KR940001635Y1 - Auto-fine tunning circuit - Google Patents

Abstract

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Description

Automatic fine adjustment circuit

1 is a circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

10: tuner 20: demodulator

30: AFT detection processor 31: Oscillator

32: mixer 33: frequency / voltage converter

36: switching element 40: micom

The present invention relates to an automatic fine tuning circuit that enables automatic fine tuning in a TV and a VTR for receiving a video signal regardless of the demodulation state of the demodulator when the tuned channel frequency is doubled.

In the video signal receiver, the tuner outputs a broadcast RF signal as an intermediate frequency signal (IF) by the PLL (Phase Locked Loop) data of the microcomputer, and demodulates the intermediate frequency signal (IF) in a demodulator to output a composite video signal. However, if the tuned channel frequency is not tuned correctly and is tuned, fine tuning is required to enjoy clear images.

However, the conventional fine adjustment has a problem in controlling the fine adjustment automatically because it has to be adjusted in the demodulator according to the demodulator output state of the demodulator, and also has a disadvantage that the configuration is complicated to make fine adjustment in the demodulator.

In order to solve this problem, the present invention allows automatic fine tuning (AFT) by controlling fine tuning before the tuner's mid-frequency signal is applied to the demodulator. And the mixer to detect the difference frequency between the intermediate frequency signal and the oscillation frequency, convert the difference frequency into the voltage in the frequency / voltage converter and apply it to the switching element, and then apply it to the tuner according to the output level of the switching element. To convert the PLL data.

In the video signal receiver as described above, the present invention for enabling automatic fine adjustment at the front end of the demodulator will be described in detail with reference to the accompanying drawings.

A TV comprising a tuner 10 for converting an RF broadcast signal into an intermediate frequency signal by the PLL data input of the microcomputer 40, and a demodulator 20 for receiving the intermediate frequency signal of the tuner 10 and outputting it as a composite video signal. And a video signal receiving device such as a VTR, which detects a duplex state by using an intermediate frequency signal output from the tuner 10 and applies the result to the microcomputer 40 to transfer the PLL data of the microcom 40 to the dual state. AFT detection processor 30 to convert according to the AFT detection processor 30 is the oscillation frequency of the oscillator 31 is oscillated at different frequencies in accordance with the intermediate frequency signal and the broadcast method output from the tuner 10 Of the mixer 32 for outputting the difference frequency by mixing the frequency difference, the frequency / voltage converter 33 for converting the difference frequency output from the mixer 32 to the voltage level, and the frequency / voltage converter 33. Receiving ryeokjeonap is composed of a switching device 34 which applies a different control signal respectively according to the output voltage level of the frequency / voltage converter 33 to the microcomputer 40. The

When the user presses a channel tuning button of a remote controller (not shown) for channel tuning in the present invention, the microcomputer 40 recognizes this and applies PLL data to tuner 10 to tune the selected channel. 10) receives the PLL data of the microcomputer 40 to convert the RF broadcast signal into an intermediate frequency, and the intermediate frequency signal of the tuner 10 is applied to the demodulator 20 to be processed as a composite video signal and not shown. It is supplied to a signal processor and an audio signal processor.

This is the same as the channel tuning process of a general video signal receiver.

However, in the prior art, when the intermediate frequency signal is synthesized, it is performed by the demodulator 20 to finely adjust it. However, in the present invention, the AFT detection processor 30 can be automatically fine-tuned using the intermediate frequency signal.

That is, when the intermediate frequency signal is synthesized and output to the tuner 10, the synthesized intermediate frequency signal is applied to the mixer 32. At this time, the oscillator 31 applies different oscillation frequencies to the mixer 32 for each broadcasting scheme. do.

For example, the oscillation frequency of the oscillator 31 is 45.75 MHz in the PAL-M scheme and 38.9 MHz in the PAL-B / G scheme, which is selected together with the broadcasting scheme switching of the video receiver.

Therefore, the synthesized intermediate frequency signal is applied to the mixer 32, while the oscillation frequency corresponding to the broadcasting method at that time is applied from the oscillator 31, so that the mixer 32 outputs the difference frequency. If the tuning is performed without tuning, the difference frequency does not appear because the intermediate frequency signal and the oscillation principal number of the oscillator 31 are the same.

For example, in the PAL B / G method, since the oscillation frequency of the oscillator 31 is 38.9 MHz, when the intermediate frequency signal of the tuner 10 is tuned to 39.9 MHz, the mixer 32 outputs a difference frequency of 1 MHz. When the intermediate frequency signal is correctly tuned to 38.9 MHz, the mixer 32 outputs a frequency of 0 MHz without outputting a difference frequency.

In other words, when the output of the mixer 32 is tuned, the difference frequency appears, and when the output of the mixer 32 is tuned, the output frequency does not appear.

Since the output frequency of the mixer 32 is applied to the frequency / voltage converter 33 and converted into a voltage, when the intermediate frequency signal is doubled, the difference frequency is generated from the mixer 32 to a voltage corresponding to the difference frequency. It is output and the voltage is not output during the tuning.

In other words, the frequency / voltage converter 33 converts the difference frequency of the mixer 32 into a voltage and outputs the voltage. When the intermediate frequency signal is doubled, the high frequency is output by the difference frequency. Will print

The output of the frequency / voltage converter 33 is applied to the switch element 34 to control the driving of the switching element 34 so that the switching element 34 is driven when the output of the frequency / voltage converter 33 is high level. When the PLL data conversion signal is applied to the microcomputer 40 and the output of the frequency / voltage converter 33 is at a low level, the switching element 34 is not driven and thus does not apply the PLL data conversion signal.

Therefore, when the intermediate frequency signal is duplexed to the micom 40, the PLL data conversion signal is applied from the switching element 34. The microcom 40 converts the PLL data applied to the tuner 10 and performs tuning.

When the intermediate frequency signal is tuned, the PLL data conversion signal is not applied from the switching element 34 to the microcomputer 40 so that channel tuning is not finely adjusted.

As such, the present invention allows automatic fine adjustment of the video signal receiver by adjusting the PLL data of the microcomputing device by judging the harmonic frequency when the double frequency of the intermediate frequency signal occurs. It can also be implemented based on a simple circuit configuration.

Claims (1)

A circuit for receiving a PLL data of the microcomputer 40 and outputting a composite video signal from the demodulator 20 to tune the intermediate frequency signal tuned by the tuner 10 to the intermediate frequency signal output from the tuner 10 and the broadcasting scheme. And a mixer 32 for mixing the oscillation frequencies of the oscillator 31 having different oscillation frequencies to output a difference signal, a frequency / voltage converter 33 for converting the difference signal of the mixer 32 into a voltage, and the frequency. Automatic fine tuning circuit, characterized in that the AFT detection processor 30 is configured with a switching element 34 which selects a switching operation by the output of the voltage converter 33 and applies a PLL data conversion signal to the microcomputer 40. .