KR900007212B1 - Picture correction circuit for special reproducing - Google Patents

Abstract

A video signal processing circuit includes a mixer (5), a video amplifier (15), and a control section (10). The control section comprises a differential circuit (4) for differentiating a vertical blank pulse, a NOR gate (3) for detecting a variable speed reproducing mode, a NAND gate (1) for generating a vertical drive signal, an OR gate (2) for logically combining an inverted video mute signal from an inverter with the output of the NAND gate, a transistor (Q2) for inverting the output of the OR gate, and a transistor (Q2) for synthesizing the video signal from the mixer and a vertical drive signal from Q3.

Description

Screen correction circuit for variable speed reproduction of VTR

Circuit diagram of the present invention.

＊ Explanation of symbols on main parts of drawing

1: NANDGATE 2: OAGATE

3: Noah gate 4: Differential circuit

5 mixer unit 10 control unit

15: Video amplifier Q ₁ , Q ₂ , Q ₃ : Transistor

VR ₁ , VR ₂ , VR ₃ : Variable resistor R _1- R ₇ : Resistance

D ₁ : diodes C ₁ , C ₂ , C ₃ : condenser

This field name relates to a screen correction circuit for variable speed reproduction of a VTR to solve the instability of the screen generated during variable speed reproduction of a VTR (VIDEO TAPE RECORDER).

In the conventional VTR, the control pulse and the head switching pulse recorded on the tape are used to use a plurality of mono multi integrated devices or a custom integrated device to protect the unique technology of each manufacturer, thus making it possible to use a vertical blanking section during variable speed reproduction. The screen was calibrated by creating and inserting a vertical driver signal.

In other words, in the case of variable speed playback in which the tape speed of the VTR is changed, the head cannot track the normal track of the tape. As the playback screen on the monitor becomes unstable, the screen flows vertically. In addition, when the monitor moves from the stopped state to the playback mode, the monitor is displayed before the mechanical stability time and the drum speed of the control system or the normal speed of the capstan. If the screen is unstable or the screen flows to the left and right, the vertical line is a wave phenomenon that occurs (Hunting) occurred.

The present invention provides a vertical blanking pulse in order to solve the above-mentioned problem because the track trajectory of the tape with respect to the video head is shifted or the vertical sync pulse recorded in the lower part of the tape is not picked up or noise is picked up. By generating a vertical drive signal using the H and inserting it correctly in the vertical blanking section, it prevents the flow of the screen. As a screen correction circuit, the luminance signal and the color signal picked up by the head are mixed and amplified, and then synthesized with the vertical driving signal of the control unit during variable speed reproduction to output the synthesized video signal through an output impedance matching transistor and a video amplifier.

When described in detail by the accompanying drawings as follows.

In the video signal reproducing circuit composed of a mixer section 5 for mixing a luminance signal and a color signal, and a video amplifier 15 for amplifying the synthesized video signal of the mixer section 5, a differential circuit for differentiating vertical blank pulses. (4), a nod gate (3) for detecting variable speed reproduction by combining a variable speed signal input, and a NAND gate for outputting a vertical drive signal by combining the outputs of the noa gate (3) and the differential circuit (4) ( 1) and an oragate 2 for logically combining the output of the NAND gate 1 and the video mute signal inverted by the inverter I ₁ and outputting a vertical driving signal when the video mute is disassembled, and the ora The transistor Q ₃ for inverting the output signal of the gate 2 and the vertical drive signal inverted by the transistor Q ₃ are mixed with the video signal of the mixer 5 and applied to the video amplifier 15. With transistor Q ₂ It is composed.

That is, in the present invention, the luminance signal and the color signal applied from the luminance and color demodulation stage are connected to the emitter side to the transistor Q ₁ through the variable resistors VR ₁ and VR ₂ , and the base of the transistor Q _{1 is} connected. The source (Vcc) is connected to the resistor R _{1 through} R ₃ and the capacitor C ₁ on the side, and the transistor Q ₂ is connected to the collector of transistor Q ₁ having the emitter side grounded through the resistor R ₅ . The mixer unit 5 is configured such that the power supply Vcc is applied through the resistor R ₄ at the same time as connecting the base.

