KR870003132Y1 - Audio system - Google Patents

Abstract

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Description

Mute Circuit with Fixed Audio Output for Audio / Video Combination System

1 is a block diagram of a general audio / video combining system.

2 is a circuit diagram of the present invention.

3 is a waveform diagram according to the present invention.

* Explanation of symbols for main parts of the drawings

1: microprocessor 2: slow buffer amplifier

3: waveform shaping part 4, 5: low-pass filter

6: inverting amplifier 7: output driver

8, 8 ',: DC output variable E: Fixed audio output

F: Variable audio output G: Audio output terminal

AD: Variable Volume Control Terminal CK: Clock Generation Terminal

The present invention relates to a fixed audio output mute circuit for an audio / video combining system. In particular, a fixed audio output terminal generated when various keys of a video signal recording and reproducing apparatus are operated using a clock pulse generated from a microprocessor inside a tuner. It is about a mute circuit with a fixed audio output that can remove unpleasant noise from the system.

In general, an audio / video combining system includes a tuner having a high frequency amplification, a local oscillation, and a mixed circuit part in which an amplifier, a television receiver, and a video signal recording and reproducing apparatus perform channel connection conversion as shown in FIG. It is connected to various output terminals of and is used. That is, among the input and output terminals installed in the tuner, the audio output terminal is divided into a fixed audio output terminal and a variable audio output terminal. First, the variable audio output terminal is controlled by a remote controller such as an audio device or a television receiver. The input of the video signal recording and reproducing apparatus, which is connected to the input terminal of the audio device and the television receiver so that it can be heard, and the fixed audio output terminal is used to record at a constant level without being affected by the output variable such as the video signal recording and reproducing apparatus. To the terminals. In addition, since the signal passing through the variable voice output terminal is designed to be automatically muted by the PCM output of the remote controller when various keys are operated, for example, during channel switching, various noises generated when various keys are operated are automatically removed. When recording the signal output from the audio output terminal in the video signal recording and reproducing apparatus, since the fixed audio output signal is supplied without passing through the tuner's audio output variable terminal, there is a disadvantage in that unpleasant noise generated when various keys are operated.

The present invention is designed to solve the above-mentioned disadvantages, and is to mute the fixed audio output signal through a buffer amplifier, a low pass filter, and an inverting amplifier by using a clock pulse generated from a microprocessor when various keys are operated. This can not only mute the noise signal generated from the fixed audio output terminal when channel is tuned up or down, but also by using the variable volume control terminal on the variable audio output signal. It is an object of the present invention to provide a fixed audio output mute circuit for an audio / video combining system that can mute the operation of a device to mute during a broadcast station search cycle, thereby eliminating unpleasant noise supplied to a fixed audio output terminal. .

Hereinafter, the configuration, operation, and effects of the present invention will be described based on the drawings.

According to the present invention, a buffer amplifier (2) and a known waveform shaping unit (3) are connected to a microprocessor (1), and the buffer amplifier (2) is in turn a resistor (R3) (R4) and a capacitor (C1) (C2). Low pass filter (4) consisting of two stages, low pass filter (5) consisting of resistor (R5), capacitor (C3), and transistor (TR2), diode (D1), capacitor (C4), resistor ( An inverting amplifier 6 composed of R6 and transistor TR3 and an output driver 7 composed of resistors R7 (R8) and transistors TR4 and TR5 are connected, and in the output driver 7 The collector terminal of the transistor TR4 is connected to a well-known DC output variable 8 through a parallel resistor R9 (R10) and a capacitor C5 (C6), and a transistor in the output driver 7. The collector terminal of TR4 has a structure in which a well-known DC output converter 8 'is connected via parallel resistors R11, R12, and capacitors C7, C8.

Unmarked AD is variable acoustic control terminal, CK is clock generation terminal, PA is pulse amplitude, A is various key operation completion, B is mute time, E is fixed audio output, F is variable audio output and G is audio output terminal. And the like.

2 is a circuit diagram of the present invention having the above-described structure, wherein a key such as channel selection is output from a clock terminal CK of a microprocessor 1 in a tuner (not shown) connected to various input / output terminals. The clock pulse A as shown in (3-2) of FIG. 3 is inputted to the base of the transistor TR1 in the buffer amplifier 2 and amplified by a current, and then a resistor R3 in the regional pass filter 4 composed of two stages. ) And the capacitor C1, the resistor R4 and the capacitor C2, respectively. At this time, the low pass filter 4 plays a role of delaying the clock signal A generated during the operation of the various keys for the time charged by the capacitors C1 and C2 (for example, set to 3 seconds). Therefore, the signal charged in the capacitors C1 and C2 is discharged when the key operation is completed and no signal is output from the clock signal terminal CK.

