Method and apparatus for low power simultaneous frequency, automatic gain control and timing acquisition in radio receivers
IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
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출원번호 |
US-0165373
(2008-06-30)
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등록번호 |
US-8509355
(2013-08-13)
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발명자
/ 주소 |
- Bradley, Peter
- Woicik, Richard F.
- Bottomley, Andrew M.
- Corndorf, Eric D.
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
0 인용 특허 :
5 |
초록
▼
A method and apparatus are provided for low power simultaneous frequency, automatic gain control and timing acquisition in a low power radio receiver. A baseband signal received is split into a limited signal having limited data and a non-limited signal. The limited signal is fed through a limited p
A method and apparatus are provided for low power simultaneous frequency, automatic gain control and timing acquisition in a low power radio receiver. A baseband signal received is split into a limited signal having limited data and a non-limited signal. The limited signal is fed through a limited phase-shift keying (PSK) correlation path in which a PSK correlator operating on the limited signal simultaneously determines coarse frequency estimations, timing estimations, and packet synchronization detection. The non-limited signal is fed through an automatic gain control path where automatic gain control is performed on the non-limited signal simultaneously with the coarse frequency and timing estimations and packet synchronization detection performed by the PSK correlator. By operating the PSK correlator on limited data from the received baseband signal and through a separate path from the automatic gain control, substantial power savings are achieved without degrading performance since the preamble time is significantly reduced.
대표청구항
▼
1. A method comprising: receiving a radio frequency (RF) baseband signal in a radio receiver;splitting the received RF baseband signal into first and second identical versions of the received RF baseband signal;processing the first version of the received RF baseband signal in a limited phase-shift
1. A method comprising: receiving a radio frequency (RF) baseband signal in a radio receiver;splitting the received RF baseband signal into first and second identical versions of the received RF baseband signal;processing the first version of the received RF baseband signal in a limited phase-shift keying (PSK) correlation path that includes limiting the first version of the received RF baseband signal to generate a limited version of the received RF baseband signal having limited data,operating a correlator on the limited version of the received RF baseband signal to simultaneously determine coarse frequency and timing estimations for the received RF baseband signal; andprocessing the second version of the received RF baseband signal in an automatic gain control path that includes performing automatic gain control on the second, non-limited version of the received RF baseband signal substantially simultaneously with the coarse frequency and timing estimations determined by the correlator in the limited phase-shift keying (PSK) correlation path. 2. The method of claim 1, further comprising operating the correlator on the limited version of the received RF baseband signal to provide packet synchronization detection on the limited version of the received RF baseband signal substantially simultaneous with the determination of the coarse frequency and timing estimations. 3. The method of claim 1, further comprising operating the correlator at a sample rate of the received RF baseband signal that is substantially greater than a symbol rate of the received RF baseband signal. 4. The method of claim 1, wherein the received RF baseband signal is a differential binary phase shift keying (DBPSK) signal and the correlator is a DBPSK correlator. 5. The method of claim 1, further comprising performing at least one of a fine frequency estimation and a fine timing estimation after the automatic gain control and the coarse frequency and timing estimations are complete. 6. The method of claim 5, further comprising retaining a fine frequency estimator and a fine the timing estimator for respectively determining the fine frequency estimation and the timing estimations in a power off state until after the coarse frequency and timing estimations are complete. 7. The method of claim 5, further comprising powering off the correlator after determining the coarse frequency and timing estimations. 8. The method of claim 5, further comprising powering off the correlator prior to performing digital equalization and channel filtering procedures on the received RF baseband signal in the automatic gain control path. 9. The method of claim 5, further comprising performing the fine frequency estimation of the received RF baseband signal using a Kay weighted phase averaging algorithm. 10. The method of claim 9, further comprising correcting the fine frequency estimation to account for noise in the received RF baseband signal. 11. The method of claim 5, further comprising performing the fine timing estimation of the received RF baseband signal using a data-directed zero-crossing detector (ZCD). 12. The method of claim 1, wherein the limited phase-shift keying (PSK) correlation path and the automatic gain control path are separate, parallel paths. 13. A receiving architecture comprising: a limiter configured to input a first version of a received RF baseband signal and output a limited version of the received RF baseband signal having limited dataa limiting phase-shift keying (PSK) correlator configured to obtain the limited version of the received RF baseband signal output by the limiter and simultaneously determine coarse frequency and timing estimations for the received baseband signal using the limited version of the received baseband signal; andan automatic gain control unit configured to perform automatic gain control on a second, non-limited version of the received RF baseband signal substantially simultaneously with the coarse frequency and timing estimations performed by the limiting PSK correlator, wherein the second, non-limited version of the received baseband signal is identical to the first version of the received RF baseband signal input to the limiter. 14. The receiving architecture of claim 13, wherein the limiting PSK correlator performs packet synchronization detection on the limited baseband signal substantially simultaneously with the determination of the coarse frequency and timing estimations. 15. The receiving architecture of claim 13, wherein the correlator operates at a sample rate of the received RF baseband signal that is substantially greater than a symbol rate of the received RF baseband signal. 16. The receiving architecture of claim 13, further comprising performing a fine frequency estimator for generating a fine frequency estimation of the non-limited version of the baseband signal after the automatic gain control and the coarse frequency and timing estimations are complete. 17. The receiving architecture of claim 16, wherein the fine frequency estimator includes a Kay weighted phase averager. 18. The receiving architecture of claim 13, further comprising performing a fine timing estimator for generating a fine timing estimation of the non-limited version of the baseband signal after the automatic gain control and the coarse frequency and timing estimations are complete. 19. The receiving architecture of claim 18, wherein the fine frequency estimator includes a data-directed zero-crossing detector (ZCD). 20. The receiving architecture of claim 13, wherein the limiting phase-shift keying (PSK) correlator is part of a first receive path and the automatic gain control unit is part of a second receive path separate from the first receive path. 21. The receiving architecture of claim 20, wherein the first and second receive path are parallel receive paths.
이 특허에 인용된 특허 (5)
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Ryu, Toshihiko, 8-Phase phase-shift keying demodulator.
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Mizoguchi Shoichi (Tokyo JPX), 8-phase phase-shift keying demodulator.
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Hsu,Yungping, Phase shift keying wireless communication apparatus and method.
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Ichihara Masaki,JPX, Signal communication device operable in a CDMA mode and an FM mode.
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Gilhousen Klein S. (San Diego CA) Jacobs Irwin M. (La Jolla CA) Padovani Roberto (San Diego CA) Weaver ; Jr. Lindsay A. (San Diego CA) Wheatley ; III Charles E. (Del Mar CA) Viterbi Andrew J. (La Jol, System and method for generating signal waveforms in a CDMA cellular telephone system.
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