KR910001826Y1 - Tracking control circuit of picture signal recording and play back device - Google Patents

Abstract

No content.

Description

Tracking adjustment circuit of video signal recording and reproducing apparatus

1 is a circuit diagram of the present invention.

2 is a conventional circuit diagram.

* Explanation of symbols for main parts of the drawings

R ₁ -R ₅ : resistance VR ₁ -VR ₃ : variable resistance

Q ₁ , Q ₂ : Transistors C ₁ , C ₂ : Condenser

IC ₁ : Integrated Slow Circuit IC ₂ : Integrated Slow Circuit

Vcc: Power Supply U-COM ₁ : Log: c IC

The present invention relates to a tracking adjustment circuit for preventing a noise bar from occurring on a screen of a playback screen in a playback function of a video recording and reproducing apparatus, and in particular, a tracking adjustment volume for users in using a fine slow function having a shift function. It is to insulate in one and to promote convenience in use.

In general, noise generated on the screen during video recording and playback is caused by noise bars appearing on the screen when the magnetic recording tape moves the scanning track of the head, thereby causing the noise bar to appear on the screen. As a result, severe noise bars appear.

This is because the trajectory of the hydride deviates from the scanning track because it travels at a different speed than the recording time with respect to the length and direction of the magnetic tape.

That is, during still picture reproduction, the head is centered on the track of the magnetic recording tape divided by channels, and the noise trace is generated on the screen by matching the head trajectory with the noise copy, resulting in a failure to obtain a clean image.

Accordingly, as shown in FIG. 2, in the slow regeneration, the power supply Vcc set according to the adjustment of the tracking adjustment resistor VR ₁₁ and the servo adjustment resistor VR _{12 as} shown in (a) is connected to the resistor R ₁₁ . The integrated signal generated by the charging circuit of the condenser C ₁₁ is input to the tracking delay circuit (not shown) through the slow reproducing integrated circuit IC ₁ , and compared with the signal detected from the head, thereby capturing the capstan motor by the difference thereof. By moving, the trajectory of the head is matched, and in the same manner, the tracking adjustment resistor R ₁₃ and the sub adjustment resistor VR ₁₄ are used as in (b) during reproduction.

However, by using the tracking adjustment resistance VR ₁₁ at slow speed and the adjustment resistance VF ₁₃ at normal speed reproduction as described above, the user is inconvenient in use.

Accordingly, the present invention solves the conventional difficulties and aims at ease of use by unifying the fixed volume used by the user USER during playback and slow playback.

This will be described based on the accompanying drawings. Connect the resistors R ₁ and R ₂ to the power supply Vcc and connect them to the terminals of the logic circuit U-COM ₁ , and connect the resistors R ₃ to the base of the transistor Q ₂ . The collector thereof is connected in parallel with the capacitor C ₂ to the terminal PB of the integrated circuit IC for normal speed reproduction.

In addition, the servo adjustment resistor VR ₃ is set at the tracking adjustment resistor VR ₁ and connected to the emitter of the transistor Q ₂ , and the servo adjustment resistor VR ₂ is connected in parallel to the emitter transistor Q ₁ . Condenser (C ₁ ) connected in parallel to the collector, connected to the terminal of the direct furnace (IC ₁ ) for slow regeneration, and distribution resistors (R ₄ , R ₅ ) connected to its base.

Referring to the effect of the present invention configured as described above are as follows.

1 is a diagram of the present invention having the above-described structure. When the slow mode is selected among the variable speed reproduction functions of the video recording / reproducing apparatus, the terminal of the logic integrated circuit UC ○ M ₁ is open (○ PEN). The power supply Vcc is applied to the base of the transistor Q ₂ via the resistors R ₁ , R ₂ , and R ₃ , and at the same time, the resistor R ₁ , the tracking adjustment resistor VR ₁ , and the sub adjustment resistor ( VR ₃ ) is applied to its emitter.

At this time, the supply power supply Vcc applied to the emitter of the transistor Q ₂ has an equipotential with the supply source vcc applied to the base by a predetermined value of the sub-regulation resistor VR ₃ . Q ₂ ) does not work.

Therefore, the power supply Vcc applies a constant power supply (approximately 5V) to the base of the transistor Q ₁ via the resistors R ₄ and R ₅ , and then the resistor R ₁ , the tracking adjustment resistor V ₁ , and the surge- A randomly set (approximately 9 V) supply power Vcc is applied to its emitter via the potentiometer VR ₂ .

