KR950008743B1 - Rf signal level regulating device - Google Patents

Abstract

The device adjusts the RF(Radio Frequency) signal level automatically by comparing the RF signals of channels with each other. The device includes: (a) a balance detection circuit(5) which detects the RF level of audio signal; (b) a micom(6) which generates the compensation value according to the difference of the RF level; (c) a decoder(7) which provides the generated compensation data to compensation circuits (8,9); (d) the first and the second compensation circuits (8,9) which compensate the RF signal level using supplied compensation value.

Description

Playback audio and RF signal level automatic adjustment

1 is a circuit diagram of a conventional reproduction audio RF signal level adjusting device.

2 is a circuit diagram of a reproduction audio RF signal level adjusting device according to the present invention.

3 is a signal waveform diagram at each part of the apparatus of the present invention.

* Explanation of symbols for main parts of the drawings

1: buffer 2: band pass filter

3: limiter 4: demodulator

5: balance detection unit 6: microcomputer

7 Decoder 8 First Complementary

9: Second Complementary Government 10: Adder

The present invention reproduces an audio signal recorded by FM modulation in a video signal processing device such as a camcorder, and compares the audio signal levels of each channel with each other. The present invention relates to a reproducing audio RF (RF) signal automatic control device that automatically compensates for the same level, if any.

Referring to FIG. 1, a configuration of a conventional playback audio RF signal level adjusting device is provided. The buffer 1 receives and buffers and amplifies an FM-modulated playback signal (PB RF); A band pass filter (2) for filtering out only the audio signal at the buffer output, a limiter (3) for removing noise from the filtered audio signal, and an FM demodulator for demodulating and outputting the noise canceled audio signal ( 4), the operation of the conventional playback audio RF signal level adjusting device configured as described above is as follows.

The reproduction audio signal (PB RF) input from the reproduction head of each channel (left / right; CHl / CH2) is buffered and amplified in the buffer 1 and 1.5 MHz / 1.7 for filtering only the audio signal in the band pass filter 2. The audio RF signal is supplied to the limiter 3 by filtering in the frequency band of MHz.

The limiter 3 removes the upper / lower limit ripple component or noise component of the input signal through the level limitation, and the noise canceled signal is demodulated to the original audio signal by the FM demodulator 4 and outputted (AUDIO OUT).

However, the conventional reproduction audio RF signal level adjusting device simply removes and demodulates the input signal so that a difference occurs in the example bell of the RF signal reproduced in each channel or the head mechanism. It is impossible to overcome the difference in the RF signal level of each channel reproduced by this head due to the step difference. Therefore, the problem of the occurrence of AUDIO BUZZ NOISE due to the difference in the signal level of each channel, and the excessive drop There is a problem of occurrence of a DROP OUT.

The present invention compares the levels of the RF signals reproduced in each channel with each other, and if a difference occurs in the level of the reproduced signal as a result of the comparison, the microcomputer corrects the levels of the corresponding channels by the difference value, thereby adjusting the reproduction audio RF signal levels of the two channels. It is an object of the present invention to provide an apparatus for automatically adjusting a reproducing audio RF (RF) signal level, which makes it possible to achieve high quality signal reproduction according to the above, and will be described below with reference to the accompanying drawings. .

Referring to FIG. 2, the apparatus for automatically adjusting a reproducing audio RF signal level according to the present invention includes a buffer 1 for buffering and amplifying a FM-modulated reproducing signal PB RF and outputting the buffer. A band pass filter (2) for filtering out only the audio signal, a balance detector (5) for detecting the RF level for each channel of the filtered audio signal, and supplying a detection result to the microcomputer (6); The microcomputer 6 which receives the detection result and determines the difference between the RF signal levels of each channel and outputs correction data for matching the signal levels of the two channels based on the determination result, and decodes the correction data output from the microcomputer. A decoder 7 for supplying to the correction unit 8, 9 of the corresponding channel, a first correction unit 8 for correcting and outputting the RF signal level of the first channel with the correction value supplied from the decoder; Ball from the decoder A second compensator 9 for correcting and outputting the RF signal level of the second channel with the corrected correction value, and an adder for synthesizing and outputting the RF signal of each channel corrected by each of the compensators 8 and 9; 10), a limiter (3) for removing the noise of the added audio signal, and an Fm demodulator (4) for demodulating and outputting the noise-free audio signal. The operation of the RF signal level adjusting device is as follows.

