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다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
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Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0042532 (2016-02-12) |
등록번호 | US-9807700 (2017-10-31) |
발명자 / 주소 |
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 | 피인용 횟수 : 1 인용 특허 : 478 |
Offsetting unwanted downlink interference signals in an uplink path in a distributed antenna system (DAS) is disclosed. In this regard, in one example, an interference signal offset circuit is provided in an RAU to offset interference products leaked from a downlink path to an uplink path. An offset
Offsetting unwanted downlink interference signals in an uplink path in a distributed antenna system (DAS) is disclosed. In this regard, in one example, an interference signal offset circuit is provided in an RAU to offset interference products leaked from a downlink path to an uplink path. An offset signal generation circuit is configured to generate at least one uplink interference offset signal based on the interference products leaked from the downlink path. A signal summing circuit is configured to combine the at least one uplink interference offset signal with an uplink signal received on the uplink path, thus offsetting the interference products in the uplink signal. By providing the interference signal offset circuit in the RAU to offset the interference products on the uplink path, it is possible to provide more implementation flexibility for the RAU without degrading the uplink signal.
1. An interference signal offset circuit in a distributed antenna system (DAS), comprising: at least one offset signal generation circuit configured to: receive a downlink signal in a downlink path, the downlink signal comprising one or more downlink communications signals and at least one unwanted
1. An interference signal offset circuit in a distributed antenna system (DAS), comprising: at least one offset signal generation circuit configured to: receive a downlink signal in a downlink path, the downlink signal comprising one or more downlink communications signals and at least one unwanted downlink interference signal resulting from the one or more downlink communications signals; andgenerate at least one uplink interference offset signal based on the received at least one unwanted downlink interference signal;a signal summing circuit configured to: receive an uplink signal in an uplink path, the uplink signal comprising a wanted uplink signal and the at least one unwanted downlink interference signal leaked from the downlink path to the uplink path;receive the at least one uplink interference offset signal;generate an output uplink signal based on the received uplink signal; andcombine the received at least one uplink interference offset signal with the received uplink signal to offset the at least one unwanted downlink interference signal from the output uplink signal; anda control circuit configured to: receive the output uplink signal from the signal summing circuit; andconfigure the at least one offset signal generation circuit to generate the at least one uplink interference offset signal to offset the at least one unwanted downlink interference signal;the interference signal offset circuit configured to operate in a test mode, wherein the control circuit is further configured to: decouple at least one antenna from a coupling device communicatively coupled to the at least one antenna;decouple the at least one offset signal generation circuit from the signal summing circuit;receive a downlink test signal in the downlink path, wherein the downlink test signal comprises one or more downlink test interference products;receive an uplink test signal in the uplink path, wherein the uplink test signal comprises the one or more downlink test interference products leaked from the downlink path to the uplink path; andmeasure a power level of at least one downlink test interference product among the one or more downlink test interference products. 2. The interference signal offset circuit of claim 1, wherein the control circuit is further configured to: measure a power level of the at least one unwanted downlink interference signal; andconfigure the at least one offset signal generation circuit to generate the at least one uplink interference offset signal based on the measured power level. 3. The interference signal offset circuit of claim 1, wherein: the at least one unwanted downlink interference signal comprises one or more downlink interference products; andthe at least one offset signal generation circuit is configured to generate the at least one uplink interference offset signal based on at least one downlink interference product among the one or more downlink interference products in the received at least one unwanted downlink interference signal. 4. The interference signal offset circuit of claim 3, wherein the control circuit is further configured to: measure a power level of the at least one downlink interference product among the one or more downlink interference products; andconfigure the at least one offset signal generation circuit to generate the at least one uplink interference offset signal based on the measured power level. 5. The interference signal offset circuit of claim 4, wherein the at least one offset signal generation circuit is configured to generate the at least one uplink interference offset signal to substantially match the power level of the at least one downlink interference product and be substantially opposite in phase of a phase of the at least one downlink interference product. 6. The interference signal offset circuit of claim 3, wherein the at least one uplink interference offset signal generated by the at least one offset signal generation circuit is configured to offset the at least one downlink interference product among the one or more downlink interference products in the received at least one unwanted downlink interference signal. 7. The interference signal offset circuit of claim 1, wherein: the at least one unwanted downlink interference signal comprises a plurality of downlink intermodulation products; andthe at least one offset signal generation circuit is configured to generate the at least one uplink interference offset signal based on at least one downlink intermodulation product among the plurality of downlink intermodulation products in the received at least one unwanted downlink interference signal. 8. The interference signal offset circuit of claim 1, wherein: the at least one unwanted downlink interference signal comprises a plurality of downlink harmonic products; andthe at least one offset signal generation circuit is configured to generate the at least one uplink interference offset signal based on at least one downlink harmonic product among the plurality of downlink harmonic products in the received at least one unwanted downlink interference signal. 