KR930008711B1 - Mode selection method by using tv super imposing function - Google Patents

Abstract

The search system comprises a tuner for converting radio frequency signal received to the intermediate frequency, a video intermediate frequency processor providing automatic frequency tuning voltage (AFT) for the tuner, a synchronizing separator checking video signal input, a microcomputer for generating the control signal, a level shift circuit for changing the level of AFT to be appropriate for the microcomputer input, and a tuning voltage transformer for transforming the tuning control signal into DC level.

Description

Color TV automatic search method and system

1 is a circuit diagram of a conventional search system.

2 is an output characteristic diagram of a conventional image intermediate frequency processor.

3 is a circuit diagram of a color TV automatic search system of the present invention.

4 is a signal flow diagram of the automatic search system of the present invention.

* Explanation of symbols for main parts of the drawings

1: Tuner 2: Image intermediate frequency processing unit

3: microcomputer 4: sync discriminator

5 level shift circuit 6 key matrix

6: Tuning voltage converter Q ₁ , Q ₂ : Transistor

R ₁ to R ₁₅ : Resistor C ₁ to C ₇ : Capacitor

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to Voltage Synthesis (VS) color TVs, and more particularly, to an automatic search method and system for color TVs to automatically search and stop and maintain the searched state regardless of temperature change. will be.

1 is a circuit diagram of a conventional search system, as shown therein, a tuner 101 which receives a radio frequency (RF) signal and converts it into an intermediate frequency (IF) signal for viewing and intermediate from the tuner 101. It receives the frequency signal and detects the video signal and outputs an automatic frequency tuning (AFT) voltage to the tuner 101 so that the oscillation frequency is kept constant to prevent the oscillation frequency from changing due to temperature or power voltage fluctuations. Microcomputer for outputting a control signal through the tuning stage (TUNING) to increase the tuning voltage of the tuner 101 when the search function is selected through the video intermediate frequency (VIF) processing unit 102 and the key matrix 104 And a tuning voltage converter 105 for converting the tuning voltage output from the tuning stage of the microcomputer 103 into a direct current voltage and inputting it to the tuning stage of the tuner 101.

In the prior art configured as described above, the user continuously presses the search key through the key matrix 104 in order to perform the search operation, and the microcomputer 103 recognizes that the search function is performed and the pulse width through the tuning stage thereof. The modulation (PWM) signal is output in the direction of continuous increase in voltage. In this way, when the pulse width modulation (PWM) signal is output from the tuning stage of the microcomputer 103 to the tuning voltage converter 105, the 180 ° phase is inverted through the transistor Q ₁₀₁ and the amplitude is increased. do.

The pulse width modulated (PWM) wave is converted into a direct current (DC) voltage through a low pass filter composed of resistors (R ₁₀₆ to R ₁₀₄ ) and condensers (C ₁₀₅ to C ₁₀₃ ), thereby tuning the tuning terminal of the tuner 101 Is entered.

In this way, if the search key is pressed continuously, the tuning voltage goes up and when the desired channel is received, the search is stopped by releasing the key. In this case, when the oscillation frequency changes due to a change in temperature or power supply voltage, the reception image may be blurred and the reception image may not be received. As described above, when the AFT output waveform is input to the tuner 101 through the resistor R ₁₀₃ and the condenser C ₁₀₂ , the tuner 101 does not change the internal oscillation frequency so that the tuning is not wrong. The voltage output from the (VIF) processor 102 may be regarded as a fine adjustment of the tuner voltage.

However, in the conventional search system as described above, there is a problem in that it is inconvenient for the user because the search function must be continuously pressed until the desired channel is received.

An object of the present invention is to devise a color TV automatic search method and system to perform a search and stop automatically by pressing a key once to solve the conventional problems as described above and maintain the searched state regardless of temperature change. As will be described below in detail by the accompanying drawings.

3 is a circuit diagram of the automatic search system of the present invention, as shown therein, a tuner 1 for receiving a radio frequency (RF) signal and converting it into a viewable intermediate frequency (IF) signal, and an intermediate part from the tuner (1). An image intermediate frequency (VIF) processing unit 2 for receiving an frequency (IF) signal and outputting an automatic frequency tuning (AFT) voltage to the tuner 101 so that the oscillation frequency is kept constant and image detection thereof is performed; A synchronizing discriminator 4 for receiving a video signal from the video intermediate frequency (VIF) processing unit 2 and discriminating the presence of a synchronizing signal SYNC and checking for the presence of a broadcasting signal; and a key matrix 6 and synchronizing discrimination. A microcomputer 3 which outputs a control signal to be automatically tuned according to the signal input from the instrument 4, and an automatic frequency tuning (AFT) output from the image intermediate frequency (VIF) processor 2 For inputting into the microcomputer 3 Tuning control output from a level shift circuit section 5 for changing to a level, a level shift circuit section 5 for changing to a level for input, and a tuning stage of the microcomputer 3. A tuning voltage converting section 7 converts the signal into a DC level and inputs it to the tuning stage of the tuner 1.

Referring to the operation and effect of the present invention configured as described in detail as follows.

First, when the search key is pressed through the key matrix 6, the microcomputer 3 outputs a tuning pulse through a tuning stage, which is output as a PWM signal. When the PWM tuning pulse is output to the tuning voltage converter 7 in this manner, it is inverted and amplified through the transistor Q2 of the converter 7 to have a switching width of 0-33. R ₁₃ to R ₁₁ ) and the capacitors C ₆ to C ₄ are converted into direct current voltages and applied to the terminal TUNING of the tuner 1.

