Bit synchronizer
First Claim
1. A digital phase locked loop for bit synchronizing to a binary signal having a predetermined bit rate, said digital phase locked loop comprising:
- oscillator means for producing a reference signal having a predetermined frequency;
frequency generating means responsive to the reference signal for generating an advance signal, a nominal signal, a retard signal and a sample signal wherein each generated signal is derived from the reference signal;
edge detecting means coupled to receive the binary signal and responsive to the sample signal for generating an edge signal having a period corresponding to one cycle of the sample signal in response to a transition of the binary signal;
dividing means for producing a bit clock signal having a frequency substantially equal to the bit rate; and
selecting means generating an output signal, wherein the output signal is selected to be equivalent to the nominal signal in the absence of the edge signal, and the output signal is selected to be equal to either the advance signal or the retard signal in the presence of the edge signal, wherein the advance signal is selected in response to the the clock being in a first state and the retard signal is selected in response to the bit clock being in a second state;
further wherein said dividing means produces the bit clock as a function of the output signal.
1 Assignment
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Accused Products
Abstract
A paging receiver capable of bit synchronizing to one of two data rates. The receiver has a digital phase locked loop integrated onto a single integrated circuit clocked by a single frequency crystal. The paging receiver receives and synchronizes to a POCSAG signal which may be transmitted at either 512 bits per second or 1200 bits per second. The digital phase locked loop bit synchronizes to either data rate using a single crystal frequency of 76.8 kHz. The data rate is selected by a bit in the code paging receiver'"'"'s code plug. The digital phase locked loop is constructed to have a substantially constant frequency to bandwidth ratio at both data rates.
38 Citations
11 Claims
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1. A digital phase locked loop for bit synchronizing to a binary signal having a predetermined bit rate, said digital phase locked loop comprising:
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oscillator means for producing a reference signal having a predetermined frequency; frequency generating means responsive to the reference signal for generating an advance signal, a nominal signal, a retard signal and a sample signal wherein each generated signal is derived from the reference signal; edge detecting means coupled to receive the binary signal and responsive to the sample signal for generating an edge signal having a period corresponding to one cycle of the sample signal in response to a transition of the binary signal; dividing means for producing a bit clock signal having a frequency substantially equal to the bit rate; and selecting means generating an output signal, wherein the output signal is selected to be equivalent to the nominal signal in the absence of the edge signal, and the output signal is selected to be equal to either the advance signal or the retard signal in the presence of the edge signal, wherein the advance signal is selected in response to the the clock being in a first state and the retard signal is selected in response to the bit clock being in a second state;
further wherein said dividing means produces the bit clock as a function of the output signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method of controlling a receiver having a digital phase locked loop capable of being programmed to lock onto either a first or second predetermined data rate, the digital phase locked loop further capable of being programmed to operate with either a first or second bandwidth, the receiver additionally having a memory means having a first and second state for determining the operation of the digital phase locked loop, the method comprising the steps of;
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reading the memory means and determining the state thereof; programming the digital phase locked loop to lock onto the first data rate and to operate at the first bandwidth if the memory means is in the first state, the first bandwidth having a first fractional bandwidth associated with the first data rate which is substantially equal to a second fractional bandwidth associated with the second data rate; and programming the digital phase locked loop to lock onto the second data rate and to operate at the second bandwidth if the memory means is in the second state.
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10. A method of controlling a receiver having a digital phase locked loop capable of being programmed to lock onto either a first or second predetermined data rate, the digital phase locked loop further capable of being programmed to operate with either a first or second bandwidth, the receiver additionally having a memory means having a first and second state for determining the operation of the digital phase locked loop, the method comprising the steps of;
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reading the memory means and determining the state thereof, the memory means comprising at least one bit within a programmable memory; programming the digital phase locked loop to lock onto the first data rate and to operate at the first bandwidth if the memory means is in the first state; and programming the digital phase locked loop to lock onto the second data rate and to operate at the second bandwidth if the memory means is in the second state.
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11. A method of controlling a receiver having a digital phase locked loop capable of being programmed to lock onto either a first or second predetermined data rate, the digital phase locked loop further capable of being programmed to operate with either a first or second bandwidth, the receiver additionally having a memory means having a first and second state for determining the operation of the digital phase locked loop, the method comprising the steps of:
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reading the memory means and determining the state thereof, the memory means comprising at least one printed circuit board jumper; programming the digital phase locked loop to lock onto the first data rate and to operate at the first bandwidth if the memory means is in the first state; and programming the digital phase locked loop to lock onto the second data rate and to operate at the second bandwidth if the memory means is in the second state.
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Specification