9. The interference signal offset circuit of claim 1, wherein in the test mode the control circuit is further configured to: decouple the signal summing circuit from the coupling device;couple the at least one offset signal generation circuit to the signal summing circuit;provide the downlink signal to the at least one offset signal generation circuit, wherein the downlink signal comprises one or more downlink interference products;receive at least one downlink interference product among the one or more downlink interference products from the at least one offset signal generation circuit; andmeasure a power level of the at least one downlink interference product received from the at least one offset signal generation circuit. 10. The interference signal offset circuit of claim 9, wherein in the test mode the control circuit is further configured to adjust the power level of the at least one downlink interference product to substantially match the power level of the at least one downlink test interference product. 11. A method of offsetting at least one unwanted downlink interference signal from an uplink signal received in a distributed antenna system (DAS), comprising: decoupling at least one antenna from a coupling device communicatively coupled to the at least one antenna;decoupling at least one offset signal generation circuit from a signal summing circuit;receiving a downlink test signal in a downlink path, wherein the downlink test signal comprises one or more downlink test interference products;receiving an uplink test signal in an uplink path, wherein the uplink test signal comprises the one or more downlink test interference products leaked from the downlink path to the uplink path;measuring a power level of at least one downlink test interference product among the one or more downlink test interference products;receiving a downlink signal in the downlink path, wherein the downlink signal comprises one or more downlink communications signals and at least one unwanted downlink interference signal resulting from the one or more downlink communications signals;generating at least one uplink interference offset signal based on the received at least one unwanted downlink interference signal;receiving an uplink signal in the uplink path from the coupling device communicatively coupled to the at least one antenna, wherein the coupling device is further configured to provide the downlink signal to the at least one antenna, wherein the uplink signal comprises a wanted uplink signal and the at least one unwanted downlink interference signal leaked from the downlink path to the uplink path;generating an output uplink signal based on the uplink signal; andcombining the at least one uplink interference offset signal with the uplink signal to offset the at least one unwanted downlink interference signal in the output uplink signal. 12. The method of claim 11, further comprising generating the at least one uplink interference offset signal to offset at least one downlink interference product among one or more downlink interference products in the received at least one unwanted downlink interference signal. 13. The method of claim 11, further comprising: generating the at least one uplink interference offset signal by the at least one offset signal generation circuit; andcombining the uplink signal with the at least one uplink interference offset signal by the signal summing circuit. 14. The method of claim 13, further comprising receiving the uplink signal from the coupling device communicatively coupled to the at least one antenna, wherein the coupling device is further configured to provide the downlink signal to the at least one antenna. 15. The method of claim 11, further comprising: decoupling the signal summing circuit from the coupling device;coupling the at least one offset signal generation circuit to the signal summing circuit;providing the downlink signal to the at least one offset signal generation circuit, wherein the downlink signal comprises one or more downlink interference products;receiving at least one downlink interference product among the one or more downlink interference products from the at least one offset signal generation circuit; andmeasuring a power level of the at least one downlink interference product received from the at least one offset signal generation circuit. 16. The method of claim 15, further comprising adjusting the power level of the at least one downlink interference product to substantially match the power level of the at least one downlink test interference product. 17. The method of claim 11, further comprising generating the at least one uplink interference offset signal to offset at least one downlink intermodulation product among a plurality of downlink intermodulation products in the received at least one unwanted downlink interference signal. 18. The method of claim 11, further comprising generating the at least one uplink interference offset signal to offset at least one downlink harmonic product among a plurality of downlink harmonic products in the received at least one unwanted downlink interference signal. 19. A remote antenna unit (RAU) in a distributed antenna system (DAS), comprising: a downlink power amplifier configured to amplify one or more downlink communications signals received in a downlink path to generate a downlink signal in the downlink path, the downlink signal comprising at least one unwanted downlink interference signal resulting from the one or more downlink communications signals;at least one antenna configured to transmit the downlink signal and receive an uplink signal;a coupling device communicatively coupled to the downlink power amplifier and the at least one antenna, wherein the coupling device is configured to: distribute the downlink signal received from the downlink path to the at least one antenna for transmission; anddistribute the uplink signal received from the at least one antenna to an uplink path, the uplink signal comprising a wanted uplink signal and the at least one unwanted downlink interference signal leaked from the downlink path to the uplink path;a first switch configured to couple the coupling device to the at least one antenna or decouple the coupling device from the at least one antenna; andan interference signal offset circuit, comprising: at least one offset signal generation circuit configured to: receive the downlink signal comprising the one or more downlink communications signals and the at least one unwanted downlink interference signal; andgenerate at least one uplink interference offset signal based on the received