The vertical blank pulse is applied to the input side of the NAND gate 1 through the differential circuit 4 composed of the condenser C ₃ and the variable resistor VR ₃ and the variable speed control signal of the VTR is applied. The output is applied to the input side of the NAND gate 1 and is connected to the contact of the diode D ₂ and the capacitor C ₂ through the resistor R ₇ and the output of the NAND gate 1 drives the inverter I ₁ . through video mu through the Iowa gate 2 with fixes this signal applied to the base of an inverted after the transistor (Q ₃₎ and the collector of the transistor (Q ₃₎ is connected to the base to the transistor (Q ₂₎ and the power source side to the collector (Vcc The emitter side of the transistor Q _{2 to} which) is applied is grounded through the resistor R ₆ and at the same time, the controller 10 is configured to be applied to the video amplifier 15 through the diode D ₁ .

The resistance (R ₇₎ resistance is a resistance (R ₆₎ is very greater than the resistance value that is R ₇ must be a >> R _6, and V / S (Visual Search) according to the present invention of the high-speed search function, and P / S ( Picture Search) is a low-speed search function, still is a still picture, Slow is a slow picture F / F (Frame by Frame) is a variable speed control signal that is displayed one by one, and when a variable speed motor is selected, the video mute signal is applied. The drum rotation and set are applied at a low level in a stable state.

When explaining the operation and effect of the present invention configured as described above, the luminance signal is FM-modulated in the conventional VTR and the color signal is low-pass converted and recorded on the tape, and during playback, the luminance signal must be reduced to the original signal. The color signal requires a separate circuit to convert 3.58 MHz.

The separated luminance signal and the color signal are applied to the emitter of the transistor Q ₁ through the variable resistors VR ₁ and VR ₂ , and thus, the resistors R _{1 to} R ₃ and the capacitor C ₁ to the base side. The power supply Vcc is mixed and amplified in the transistor Q _{1 to} which the power supply Vcc is applied and then applied to the video amplifier 15 through the output impedance adjusting transistor Q ₂ to be output to the monitor as a video reproduction signal.

However, in the variable speed reproduction of the VTR, the head rotation is constant, whereas the running speed of the tape changes and the track trajectory is shifted, making it difficult to pick up normal vertical sync pulses, resulting in an unstable screen.

Therefore, in the present invention, the control unit 10 inserts a vertical blanking pulse (60 Hz) generated from the drum rotation of the VTR into a vertical blank section of a video signal unstable during variable speed playback in order to solve the screen instability caused during variable speed playback. By synchronizing the screen, a stable screen can be treated.

That is, the vertical blank pulses generated from the drum rotation are differentiated in the differential circuit 4 composed of the condenser C ₃ and the variable resistor VR ₃ and applied to one side of the NAND gate 1.

At this time, the differential pulse applied to the differential circuit 4 is applied in any mode of the VTR.

In this state, when the user presses the external selection button to perform the variable speed mode, only the signal selected from the input control signals (V / S, P / S, STIL, SLOW, F / F) of the NOA gate 3 is applied to the low level. Therefore, if any variable speed mode is selected on the output side of the noble gate 3, a high level signal is output and applied to the input side of the NAND gate 1 so that the differential pulse of the differential circuit 4 and the noble gate ( The high level signal of 3) is logically combined to output one square wave ().

The square wave output of the NAND gate 1 is inverted and applied to the oragate 2, and the video mute signal inverted by the inverter I ₁ is inverted and applied to the other input side of the oragate 2. The vertical driving signal? Is output to the output side of the gate 2.

In this case, the video mute signal is a signal applied at a low level when the system is stable.

On the other hand, the output of the ora gate 2 is applied to the base of the transistor Q ₃ so that the inverted vertical driving signal? Is output to the collector side.

