount of deceleration sufficient to generate the output of said sensor. - View Dependent Claims (2)
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3. A processor-implemented method of diagnosing the operation of a sensor having an output generated by a predetermined amount of deceleration, said processor having a first input responsive to the output of said sensor and having a second input responsive to a continuous output of an accelerometer comprising the steps of:
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providing said processor with actuation threshold data and actuation time data for said sensor; comparing said sensor actuation threshold data with the continuous output of said accelerometer as measured by the second input of said processor to determine when said sensor actuation threshold is met or exceeded; monitoring the first input of said processor to detect when the output of said sensor is generated; measuring the elapsed time between each instance of the continuous output of said accelerometer meeting or exceeding said sensor actuation threshold, and setting a first data bit in said processor when the output of said sensor is not detected within a temporal period exceeding said sensor actuation time as measured from each instance of the continuous output of said accelerometer meeting or exceeding said sensor actuation threshold, wherein said first data bit indicates a failure of said sensor to generate the output in response to said predetermined amount of deceleration. - View Dependent Claims (4)
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5. A processor-implemented method of diagnosing the operation of a sensor having an output comprised of a pair of normally open switch contacts biased closed by a predetermined amount of deceleration, said processor having a first input means for determining the resistance of an electrical circuit connected to the switch contacts of said sensor and further having a second input responsive to a continuous output of an accelerometer, comprising the steps of:
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providing said processor with actuation threshold data and actuation time data for said sensor; comparing said sensor actuation threshold data with the continuous output of said accelerometer as measured by the second input of said processor to determine when said sensor actuation threshold is met or exceeded; measuring the resistance across the switch contacts wherein a decrease in the resistance across the contacts to a predetermined minimum indicates a closure of the switch contacts by said sensor; measuring the elapsed time between each instance of the continuous output of said accelerometer meeting or exceeding said sensor actuation threshold and; setting a first data bit in said processor when the resistance measured across the switch contacts does not decrease to a predetermined minimum resistance within a temporal period exceeding said sensor actuation time as measured from each instance of the continuous output of said accelerometer meeting or exceeding said sensor actuation threshold, wherein said first data bit indicates a failure of said sensor to close the switch contacts within said sensor actuation time. - View Dependent Claims (6, 7)
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Specification
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Current AssigneeAutomotive Systems Laboratory, Incorporated (Ningbo Junsheng Investment Group Co., Ltd.)
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Original AssigneeAutomotive Systems Laboratory, Incorporated (Ningbo Junsheng Investment Group Co., Ltd.)
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InventorsWilson, David S., Sewell, Michael R.
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Primary Examiner(s)Cuchlinski, Jr., William A.
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Assistant Examiner(s)Hernandez, Olga
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Application NumberUS09/065,370Time in Patent Office754 DaysField of Search701/34, 701/45, 280/735, 280/734, 340/438US Class Current701/34CPC Class CodesG01P 21/00 Testing or calibrating of a...