at least one unwanted downlink interference signal;a signal summing circuit, comprising: a second switch configured to couple or decouple the signal summing circuit with the coupling device;a third switch configured to couple or decouple the signal summing circuit with the at least one offset signal generation circuit;a signal summing point coupled to the second switch and the third switch, wherein the signal summing point is configured to combine the at least one uplink interference offset signal with the uplink signal to offset the at least one unwanted downlink interference signal from an output uplink signal; andan uplink low noise amplifier (LNA) coupled to the signal summing point;wherein the signal summing circuit is configured to: receive the uplink signal in the uplink path;receive the at least one uplink interference offset signal;generate the output uplink signal based on the received uplink signal; andcombine the received at least one uplink interference offset signal with the received uplink signal to offset the at least one unwanted downlink interference signal from the output uplink signal; anda control circuit configured to: receive the output uplink signal from the signal summing circuit; andconfigure the at least one offset signal generation circuit to generate the at least one uplink interference offset signal to offset the at least one unwanted downlink interference signal. 20. The RAU of claim 19, wherein the coupling device is selected from the group consisting of: a duplexer; a multiplexer; a hybrid combiner; and a software-defined frontend module. 21. The RAU of claim 19, wherein the at least one unwanted downlink interference signal comprises one or more downlink interference products generated when the one or more downlink communications signals are amplified by the downlink power amplifier to generate the downlink signal. 22. The RAU of claim 21, wherein the at least one unwanted downlink interference signal leaked from the downlink path to the uplink path by the coupling device comprises the one or more downlink interference products. 23. The RAU of claim 21, wherein the at least one offset signal generation circuit is configured to generate the at least one uplink interference offset signal to offset at least one downlink interference product comprised in the at least one unwanted downlink interference signal. 24. The RAU of claim 21, wherein: the at least one offset signal generation circuit comprises a plurality of offset signal generation circuits disposed in a parallel arrangement, each of the plurality of offset signal generation circuits configured to receive the downlink signal; andthe at least one uplink interference offset signal comprises a plurality of uplink interference offset signals, each of the plurality of uplink interference offset signals configured to offset at least one downlink interference product among the one or more downlink interference products. 25. The RAU of claim 21, wherein the at least one offset signal generation circuit comprises: an interference product filter configured to selectively pass at least one downlink interference product among the one or more downlink interference products;an adjustable gain control circuit coupled to the interference product filter and configured to amplify the at least one downlink interference product passing through the interference product filter; andan adjustable phase shifter coupled to the adjustable gain control circuit and configured to phase-shift the at least one downlink interference product;wherein the at least one offset signal generation circuit is configured to provide the amplified and phase-shifted at least one downlink interference product to the signal summing circuit as the at least one uplink interference offset signal. 26. The RAU of claim 25, wherein the interference product filter, the adjustable gain control circuit, and the adjustable phase shifter are provided as a digital interference product filter, a digital adjustable gain control circuit, and a digital adjustable phase shifter, respectively. 27. The RAU of claim 25, wherein: the first switch is configured to decouple the coupling device from the at least one antenna;the second switch is configured to couple the signal summing circuit with the coupling device;the third switch is configured to decouple the signal summing circuit from the at least one offset signal generation circuit;the coupling device is further configured to: receive a downlink test signal comprising one or more downlink test interference products; andprovide the downlink test signal as an uplink test signal in the uplink path;the signal summing circuit is further configured to: amplify the uplink test signal; andprovide the amplified uplink test signal to an uplink signal filter in the control circuit; andthe control circuit comprises: the uplink signal filter configured to selectively pass at least one downlink test interference product among the one or more downlink test interference products; anda power detection circuit configured to measure a power level of the at least one downlink test interference product passed through the uplink signal filter. 28. The RAU of claim 27, wherein: the second switch is configured to decouple the signal summing circuit from the coupling device;the third switch is configured to couple the signal summing circuit with the at least one offset signal generation circuit;the at least one offset signal generation circuit is configured to receive the downlink signal and the one or more downlink interference products comprised in the downlink signal;a controller in the control circuit is configured to configure the interference product filter in the at least one offset signal generation circuit to pass the at least one downlink interference product among the one or more downlink interference products, wherein the at least one passed downlink interference product is in the same order as the at least one downlink test interference product passed through the uplink signal filter in the control circuit;the power detection circuit in the control circuit is configured to measure a power level of the at least one downlink interference product passed by the interference product filter in the at least one offset signal generation circuit; andthe controller in the control circuit is further configured to: adjust the adjustable gain control circuit in the at least one offset signal generation circuit to make the power level of the at least one downlink interference product substantially match the power level of the at least one downlink test interference product. 29. The RAU of claim 27, wherein the uplink signal filter is provided as a digital uplink signal filter.
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