KR950005260Y1 - Video camera sound recording apparatus - Google Patents

Abstract

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Description

Video Camera Voice Recorder

1 is a block diagram of a conventional video camera audio recording device.

2 is a video camera audio recording circuit diagram according to the present invention.

3 is a waveform diagram of each part of FIG.

* Explanation of symbols for main parts of the drawings

1: microphone 2: automatic gain controller

3: detector 10: voice input unit

20: voice amplifier 30: recording unit

40: mute signal input unit 50, 60: voice signal control unit

The present invention relates to a video camera audio recording apparatus, and more particularly, to a video camera audio recording apparatus for removing noise of a voice signal generated in a recording section and a recording stop section when a video camera is photographed.

In the prior art configuration, as shown in FIG. 1, an automatic gain control 2 to which a microphone (M. C) 1 is connected is connected to a detector 3 and then a recording amplifier (A). The ground resistor R1 is connected to the inverting terminal (-) of the recording amplifier 4 connected to the non-inverting terminal (+) of 4) and controlled by mute control (VMUTE). The output terminal of the recording amplifier 4 is connected via R2), and the output terminal of the recording amplifier 4 is connected to the head Hd while being connected to the grounded capacitor C1 and the biased variable resistor VR through the resistor R3. The operation state of the above described technical configuration will be described as follows.

When shooting a video camera, if recording for a certain time and recording pause (PAUSE) for a certain time, the audio signal is recorded during the recording period, the audio signal is not recorded during the recording stop time.

In this way, the tape is not continuously recorded, but is recorded again after a certain time after being recorded for a certain time.

Therefore, the recording amplifier 4 is operated during the recording period, and the recording amplifier 4 is not operated during the recording stop period.

At this time, controlling the recording amplifier 4 is a mute control (VMUTE).

That is, the recording amplifier 4 does not operate when the mute control (VMUTE) is in the high potential state, and operates when the low potential state.

Therefore, in the recording period, the mute control (VMUTE) becomes low potential, and the recording stop period becomes the high potential state. After all, when recording with a video camera, the recording is paused by using the recording stop button when searching for and moving an object. When recording, the audio is also recorded, but the audio is not recorded during the recording stop section. This is because the mute control (VMUTE) becomes a high potential state in the recording stop section, and the recording amplifier 4 is not operated. Therefore, when recording is temporarily stopped after recording and recording again after a certain time, the voltage level is changed to a high potential state and a low potential state so that the mute control (VMUTE) controls the operation of the recording amplifier 4. Since the mute control (VMUTE) changes instantaneously, noise is generated at this moment in the recording amplifier 4.

Therefore, if you record in a quiet place and play it again, the voice will be noisy due to the momentary change of this mute control, and eventually the recording will not continue. Noise occurs during playback, which not only interferes with the overall photographing content, but also causes discomfort to viewers, thereby degrading product performance.

The present invention has been made in view of the above-mentioned conventional problems, and is equipped with a voice signal control unit that controls the voice signal by the mute signal to remove the noise of the voice signal generated in the recording stop section of the recording period when shooting to improve the product performance. I want to improve.

2 is a video camera voice recording circuit diagram according to the present invention, and as shown therein, a voice input unit 10 for inputting a voice signal through the microphone 1 and an output signal from the voice input unit 10 are amplified by the amplification. A voice amplifier 20 for outputting a signal, a mute signal input unit 40 for inputting a mute signal using a recording stop button during recording, and an output signal of the mute signal input unit 40; After receiving the first audio signal control unit 50 and the output signal of the mute signal input unit 40 to control the input of the audio signal, which is the output signal of the audio amplifier 20, compared with the reference voltage A second voice signal controller 60 for controlling the output of the voice signal amplified by the voice amplifier 20 by turning the transistor Q2 on and off, and the first and second voice signal controllers 50 and 60. Voice which is an output signal of the voice amplifier 20 under the control of The recording unit 30 receives a signal and writes it to a tape through the head Hd. The mute signal input unit 40 generates a mute signal V _MUTE through a resistor R12 and a capacitor C3. The inverting input terminal (-) of OP3 and the non-inverting input terminal (+) of the operational amplifier OP4 are respectively applied, and the non-inverting input terminal (+) and the operational amplifier OP4 of the operational amplifier OP3 are respectively applied. The voltage divided by the resistors R11 and R10 + R9 and the voltage divided by the resistors R11 + R10 and R9 are applied to the inverting input terminal (-), respectively. ) And (OP4) output signals are configured to be human to the first voice signal controller 50 through the resistors R6 and R7, respectively, and the voice signal controller 50 is output from the mute signal input unit 40. The signal is applied to the non-inverting input terminal (+) of the operational amplifier OP2 connected to the ground input R6 to the inverting input terminal (-), and the output signal of the operational amplifier OP2 is transmitted through the resistor R5. Invert input In addition to the feedback to the terminal (-) and configured to be applied to the voice amplifier 20 through a resistor (R4) and a capacitor (C2), the voice signal control unit 60 is the resistance of the mute signal input unit 40 ( The connection point number of R12) and capacitor C3 is divided by the power supply voltage Vcc by the resistors R17 and R18 to the non-inverting input terminal (+) of the operational amplifier OP5 applied to the inverting input terminal (-). The output of the operational amplifier OP5 is applied to the input terminal J of the flip-flop FF1, and the output of the flip-flop FF1 is emitter through the resistors R16 to R14 and the capacitor C4. Is applied to the base of the grounded transistor Q2, and the collector of the transistor Q2 is connected to the output side of the voice amplifier 20.

