Claims
- 1. An apparatus for measuring an instantaneous frequency of an FM-modulated signal having a normalized amplitude, the apparatus comprising:
a sampler that receives an analog FM modulated signal at a time t, said sampler sampling the analog FM modulated signal at a prescribed sampling interval T to provide a digitized FM signal; and an instantaneous frequency computer that receives the digitized FM signal, said instantaneous frequency computer manipulating the digitized FM signal by performing mathematical operations based on the digitized FM signal and a plurality of additional digitized FM signals, corresponding to alternative sampling intervals, and providing the instantaneous frequency.
- 2. The apparatus for measuring the instantaneous frequency according to claim 1, wherein:
said sampler samples the analog FM modulated signal at the prescribed sampling interval T to obtain sample values yt−T, yt, and yt+T at times t−T, t, and t+T, respectively; and said instantaneous frequency computer computes the instantaneous frequency at the time t based on the following equation:ft=(1/4πT)cos−1(2yt−Tyt+T−2yt2+1).
- 3. The apparatus for measuring the instantaneous frequency according to claim 1, wherein said instantaneous frequency computer comprises:
a first delay that receives the digitized FM signal and delays the digitized FM signal by the prescribed sampling interval to provide a first delayed FM signal; a second delay that receives the first delayed FM signal and delays the first delayed FM signal by the prescribed sampling interval to provide a second delayed FM signal; a first multiplier, having a first input terminal and a second input terminal coupled to an output of said first delay; a second multiplier, having a first input terminal coupled to an output terminal of said second delay and a second input terminal coupled to an output terminal of said sampler; a subtracter, having a first input terminal coupled to said first multiplier and a second input terminal coupled to said second multiplier, said subtracter subtracting data received at its first input terminal from data received at its second input terminal to provide a difference signal; a bit-shifter that receives the difference signal and left-shifts the difference signal by one bit; an adder that receives the bit-shifted signal and increments the bit-shifted signal by one to obtain an incremented signal at the time t, based on the following equation:St=2yt−Tyt+T−2yt2+1 where said sampler samples the analog FM modulated signal at the prescribed sampling interval T to obtain sample values yt−T, yt, and yt+T at times t−T, t, and t+T, respectively; and an inverse cosine computer that receives the incremented signal and computes the instantaneous frequency at the time t based on the following equation:ft=(1/4πT)cos−1(st) where st is the previously calculated incremented signal at the time t.
- 4. The apparatus for measuring the instantaneous frequency according to claim 1, further comprising a lowpass filter that receives the instantaneous frequency and provides a filtered instantaneous frequency, said lowpass filter selecting a cut-off frequency based on a bandwidth of a base band signal.
- 5. A method for measuring an instantaneous frequency of an FM-modulated signal having an arbitrary amplitude value, the method comprising:
sampling an analog FM modulated signal at a time t at a prescribed sampling interval T to provide a digitized FM signal; and computing the instantaneous frequency by performing mathematical operations based on the digitized FM signal and a plurality of additional digitized FM signals, corresponding to alternative sampling intervals.
- 6. The method for measuring the instantaneous frequency according to claim 5, the sampling of the analog FM modulated signal comprising sampling at the prescribed sampling interval T and obtaining sample values yt−T, yt, and yt+T at times t−T, t, and t+T, respectively; and
the computing of the instantaneous frequency at the time t comprising computing based on following equation:ft=(1/4πT)cos−1(2yt−Tyt+T−2yt2+1).
- 7. The method for measuring the instantaneous frequency according to claim 5, the computing of the instantaneous frequency comprising:
delaying the digitized FM signal by the prescribed sampling interval to provide a first delayed FM signal; delaying the first delayed FM signal by the prescribed sampling interval to provide a second delayed FM signal; multiplying the digitized FM signal and the second delayed FM signal to obtain a multiplied signal; squaring the first delayed FM signal to obtain a squared signal; subtracting the squared signal from the multiplied signal to obtain a difference signal; shifting the difference signal by one bit to obtain a bit-shifted signal; incrementing the bit-shifted signal by one to obtain an incremented signal; and computing the instantaneous frequency based on the incremented signal.
- 8. The method for measuring the instantaneous frequency according to claim 5, further comprising filtering the instantaneous frequency by a lowpass filter and selecting a cut-off frequency based on a bandwidth of a base band signal.
- 9. A method for measuring an instantaneous frequency of an FM-modulated signal having an arbitrary amplitude value, the method comprising:
sampling an analog FM modulated signal at a prescribed sampling interval T to provide a digitized FM signal; detecting an amplitude of the digitized FM signal and providing an amplitude value A; and computing an instantaneous frequency of the FM modulated signal by performing mathematical operations based on the amplitude value, the digitized FM signal and a plurality of additional digitized FM signals, corresponding to alternative sampling intervals.
- 10. The method for measuring the instantaneous frequency according to claim 9, the sampling of the analog FM modulated signal comprising sampling at the prescribed sampling interval T and obtaining sample values yt−T, yt, and yt+T at times t−T, t, and t+T, respectively; and
the computing of the instantaneous frequency at the time t comprising computing based on the following equation:ft=(1/4πT)cos−1{(2/A2) (yt−Tyt+T−yt2)+1}.
- 11. The method for measuring the instantaneous frequency according to claim 9, the computing of the instantaneous frequency comprising:
delaying the digitized FM signal by the prescribed sampling interval to provide a first delayed FM signal; delaying the first delayed FM signal by the prescribed sampling interval to provide a second delayed FM signal; multiplying the digitized FM signal and the second delayed FM signal to obtain a multiplied signal: squaring the first delayed FM signal to obtain a squared signal; subtracting the squared signal from the multiplied signal to obtain a difference signal; shifting the difference signal by one bit to obtain a bit-shifted signal; dividing the bit-shifted signal by a square of the amplitude value A to obtain a scaled signal; incrementing the scaled signal by one to obtain an incremented signal; and computing the instantaneous frequency based on the incremented signal.
- 12. The method for measuring the instantaneous frequency according to claim 9, further comprising filtering the instantaneous frequency by a lowpass filter and selecting a cut-off frequency based on a bandwidth of a base band signal.
Priority Claims (1)
Number |
Date |
Country |
Kind |
11-151992 |
May 1999 |
JP |
|
Parent Case Info
[0001] This application is a division of U.S. patent application Ser. No. 09/580,567, filed on May 30, 2000, the contents of which is incorporated herein in its entirety.
Divisions (1)
|
Number |
Date |
Country |
Parent |
09580567 |
May 2000 |
US |
Child |
10263076 |
Oct 2002 |
US |