Subsequently, after the key operation is completed, the signal passed through the low pass filter 4 by a predetermined time is passed through the low pass filter 5 composed of the resistor R 5, the transistor TR 2, and the capacitor C 3. ) And a low level signal are applied to the base terminal of the transistor TR3 in the inverting amplifier 6 during the respective charging time constants according to the capacitor C3, the resistor R6, and the capacitor C3. ) Is turned on. Accordingly, the emitter of the transistor TR4 in the output driver 7 constituted of the resistors R7, R8 and TR4, TR5 by the high level signal passing through the current path of the transistor TR3. The right channel signal of the stereo signal output through the terminal to the audio output terminal G is grounded through the capacitor C5 and the resistor R9, and the left channel signal of the stereo signal through the emitter terminal of the transistor TR5. Is grounded through the capacitor C5 and the resistor R7, so the fixed audio output signal E is muted.

The condenser C3 described above was set as a capacitor having a much larger capacity than the condenser C4.

On the other hand, the mute when the power on / off as follows. First, when the power supply is turned on, the capacity of the capacitor C3 is set to be much larger than that of the capacitor C4. Therefore, the charge of the resistor R5 capacitor C3 and the resistor R6 capacitor C3, which are time constants, is charged. Since the low level signal is applied to the base terminal of the transistor TR3 during the time constant, the transistor TR3 remains turned on.

Therefore, since the high level signal passing through the current path of the device transistor TR3 is applied to the base terminals of the transistors TR4 and TR5, the transistor TR4 (TR5) is turned on, and the audio output terminal G is turned on. Of the stereo signals output, the right channel signal is grounded to the emitter terminal of transistor TR4 through capacitor C5 and resistor R9, while the left channel signal is transistor TR5 through capacitor C6 and resistor R11. Since the emitter terminal is grounded, the fixed audio output signal E is muted.

On the other hand, when the power is OFF, the direction of the diode D1 in the inverting amplifier 6 is installed in a reverse direction with respect to the power discharged from the capacitor C4. Thus, the potential charged in the capacitor C4 is very slow. Discharge is performed at a speed, and a potential charged in the capacitor C3 is discharged at a high speed through the resistor R5.

Therefore, since the high level signal is applied to the emitter terminal of the transistor TR3 and the low level signal is applied to the base terminal, the transistor TR3 is turned on.

Accordingly, since the high level signal passing through the current path of the transistor TR3 is applied to the base terminals of the transistors TR4 and TR5, the transistors TR4 and TR5 are all turned on. Therefore, among the stereo signals output from the audio output terminal (G), the right channel signal is grounded to the emitter terminal of the transistor (TR4) through the capacitor (C5) and the resistor (R9), and the left channel signal is connected to the capacitor (C6) and the resistor. The fixed audio output terminal E is muted because it is grounded to the emitter terminal of the transistor TR5 through R11.

On the other hand, when the signal passing through the variable volume control terminal AD of the microprocessor 1 passes through the waveform shaping section 3 and the shaped pulse is sent out, various signals within the pulse amplitude range as shown in (3-1) of FIG. Since the mute circuit B is applied after the key operation completion A, the variable audio output signal F is muted through the DC output variable 8.

As described above, the present invention mutes the noise signal of the fixed audio output terminal generated during channel up / down or channel tuning by using the clock pulse of the microprocessor 1 when various keys are operated, and also the variable audio output signal. By muting all the key movements on the time axis using the volume control terminal, there is an effect that can remove unpleasant noise in fixed audio output.

Claims (1)

A buffer amplifier 2 and a waveform shaping portion 3 are respectively connected to the microprocessor 1, and the buffer amplifier 2 has two stages composed of resistors R3, R4, and capacitors C1, C2. Low pass filter (4), low pass filter (5) consisting of resistor (R5), capacitor (C3) and transistor (TR2), diode (D1) and capacitor (C4), resistor (R6) and transistor An inverting amplifier 6 constituted by TR3 and an output driver 7 constituted by resistors R7 and R8 and transistors TR4 and TR5 are connected in sequence, and a transistor within the output driver 7 is formed. A DC output variable converter 8 is connected to the collector terminal of R4 through parallel resistors R9, R10, and capacitors C5, C6, and the right channel signal of the stereo signal is output. In the collector terminal of the transistor TR5, the DC output variable 8 'is connected through the parallel resistors R11, R12 and capacitors C7 and C8 to output the left channel signal of the stereo signal. It is composed of muting the audio / visual system coupled fixed for audio output by a clock pulse so as to mute the audio output fixed to various key operation circuit.