In this way, the microcomputer 1 operates in the direction of continuously increasing the tuning voltage input to the tuner 1. In this case, when a signal of a specific channel starts to be received, an image signal is output from an output terminal of the image intermediate frequency processor 2, and if the sync discriminator 4 determines whether there is a synchronization signal, a high potential signal is generated. If not, the low potential signal is applied to the recognition terminal IDENT of the microcomputer 3 through the resistor R ₉ (R ₁₀ ). At the same time, when the automatic frequency tuning (AFT) of about 6 to 12 is output from the image intermediate frequency processing section 2, it is buffered by the bias resistors R ₁ to R ₃ and the transistor Q1 of the level shift circuit section 5. Then, the buffered voltage is level-converted into the resistor R ₄ (R ₅ ) and applied to the terminal AFT of the microcomputer 3, which is a level for input to the microcomputer 3.

Here, the microcomputer 3 continues to increase the tuning voltage until the recognition signal is input as in the flowchart shown in FIG. 4 until the signal applied to the recognition terminal IDENT becomes the high potential state. In FIG. 4, STEP a > b > c represents the tuning voltage variation, and the width is set to 1 MHz > 1/4 MHz > 1/16 MHz (where -c is-1/16 MHz).

In this case, as shown in FIG. 2, when the high potential signal is applied to the recognition terminal IDENT while increasing by 1 MHz, the microcomputer 3 checks the voltage of the automatic frequency tuning terminal AFT.

If the checked voltage is less than or equal to 4.4, the tuning voltage is continuously increased at 1 MHz intervals, and if it is greater than 4.4, the tuning voltage is increased to 1/4 MHz width (STEP b).

In this way, if the AFT voltage, which is larger than 4.4, is slightly decreased and smaller than 3.8, the tuning voltage is increased to 1/16 MHz width (STEP c), and if this tuning voltage (3.8) is smaller than 1.3, it is -1/16 MHz width ( The motor starts to decelerate to STEP -c) and stops at that point when the automatic tuning voltage (AFT) reaches 2.5. This is the point where the mid-frequency of the AFT waveform is correctly tuned.

The reason why the microcomputer 3 searches to the point where the AFT voltage falls to 1.3 is to search for the correct signal and to exclude the search stop of the indirect signal or the noise signal.

As in the above operation, when the search key is pressed once, the tuning voltage is automatically increased, and the corresponding broadcast signal is recognized by the sync discriminator 4 so that the automatic frequency tuning (AFT) adjustment operation is performed on the channel with the broadcast. Perform and complete the search operation. At this time, the automatic frequency tuning (AFT) operation is adjusted to the fine step near 2.5, which is the fine tuning point, and the step width is widened to find the right tuning point automatically according to the frequency characteristic curve according to the AFT voltage. Finding a faster and more accurate control point

Therefore, the present invention is stable even in a change in temperature, as well as automatically searched by pressing a key once, and receives a signal to stop it has the effect that it can provide convenience and speed to the user.

Claims (3)

A tuner 1 which receives the radio frequency signal RF and converts it into a viewable intermediate frequency signal IF, performs image detection on the intermediate frequency signal IF input from the tuner 1, and also oscillates frequency. A video intermediate frequency (VIF) processor 2 for outputting an automatic frequency tuning (AFT) voltage to the tuner 1 and a video signal output from the video intermediate frequency processor 2 are synchronized with each other. And a level shift circuit section for transmitting the automatic frequency tuning (AFT) output of the video intermediate frequency processing section 2 to the microcomputer in accordance with an input level by detecting the presence or absence of a broadcast signal. 5) and when the search key is input through the key matrix 6, the tuning voltage is automatically increased to control the tuner 1 and the level shift circuit unit 5 recognizes the sync signal from the sync discriminator 4. Automatic frequency output of The microcomputer 3 controls to perform automatic frequency tuning (AFT) adjustment and terminates the search by means of a Ning voltage check, and converts a tuning control signal output from the tuning stage of the microcomputer 3 to a DC level. Color TV automatic search system consisting of a tuning voltage converter (7) for outputting to the tuner (1). Tuning (1) continues tuning by tuning the tuner (1) by increasing the tuning voltage to an arbitrary width and outputting it to the tuning voltage converter (7) before the sync recognition signal (4) is input from the search key input. And a tuning voltage adjustment step of automatically adjusting an automatic frequency tuning (AFT) voltage when a recognition signal is input from the synchronization discriminator (4) in the tuning step; and automatic frequency tuning (AFT) in the tuning voltage adjustment step. When the voltage reaches the low tuning point, the automatic tuning method of the color TV consisting of a search step of recognizing the optimal tuning state to complete the tuning adjustment and terminate the search operation. The method of claim 2, wherein the tuning voltage adjusting step comprises: a first step of increasing the tuning voltage to a width of 1 MHz if the input automatic frequency tuning (AFT) voltage is less than or equal to 4.4 V, and to increase the tuning voltage to a 1/4 MHz width if greater than 4.4 V; A second step of increasing the tuning voltage to a first step if the reduced voltage is greater than 3.8V and less than 3.8V in the first step and a width of 1/16 MHz if the reduced voltage is less than 3.8V; and If the tuning voltage is reduced and the reduced voltage is greater than 1.3V, the second step is performed. If the tuning voltage is smaller than 1.3V, the tuning voltage is reduced to 1 / 16MHz. Automatic search method.