KR100939684B1 - Voice recorder with 3 microphone - Google Patents

Abstract

PURPOSE: A voice recorder with three microphones is provided to record a voice signal transmitting from a short distance without noises using the interview microphone. CONSTITUTION: A mode selection unit(19) selects one of an omni-directional microphone(1), an oriented microphone(3), and an interview microphone(5). An electric circuit amplifies and digitizes the output signal of the microphone selected in the mode selection unit. A storage processor(15) stores and processes signal outputted from the electric circuit. A microcomputer(10) controls an input selection switch according to an input signal of the mode selection unit. The input selection switch inputs the input signal of the selected microphone to the electric circuit.

Description

Voice recorder with 3 microphones {voice recorder with 3 microphone}

The present invention relates to a voice recorder employing three microphones by employing an omnidirectional microphone, a directional microphone, and an interview microphone to select and use the best mode according to various recording environments and recording purposes.

The voice recorder is a device for storing the collected voice signal in a storage means and reproducing it when necessary. The voice recorder may be an electronic device that is miniaturized by the advance of compression technology and the development of the storage means and is convenient to carry and replaces the past recorder.

A typical voice recorder differentiates recording according to a situation by installing an omnidirectional microphone so that recording sensitivity can be selected as high or low.

However, when the voice recorder needs to collect voice signals in a specific direction, voice signals are collected from all directions and various noise components are input.

In order to improve this inconvenience, the omnidirectional microphone which has high sensitivity and can receive the omnidirectional signal and the directional microphone which can receive only the signal on the potential side without rear noise can be installed. A voice input system that can selectively receive voice signals has been developed.

However, there is a problem in that various noises inputted from a specific direction cannot be removed when a voice signal of a specific direction is input using the directional microphone.

SUMMARY OF THE INVENTION The present invention has been made to solve this problem, and a problem of the present invention is to provide a voice recorder capable of recording a voice signal transmitted from a close distance without noise using an interview microphone.

In addition, another object of the present invention is to detect the magnitude level of the input voice signal, and to select the noise and the voice input signal centered on the frequency at this time to input a clear voice.

A solution for solving the problem is a voice recorder employing three microphones that converts, stores and reproduces a voice signal into a digital signal, comprising: an omnidirectional microphone for collecting and outputting voice signals of all directions; A directional microphone for collecting and outputting a voice signal in a specific direction; An interview microphone configured to output a voice signal of a threshold level or higher to collect and output only a short range voice; A mode selection unit for selecting one of the three microphones; An electric circuit for amplifying and digitizing a selected microphone of the mode selector and an output signal of the selected microphone; A storage processor for storing and processing a signal output from the electric circuit; And a microcomputer for driving control of an input switch for inputting the selected microphone to the electric circuit according to the input signal of the mode selection unit, wherein the electric circuit includes an amplifier for amplifying signals input from three microphones, and an output from the amplifier. And an analog-to-digital converter for converting a signal to a digital signal, and a level detector for detecting a signal output from the analog-to-digital converter, wherein the microcomputer includes a preset signal when the directional or omnidirectional microphone is selected from the three microphones. The amplifier is operated with a set amplification, and when the interview microphone is selected, the amplifier is operated with an amplification set lower than the predetermined amplification degree.

delete

Further, in the present invention, when the signal input from the level detector is input a level signal of more than a predetermined value, it is preferable that the microcomputer lowers the amplification degree of the amplifier to a second predetermined amplification degree or less.

In the present invention, the electric circuit further includes a variable filter for filtering the voice signal input when the interview microphone is selected and operated, and outputs to the amplifier, the level detector detects the average voice signal level at a predetermined period, A frequency of an instant having a level that matches the average voice signal level is selected as a center frequency and output to the microcomputer, the microcomputer transmits the center frequency and a predetermined bandwidth to the variable filter, and the variable filter is the center. Preferably, the voice signal inputted according to the frequency and the predetermined bandwidth is filtered and output to the amplifier.

According to the present invention having the above problems and the above solution, it is possible to clearly store the voice of the close distance. In particular, by following the center frequency of men and women differently, the filtering bandwidth of the filter is set differently according to gender so that the clear voice is stored at the interview.

In addition, by setting the amplification degree when inputting the voice signal to the directional, omni-directional micron phone and the input of the audio signal to the interview microphone, it is possible to clearly store and reproduce the desired voice signal in various environments.

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

1 is a circuit block diagram of an embodiment of the present invention.

The microcomputer 10 controls the entire control object of the voice recorder 100. The mode selector 19 and the input selection switch 7 are connected to the microcomputer 10, and the omnidirectional microphone 1, the directional microphone 3, and the interview microphone 5 are connected to the input selection switch 7. The input selection switch 7 includes a band pass filter (BPF) for inputting a signal input to one of the three microphones (1), (3), and (5) according to the specific mode selection of the mode selection unit 19. (9) or a variable band pass filter (VBPF) 12.

