Frequency detector device and method
First Claim
1. In a frequency detector, a carrier recovery circuit comprising:
- means responsive to an input data signal for generating a timing recovery signal,means for generating a local carrier signal having in-phase and quadrature axis components,means responsive to said carrier signal and to said input signal for forming a baseband signal having in-phase and quadrature axis components,means responsive to said timing recovery signal for sampling said baseband signal having in-phase axis and quadrature axis components at timing intervals corresponding to said timing recovery signal thereby forming a sampled baseband signal,means for determining when said sampled baseband signal occurs within a predetermined region of said in-phase axis or said quadrature axis, andmeans for changing the frequency of said carrier signal if successive samples of said sampled signal within said predetermined region are on opposite sides of said in-phase axis or said quadrature axis thereby representing the crossing of said in-phase axis or said quadrature axis.
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Abstract
A frequency detector and method for use in timing and carrier recovery applications. In a timing recovery application, the circuit includes means for generating a variable frequency periodic clock signal corresponding to an input data signal, means for determining whether successive data transitions of the data signal occur during first and second predetermined portions of successive cycles of the clock signal and means for changing the frequency of the clock signal when successive data transitions occur during different ones of the predetermined portions. For carrier recovery applications, the circuit includes means responsive to an input signal for generating a timing recovery signal, means for generating a local carrier signal having in-phase and quadrature axis components, means responsive to the local carrier signal and to the input signal for forming a baseband signal having in-phase and quadrature axis components, means responsive to the timing recovery signal for sampling the baseband signal at timing intervals corresponding to the timing recovery signal thereby forming a sample baseband signal, means for determining when the sample baseband signal occurs within a predetermined region of the in-phase axis or quadrature axis and means for changing the frequency of the carrier signal if successive samples are on opposite sides of the in-phase axis or quadrature axis.
48 Citations
5 Claims
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1. In a frequency detector, a carrier recovery circuit comprising:
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means responsive to an input data signal for generating a timing recovery signal, means for generating a local carrier signal having in-phase and quadrature axis components, means responsive to said carrier signal and to said input signal for forming a baseband signal having in-phase and quadrature axis components, means responsive to said timing recovery signal for sampling said baseband signal having in-phase axis and quadrature axis components at timing intervals corresponding to said timing recovery signal thereby forming a sampled baseband signal, means for determining when said sampled baseband signal occurs within a predetermined region of said in-phase axis or said quadrature axis, and means for changing the frequency of said carrier signal if successive samples of said sampled signal within said predetermined region are on opposite sides of said in-phase axis or said quadrature axis thereby representing the crossing of said in-phase axis or said quadrature axis. - View Dependent Claims (2, 3, 4)
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5. In a carrier recovery circuit for use in a frequncy detector, the method comprising the steps of:
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generating a timing recovery signal, generating a local carrier signal having in-phase and quadrature axis components, forming a baseband signal having in-phase and quadrature axis components in response to said recovery signal and said carrier signal, sampling said baseband signal at timing intervals corresponding to said timing recovery signal thereby forming a sampled baseband signal, determining when said sampled baseband signal occurs within a predetermined region of said in-phase axis or said quadrature axis, and changing the frequency of said carrier signal if successive samples of said sampled signal within said predetermined region are on opposite sides of said in-phase axis or said quadrature axis thereby representing the crossing of said in-phase axis or said quadrature axis.
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Specification