KR870003868Y1 - Relative speed correcting device - Google Patents

Abstract

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Description

Relative speed correction device in VTR variable speed playback mode

(A) of FIG. 1 is a state diagram which shows the winding shape of the head drum of a VTR and a tape, (b) is a change of the rotational speed direction of the tape wound on the drum at the time of a cue, (c) is a review The change in the rotational speed direction of the tape wound on the drum during the review.

2 is a block diagram of the present invention.

* Explanation of symbols for main parts of the drawings

3: signal generator 4: amplifier

5: frequency / voltage converter OP ₁ : differential amplifier

OP ₂ : Adder amplifier Q ₁ : Transistor

The present invention relates to a device for correcting the relative speed of the head drum and the tape in the VTR variable speed reproduction mode.

In the conventional VTR, when the fast forward (CUE) or rewind (Review), only the fixed gain of the motor drive amplifier is changed into two at the time of fast forward (CUE) and rewind The relative speed between the head drum and the tape was corrected, but this was due to the change in friction between the tape and the drum (for a long time tape such as T-160) and the change in tension caused by tape travel. In the latter stage and the middle stage, the load on the motor is different, and the synchronization signal is unstable, so it is difficult to accurately correct the relative speed, thereby failing to provide a satisfactory screen.

In view of this, the present invention separates the horizontal sync of the changing video signal, converts it into a voltage, and applies it to a differential amplifier. It is designed to provide a high quality clear VTR screen by maintaining a constant relative speed at all times in the variable speed regeneration mode, as described above with reference to the accompanying drawings.

As shown in FIG. 2, in order to control the change of the horizontal synchronizing signal frequency, the horizontal synchronizing signal is separated from the video signal and connected to amplify through the signal generator 3 and the amplifier 4, and the frequency / voltage Connect to the inverting terminal of the differential amplifier OP ₁ through the (F / V) converter 5, and connect the non-inverting terminal of the addition amplifier OP ₂ to the output terminal Va of the differential amplifier OP ₁ And a base of the transistor Q ₁ is connected to the output terminal thereof, and an emitter which is an output of the transistor Q ₁ is connected to a drum motor driving circuit (not shown).

Reference numeral 1 denotes a head drum, 2 denotes a magnetic tape, Vcc denotes a DC power supply, _Vf denotes a reference voltage, and R ^I to R ₄ denote resistances.

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

In general, the relative speed of the head drum and the tape must be constant in order for the horizontal synchronization to be constant during the VTR shift. As is well known, the relative speed is set to 5.8 m / sec (VHS standard).

Therefore, when the tape is regenerated, the friction change and tension change between the tape and the head drum are insignificant. In the drum and capstan motor control system, the phase locking range can compensate for the friction change and the tension change. And have.

However, when the fast mode (CUE) of the shift mode is performed, as shown in (b) of FIG. 1, since the tape runs faster in the rotational direction of the drum, the relative speed V _R1 is delayed by Δv ₁ , so that V _R1 = v - △ v is _1, on the contrary rewind (Review) during a loose the tape is faster running opposite to the direction of rotation of the drum, as in the FIG. 1 (c) the relative velocity (VR ₂₎ is △ v ₂ becomes fast enough so V _R2 = v + Δv ₂ .

Therefore, when fast forwarding (CUE) or rewinding (Review), the horizontal synchronization is disturbed, it is not possible to provide a satisfactory screen such as color bleeding, noise bar flow.

In order to improve this point, the present invention separates the horizontal synchronizing signal from the video signal in order to control the change of the horizontal synchronizing signal frequency according to the change of the relative speed, and then through the signal generator (3) and the amplifier (4). After amplifying and converting the voltage in the frequency / voltage converter (5) to the differential amplifier (OP ₁ ).

