Passive intermodulation (PIM) distance to fault analyzer with selectable harmonic level
원문보기
IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0723259
(2010-03-12)
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등록번호 |
US-8294469
(2012-10-23)
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발명자
/ 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
10 인용 특허 :
0 |
초록
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A distance to PIM measurement circuit is made using a device such as an AWS transceiver that has separate transmit and receive bands. With a typical AWS transceiver placed in close proximity to a PCS transceiver, the AWS device will include a band reject filter to eliminate interference from the PCS
A distance to PIM measurement circuit is made using a device such as an AWS transceiver that has separate transmit and receive bands. With a typical AWS transceiver placed in close proximity to a PCS transceiver, the AWS device will include a band reject filter to eliminate interference from the PCS signals. The PIM measurement circuit includes two frequency sources F1 and F2 that are provided through a combiner for characterization of the PIM circuit. To enable distance determination, an FM measurement is created by using an offset sweep generator attached to one of the two frequency sources. To avoid frequencies blocked by the band reject filter, a desired harmonic of a test PIM harmonic signal is selected outside the band of the band reject filter.
대표청구항
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1. An apparatus for measuring passive intermodulation (PIM) comprising: a signal sweep generator;a first signal source providing a signal with a first frequency F1, the first signal source connected to the signal sweep generator to provide an offset sweep signal on the frequency F1 at the output of
1. An apparatus for measuring passive intermodulation (PIM) comprising: a signal sweep generator;a first signal source providing a signal with a first frequency F1, the first signal source connected to the signal sweep generator to provide an offset sweep signal on the frequency F1 at the output of the first signal source;a second signal source providing a second signal with a second frequency F2; anda first signal combiner having a first input connected to the first signal source, a second input connected to the second signal source and an output providing a signal combining the first signal and the second signal to provide an output with frequencies F1 and F2 to a test port that are connected to a PIM source;a receive signal bandpass filter connected to the test port, the receive signal passband filter for providing a test signal from the test port;a LO signal generator;a test signal downconverter having a first input receiving the output of the receive signal bandpass filter, a second input connected to the LO signal generator and a test signal output enabling analysis of the sweep signal to determine a distance to the PIM source;a harmonic signal generator connected to receive the output of the first signal source and the second signal source and having an output providing harmonics of a combination of signals from the first signal source and the second signal source;a reference signal bandpass filter having an input connected to the output of the harmonic signal generator; anda reference signal downconverter having a first input connected to the output of the reference signal passband filter, a second input connected to the output of the LO signal generator, and an output providing a reference signal output enabling analysis of the sweep signal to determine a distance to the PIM source. 2. The apparatus of claim 1, wherein the harmonic signal generator comprises: a first frequency multiplier connected to the output of the first signal source for multiplying the frequency of the first signal source by a first factor M to provide an output;a second frequency multiplier connected to the output of the second signal source for multiplying the frequency of the second signal by a second factor N to provide an output; anda first mixer having a first input connected to the output of the first frequency multiplier, a second input connected to the output of the second frequency multiplier and an output, and an output forming the output of the harmonic signal generator. 3. The apparatus of claim 1, wherein the harmonic signal generator comprises: an amplifier having an input connected to the output of the first signal combiner; andat least one diode connected in series with the amplifier, an output of the at least one diode forming the output of the harmonic signal generator. 4. The apparatus of claim 3, wherein the at least one diode comprises two clipping diodes connected between the output of the amplifier and ground in an opposing relation. 5. The apparatus of claim 3, wherein the at least one diode comprises a step recovery diode (SRD). 6. The apparatus of claim 3, wherein the first signal source, the second signal source and the signal combiner are included in a transmitter connected to a system being tested, andwherein the harmonic signal generator, the reference signal bandpass filter, and the reference signal downconverter are provided in a test system receiver provided separate from the system being tested that receives the test signal using an antenna. 