Adaptive pulse detector utilizing delayed input comparison
First Claim
1. A pulse signal level detector for detection of non-periodic RF pulses, comprising:
- RF detection means for detecting the RF pulse and providing an RF detector signal;
first means for receiving said RF detector signal and providing a second signal identical to said RF detector signal and delayed relative thereto; and
second means for comparing the amplitude of said delayed signal to the maximum amplitude of said RF detector signal and providing a comparison signal indicating the presence or absence of said RF pulse.
1 Assignment
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Accused Products
Abstract
An adaptive signal level detector. The inventive detector includes a first circuit for receiving an input signal and providing a second signal identical to said input signal and delayed relative thereto. The amplitude of the delayed signal is compared to the maximum amplitude of the input signal. When the second signal is at a predetermined level relative to the input signal an output signal is provided. In a specific implementation, the invention (10) includes a first circuit (18) for detecting the signal level of the transmitted signal and providing a second signal in response thereto. The second signal is a logarithmic representation of the input signal The second signal is delayed (20) to provide a third signal. The third signal is subtracted (24) from the second signal to provide a fourth signal. When the fourth signal exceeds a predetermined threshold, an output signal is provided. The invention provides a threshold detection circuit that will detect the instant when the amplitude of the leading or trailing edge of a received pulse crosses a threshold which is a predetermined fraction of the peak pulse amplitude of the received signal independent of the amplitude thereof. The invention enables several different receivers at separate locations to detect the same point on a received pulse signal independently of variations in antenna gain, receiver gain or received signal strength. Because the invention provides measurement independent of pulse amplitude, highly accurate matching of receivers is no longer required. The inventive circuit will greatly enhance the accuracy of comparison of the time of arrival of an transmitted signal at separate receivers.
8 Citations
23 Claims
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1. A pulse signal level detector for detection of non-periodic RF pulses, comprising:
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RF detection means for detecting the RF pulse and providing an RF detector signal; first means for receiving said RF detector signal and providing a second signal identical to said RF detector signal and delayed relative thereto; and second means for comparing the amplitude of said delayed signal to the maximum amplitude of said RF detector signal and providing a comparison signal indicating the presence or absence of said RF pulse.
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2. A pulse detector for detection of non-periodic RF pulses, comprising:
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RF detection means for detecting said RF pulse and providing an RF detector signal; first means responsive to said RF detector signal for providing a second signal identical to said RF detector signal and delayed relative thereto; and second means for determining when said second signal is at a predetermined level relative to the maximum level of said RF detector signal and providing an output signal in response thereto.
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3. An adaptive pulse detector comprising:
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first means for detecting the signal level of an input pulse signal and providing a second signal in response thereto, said second signal being a logarithmic representation of said input pulse signal; second means for delaying said second signal and providing a third signal; third means for subtracting said third signal from said second signal to provide a fourth signal whose value is independent of the amplitude of the input signal pulse over a range of operation; fourth means for comparing said fourth signal to a first threshold representing a fraction of peak amplitude of the input pulse signal at which detection is desired independent of the input signal peak amplitude, to provide a pulse detector output signal; and wherein said second means provides sufficient delay to permit said second signal to rise to peak amplitude before said third signal has risen to said first threshold. - View Dependent Claims (4, 5, 6, 7, 8)
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9. A system for detecting the location of a source of a transmitted pulse signal comprising:
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first and second receivers, each receiver having a pulse detector, said pulse detector comprising; first means for detecting the signal level of an input signal and providing a second signal in response thereto, said second signal being a logarithmic representation of said input signal; second means for delaying said second signal and providing a third signal; third means for subtracting said third signal from said second signal to provide a fourth signal; fourth means for comparing said fourth signal to a first threshold to provide a detector output signal; and wherein said delay line provides sufficient delay to permit said second signal to rise to peak amplitude before said third signal has risen to said first threshold; time measurement means responsive to a detector output signal from each of said first and second receivers for computing the time of arrival of said transmitted signal at each of said receivers; and processor means for providing an indication of the location of said source based on said computed time of arrival. - View Dependent Claims (10, 11, 12, 13, 14)
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15. A pulse width measurement circuit comprising:
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a first adaptive pulse detector for detecting the leading edge of a pulse and providing a first signal in response thereto and a second adaptive pulse detector for detecting the trailing edge of said pulse and providing a second signal in response thereto, said pulse detectors comprising; first means for detecting the signal level of said pulse and providing a second signal in response thereto, said second pulse being logarithmic representation of said pulse; second means for delaying said second signal and providing a third signal; third means for subtracting said third signal from said second signal to provide a fourth signal; fourth means for comparing said fourth signal to a first threshold to provide said first and said second signal; and wherein said delaying means provides sufficient delay to permit said second signal to rise to peak amplitude before said third signal has risen to said first threshold; and time measurement means for determining the width of said pulse based on said first and second signals.
