Dither noise source with notched frequency spectrum

US 6,173,003 B1
Filed: 03/26/1998
Issued: 01/09/2001
Est. Priority Date: 03/26/1998
Status: Expired due to Term

First Claim

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1. A dither signal source for generating a dither signal in a digital processing system wherein a digital signal is processed having a sample rate f_s, and wherein said dither signal is spectrally shaped, said dither signal source comprising:

a digital random noise generator producing a digital random noise sequence at a sample rate f_nwhere $f_{n} = \frac{f_{s}}{n}$ with n equal to an integer; and

a zero-order hold receiving said digital random noise sequence and producing a held output for n samples at said sample rate f_s, said held output providing a modified digital random noise sequence having a spectral shape including at least one notch.

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Abstract

A dither signal source generates a dither signal which is spectrally shaped in a desired manner. One or more notches are located at desired frequencies while minimizing the hardware required in a digital signal processor for generating the digital random noise for the dither signal source. The notched dither signal can be added to an analog signal prior to digitization to reduce quantization distortion without adding noise to the frequency range of interest.

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12 Claims

1. A dither signal source for generating a dither signal in a digital processing system wherein a digital signal is processed having a sample rate f_s, and wherein said dither signal is spectrally shaped, said dither signal source comprising:
- a digital random noise generator producing a digital random noise sequence at a sample rate f_nwhere $f_{n} = \frac{f_{s}}{n}$ with n equal to an integer; and
  
  a zero-order hold receiving said digital random noise sequence and producing a held output for n samples at said sample rate f_s, said held output providing a modified digital random noise sequence having a spectral shape including at least one notch.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The dither signal source of claim 1 further comprising:
3. The dither signal source of claim 1 further comprising:
- a notch filter coupled to said zero-order hold for increasing said notch.
4. The dither signal source of claim 1 wherein said digital random noise generator is comprised of a linear feedback shift register generating a pseudo-random noise sequence.
5. The dither signal source of claim 2 wherein said mixer is comprised of an exclusive-OR gate, and wherein said predetermined mixing signal is comprised of a square-wave signal.
6. The dither signal source of claim 1 wherein said digital signal is derived from sampling an analog input signal, and wherein said dither signal source is further comprised of a digital-to-analog converter for providing an analog dither signal to be added to said analog input signal.

7. A method of generating a spectrally-shaped dither signal in a digital processing system wherein a digital signal is processed having a sample rate f_s, said method comprising the steps of:
- generating a pseudo-random noise sequence at a sample rate f_n, where $f_{n} = \frac{f_{s}}{n}$ with n equal to an integer;
  
  holding said pseudo-random noise sequence in a zero-order hold for n samples at said sample rate f_sto provide a modified pseudo-random noise sequence having a spectral shape including at least one notch; and
  
  adding said modified pseudo-random noise sequence to said digital signal.
- View Dependent Claims (8, 9)
- - 8. The method of claim 7 further comprising the step of:
9. The method of claim 7 further comprising the step of:
- notch filtering said modified pseudo-random noise sequence to increase said notch.

10. A digital signal processing AM/FM radio receiver comprising:
- an AM tuner generating an AM IF signal at an AM IF frequency;
  
  an FM tuner generating an FM IF signal at an FM IF frequency;
  
  an analog-to-digital converter for digitizing said AM IF signal and said FM IF signal;
  
  digital processing means for processing said digitized AM and FM IF signals to recover audio information, said processing being performed at a sample rate f_s;
  
  a pseudo-random noise generator producing a digital pseudo-random noise sequence at a sample rate f_nwhere $f_{n} = \frac{f_{s}}{n}$ with n equal to an integer;
  
  a zero-order hold receiving said pseudo-random noise sequence and producing a held output for n samples at said sample rate f_s, said held output providing a modified pseudo-random noise sequence having a spectral shape including notches for said respective AM IF frequency and said FM IF frequency;
  
  a digital-to-analog converter generating an analog dither signal in response to said zero-order hold; and
  
  an adder for adding said analog dither signal to said AM IF signal and said FM IF signal prior to digitizing in said analog-to-digital converter.
- View Dependent Claims (11, 12)
- - 11. The radio receiver of claim 10 further comprising:
12. The radio receiver of claim 11 further comprising:
- a notch filter coupled to said mixer for increasing at least one of said notches.

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Current Assignee
Visteon Global Technologies Incorporated (Visteon Corporation)
Original Assignee
Visteon Global Technologies Incorporated (Visteon Corporation)
Inventors
Altmayer, Terry Robert, Whikehart, J. William
Primary Examiner(s)
VO, DON NGUYEN

Application Number

US09/048,223
Time in Patent Office

1,020 Days
Field of Search

375/130, 375/316, 708/250, 708/252
US Class Current

375/130
CPC Class Codes

G06F 1/02   Digital function generators

G06F 2101/14   Probability distribution fu...

H03M 1/0641   the dither being a random s...

H04B 1/10   Means associated with recei...

H04B 1/26   for superheterodyne receive...

Dither noise source with notched frequency spectrum

First Claim

13 Assignments

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Abstract

70 Citations

12 Claims

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Dither noise source with notched frequency spectrum

First Claim

13 Assignments

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0 Petitions

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Accused Products

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Abstract

70 Citations

12 Claims

Specification

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Solutions

Use Cases

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