The reproduction RF signal PB RF input to the buffer 1 is buffered and amplified so that only the audio band is filtered by the band pass filter 2, and the filtered signal is supplied to the balance detection unit 5.

The balance detector 5 detects the signal level of each channel CH1 and CH2 of the input RF signal according to the switching pulse (head switching field: HS / W) input as shown in FIG. Is multiplied by the microcomputer 6, for example, the microcomputer 6 supplies the level information of a channel having a small level among the RF signals of the two channels.

(B) of FIG. 3 shows an example of an RF signal waveform when the level of the first channel CH1 is greater than the level of the second channel CH2 among two channels, and (c) shows the second channel CH2. ) Shows an example of an RF signal waveform when the level of the?

The microcomputer 6 outputs correction data such that the RF signal levels of the two channels match from the result of the level comparison between the two channels supplied from the balance detection unit 5, and the correction data is supplied to the decoder 7. .

The decoder 7 decodes the correction data supplied from the microcomputer 6 into a correction value corresponding to a channel to be corrected, and supplies the correction value to the first correction unit 8 or the second correction unit 9, As shown in the example, when the level of the first channel CH1 is greater than the level of the second channel CH2 as shown in the waveform shown in FIG. 3B, the RF of the first channel is applied to the first correction unit 8. An embodiment of supplying a correction value for reducing the level by the difference value of two channels (or supplying a correction value for correcting the RF level of the second channel by the difference value between the two channels to the second correction unit 9 is possible. In the case of the waveform shown in (c) of FIG. 3, the correction value of the corresponding channel is supplied through the same operation as described above.

Accordingly, the first correction unit 8 is input during the period (timing) of the reproduction audio RF signal of the first channel CH1 based on the island switching pulse HS / W input as shown in FIG. The RF signal level of the channel is corrected as much as the correction value of the decoder 7, and the second correction unit 9 reads the RF signal level of the channel during the period (timing) of the reproduction audio RF signal. The correction value of the decoder 7 is corrected and output.

The RF signals of the two channels corrected as described above are synthesized by the adder 10 to output an RF signal having no level difference between each channel as shown in (d) of FIG. After being amplified and buffered, noise is removed from the limiter 3 and demodulated to the original audio signal by the FM demodulator 4 and output.

As described above, according to the present invention, it is possible to demodulate the signal by making the same signal level state regardless of the signal level difference of each channel of the FM-modulated reproduced audio RF signal, thereby reproducing the audio signal without noise. Therefore, it is possible to secure high-quality audio playback, thereby improving the quality of the device.

Claims (1)

Balance detection unit 5 which detects the RF level for each channel of the audio signal reproduced by the head of each channel and supplies the detection result to the microcomputer 6, and receives the detection result of the balance detection unit, and the RF signal level difference of each channel. The microcomputer 6 outputs correction data for matching the signal levels of the two channels based on the result of the determination, and decodes the correction data output from the microcomputer, thereby correcting the correction units 8 and 9 of the corresponding channel. A decoder 7 for supplying to the second channel; a second correction unit 9 for correcting and outputting the RF signal level of the second channel with the correction value supplied from said decoder; and a correction value supplied from said decoder A first compensator (8) for correcting and outputting an RF signal level, and an adder (10) for synthesizing the RF signals of each channel corrected in the respective correction ports (8) and (9) and outputting them to the FM demodulator Automatically adjusts the audio signal level Cutting device.