Direct digital synthesizer for reference frequency generation

US 7,724,097 B2
Filed: 08/28/2008
Issued: 05/25/2010
Est. Priority Date: 08/28/2008
Status: Active Grant

First Claim

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1. A frequency synthesizer comprising:

an input for receiving a clock reference signal at a first input frequency;

a multi-modulus divider for dividing the input frequency to provide an intermediate signal with an adjusted frequency;

a numerically controlled oscillator comprising an accumulator receiving an accumulator increment value for providing a phase value and a latch circuit that receives and is clocked by the intermediate signal with the adjusted frequency wherein the numerically controlled oscillator outputs a delay value and an overflow signal each comprised of one or more bits wherein said overflow signal is provided to said multi-modulus divider to select between at least a first divider ratio and a second divider ratio; and

a programmable delay generator comprising a delay control circuit that receives at least said overflow value and said delay value and calculates a delay time for application to each pulse in the intermediate signal with the adjusted frequency to provide an output signal with a final adjusted frequency (f_out).

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Abstract

A direct digital frequency synthesizer having a multi-modulus divider, a numerically controlled oscillator and a programmable delay generator. The multi-modulus divider receives an input clock having an input pulse frequency f_oscand outputs some integer fraction of those pulses at an instantaneous frequency f_Vpthat is some integer fraction (1/P) of the input frequency. The multi-modulus divider selects between at least two ratios of P (1/P or 1/P+1) in response to a signal from the numerically controlled oscillator. The numerically controlled oscillator receives a value which is the accumulator increment (i.e. the number of divided pulse edges) required before an overflow occurs that causes the multi-modulus divider to change divider ratios in response to receiving an overflow signal. The numerically controlled oscillator also outputs both the overflow signal and a delay signal to the delay generator that further controls the frequency of the multi-modulus divider output signal (V_p) to provide an output signal (V_D) with an f_outthat has improved phase and timing jitter performance over prior art direct digital frequency synthesizer architectures.

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23 Claims

1. A frequency synthesizer comprising:
- an input for receiving a clock reference signal at a first input frequency;
  
  a multi-modulus divider for dividing the input frequency to provide an intermediate signal with an adjusted frequency;
  
  a numerically controlled oscillator comprising an accumulator receiving an accumulator increment value for providing a phase value and a latch circuit that receives and is clocked by the intermediate signal with the adjusted frequency wherein the numerically controlled oscillator outputs a delay value and an overflow signal each comprised of one or more bits wherein said overflow signal is provided to said multi-modulus divider to select between at least a first divider ratio and a second divider ratio; and
  
