FM demodulators with local oscillator frequency control circuits
First Claim
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1. An FM demodulator comprising:
- frequency conversion means, including local oscillator means, operative to derive from an FM input signal a plurality of like signals of mutually different phase;
filter means operative to filter each of said plurality of like signals to produce a corresponding plurality of filtered signals;
squaring means operative on each of the plurality of filtered signals to produce a corresponding plurality of substantially square-wave signals;
sampling means operative to sample periodically a said square-wave signal at instants determined by amplitude transitions of at least one other of said square-wave signals thereby to provide an output signal; and
frequency control means responsive to the output signal of the sampling means to control the frequency of the local oscillator means, said frequency control means comprising means for deriving a difference signal indicative of the difference in frequency between one of said square-wave signals and a maximun deviation frequency of said demodulator, and means for deriving a polarity signal indicative of the logic state of said output signal, said difference signal providing the magnitude and said polarity signal providing the direction of change of a correction signal applied to the local oscillator means.
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Abstract
An FM demodulator includes frequency conversion means (20) to derive from an FM input signal (10) a pair of like signals that are mutually phase-displaced by 90°. Such signals are filtered (26,28), squared (30,32) and sampled (38). The output signal (40) of the sampling means (38) is used to control (62) the local oscillator (16) of the frequency conversion means (20). In one arrangement, the magnitude of the control applied to the oscillator (16) is dependent on the frequency of one of the squared (30) signals, whereas the direction is dependent on the logic state of the output signal (40). A similar control method can be applied to a superheterodyne receiver.
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8 Claims
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1. An FM demodulator comprising:
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frequency conversion means, including local oscillator means, operative to derive from an FM input signal a plurality of like signals of mutually different phase; filter means operative to filter each of said plurality of like signals to produce a corresponding plurality of filtered signals; squaring means operative on each of the plurality of filtered signals to produce a corresponding plurality of substantially square-wave signals; sampling means operative to sample periodically a said square-wave signal at instants determined by amplitude transitions of at least one other of said square-wave signals thereby to provide an output signal; and frequency control means responsive to the output signal of the sampling means to control the frequency of the local oscillator means, said frequency control means comprising means for deriving a difference signal indicative of the difference in frequency between one of said square-wave signals and a maximun deviation frequency of said demodulator, and means for deriving a polarity signal indicative of the logic state of said output signal, said difference signal providing the magnitude and said polarity signal providing the direction of change of a correction signal applied to the local oscillator means. - View Dependent Claims (2, 3, 4)
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5. An FM demodulator comprising:
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frequency conversion means, including local oscillator means, operative to derive from an FM input signal a like signal at an intermediate frequency equal to the difference between the frequencies of the input signal and of the local oscillator means; discriminator means operative to derive from the intermediate frequency signal an output signal which alternates between two signal states; and frequency control means responsive to the output signal of the discriminator means to control the frequency of the local oscillator means;
said frequency control means comprising means for deriving a difference signal indicative of the difference in frequency between the intermediate frequency signal and a maximum deviation frequency of said demodulator, and means for deriving a polarity signal indicative of the logic state of said output signal, said difference signal providing the magnitude and said polarity signal providing the direction of change of a correction signal applied to the local oscillator means. - View Dependent Claims (6, 7, 8)
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Specification