Automatic equalizing system with DFT and FFT

US 4,628,530 A
Filed: 02/13/1984
Issued: 12/09/1986
Est. Priority Date: 02/23/1983
Status: Expired due to Fees

First Claim

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1. An arrangement for converting an electric signal into an acoustic signal, which arrangement comprises:

an input terminal for receiving an electric input signal,an electro-acoustic transducer unit for converting an electric signal into an acoustic output signal,an equalizing unit having a first and a second input and an output, for correcting the frequency characteristic of said electric input signal, which is applied to its first input, under control of a control signal applied to its second input and for supplying the corrected electric signal on its output to said tranducer unit,pick-up means for detecting an acoustic signal and for generating an electric feedback signal which is a measure of the acoustic signal, anda frequency analyzing unit having a first input coupled to a point in the signal path between the input terminal and the first input of the equalizing unit, having a second input coupled to the pick-up means, and an output for supplying the control signal, which output is coupled to the second input of the equalizing unit, the improvement wherein analog/digital converter means convert said electric input signal and said feedback signal to respective digital signals, the frequency analyzing unit is constructed to subject the previously digitized digital input and feedback signals respectively applied to its first and second input to a Fourier transform, to provide Fourier-transformed versions F_x (f) and F_y (f) respectively of said signals, to calculate a transfer function from the said two versions, and to determine the control signal using the information in this transfer function.

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Abstract

The equalizing arrangement in accordance with the invention comprises an equalizing unit (4) for correcting the frequency characteristic of an electric signal applied to its first input (7) under the influence of a control signal (10) applied to its second input (8) and for supplying a corrected electric signal to its output (9), and a frequency analyzing unit (16) having a first input (15) coupled to a point in the signal path between the input terminal (1) and the first input (7) of the equalizing unit (4), a second input (17) coupled to the pick-up means (14) and an output (19) for supplying the control signal (10).

The analyzing unit (16) is constructed to apply a Fourier transform to the previously digitized input signals x(t) and y(t) applied to its first and its second input, to compute Fourier-transformed signals F_x (f) and F_y (f) of these two signals and to compute a transfer function between these two signals.

Preferably the frequency analyzing unit is further constructed to compute a coherence function γ²_xy (f) between the two signals and, in determining the control signal, to ignore the values of the transfer function for those frequencies f_i for which γ²_xy is smaller than a specific value, for example 0.8. By means of the arrangement in accordance with the invention a better equalization can be achived and the distortion of the output signal of the arrangement is low.

