Systems and methods for measuring passive intermodulation (PIM) and return loss
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04B-017/00
G01R-019/00
G01R-031/08
G01R-027/28
H04W-024/04
G01R-031/11
G01R-027/32
H04W-024/00
G01R-001/20
H02H-001/00
출원번호
US-0828379
(2013-03-14)
등록번호
US-9210598
(2015-12-08)
발명자
/ 주소
Bradley, Donald Anthony
출원인 / 주소
ANRITSU COMPANY
대리인 / 주소
Tucker Ellis LLP
인용정보
피인용 횟수 :
0인용 특허 :
23
초록▼
An embodiment of a low power system for measuring passive intermodulation (PIM) includes a port, a test signal source, a dielectric frequency domain multiplexer and a receiver. The test signal source provides a test signal including two tones each capable of producing a signal at the test port of am
An embodiment of a low power system for measuring passive intermodulation (PIM) includes a port, a test signal source, a dielectric frequency domain multiplexer and a receiver. The test signal source provides a test signal including two tones each capable of producing a signal at the test port of amplitude +30 decibels referenced to one milliwatt (dBm) or less. The dielectric frequency domain multiplexer connected with the port and the test signal source and is adapted to multiplex the test signal provided by the test signal source and a measurement signal obtained at the port. The receiver receives the multiplexed measurement signal from the dielectric frequency domain multiplexer and provides a signal indicative of PIM.
대표청구항▼
1. A compact, low power system for measuring passive intermodulation (PIM), comprising: a port;a test signal source providing a test signal including two tones each capable of producing a signal at the test port of amplitude +30 decibels referenced to one milliwatt (dBm) or less;a dielectric frequen
1. A compact, low power system for measuring passive intermodulation (PIM), comprising: a port;a test signal source providing a test signal including two tones each capable of producing a signal at the test port of amplitude +30 decibels referenced to one milliwatt (dBm) or less;a dielectric frequency domain multiplexer connected with the port and the test signal source;wherein the test signal source is moreover prevented from producing a signal having an output power above the operating limit of the dielectric frequency domain multiplexer;wherein the dielectric frequency domain multiplexer is adapted to multiplex the test signal provided by the test signal source and a measurement signal obtained at the port;a receiver to receive the multiplexed measurement signal from the dielectric frequency domain multiplexer;wherein the receiver has an output that provides a signal indicative of PIM. 2. The lower power system of claim 1 wherein the PIM is measured in a device under test (DUT), the port is connectable to the DUT, and the measurement signal is obtained from the DUT at the port. 3. The low power system of claim 1, further comprising: an antenna connectable with the port to transmit the test signal and receive the measurement signal to thereby provide an over-the-air PIM measurement of an environment. 4. The low power system of claim 1, further comprising: a reference channel including a PIM reference generator connected with the receiver and providing to the receiver a reference signal having a reference frequency; andwherein the reference signal is derivable from the test signal. 5. The low power system of claim 1, further comprising: a return loss channel connectable with the receiver to measure return loss. 6. The low power system of claim 1, further comprising: a transmit signal filter for filtering the test signal before the test signal is multiplexed by the dielectric frequency domain multiplexer;wherein the transmit signal filter is a dielectric filter;a first receive signal filter for filtering the measurement signal after the measurement signal is multiplexed by the dielectric frequency domain multiplexer; anda second receive signal filter for filtering the measurement signal after the measurement signal is filtered by the first receive signal filter and amplified;wherein the first receive signal filter and the second receive signal filter are dielectric filters. 7. The low power system of claim 1, wherein the dielectric frequency domain multiplexer is either a ceramic diplexer or a ceramic triplexer. 8. The low power system of claim 2, further comprising: a vector network analyzer, wherein the test signal and the measurement signal are couplable to the vector network analyzer to measure scattering parameters of the DUT. 9. The low power system of claim 4, further comprising: a reference signal filter for filtering the reference signal;wherein the reference signal filter is a dielectric filterwherein the receiver is a synchronous receiver connected with a measurement channel and the reference channel;wherein a phase-detector of the synchronous receiver is a synchronous detector. 10. A compact, low power system for measuring passive intermodulation (PIM), comprising: a control unit including a test signal source providing a test signal including two tones each capable of producing a signal at the test port of amplitude +30 decibels referenced to one milliwatt (dBm) or less,a receiver to receive a measurement signal obtained in response to a test signal, andwherein the receiver has an output that provides a signal indicative of PIM; anda plurality of frequency sub-assemblies each selectively connectable to the control unit and adapted to generate a test signal in a different frequency band, wherein each of the frequency sub-assemblies comprises a port,a dielectric frequency domain multiplexer connected with the port and the test signal source,wherein the test signal source is moreover prevented from producing a signal with output power above the operating limit of the dielectric frequency domain multiplexer,wherein the dielectric frequency domain multiplexer is adapted to multiplex the test signal provided by the test signal source and the measurement signal obtained at the port. 11. The lower power system of claim 10, wherein the PIM is measured in a device under test (DUT), the port is connectable to the DUT, and the measurement signal is obtained from the DUT at the port. 12. The low power system of claim 10, further comprising: an antenna connectable with the port to transmit the test signal and receive the measurement signal to thereby provide an over-the-air measurement of an environment. 