The transistor (Q ₁₎ is that the motion to the preceding, the code of the emitter than the base potential and the output from its collector supply voltage (Vcc) is a capacitor (Vcc) is charged and discharged by the slow reproduction directly Hiro (IC ₁ for Is input to the terminal.

The signal charged and integrated by the capacitor C ₁ is compared with the reference signal generation signal in the tracking delay circuit (not shown) and delayed by its time constant so that the signal becomes a reference signal and the control is detected at the head. When the signal is converted into duuter modulated wave and input to the drive circuit of the capstan motor, the capstan motor is driven by the phase difference to match the trajectory of the head. The screen is playing.

On the other hand, when the capstan motor (not shown) maintains the normal speed and the mode is converted to the playback screen, the terminal of the logic integrated circuit (U-COM ₁ ) becomes a voltage close to the ground in the open state, so the power supply (Vcc) A distributed supply power supply (Vcc) of about 5V to the emitter of the transistor (Q ₁ ) through the tracking adjustment resistor (VR ₁ ) and the sub adjustment resistor (VR) distributed by the resistors (R ₁ , R ₂ ). Is applied.

At this time, since the voltage (about 5V) distributed by the resistors R ₄ and R ₅ applied to the base of the transistor Q ₁ is set to the same voltage as the suppression of the power supply circuit IC ₂ for regeneration, the equipotential is And its transistor Q ₁ is turned off.

That is, the divided voltage is the divided voltage of the distribution resistors R ₁ and R ₂ because the power supply voltage of the slow regenerative integrated circuit IC ₁ and the power supply voltage of the regenerative integrated circuit IC ₂ at the normal speed differ. It becomes the same as supply power supply (Vcc) and becomes an isoelectric and it is inoperative.

Therefore, the emitter of the transistor Q ₂ is configured such that the supply voltage Vcc distributed by the distribution resistors R ₁ and R ₂ is set by the adjustment value of the tracking adjustment resistor VR ₁ to the sub-regulation resistor VR. ₃ ) It is applied through the base, and the base of the slow regeneration integrated circuit (1C ₁ ) is the ground potential, so the base becomes a potential and is operated by the micro current flowing from the emitter to the base.

Thus, the capacitor C ₂ is charged through an arbitrary collector (5V) on collector applied to the emitter of the transistor Q ₁ , and when the charging potential of the capacitor C ₂ becomes saturated, the normal speed is regenerated. The discharge is made to the terminal PB of the integrated circuit IC ₂ .

The signal straightened by the charging and discharging of the capacitor C is applied to a tracking delay circuit (not shown), thereby driving the captain motor by the difference of the detected phase as described above to match the trajectory of the head. It will not occur. However, at the time of slow or normal speed regeneration, the power supply Vcc through the resistor R ₁ is input to the transistors Q ₁ and Q ₂ , respectively, so as to operate the terminal of the slow integrated circuit IC ₁ or normal speed regeneration. The terminals PB of the integrated circuit IC do not interfere with each other, and the direction of the current is also different, thereby preventing confusion even when using one tracking adjustment volume.

As described above, by removing the noise bars appearing on the screen according to the conventional mode method of the present invention, by using different tracking adjustment volumes to minimize the inconvenience in use, by adjusting the tracking according to each method with one tracking adjustment volume. There is an effect of further enhancing the function as the tracking adjustment circuit of the existing video signal recording and reproducing apparatus.

Claims (1)

In the tracking adjustment circuit of a normal video signal recording and reproducing apparatus, a resistor R ₁ and R ₂ are connected to a supply power supply Vcc to connect a logic to a terminal of an integrated circuit U-COM1, and a resistor ( Is connected to the base of transistor Q ₂ via R ₃ ). A capacitor C ₂ is connected in parallel to the collector thereof and connected to the terminal PB of the integrated circuit IC for normal speed reproduction. In addition, the tracking adjustment resistor VR ₁ is connected to the emitter of the transistor Q ₂ through the sub adjustment resistor VR ₃ , and the sub adjustment resistor VR ₂ is connected in parallel to the transistor Q. ₁ ) A tracking adjustment circuit of a video signal recording and reproducing apparatus, characterized in that it is connected to an emitter of ₁ ) and a condenser (C ₁ ) is connected in parallel to a collector, and is connected to a terminal of a slow circuit (IC ₁ ).