  a programmable delay generator comprising a delay control circuit that receives at least said overflow value and said delay value and calculates a delay time for application to each pulse in the intermediate signal with the adjusted frequency to provide an output signal with a final adjusted frequency (f_out).
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21)
- - 2. The frequency synthesizer of claim 1 wherein said multi-modulus divider selects between a first divider ratio, a second divider ratio and a third divider ratio.
  - 3. The frequency synthesizer of claim 1 wherein the accumulator increment is in the range of 0 to 2^N^A−
    - 1 where N_Ais the number of bits in an accumulator value A output from the accumulator.
  - 4. The frequency synthesizer of claim 3 wherein the numerically controlled oscillator latch circuit comprises at least N_Aswitching elements to latch the accumulator value.
  - 5. The frequency synthesizer of claim 4 wherein the value of A is latched at an average frequency of f_OUTor at the adjusted frequency.
  - 6. The frequency synthesizer of claim 4 wherein the latch circuit comprises at least one additional switching element for latching at least one overflow bit from the accumulator.
  - 7. The frequency synthesizer of claim 3 wherein the delay value is at least some portion of the accumulator value.
  - 8. The frequency synthesizer of claim 7 wherein the delay value has a number of bits N_Dand wherein N_A≧
    - N_D.
  - 9. The frequency synthesizer of claim 2 wherein the multi-modulus divider selects between the first divider ratio, the second divider ratio and a third divider ratio based upon receipt of an overflow bit and the most significant bit of the delay value output from the numerically controlled oscillator.
  - 10. The frequency synthesizer of claim 2 further comprising a programmable divider for dividing the frequency of the reference oscillator signal prior to input of that signal into the multi-modulus programmable divider.
  - 11. The frequency synthesizer of claim 10 wherein the programmable divider is a binary divider.
  - 12. The frequency synthesizer of claim 11, further comprising a polarity signal for inverting polarity of the overflow signal and an offset signal for varying the first input frequency.
  - 13. The frequency synthesizer of claim 2 further comprising a programmable divider for dividing the frequency of the signal output from the delay generator to further reduce the frequency and provide the output signal with the final adjusted frequency.
  - 14. The frequency synthesizer of claim 13 wherein at a given instant the multi-modulus divider divides the input frequency by one of three integer values, P, P+1 and P+2, wherein the programmable multi-modulus divider selects among an octave of possible values for the intermediate frequency of the intermediate signal output from the multi-modulus divider.
  - 15. The frequency synthesizer of claim 1 further comprising a thermometer to provide an adjustment to the accumulator increment value based upon temperature.
  - 16. The frequency synthesizer of claim 1 further comprising a pseudo-random noise generator for introducing dithering into the delay value.
  - 17. The frequency synthesizer of claim 16 wherein the pseudo-random noise generator dithers the accumulator value by an amount of about 0.5% to about 5%.
  - 18. The frequency synthesizer of claim 1, wherein the accumulator increment value comprises at least one of a preprogrammed constant, a temperature controlled component, a dithered component, a spread spectrum component and an external variable user-input component.
  - 19. The frequency synthesizer of claim 18, wherein the external variable user-input component is a least one of a phase modulation component and a frequency modulation component.
  - 20. The frequency synthesizer of claim 1 wherein the delay controller receives the intermediate signal with the adjusted frequency and the clock reference signal as inputs for synchronizing the delay time with the intermediate signal.
  - 21. The frequency synthesizer of claim 1, wherein the clock reference signal is between 500 MHz and 10 GHz and originates from a reference oscillator utilizing a bulk acoustic wave resonator.

22. A frequency synthesizer comprising:
- an input means for receiving a clock reference signal at a first input frequency;
  
  a multi-modulus divider means for dividing the input frequency to provide an intermediate signal with an adjusted frequency;
  
  a numerically controlled oscillator means comprising an accumulator receiving an accumulator increment value for providing a phase value and a latch circuit that receives and is clocked by the intermediate signal with the adjusted frequency wherein the numerically controlled oscillator outputs a delay value and an overflow signal comprised of one or more bits wherein said overflow signal is provided to said multi-modulus divider to select between at least a first divider ratio and a second divider ratio; and
  
  a programmable delay generator means comprising a delay control which receives at least said overflow value and said delay value and calculates a delay time for application to each pulse in the intermediate signal to provide an output signal with a final adjusted frequency (f_out).
- View Dependent Claims (23)
- - 23. The frequency synthesizer of claim 22 wherein said multi-modulus divider selects between a first divider ratio, a second divider ratio and a third divider ratio.

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Current Assignee
Cymatics Laboratories Corp.
Original Assignee
Resonance Semiconductor Corp.
Inventors
Tarvainen, Esa, Carley, L. Richard, Tsangaropoulos, Anthony L.
Primary Examiner(s)
Mis; David

Application Number

US12/229,948
Publication Number

US 20100052797A1
Time in Patent Office

635 Days
Field of Search

331/16, 331/74, 327/115, 327/117, 327/118, 377/47, 377/48
US Class Current

331/74
CPC Class Codes

G06F 1/025 for functions having two-va...

H03L 7/0814 the phase shifting device b...

Direct digital synthesizer for reference frequency generation

First Claim

3 Assignments

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Abstract

75 Citations

23 Claims

Specification

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Direct digital synthesizer for reference frequency generation

First Claim

3 Assignments

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0 Petitions

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Accused Products

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Abstract

75 Citations

23 Claims

Specification

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Solutions

Use Cases

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