Removing low frequency interference in a digital FM receiver

US 5,680,418 A
Filed: 11/28/1994
Issued: 10/21/1997
Est. Priority Date: 11/28/1994
Status: Expired due to Term

First Claim

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1. In a digital FM receiver having a demodulator that receives a radio signal and generates therefrom a phase sample whose behavior determines an output of the demodulator, an apparatus for removing a low-frequency interference signal from the phase sample, comprising:

input means for receiving the phase sample;

first means for converting the phase sample into a frequency sample;

high-pass filter means for removing, from the frequency sample, energy associated with frequencies below a predetermined frequency, the high-pass filter means supplying a filtered frequency sample at a filter output; and

second means for converting the filtered frequency sample into a filtered phase sample.

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Abstract

In a digital FM receiver having a demodulator that receives a radio signal and generates therefrom a phase sample whose behavior determines an output of the demodulator, an apparatus for removing a low-frequency interference signal from the phase sample converts the phase sample into a frequency sample which is then high-pass filtered to produce a filtered frequency sample. The filtered frequency sample is then converted into a filtered phase sample, which may be further demodulated in accordance with known techniques. Converting the phase sample into a frequency sample may be performed by a first order difference circuit. Converting the filtered frequency sample into the filtered phase sample may be performed by an integrator. Because the demodulator may produce degraded performance when the inventive apparatus is applied to a radio signal that does not have low-frequency interference, in another aspect of the invention the demodulator is further provided with a circuit for detecting the presence of the low-frequency interference signal in the radio signal, and alternatively selecting, in response thereto, either the filtered or original phase sample to be supplied to further demodulation circuitry.

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16 Claims

1. In a digital FM receiver having a demodulator that receives a radio signal and generates therefrom a phase sample whose behavior determines an output of the demodulator, an apparatus for removing a low-frequency interference signal from the phase sample, comprising:
- input means for receiving the phase sample;
  
  first means for converting the phase sample into a frequency sample;
  
  high-pass filter means for removing, from the frequency sample, energy associated with frequencies below a predetermined frequency, the high-pass filter means supplying a filtered frequency sample at a filter output; and
  
  second means for converting the filtered frequency sample into a filtered phase sample.
- View Dependent Claims (2, 3)
- - 2. The apparatus of claim 1, wherein the first means is a first order difference circuit.
  - 3. The apparatus of claim 1, wherein the second means is an integrator.

4. In a digital FM receiver, a demodulator apparatus comprising:
- input means for receiving a radio signal;
  
  means for converting the radio signal into a phase sample;
  
  means for removing a low-frequency interference signal from the phase sample, comprising;
  
  first means for converting the phase sample into a frequency sample;
  
  high-pass filter means for removing, from the frequency sample, energy associated with frequencies below a predetermined frequency, the high-pass filter means supplying a filtered frequency sample at a filter output; and
  
  second means for converting the filtered frequency sample into a filtered phase sample;
  
  detection means for detecting the presence of the low-frequency interference signal in the radio signal;
  
  selection means, operatively coupled to the detection means, for alternatively selecting, as an output from the selection means, the phase sample when the low-frequency interference signal is not detected in the radio signal, or the filtered phase sample when the low-frequency interference signal is detected in the radio signal; and
  
  demodulation means for generating a demodulated signal on the basis of the output from the selection means.
- View Dependent Claims (5, 6)
- - 5. The demodulator apparatus of claim 4, wherein the detection means comprises:
    - input means for receiving the frequency sample;
      
      low-pass filter means for removing, from the frequency sample, energy associated with frequencies above a second predetermined frequency, the low-pass filter means supplying a second filtered frequency sample at a low-pass filter output;
      
      means for measuring an energy value of the second filtered frequency sample; and
      
      means for comparing the energy value of the second filtered frequency sample with a predetermined energy value, and generating an indication of the presence of the low-frequency interference signal in the radio signal when the energy value of the second filtered frequency sample exceeds the predetermined energy value.
  - 6. The demodulator apparatus of claim 4, wherein the detection means comprises:
    - input means for receiving a system identification value associated with a base station that transmitted the radio signal;
      
      table means for storing one or more predetermined system identification values;
      
      means for determining whether the received system identification value matches any of the one or more predetermined system identification values stored in the table means, and if a match is found then indicating the presence of the low-frequency interference signal in the radio signal.

7. In a digital FM receiver, a demodulator apparatus comprising:
- input means for receiving a radio signal;
  
  means for converting the radio signal into an original phase sample;
  
  means for removing a low-frequency interference signal from the original phase sample, comprising;
  
  first means for converting the original phase sample into a frequency sample;
  
  high-pass filter means for removing, from the frequency sample, energy associated with frequencies below a predetermined frequency, the high-pass filter means supplying a filtered frequency sample at a filter output; and
  
  second means for converting the filtered frequency sample into a filtered phase sample;
  
  first demodulation means for generating a corrected demodulated signal from the filtered phase sample;
  
  second demodulation means for generating a non-corrected demodulated signal from the original phase sample;
  
  first error detection means for detecting a first quantity of errors contained in the corrected demodulated signal;
  
  second error detection means for detecting a second quantity of errors contained in the non-corrected demodulated signal;
  
  selection means, operatively coupled to the first and second demodulation means and to the first and second error detection means, for alternatively selecting, as an output from the selection means, either the corrected demodulated signal or the non-corrected demodulated signal on the basis of a comparison of the first quantity of errors with the second quantity of errors.
- View Dependent Claims (8)
- - 8. The demodulator apparatus of claim 7, wherein the selection means comprises:
    - means for alternatively selecting the corrected demodulated signal when the first quantity of errors is less than the second quantity of errors, or the non-corrected demodulated signal when the first quantity of errors is not less than the second quantity of errors.