139 Citations

11 Claims

1. An arrangement for converting an electric signal into an acoustic signal, which arrangement comprises:
- an input terminal for receiving an electric input signal,an electro-acoustic transducer unit for converting an electric signal into an acoustic output signal,an equalizing unit having a first and a second input and an output, for correcting the frequency characteristic of said electric input signal, which is applied to its first input, under control of a control signal applied to its second input and for supplying the corrected electric signal on its output to said tranducer unit,pick-up means for detecting an acoustic signal and for generating an electric feedback signal which is a measure of the acoustic signal, anda frequency analyzing unit having a first input coupled to a point in the signal path between the input terminal and the first input of the equalizing unit, having a second input coupled to the pick-up means, and an output for supplying the control signal, which output is coupled to the second input of the equalizing unit, the improvement wherein analog/digital converter means convert said electric input signal and said feedback signal to respective digital signals, the frequency analyzing unit is constructed to subject the previously digitized digital input and feedback signals respectively applied to its first and second input to a Fourier transform, to provide Fourier-transformed versions F_x (f) and F_y (f) respectively of said signals, to calculate a transfer function from the said two versions, and to determine the control signal using the information in this transfer function.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. An arrangement as claimed in claim 1, wherein said Fourier transform is a discrete Fourier transform.
  - 3. An arrangement as claimed in claim 1, wherein the frequency analyzing unit further comprises means for computing a coherence function γ
    - ²_xy (f) between the two signals.
  - 4. An arrangement as claimed in claim 5, wherein the frequency analyzing unit for determining the control signal, ignoring the values of the transfer function for those frequencies f_i for which the coherence γ
    - ²_xy is smaller than a specific value.
  - 5. An arrangement as claimed in claim 1, wherein the frequency analyzing unit comprises means for delaying, prior to the application of the Fourier transform, the signal applied to its first input relative to the signal applied to its second input by a time interval which at least substantially corresponds to the propagation delay of the acoustic output signal of the transducer unit to the pick-up means.
  - 6. An arrangement as claimed in claim 5, wherein the frequency analyzing unit means for limiting the length of the two signals by means of a time window, after the signal applied to its first input has been delayed and before the Fourier transform is applied, the length of the time window corresponding substantially to the time interval within which the pick-up means detect the direct acoustic output signal of the transducer unit and a plurality of early reflections of the acoustic output signal of the transducer unit.
  - 7. An arrangement as claimed in claim 1, wherein for the conversion of a stereophonic signal into an acoustic signal the arrangement is provided with a second input terminal for receiving a second electric input signal,a second electro-acoustic transducer unit for converting the second electric input signal into a second acoustic output signal,that the equalizing unit is further provided with a third and a fourth input and a second output and is constructed to correct the frequency characteristic of the second electric signal applied to its third input under the influence of a second control signal applied to its fourth input and to supply the corrected second electric signal to its second output, that the frequency analyzing unit is provided with a third input coupled to a point in the signal path between the second input terminal and the third input of the equalizing unit and a second output for supplying the second control signal, which second output is coupled to the fourth input of the equalizing unit, the frequency analyzing unit being moreover constructedto perform a Fourier transform on a previously digitized input signal z(t) applied to its third input,to provide a Fourier-transformed version F_z (f) of this signal z(t),to compute a second transfer function from the said transformed version of the two signals z(t) and y(t),to determine the second control signal using the information in this second transfer function,to compute partial coherence functions γ
    - ²_xy.z (f) between the signals x(t) and y(t) and γ
      
      ²_zy.x (f) between the signals z(t) and y(t), and is constructed to ignore, in determining the first and the second control signal respectively, the value of the first and the second transfer function respectively for those frequencies f_i for which the partial coherence function γ
      
      ²_xy.z (f) and γ
      
      ²_zy.x (f) respectively has a value samller than a specific fixed value.
  - 8. An arrangement as claimed in claim 7, wherein said fixed value is in a value range between 0.7 and 1.0.
  - 9. An arrangement as claimed in claim 1, wherein said frequency analysing unit comprises means for determining the control signal, said means operating without the values of the transfer function for those frequencies f_i for which the values of the transfer function are smaller than 1/x times the average value of the transfer function, x being a predetermined number.
  - 10. An arrangement as claimed in claim 9, wherein said predetermined number is at least 20.
  - 11. An arrangement as claimed in claim 1, wherein said Fourier transform is a fast Fourier transform.

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Current Assignee
Fujifilm Electronic Imaging Ltd. (Fujifilm Holdings Corporation)
Original Assignee
US Philips Corporation (Koninklijke Philips N.V.)
Inventors
Van Nieuwland, Jacob M., Op De Beek, Franciscus J.
Primary Examiner(s)
Isen, Forester W.

Application Number

US06/579,737
Time in Patent Office

1,030 Days
Field of Search

364/572, 364/576, 381/59, 381/103, 381/56, 381/58, 381/107, 381/108, 381/96
US Class Current

381/103
CPC Class Codes

H03G 5/165   Equalizers; Volume or gain ...

H03G 9/18   for tone control and volume...

H04R 3/04   for correcting frequency re...

H04S 7/30   Control circuits for electr...

Automatic equalizing system with DFT and FFT

First Claim

2 Assignments

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Abstract

139 Citations

11 Claims

Specification

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Automatic equalizing system with DFT and FFT

First Claim

2 Assignments

Subscription Required

Subscription Required

0 Petitions

Subscription Required

Accused Products

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Abstract

139 Citations

11 Claims

Specification

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Solutions

Use Cases

Quick Links