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16. A method for detecting the level of a transmitted non-periodic RF pulse signal, including the steps of:
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detecting the RF pulse and providing an RF detector signal; responding to the RF detector signal and providing a second signal identical to said RF detector signal and delayed relative thereto; and comparing the amplitude of said delayed signal to the maximum amplitude of said RF detector signal and providing a comparison signal indicating the presence or absence of said RF pulse.
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17. A method for detecting the level of transmitted non-periodic RF pulses, including the steps of:
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detecting the RF pulse and providing an RF detector signal; responding to the RF detector signal and providing a second signal identical to said RF detector signal and delayed relative thereto; and determining when said second signal is at a predetermined level relative to the maximum level of said RF detector signal and providing an output signal in response thereto.
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18. An adaptive method for detecting a transmitted pulse signal including the steps of:
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detecting the signal level of an input pulse signal and providing a second signal in response thereto, said second signal being a logarithmic representation of said input pulse signal; delaying said second signal and providing a third signal; subtracting said third signal from said second signal to provide a fourth signal whose value is independent of the amplitude of the input pulse signal over a range of operation; comparing said fourth signal to a first threshold representing a fraction of peak amplitude of the input pulse signal at which detection is desired independent of the magnitude of the input pulse signal, to provide a pulse detector output; and wherein said delaying of said second signal is sufficient to permit said second signal to rise to peak amplitude before said third signal has risen to said first threshold.
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19. A method for detecting the location of a source of a transmitted pulse signal including the steps of:
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receiving said transmitted pulse signal with first and second receivers, each receiver having a pulse detector, said pulse detector comprising; detecting the signal level of an input signal and providing a second signal in response thereto, said second signal being a logarithmic representation of said input signal; delaying said second signal and providing a third signal; subtracting said third signal from said second signal to provide a fourth signal; and comparing said fourth signal to a first threshold to provide a detector output; wherein said delaying step provides a delay which is sufficient to permit said second signal to rise to peak amplitude before said third signal has risen to said first threshold; computing the time of arrival of said transmitted signal at each of said receivers; and providing an indication of the location of said source based on said computed time of arrival.
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20. An adaptive pulse detector comprising:
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first means for detecting the signal level of an input pulse signal and providing a second signal in response thereto, said first means comprising a logarithmic amplifier, said second signal being a logarithmic representation of said input pulse signal; second means for delaying said second signal and providing a third signal; third means for subtracting said third signal from said second signal to provide a fourth signal, said third means comprising a subtractor having positive and negative input terminals, said third signal being provided from said logarithmic amplifier to said subtractor via a first path and said second signal being provided from said logarithmic amplifier to said subtractor via a second path; fourth means for comparing said fourth signal to a first threshold to provide a pulse detector output signal; means for comparing the signal level in said second path to a predetermined threshold to provide an output enable signal in response thereto; and wherein said delay line provides sufficient delay to permit said second signal to rise to peak amplitude before said third signal has risen to said first threshold. - View Dependent Claims (21)
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22. A system for detecting the location of a source of a transmitted pulse signal comprising:
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first and second receivers, each receiver having a pulse detector, said pulse detector comprising; first means for detecting the signal level of an input signal and providing a second signal in response thereto, said first means including a logarithmic amplifier, said second signal being a logarithmic representation of said input signal; second means for delaying said second signal and providing a third signal, said second means comprising a subtractor having positive and negative input terminals, said third signal being provided from said logarithmic amplifier to said subtractor via a first path and said second signal being provided from said logarithmic amplifier to said subtractor via a second path; means for comparing the signal level in said second path to a predetermined threshold to provide an output enable signal in response thereto; third means for subtracting said third signal from said second signal to provide a fourth signal; fourth means for comparing said fourth signal to a first threshold to provide a detector output signal; and wherein said delay line provides sufficient delay to permit said second signal to rise to peak amplitude before said third signal has risen to said first threshold; time measurement means responsive to a detector output signal from each of said first and second receivers for computing the time of arrival of said transmitted signal at each of said receivers; and processor means for providing an indication of the location of said source based on said computed time of arrival. - View Dependent Claims (23)
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Specification