The reference voltage of the relative velocity (v) corresponding to the voltage value K, fast-forward when the relative speed changes minute (△ v ₁₎ the voltage value △ K _1, the relative velocity change minutes when rewinding (△ v ₂₎ the value △ K ₂ Assume that the output voltage value K _R1 of the frequency / voltage converter 5 becomes K-ΔK ₁ at the fast forward, and the output voltage value K _R2 of the frequency / voltage converter 5 is _rewinded . Becomes K + ΔK ₂ .

Here, the reference voltage value V _f applied to the non-inverting terminal of the differential amplifier OP ₁ is set equal to the voltage value K corresponding to the reference relative speed v, and the distribution resistance values R ₁ to R ₄ are set. When setting R ₃ / R ₄ = R ₁ / R ₂ , the voltage V a ₁ that appears at the output of the differential amplifier OP ₁ during fast forward is

When rewinding, the voltage appearing at the output of the differential amplifier OP ₂ is

Becomes

That is, since the applied voltage when the value of the fast non-inverting pressure terminal of the winding when the differential amplifier (OP ₁₎ is applied voltage value of the (K- △ K _1), at the time of rewinding _{(K + △ K 2),} △ K 1 And ΔK ₂ become ″ 0 ″, there is no deviation and the relative speed becomes constant.

Therefore, in order to perform such an operation, the voltage Va, which appears at the output terminal of the differential amplifier OP ₁ , is applied to the non-inverting input terminal of the adder amplifier OP ₂ for driving the drum motor.

That is, when fast forwarding, the voltage input to the inverting input terminal of the differential amplifier OP ₁ is the reference voltage V _f applied to the non-inverting input terminal (V _f is the voltage value K corresponding to the reference relative speed v). ) and becomes lower than △ K ₁ as they are the same set), the voltage appearing at the output stage of the differential amplifier (OP ₁₎ Is amplified as a positive signal and is included with the control signal of the capstan surge (not _shown ) to be applied to the non-inverting input terminal of the adder amplifier OP ₂ , so that the output signal of the adder amplifier OP ₂ is also Outputs the signal amplified in the positive (+) direction.

Therefore, this signal is applied to the base of the transistor (Q ₁₎ transistor (Q ₁₎ that take longer to turn off (Turn-off) time is so long a time the supply voltage (Vcc) is applied to the drum Motor drive circuit Let it go.

That is, when the time applied to the drum motor driving circuit (not shown) becomes long, the drum motor increases speed, thereby correcting the relative speed reduced by Δv ₁ , and when rewinding, the differential amplifier OP _Since the voltage input to the inverting input terminal of ₁ ) is greater than the reference voltage (V _f = K) applied to the non-inverting input terminal (K + ΔK ₂ ), the voltage value (Va) that appears at the output terminal of the differential amplifier OP ₁ . ₂ ) is Becomes

In other words part (-) are amplified by a signal is input to the noninverting input terminal of the summing amplifier (OP ₂₎ summing amplifier (OP ₂₎ yeoksido unit -, and outputs the amplified signal of the (). The portion (-) to block the voltage (Vcc) applied to the drum Motor drive circuit because the output signal of the direction is applied to the base of the transistor (Q ₁₎ to be in a conductive state the transistors (Q ₁₎ (also not shown) As a result, the speed of the drum motor is reduced by Δv ₂ to maintain the relative speed of the VHS standard.

The present invention operated as described above has the effect of providing a high quality VTR screen by maintaining the relative speed at a constant state in the variable speed regeneration mode of the VTR.

Claims (1)

The horizontal synchronization of the image signal is separated and connected to the frequency / voltage converter 5 through the signal generator 3 and the amplifier 4, and the output signal of the frequency voltage / converter 5 is a differential amplifier ( It is configured to be applied to the inverting terminal of OP ₁ ), and the output terminal voltage Va thereof is connected to the non-inverting terminal of the adder amplifier OP ₂ to maintain the relative speed in the shift regeneration mode. Relative speed correction device in the VTR variable speed reproduction mode characterized in that.