KR930007296Y1 - Channel ballance autocontrolling circuit - Google Patents

Abstract

No content.

Description

Channel balance automatic adjustment circuit

1 is a circuit diagram of a conventional audio device.

2 is a circuit diagram according to the invention.

* Explanation of symbols for main parts of the drawings

10 microphone 20 amplifier

30, 40: 1st, 2nd band pass filter 50, 60: 1st, 2nd level detection circuit

70: control signal generation circuit 80: microcomputer

The present invention relates to a circuit for adjusting the channel balance of an audio device, and in particular, it is mounted on a remote control of an audio device to compare the magnitude of the signal through the R and L channel stages at a position where a listener wants to hear. It is related to a channel balance automatic adjustment circuit which is automatically adjusted to ensure accurate sound.

FIG. 1 is a circuit diagram of a conventional audio device. Briefly, the configuration thereof includes: first and second sinusoidal oscillators 1 and 2 and sinusoidal oscillators 1 and 2 that generate sinusoids of the same level and at different frequencies. , 2) is connected to a predetermined channel stage (L, R) when the input signal of the channel stage (L, R) is input to the oscillation signals of the first and second sine wave oscillators (1, 2) A channel balance adjustment circuit 3 for adjusting the balance of the signal according to the adjustment, a channel balance adjustment circuit 3 for adjusting the channel balance, and an amplifying signal adjusted by the channel balance adjustment circuit 3. 1 and 2 amplifiers 4 and 5 and first and second speakers 6 and 7 for outputting the signals amplified by the amplifiers 4 and 5.

Referring to one embodiment based on the above configuration, the oscillation signals of the first and second sinusoidal oscillators 1 and 2 are input to two predetermined channel stages L and R. The oscillating signals of the inputted first and second sinusoidal oscillators 1 and 2 are loaded with the signals through the channel stages L and R. The signal level of the L and R channel stages carried in the oscillation signal is adjusted by the balance adjusting circuit 3 in the negative level.

The balance adjustment signal adjusted as described above is input to the first and second amplifiers 4 and 5 and amplified. The amplified signal is output through the first and second speakers 6 and 7.

However, such a conventional circuit has been difficult to accurately adjust the channel balance, and also has the inconvenience of manual adjustment.

Therefore, an object of the present invention is to detect the difference between the channel level (L, R) signal level generated in the audio device of the position currently listening on the remote control, the detected signal is a control signal that can adjust the channel balance audio device It provides a circuit that can automatically adjust the channel balance by sending it as a remote control signal.

Another object of the present invention is to provide a circuit that can improve the function of the remote control.

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

2 is a circuit diagram according to the present invention, a microphone 10 for converting a voice signal into an electrical signal, an amplifier 20 for amplifying an output signal of the microphone 10, and two amplified in the amplifier 20. First and second band pass filters 30 and 40 for bandpass filtering the audio signals according to channel stages L and R, and the first and second band pass filters 30 and 40 are filtered and output. Compare and detect the levels of the first and second level detection circuits 50 and 60 and the signals output from the first and second level detection circuits 50 and 60, respectively, to detect the level of the signal magnitude. The control signal generation reconstruction 70 for generating a control signal and the microcomputer 80 for receiving the output of the control signal generation circuit 70 and generating channel balance adjustment remote control control data of the audio device.

Therefore, when the embodiment of the present invention is described in detail based on the above-described configuration, the microphone 10 embedded in the remote controller converts a voice signal output from the audio device into an electrical signal. The signal output from the microphone 10 is input to the amplifier 20 and amplified. The signal amplified and output from the amplifier 20 is input to the first and second band pass filters 30 and 40 through two predetermined channel stages L and R, respectively, and filters within a predetermined band.

Signals filtered and output by the first and second band pass filters 30 and 40 are first and second level detection circuits 50 and 60, respectively. Enter 70).

The signal output from the control signal generation circuit 70 is input to the microcomputer 80 to generate balance adjustment remote control data. The signal output from the microcomputer 80 is input to the balance adjustment circuit 3 of FIG. 1 so that the level of the signal is automatically adjusted and output from the channel stages L and R at desired output levels, respectively.

This operation is repeated repeatedly until the channel is balanced.

As described above, according to the present invention, the balance between channels can be automatically adjusted at the listening position, thereby allowing the listener to freely enjoy high quality sound, and also have the advantage of improving the function of the remote controller.

Claims (1)

In the channel balance adjustment circuit, a microphone 10 for converting a voice signal into an electrical signal, an amplifier 20 for amplifying an output signal of the microphone 10, and two voice signals amplified in the amplifier 20 The first and second band pass filters 30 and 40 for band pass filtering according to the channel stages L and R, and the signal magnitudes filtered by the first and second band pass filters 30 and 40, respectively. Levels of the first and second level detection circuits 50 and 60 for detecting a level and signals output from the first and second level detection circuits 50 and 60 are compared and detected, respectively, and control signals are generated according to the respective levels. And a microcomputer (80) for generating a control signal generation signal (70) to be generated and an output of the control signal generation circuit (70) to generate channel balance adjustment remote control control data of an audio device.