13. The low power system of claim 10, wherein each of the sub-assemblies is one of a plugin physically separable from the control unit and a component physically housed with the control unit and selectively connectable via switching. 14. The low power system of claim 10, wherein each of the sub-assemblies further comprises a reference channel including a PIM reference generator connected with the receiver and providing to the receiver a reference signal having a reference frequency, andwherein the reference signal is derivable from the test signal. 15. The low power system of claim 10, wherein each of the sub-assemblies further comprises a return loss channel connectable with the receiver to measure return loss. 16. The low power system of claim 10, wherein each of the frequency sub-assemblies further comprises a transmit signal filter for filtering the test signal before the test signal is multiplexed by the dielectric frequency domain multiplexer;wherein the transmit signal filter is a dielectric filter;a first receive signal filter for filtering the measurement signal after the measurement signal is multiplexed by the dielectric frequency domain multiplexer; anda second receive signal filter for filtering the measurement signal after the measurement signal is filtered by the first receive signal filter and amplified;wherein the first receive signal filter and the second receive signal filter are dielectric filters. 17. The low power system of claim 14, wherein each reference channel includes a reference signal filter for filtering the reference signal; wherein the reference signal filter is a dielectric filter;wherein the receiver is a synchronous receiver connected with a measurement channel and the reference channel; andwherein a phase-detector of the synchronous receiver is a synchronous detector. 18. A plugin for use with a compact, low power system having a test signal source providing a test signal including two tones each capable of producing a signal at the test port of amplitude+30 decibels referenced to one milliwatt (dBm) or less and a receiver to receive a measurement signal and output a signal indicative of passive intermodulation (PIM), the plugin comprising: a port;a dielectric frequency domain multiplexer connected with the port and the test signal source; andwherein the dielectric frequency domain multiplexer is adapted to multiplex the test signal provided by the test signal source and the measurement signal obtained at the port; andwherein the plugin is useable with the low power system when the test signal source is prevented from producing a signal above the operating limit of the dielectric frequency domain multiplexer. 19. The plugin of claim 18, further comprising a return loss channel connectable with the receiver to measure return loss. 20. The plugin of claim 18, operable with the low power system having a reference channel connected with the receiver to provide the receiver a reference signal having a reference frequency and a PIM reference generator, wherein: the plugin provides the measurement signal to the low power system through a measurement channel of the low power system; andwherein the reference signal is derivable from the test signal. 21. The plugin of claim 18, further comprising: a transmit signal filter for filtering the test signal before the test signal is multiplexed by the dielectric frequency domain multiplexer;wherein the transmit signal filter is a dielectric filter;a first receive signal filter for filtering the measurement signal after the measurement signal is multiplexed by the dielectric frequency domain multiplexer; anda second receive signal filter for filtering the measurement signal after the measurement signal is filtered by the first receive signal filter and amplified;wherein the first receive signal filter and the second receive signal filter are dielectric filters. 22. A method for measuring passive intermodulation (PIM), comprising: using a low power system including a port, a test signal source, a dielectric frequency domain multiplexer connected with the port and the test signal source to multiplex a measurement signal obtained at the port and the test signal provided by the test signal source, a receiver to receive the multiplexed signal from the dielectric frequency domain multiplexer, wherein the test signal source is prevented from producing a signal having an output power above the operating limit of the dielectric frequency domain multiplexer;generating a test signal including two tones each having an amplitude of +30 decibels referenced to one milliwatt (dBm) or less;multiplexing the test signal through a dielectric frequency domain multiplexer;transmitting the test signal;receiving a measurement signal in response to the test signal;multiplexing the measurement signal through the dielectric frequency domain multiplexer and to a receiver via a measurement channel;obtaining from the measurement signal, via the receiver, a signal indicative of PIM. 23. The method of claim 22, wherein the receiver includes a reference channel and further comprising: deriving a reference signal from the test signal;providing the reference signal to the receiver via the reference channel;obtaining from the measurement signal and the reference signal, via the receiver, a signal indicative of a magnitude of the PIM and a distance to a source of the PIM. 24. The method of claim 22, wherein transmitting the test signal comprises one of radiating the test signal to an environment via an antenna and propagating the test signal to a device under test (DUT) via a cable.
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이 특허에 인용된 특허 (23)
Stanley, Gerald R., Amplifier employing interleaved signals for PWM ripple suppression.
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Bradley, Donald Anthony; Tiernan, Frank, System and method for measuring and locating passive intermodulation (PIM) sources in a network and/or device.
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