IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0277908
(2008-11-25)
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등록번호 |
US-8145170
(2012-03-27)
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발명자
/ 주소 |
- Khoini-Poorfard, Ramin
- Piovaccari, Alessandro
- Rafi, Aslamali A.
- Coban, Abdulkerim L.
|
출원인 / 주소 |
- Silicon Laboratories Inc.
|
대리인 / 주소 |
Polansky & Associates, P.L.L.C.
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인용정보 |
피인용 횟수 :
6 인용 특허 :
22 |
초록
▼
A receiver (400) includes a tracking bandpass filter (420), a tunable lowpass filter (434), a local oscillator (442), and a mixer (444). The tracking bandpass filter (420) has an input for receiving a radio frequency (RF) input signal, and an output. The tunable lowpass filter (434) has an input cou
A receiver (400) includes a tracking bandpass filter (420), a tunable lowpass filter (434), a local oscillator (442), and a mixer (444). The tracking bandpass filter (420) has an input for receiving a radio frequency (RF) input signal, and an output. The tunable lowpass filter (434) has an input coupled to the output of the tracking bandpass filter (420), and an output. The local oscillator (422) has a first output for providing a local oscillator signal, which is characterized as being a square wave signal at the desired intermediate frequency (IF). The mixer (444) has a first input coupled to the output of the tunable lowpass filter (434), a second input coupled to the output of the local oscillator (442), and a first output for providing an IF signal at the desired IF. The tunable lowpass filter (434) is configured to substantially attenuate a third harmonic of the frequency of the local oscillator signal.
대표청구항
▼
1. A receiver, comprising: a tracking bandpass filter having an input for receiving an RF input signal, and an output;a tunable lowpass filter having an input coupled to said output of said tracking bandpass filter, and an output;a local oscillator having a first output for providing a local oscilla
1. A receiver, comprising: a tracking bandpass filter having an input for receiving an RF input signal, and an output;a tunable lowpass filter having an input coupled to said output of said tracking bandpass filter, and an output;a local oscillator having a first output for providing a local oscillator signal at a frequency chosen to mix a selected channel to a desired intermediate frequency, said local oscillator signal characterized as being a square wave signal at said desired intermediate frequency; anda mixer having a first input coupled to said output of said tunable lowpass filter, a second input coupled to said first output of said local oscillator, and a first output for providing an intermediate frequency (IF) signal at said desired intermediate frequency,wherein said tunable lowpass filter is configured to substantially attenuate said output of said tracking bandpass filter above a third harmonic of said frequency of said local oscillator signal. 2. The receiver of claim 1, wherein said tracking bandpass filter is characterized as being second order. 3. The receiver of claim 1, wherein a first portion of said tracking bandpass filter, said tunable lowpass filter, said local oscillator, and said mixer are combined into a single integrated circuit die. 4. The receiver of claim 3, wherein a second portion of said tracking bandpass filter is external to said single integrated circuit die. 5. The receiver of claim 1, wherein: said first output of said local oscillator comprises an in-phase local oscillator signal and said first output of said mixer comprises an in-phase intermediate frequency signal;said local oscillator further has a second output for providing a quadrature local oscillator signal andsaid mixer further has a third input coupled to said second output of said local oscillator, and a second output for providing a quadrature IF signal at said desired frequency. 6. The receiver of claim 5, further comprising: an in-phase IF circuit having an input coupled to said first output of said mixer, and an output for providing a processed in-phase IF signal; anda quadrature IF circuit having an input coupled to said second output of said mixer, and an output for providing a processed quadrature IF signal. 7. The receiver of claim 1, wherein said receiver comprises a plurality of individual tracking bandpass filters including said tracking bandpass filter each adapted for a particular band of frequencies. 8. The receiver of claim 7, wherein said receiver comprises a plurality of individual tunable lowpass filters including said tunable lowpass filter each corresponding to one of said plurality of individual tracking bandpass filters. 9. The receiver of claim 8, wherein said plurality of individual tunable lowpass filters is fewer in number than said plurality of individual tracking bandpass filters. 10. A method comprising: selectively bandpass filtering a radio frequency (RF) input signal based on a tuning signal to provide a partially filtered RF signal;generating a first square wave local oscillator signal at a frequency chosen to mix a selected channel to a desired intermediate frequency (IF);lowpass filtering said partially filtered RF signal using a cutoff frequency to provide a fully filtered RF signal, said cutoff frequency selected to substantially attenuate said partially filtered RF signal above a third harmonic of said first square wave local oscillator signal; andmixing said fully filtered RF signal using said first square wave local oscillator signal to provide a first IF signal at said predetermined IF. 11. The method of claim 10, wherein said selectively bandpass filtering further comprises filtering said RF input signal to a second order. 12. The method of claim 11, further comprising selecting said cutoff frequency to correspond to a third harmonic of said square wave local oscillator signal. 13. The method of claim 10: wherein:said first square wave local oscillator signal comprises an in-phase square wave local oscillator signal; andsaid first IF signal comprises an in-phase IF signal; andfurther comprising: generating a second square wave local oscillator signal at a frequency chosen to mix a selected channel to said desired IF, said second square wave local oscillator signal comprising a quadrature square wave local oscillator signal; andmixing said fully filtered RF signal using said second square wave local oscillator signal to provide a second IF signal at said predetermined IF, said second IF signal comprising a quadrature IF signal. 14. The method of claim 10, further comprising: forming a first portion of a bandpass filter operable to selectively bandpass filter said RF input signal on a first integrated circuit die;forming a lowpass filter operable to lowpass filter said partially filtered RF signal on said first integrated circuit die;forming a local oscillator operable to generate said first square wave local oscillator signal on said first integrated circuit die; andforming a mixer operable to mix said fully filtered RF signal on said first integrated circuit die. 15. The method of claim 14, further comprising forming a second portion of said bandpass filter on a second die. 16. The method of claim 15, further comprising assembling said first integrated circuit die and said second die onto a single receiver module. 17. A receiver, comprising: a tracking bandpass filter for bandpass filtering a selected channel of a radio frequency (RF) signal to provide a partially filtered output;a tunable lowpass filter for lowpass filtering said partially filtered output to provide a fully filtered output; anda mixer for mixing said fully filtered output with a square wave local oscillator signal having a frequency chosen to mix said selected channel to a desired intermediate frequency (F);wherein said tunable lowpass filter is configured to substantially attenuate said partially filtered output above a third harmonic of said frequency of said square wave local oscillator signal. 18. The receiver of claim 17, wherein said tracking bandpass filter is characterized as being second order. 19. The receiver of claim 17, wherein a first portion of said tracking bandpass filter, said tunable lowpass filter, and said mixer are combined into a single integrated circuit die. 20. The receiver of claim 19, wherein a second portion of said tracking bandpass tiller is external to said single integrated circuit die. 21. The receiver of claim 17, wherein said receiver comprises a plurality of individual tracking bandpass filters including said tracking bandpass filter each adapted for a particular band of frequencies. 22. The receiver of claim 21, wherein said receiver comprises a plurality of individual tunable lowpass filters including said tunable lowpass filter each corresponding to one of said plurality of individual bandpass filters. 23. The receiver of claim 22, wherein said plurality of individual tunable lowpass filters is fewer in number than said plurality of individual tracking bandpass filters.
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