The vertical driving signal output to the collector side of the transistor Q ₃ is accurately synthesized in the blanking section of the video signal synthesized in the mixer section 5.

That is, in the case of variable speed reproduction, the vertical synchronization pulse is not picked up correctly and the vertical synchronization signal is scattered in the video signal synthesized by the mixer 5, so that the variable speed reproduction screen flows vertically.

Therefore, by combining the vertical driving signal output from the transistor Q ₃ of the control unit 10 with the video signal of the mixer 5, the video signal into which the vertical synchronization signal is inserted is applied to the video amplifier 15.

That is, the vertical synchronization signal of the video signal synthesized by the mixer unit 5 is scattered or unstable during variable speed reproduction, so that the screen flows vertically. During such variable speed reproduction, the control unit 10 uses the vertical blank pulse to drive vertically. After the signal is generated, the video signal is inserted into the blanking section of the video signal of the mixer 5 so that the video amplifier 15 is applied with the normal video signal synthesized with the vertical synchronization signal.

In this case, since the vertical driving signal is generated by the vertical blanking pulse in the controller 10, the vertical driving signal output from the beam transistor Q ₃ is correctly inserted into the blanking period of the video signal.

Therefore, the output impedance adjusting transistor Q ₂ outputs the normal video signal synthesized with the vertical drive signal exactly in the blanking section of the synthesized video signal and applies the video signal to the video amplifier 15 so that a stable screen can be obtained even in a variable speed reproduction mode. It is.

At this time, the variable resistor VR ₃ of the differential circuit 4 is a semi-fixed variable resistor that adjusts the width of the vertical blanking pulse.

In addition, the video muutra in the present invention means that the screen is not displayed during the normal position of the VIR mechanism and before the normal operation of the circuit. In the VTR, the screen is displayed when the drum rotation (1800 rpm) or all the mechanisms are in the normal position. This display only allows you to watch a stable and accurate picture.

Therefore, the video mute applies a high level mute signal to the inverter I ₁ when the system is not stabilized by using a vertical blank pulse so that the video mute is outputted after being converted to the low level from the inverter I ₁ . You will be put down.

In other words, when the drum rotation is not normal when switching from the stop state to the playback state or before the system mechanism is in the normal position, the video mute signal is muted to mute the video signal, and then the system is stabilized. It is to release the mute.

This output, the video mute low level signal, is used as another control signal at the video input.

In this way, the video mute is performed when the VTR changes from the stop mode to the play mode or when the play mode changes from the play mode to the stop mode such as a pause mode.

As described above, according to the present invention, the luminance signal and the color signal are mixed and amplified by the mixer unit, and the mixed signal is output in the variable speed regeneration mode. It is a screen correction circuit for VTR variable speed playback that eliminates the instability of the screen during variable speed playback mode and mutes the video signal before drum rotation or system mechanism is stabilized. It prevents the screen from collapsing during the VTR variable speed mode by inserting it, and it has the effect of being able to deal with the stable screen by performing video mute during mode switching.

Claims (1)

In a video signal processing circuit comprising a mixer section 5 for mixing a luminance signal and a color signal, and a video amplifier 15 for satisfying a synthesized video signal of the mixer section 5, a differential circuit for differentiating vertical blanking pulses. (4), a NAND which logically combines the output of the NOA gate 3 and the differential circuit 4 to detect the variable speed reproduction mode selection by combining the variable speed control signal and the output of the vertical drive signal. An oragate 2 for logically combining the gate 1, the output of the NAND gate 1, and the video mute signal inverted by the inverter I ₁ , and an inverted output signal of the oragate 2. transistors (Q ₃₎ and, VTR consisting of a transistor (Q ₃₎ transistor (Q ₂₎ for applying a vertical drive signal inverted to the video amplifier 15 is then synthesized in the video signal of the mixer 5 at the Screen correction meeting at variable speed reproduction in.

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