9. In a digital FM receiver having a demodulator that receives a radio signal and generates therefrom a phase sample whose behavior determines an output of the demodulator, a method of removing a low-frequency interference signal from the phase sample, comprising the steps of:
- receiving the phase sample;
  
  converting the phase sample into a frequency sample;
  
  removing, from the frequency sample, energy associated with frequencies below a predetermined frequency to produce a filtered frequency sample; and
  
  converting the filtered frequency sample into a filtered phase sample.
- View Dependent Claims (10, 11)
- - 10. The method of claim 9, wherein the step of converting the phase sample into a frequency sample comprises generating a difference between the phase sample and a previous phase sample.
  - 11. The apparatus of claim 9, wherein the step of converting the filtered frequency sample into a filtered phase sample comprises the step of integrating the filtered frequency sample.

12. In a digital FM receiver, a method of demodulating a radio signal, comprising the steps of:
- receiving the radio signal;
  
  converting the radio signal into a phase sample;
  
  performing a procedure to remove a low-frequency interference signal from the phase sample, the procedure comprising the steps of;
  
  converting the phase sample into a frequency sample;
  
  removing, from the frequency sample, energy associated with frequencies below a predetermined frequency to produce a filtered frequency sample; and
  
  converting the filtered frequency sample into a filtered phase sample;
  
  detecting the presence of the low-frequency interference signal in the radio signal;
  
  alternatively selecting, for use as a selected phase sample, the phase sample when the low-frequency interference signal is not detected in the radio signal, or the filtered phase sample when the low-frequency interference signal is detected in the radio signal; and
  
  generating a demodulated signal on the basis of the selected phase sample.
- View Dependent Claims (13, 14)
- - 13. The method of claim 12, wherein the step of detecting the presence of the low-frequency interference signal in the radio signal comprises the steps of:
    - removing, from the frequency sample, energy associated with frequencies above a second predetermined frequency to produce a second filtered frequency sample;
      
      measuring an energy value of the second filtered frequency sample; and
      
      comparing the energy value of the second filtered frequency sample with a predetermined energy value, and generating an indication of the presence of the low-frequency interference signal in the radio signal when the energy value of the second filtered frequency sample exceeds the predetermined energy value.
  - 14. The method of claim 12, wherein the step of detecting the presence of the low-frequency interference signal in the radio signal comprises the steps of:
    - receiving a system identification value associated with a base station that transmitted the radio signal;
      
      determining whether the received system identification value matches at least one predetermined system identification value stored in a table, and if a match is found then indicating the presence of the low-frequency interference signal in the radio signal.

15. In a digital FM receiver, a method of demodulating a radio signal, comprising the steps of:
- receiving the radio signal;
  
  converting the radio signal into an original phase sample;
  
  performing a procedure for removing a low-frequency interference signal from the original phase sample, the procedure comprising the steps of;
  
  converting the original phase sample into a frequency sample;
  
  removing, from the frequency sample, energy associated with frequencies below a predetermined frequency to produce a filtered frequency sample; and
  
  converting the filtered frequency sample into a filtered phase sample;
  
  generating a corrected demodulated signal from the filtered phase sample;
  
  generating a non-corrected demodulated signal from the original phase sample;
  
  detecting a first quantity of errors contained in the corrected demodulated signal;
  
  detecting a second quantity of errors contained in the non-corrected demodulated signal;
  
  alternatively selecting either the corrected demodulated signal or the non-corrected demodulated signal on the basis of a comparison of the first quantity of errors with the second quantity of errors.
- View Dependent Claims (16)
- - 16. The method of claim 15, wherein the step of alternatively selecting comprises the step of alternatively selecting the corrected demodulated signal when the first quantity of errors is less than the second quantity of errors, or the non-corrected demodulated signal when the first quantity of errors is not less than the second quantity of errors.

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Current Assignee
Unwired Planet LLC (JP Morgan Chase & Co)
Original Assignee
Ericsson, Inc. (Telefonaktiebolaget LM Ericsson)
Inventors
Dent, Paul W., Croft, Thomas M., Solve, Torbjorn W.
Primary Examiner(s)
Marcelo, Melvin
Assistant Examiner(s)
Corrielus, Jean B.

Application Number

US08/345,848
Time in Patent Office

1,058 Days
Field of Search

329/300, 329/341, 329/343, 455/304, 455/306, 455/307, 455/309, 375/285, 375/340, 375/346, 375/350, 375/229, 375/254, 375/344, 375/348, 375/371, 395/185.01, 371/5.1, 371/48, 371/67.1, 371/30, 371/37.7
US Class Current

375/346
CPC Class Codes

G01N 27/12   of a solid body in dependen...

G01N 30/66   Thermal conductivity detectors

H03D 3/002   Modifications of demodulato...

H03D 3/006   by sampling the oscillation...

Removing low frequency interference in a digital FM receiver

First Claim

4 Assignments

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Abstract

129 Citations

16 Claims

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Removing low frequency interference in a digital FM receiver

First Claim

4 Assignments

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0 Petitions

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Accused Products

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Abstract

129 Citations

16 Claims

Specification

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Solutions

Use Cases

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