The present invention configured as described above will be described in detail the operation process and the effect.

During recording with the power supply voltage Vcc applied, the audio signal of the audio input unit 10 is amplified by the audio amplifier 20 and then applied to the recording unit 30 to be recorded on the tape. The mute signal VMUTE of 40 is input with high potential, and is integrated by the resistor R12 and the capacitor C2, and the integrated waveform is inverted input terminal (-) and the operational amplifier (OP) of the operational amplifier OP3. The integrating waveform input to the non-inverting input terminal (+) of OP4) (OP5), wherein the integral waveform is input to the operational amplifier OP3 (OP4), the exponent from "O" to "V _H " as shown in Figure 3a Increase by enemy. Here, V _REFL = Vcc · R9 / (R9 + R10 + R11) and V _REFL <V _REFH . That is, V _REFL = Vcc · (R9 + R10) / (R9 + R10 + R11).

Therefore, when the integrated waveform input to the operational amplifier OP3 (OP4) is _equal to or higher than the low reference voltage V _REFL , the outputs of the operational amplifier OP3 and OP4 are all in the high potential state.

The outputs of the operational amplifiers OP3 and OP4 are added in common to the non-inverting input terminals of the operational amplifier OP2 through the resistors R7 and R8, and the output of the operational amplifier OP2 is added to the resistors ( Integrated by R4) and capacitor C2 and input to the gate of PMOS transistor Q1, the PMOS transistor Q1 is turned off. Therefore, the input of the voice signal of the voice input unit 10 to the voice amplifier 20 is blocked. On the other hand, when the integral waveform input from the operational amplifier OP5 is equal to or greater than the reference voltage V _REFM , which is the voltage of the inverting input terminal (−), the output becomes a high potential state. Here, the reference voltage V _REFM input to the inverting input terminal (−) of the operational amplifier OP5 becomes V _REFM = Vcc x R17 / (R17 + R18). When the output of the operational amplifier OP5 becomes the high potential and is input to the flip-flop FF1, the output Q of the flip-flop FF1 is outputted as it is, so that the resistor R16 is in the high potential state. ) And a capacitor C4 are integrated, and the same waveform as that of the third b degree is deposited on the base of the transistor Q2 through the resistor R15.

Therefore, since the transistor Q2 is turned "on" and the output signal of the recording amplifier 4 is blocked from being applied to the recording unit 30, it is not recorded.

At this time, since the input and output of the voice amplifier 20 are gradually cut off by the integrating circuit, noise of the voice signal generated when recording and pausing is removed. When the recording is stopped and the video is recorded again, the mute signal V _MUTE changes from the high potential state to the low potential state. The waveform is integrated by the resistor R12 and the condenser C3. OP3) (OP4). When the integrated waveform reaches below the low reference voltage V _REFL , the output of the operational amplifier OP4 is at low potential. The low potential signal causes the low potential signal to be output from the operational amplifier OP2, thereby discharging the charging voltage of the capacitor C2 through the resistor R4 and gradually lowering the low potential signal. When the PMOS transistor Q1 is input to the MOS transistor Q1, the PMOS transistor Q1 is turned on so that the voice signal of the voice input unit 10 passes through the PMOS transistor Q1 to the non-inverting input terminal (+) of the recording amplifier 4. It is input to and then amplified and output.

On the other hand, when the connection point voltage of the resistor R12 and the capacitor C3 is lower than the reference voltage V _REFM , the output of the operational amplifier OP5 becomes a low potential state.

Accordingly, the output signal in the low potential state is integrated in the resistor R16 and the capacitor C4 in the low potential state through the flip-flop FF1 and input to the base of the transistor Q2 through the resistor R15. As a result, the transistor Q2 is turned off so that the audio signal of the audio amplifier 20 is recorded on the tape through the recording unit 30.

Eventually, when the recording device is released, the output of the recording amplifier 4 is gradually "conducted" first, and the input of the recording amplifier 4 is gradually "conducted" at a predetermined time interval. Remove noise of voice signal. At this time, the time delay is sufficient time interval by the integrating circuit of the control signal of the mute control consisting of a resistor and a capacitor.

Therefore, the video camera voice recording apparatus according to the present invention can remove the noise by the instant change of the mute control, thereby improving the performance of the product.

Claims (1)

(Two-time correction) Voice input unit 10 for inputting a voice signal through the microphone 1, voice amplifier 20 for receiving and amplifying and outputting the output signal of the voice input unit 10, and recording during recording A mute signal input unit 40 for receiving a mute signal according to the stop button and integrating and outputting a mute control signal by comparing the integrated voltage with reference voltages V _REFL and V _REFH ; and the mute signal input unit 40. The integrated voltage of the first voice signal control unit 50 and the mute signal input unit 40 to control the voice input of the voice amplifier 20 with a predetermined delay time according to the mute control signal of The second voice signal controller 60 for controlling the voice output of the voice amplifier 20 and a voice signal output from the voice amplifier 20 according to the comparison with the V _REFM ). Consisting of a recording unit 30 which receives the input and writes it to tape through the head Hd. Video camera voice recording device of Jing.