The omnidirectional microphone 1 inputs an omnidirectional audio signal, the directional microphone 3 inputs an audio signal in a specific direction, and the interview microphone 5 transmits only a voice signal of 250 to 4000 Hz, which is a conversational voice in itself. A pass filter is built in, and a function of removing noise is added to a directional microphone that passes only a near voice signal having a predetermined threshold level or more.

When the omnidirectional microphone 1 and the directional microphone 3 are selected in the mode selector 19, the output signal is inputted to the band pass filter 9 through the input selection switch, and when the interview microphone 5 is selected. The output signal of the interview microphone 5 is input to the variable filter 12 through the input selection switch 7.

The output signal filtered by the band pass filter 9 or the variable filter 12 is amplified by the amplifier 11, converted into a digital signal by the analog-to-digital converter 13, and then stored by the storage processor 15.

In addition, the audio signal converted into a digital signal is detected by the level detector 17 and output to the microcomputer 10 by detecting the level and the center frequency.

The microcomputer 10 operates by driving the band pass filter 9, the variable filter 12, and the input switch 7 according to the selection mode of the mode selection unit 19, and is detected by the level detector 17. The amplification degree of the amplifier 11 and the filtering region of the variable filter are determined according to the center frequency and the level.

2 is a flowchart illustrating a method of selecting a center frequency and a method of calculating a filtering region of a variable filter in the present invention.

The interview microphone 5 is used to input a voice of a person in close proximity. When the interview microphone 5 is operated to input a clear voice and prevent other noises, the input voice signal is a variable filter. It is filtered through 12.

The level detector 19 detects the average level of the audio signal every predetermined period, detects the frequency at the level time point corresponding to the average level in each period, and selects the detected frequency as the center frequency. The microcomputer 10 transmits the center frequency information and the bandwidth, which are input from the level detector 19, to the variable filter 12 so that the voice signal is detected by filtering a predetermined bandwidth around the center frequency.

Since the center frequency is different for each person, especially a man and a woman, and the normal bandwidth of the voice is made within 500 Hz, it is desirable to have the upper and lower widths of 250 Hz around the center frequency.

In addition, the microcomputer 10 controls the amplification degree of the amplifier 11. According to the mode selection, when the omnidirectional, directional microphones (1) and (3) are selected, the amplification degree operates at 28 to 30. When the interview microphone (5) is selected, the amplification degree is omnidirectional and oriented because the sharpness is more important than the amplification amount. The amplification of the microphones (1) and (3) should be operated at about 20 degrees lower.

In addition, the microcomputer may have an amplification degree of 3 or less for a predetermined time instantaneously because an abnormal signal is generated when a level input from the level detector 17 exceeds a preset level.

1 is a circuit block diagram of an embodiment of the present invention.

2 is a flowchart illustrating a method of selecting a center frequency and a method of calculating a filtering region of a variable filter in the present invention.

Claims (4)

In a voice recorder with three microphones, which converts an audio signal into a digital signal and stores and reproduces it: Omni-directional microphone for collecting and outputting the audio signal of the entire orientation; A directional microphone for collecting and outputting a voice signal in a specific direction; An interview microphone configured to output a voice signal of a threshold level or higher to collect and output only a short range voice; A mode selection unit for selecting one of the three microphones; An electric circuit for amplifying and digitizing a selected microphone of the mode selector and an output signal of the selected microphone; A storage processor for storing and processing a signal output from the electric circuit; And a microcomputer for driving control of an input switch for inputting the selected microphone to the electric circuit according to the input signal of the mode selection unit. The electrical circuit includes an amplifier for amplifying a signal input from three microphones, an analog-to-digital converter for converting a signal output from the amplifier into a digital signal, and a level detector for detecting a signal output from the analog-digital converter. Include, The microcomputer operates the amplifier at a predetermined amplification when the directional or omnidirectional microphone is selected among the three microphones, and operates the amplifier at amplification lower than the predetermined amplification degree when the interview microphone is selected. Voice recorder which adopts 3 microphones characterized by. delete The voice recorder of claim 1, wherein the micom lowers the amplification degree of the amplifier below a second predetermined amplification degree when the signal input from the level detector is input with a level signal of a predetermined value or higher. The method of claim 3, wherein the electric circuit further comprises a variable filter for filtering the voice signal input when the interview microphone is selected and operated, and outputs to the amplifier, the level detector detects the average voice signal level at a predetermined period, A frequency of an instant having a level that matches the average voice signal level is selected as a center frequency and output to the microcomputer, the microcomputer transmits the center frequency and a predetermined bandwidth to the variable filter, and the variable filter is the center. And a voice signal input according to a frequency and the predetermined bandwidth and output to the amplifier.

Images