Timing recovery scheme for burst communication systems having a VCO with injection locking circuitry
First Claim
1. An oscillator for generating a highly stable sinusoidal signal at a predetermined frequency comprising:
- resonant tank means, having two terminals, for establishing the predetermined frequency;
generator means, for providing a predetermined constant current at a terminal;
first and second transistor means, the emitters of said first and second transistor means coupled to the terminal of said generator means, and the collectors of said first and second transistor means coupled to corresponding ones of the two terminals of said resonant tank means;
first capacitor means, for coupling the collector of said first transistor means to the base of said second transistor means;
second capacitor means, having substantially the same capacitance as said first capacitor means, for coupling the collector of said second transistor means to the base of said first transistor means; and
third capacitor means, having a capacity larger than the capacity of said first capacitor means, for coupling the base of said first transistor means to the base of said second transistor means.
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Accused Products
Abstract
A timing recovery apparatus for a burst mode communication receiver. The apparatus provides for optimum sampling and digitizing of received data at a plurality of data rates. In particular, a VCO is phase-locked to a local frequency reference prior to data being received. A reference timing preamble transmitted prior to the data is filtered and fed to the VCO causing it to injection lock such that the VCO becomes phase aligned with the preamble. The VCO is then permitted to "free run" during data transmission and continues to operate at substantially the same frequency. A synchronous divider and multiplexer, responsive to the VCO, allows selection of sampling clocks for the plurality of data rates. The divider is forced to a known state during VCO injection locking, to assure that the sampling clocks have maintained the proper phase for optimal sampling at the corresponding data rate. Further, means is provided to monitor the frequency of the VCO. Should the VCO frequency drift more than a predetermined amount an indication of such is produced.
33 Citations
4 Claims
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1. An oscillator for generating a highly stable sinusoidal signal at a predetermined frequency comprising:
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resonant tank means, having two terminals, for establishing the predetermined frequency; generator means, for providing a predetermined constant current at a terminal; first and second transistor means, the emitters of said first and second transistor means coupled to the terminal of said generator means, and the collectors of said first and second transistor means coupled to corresponding ones of the two terminals of said resonant tank means; first capacitor means, for coupling the collector of said first transistor means to the base of said second transistor means; second capacitor means, having substantially the same capacitance as said first capacitor means, for coupling the collector of said second transistor means to the base of said first transistor means; and third capacitor means, having a capacity larger than the capacity of said first capacitor means, for coupling the base of said first transistor means to the base of said second transistor means. - View Dependent Claims (2, 3, 4)
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Specification