KR200155566Y1 - Sound noise eliminating circuit for a camcorder - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

Voice noise canceling circuit of camcorder

2. The technical problem the invention is trying to solve

It blocks out the fixed noise caused by the rotation of Zoom Motor or Drum Motor.

3. Summary of solution of design

The present invention uses pure BPF to filter out fixed frequency caused by rotation of zoom motor and drum motor when shooting camcorder, and limiter to limit output of BPF to below noise level. The extracted and subtracted speech signal is subtracted from the extracted noise to filter out only the pure speech signal.

4. Important uses of the devise

camcorder

Description

Voice noise canceling circuit of camcorder

1 is a noise reduction circuit according to the present invention.

2 is a waveform diagram of each part of FIG.

* Explanation of symbols for main parts of the drawings

2: microphone 4: microphone amplifier

6: BPF 8: Limiter

10: delay 12: subtractor

The present invention relates to a camcorder, and more particularly, to a voice noise circuit that reduces noise by blocking fixed noise generated by rotation of a zoom motor or a drum motor during camera shooting.

When shooting a camera using a camcorder, noise is always generated by the rotation of a zoom motor or a drum motor. This noise is recorded through the microphone, so it is recorded. If you listen to the sound quality when the recorded contents are played, you can see that it is not clean.

Therefore, an object of the present invention is to provide a voice noise circuit to reduce noise by blocking the fixed noise generated by the rotation of the zoom motor and drum motor during camcorder shooting.

The voice noise canceling circuit of the present invention for achieving the above object includes a microphone for converting and outputting input voice into an electrical signal, a microphone amplifier for amplifying and outputting the electrical signal, and a zoom of a camcorder among the outputs of the microphone amplifier. A band pass filter for filtering and outputting signals in a frequency band corresponding to noise generated from a motor and a drum motor, a limiter for outputting pure noise only by limiting the output of the band pass filter to a predetermined level or less, and the band pass filter And a delayer for delaying and outputting the microphone amplifier output by the time delayed by the limiter, and a subtractor for outputting only the pure audio signal since the noise of the limiter is reduced from the noise-mixed voice signal that is the output of the delayer. It is characterized by.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a microphone 2 for converting and outputting a voice into an electrical signal according to the present invention, a microphone amplifier 4 for amplifying and outputting an electrical signal output from the microphone 2, and an output of the microphone amplifier 4. A band pass filter 6 for filtering and outputting signals in a frequency band corresponding to noise generated by a zoom motor and a drum motor of a camcorder, and an output of the BPF 6 Limiter 8 for outputting only pure noise by limiting only a certain level or less, and delayer 10 for delaying and outputting the output of the microphone amplifier 4 by the time delayed by the BPF 6 and limiter 8. And a subtractor 12 which outputs only a pure voice signal since the noise which is the output of the limiter 8 is subtracted from the noise-mixed voice signal that is the output of the delayer 10.

FIG. 2 is a waveform diagram of each part of FIG. 1, where A is the output of the microphone 2, B is the output of the microphone amplifier 4, C is the output of the BPF 6, and D is the output of the limiter 8. to be. And E is the output of the subtractor 12.

Hereinafter, the operation of the present invention will be described in more detail with reference to FIGS. 1 and 2.

When taking a camera with a camcorder, if a voice signal is input from the outside into the microphone 2, the microphone 2 converts the input voice into an electrical signal and outputs the signal. The output signal is the same as A in FIG. A of FIG. 2 shows that the audio signal contains noise. The noise signal is mechanical noise that occurs when the zoom motor or drum motor rotates.

The audio signal output from the microphone 2 is amplified by the microphone amplifier 4 and output. At this time, the signal is the same as B of FIG. The signal output from the microphone amplifier 4 is applied to the subtractor 12 via the BPF 6 and the limiter 8 to remove noise mixed in the audio signal. The signal output from the microphone amplifier 4 is applied to the subtractor 12 via the delay unit 10.

The BPF 6 filters and outputs signals in a frequency band corresponding to noise generated by a zoom motor and a drum motor of a camcorder among the outputs of the microphone amplifier 4. The frequency band of the noise generated when the zoom motor is driven is 1.68 And the frequency band of the noise generated when the drum motor is driven is 1.48 to be. Therefore, the BPF 6 has to be composed of multiple stages of BPFs suitable for this unique noise frequency band. Therefore, the signal passing through the BPF (6) is eliminated outside the specific frequency for the noise frequency band. At this time, the output of the BPF 6 is mixed with not only noise but also a voice signal similar to the frequency band, like the C waveform of FIG. The output of the BPF 6 is applied to the limiter 8, and the limiter 8 restricts the output of the BPF 6 to only a predetermined level or less and outputs it. The noise of the zoom motor or drum motor always has a certain level, and even if the voice signal is lower than the noise level, especially if the voice signal is in the corresponding noise frequency band, it will not be buried in the noise. . Therefore, the signal passing through the limiter 8 has only pure noise components as shown in FIG.

The output (noise) of the limiter 8 is applied to the subtractor 12, and the output of the microphone amplifier 4 is delayed in the delayer 10 by the signal delayed time in the BPF 6 and the limiter 8. It is then applied to the subtractor 12. Therefore, the subtractor 12 subtracts the noise output from the limiter 8 from the audio signal (noise mixing) output from the delayer 10, so that only the pure audio signal remains as shown in the E waveform of FIG. This audio signal is processed later in audio.

As described above, the present invention extracts pure noise by using a BPF that filters the frequency band of noise and a limiter that outputs only the noise level below the noise level generated by the rotation of the zoom motor and drum motor during camcorder shooting. There is an effect of filtering out only the pure voice signal by subtracting the extracted voice signal with the noise extracted.

Claims (2)

A voice noise canceling circuit of a camcorder, comprising: a microphone for converting and outputting input voice into an electrical signal, a microphone amplifier for amplifying and outputting the electrical signal, and a zoom motor and a drum motor generated from the output of the microphone amplifier. A bandpass filter for filtering and outputting a signal in a frequency band corresponding to noise, a limiter for outputting pure noise only by limiting the output of the bandpass filter to a predetermined level or less, and the signal delay time of the bandpass filter and the limiter And a subtractor for delaying the output of the microphone amplifier and a subtractor for outputting only the pure voice signal since the noise which is the output of the limiter is reduced from the noise-mixed voice signal that is the output of the delayer. Circuit. The method of claim 1, wherein the band pass filter is 1.68 corresponding to noise generated in the zoom motor of the camcorder. A band pass filter of the band and 1.44 corresponding to noise generated from the drum motor of the camcorder. An audio noise canceling circuit comprising a band pass filter of a band.