7. A method of measuring passive intermodulation (PIM) comprising: generating a first signal with a first frequency F1:generating an offset sweep signal having a frequency significantly below F1 and combining the offset sweep signal with F1 to provide a swept signal F1;generating a second signal with a second frequency F2;combining the first swept signal F1 with the second frequency signal F2 to provide a combined signal to provide a distance to PIM determination signal;filtering the distance to PIM determination signal to select a desired harmonic to provide a test signal;generating harmonics of the combined signal to create a harmonic signal;filtering the harmonic signal to provide the desired harmonic as a reference signal;downconverting the test signal and the reference signal; andanalyzing the downconverted signals to determine a distance to the PIM source. 8. The method of claim 7, wherein the step of generating harmonics is performed using clipping diodes receiving the combined first swept signal F1 and the second frequency signal F2. 9. The method of claim 7, wherein the step of generating harmonics is performed using a Step Recovery Diode (SRD) receiving the combined first swept signal F1 and the second frequency signal F2. 10. The method of claim 7, wherein the step of generating harmonics comprises: multiplying the first signal by a first value M to obtain a M multiple signal;multiplying the second signal by a second value N to obtain an N multiple signal; andcombining the M multiple signal and the N multiple signal to provide the harmonic signal. 11. The method of claim 7, wherein the steps of generating a first signal and generating a second signal are performed using a transmitter connected to a system being tested, andwherein the steps of generating harmonics, filtering the harmonic signal, downconverting the test signal, and analyzing the downconverted signal are performed using a test system receiver provided separate from the system being tested that receives the test signal using an antenna. 12. A method of measuring passive intermodulation (PIM) comprising: generating a first signal in an AWS transmit band of an AWS transmit/receive system with a first frequency F1;generating an offset sweep signal having a frequency significantly below F1 and combining the offset sweep signal with F1 to provide a swept signal F1;generating a second signal in the AWS transmit band of the AWS transmit/receive system with a second frequency F2;combining the first swept signal F1 with the second frequency signal F2 to provide a combined signal to transmit through a transmission line and antenna of the AWS transmitter, wherein a band reject filter is provided in the transmission line of the AWS transmit/receive system to block PCS frequency signals;receiving a signal providing a distance to PIM indication, the received signal being in an AWS receive bandwidth of the receiver AWS transmit/receive systemfiltering the receive signal to provide a test signal with a selected harmonic having an order higher than a 3rd order from the combined signal;generating harmonics of the combined signal to create a harmonic reference signal;filtering the harmonic reference signal to provide the selected harmonic as a reference signal;downconverting the test signal and the reference signal; andanalyzing the downconverted signals to determine a distance to the PIM source. 13. The method of claim 12, wherein the step of generating harmonics is performed using clipping diodes receiving the combined first swept signal F1 and the second frequency signal F2. 14. The method of claim 12, wherein the step of generating harmonics is performed using a Step Recovery Diode (SRD) receiving the combined first swept signal F1 and the second frequency signal F2. 15. The method of claim 12, wherein the step of generating harmonics comprises: multiplying the first signal by a first value M to obtain a M multiple signal;multiplying the second signal by a second value N to obtain an N multiple signal; andcombining the M multiple signal and the N multiple signal to provide the harmonic signal.
이 특허를 인용한 특허 (10)
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Zinevich, Victor M., Detecting CPD in HFC network with OFDM signals.
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Zinevich, Victor M., Detecting CPD in HFC network with OFDM signals.
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Bradley, Donald, Frequency multiplexer for use with instruments for measuring passive intermodulation (PIM).
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Bradley, Donald Anthony, Method of calibrating a measurement instrument for determining direction and distance to a source of passive intermodulation (PIM).
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Zinevich, Victor M., Network traffic-compatible time domain reflectometer.
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Holt, Timothy L.; O'Brien, Timothy M., Passive intermodulation testing using pulse stimulus.
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Bradley, Donald Anthony, Pulse modulated passive intermodulation (PIM) measuring instrument with reduced noise floor.
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Robertson, Stephen Andrew, System and method for eliminating intermodulation.
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Truesdale, Derek; Whiteley, Wesley, System and method for measuring passive intermodulation (PIM) in a device under test (DUT).
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Bradley, Donald Anthony, Systems and methods for measuring passive intermodulation (PIM) and return loss.
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