KR930004922Y1 - Still picture driving circuit - Google Patents

Abstract

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Description

VTR still picture drive circuit

Circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

1 head 2 preamplifier

6 comparator 3 FM signal processing processor

4, 5: envelope detector 7: Suobo control integrated device

8, 9: low pass filter 11: capstan motor drive circuit

M: Capstan motor Q ₁ ~ Q ₃ : Transistor

The present invention relates to a still picture driving circuit which is one of the variable speed reproduction functions of the VTR, and to provide a stable still picture without noise by using an envelope signal output from the video head.

Conventional still picture driving circuits use a still picture driving dedicated integrated circuit and a method of forcibly stopping and viewing still pictures regardless of noise on the screen. However, when using a dedicated integrated circuit such as the former, the manufacturing cost is increased. There was a problem that causes a problem, and when the forced still picture driving method is used, noise is reproduced on the still picture.

In view of the above, the present invention detects and compares the envelope signal detected by the video head during playback, and always provides a stable still picture with no noise on the still picture by stopping the capstan motor only in the part where the envelope output is large. If it described in detail by the accompanying drawings as follows.

The video signal picked up by the head unit 1 is output as a video signal from the FM signal processing processor 3 as an envelope signal through the preamplifier unit 2 which is switched to the head switching signal of the servo control integrated device 7. In the circuit configured such that the envelope signal of the preamplifier section 2 is detected by the envelope detectors 4 and 5, the envelope signal comparator 6 is configured to compare and the output of the comparator 6 is EP mode. High level voltage is applied to the base of the inverter transistor Q ₂ together with the collector output of the switching transistor Q ₁ applied to the base, and the collector side output of the inverter transistor Q ₂ is It is configured to be applied to the base of the switching transistor Q ₃ through the bias resistor R ₁ and R ₂ together with the applied high level voltage, and the collector side of the switching transistor Q _{3 is} connected to a motor error. It is configured to be connected to the output side of the voltage generator 10.

The capstan motor speed phase pulse width modulated signal of the servo control integrated device 7 is applied to the motor error voltage generator 10 after passing through the low pass filter 8, 9 to output the motor error voltage generator 10. By controlling the capstan motor drive circuit 11 to control the driving of the capstan motor (M).

Looking at the concept of the present invention configured as described above, the track pitch on the tape of the VTR and the EP mode of the VTR is 58 μm for the SP mode and 19.2 μm for the EP mode, respectively. Because of the difference, the output of the SP head will always have a larger value than the output of the EP head. However, in the case of a still image, the output of the SP head may have a smaller value than that of the EP head. In this case, noise is generated on the screen.

In other words, when the envelope output of the SP head has a smaller value than the envelope output of the EP head during still picture, noise appears on the screen. In this design, the capstan motor detects such an envelope output and the capstan motor has a large envelope output. By stopping at the part and playing back the still picture, it is possible to always play the picture without noise. In the case of EP mode, however, the video head is much wider than the track pitch, so there is little noise on the still image.

The surface of the concept of the reproducing the still image key of the modal pressed in the subject innovation a still image a high level voltage is applied to the base of the switching transistor (Q ₁₎ for the transistor (Q ₁₎ "turned on" by the main meurosseo capstan motor drive circuit The motor driving error voltage applied to (11) is dropped to the ground potential so that the capstan motor M is stopped.

That is, in normal operation, the servo control integrated device 7 outputs the pulse width modulation output for controlling the speed and phase of the capstan motor, and the output of the servo control integrated device 7 is a low pass filter 8, 9. It is applied to the motor error voltage generator 10 to generate a motor driving error voltage is applied to the capstan motor drive circuit 11 to control the capstan motor (M).

Therefore, when the still image key is pressed and the still image high level voltage is applied, the switching transistor Q ₁ is turned on, thereby lowering the motor driving error voltage applied to the capstan motor drive circuit 11 to ground potential. The motor M is stopped.

When the capstan motor M stops, at this time, the head portion 1 attached to the drum picks up the video signal, and the picked-up signal becomes an envelope signal amplified by the preamplifier portion 2, and the envelope signal is Channel 1 and channel 2 are selected by the head switching signal output from the Shear control integrated device 7 and applied to the FM signal processing processor 3 to be output as a video signal.

In the present invention, the envelope output signal of the preamplifier 2 is applied to the envelope detectors 4 and 5 to detect the envelope signals, and then the outputs of the envelope detectors 4 and 5 are The envelope signal comparator 6 is applied to compare the respective envelope signals.

That is, when the output of the SP head applied to one terminal (-) of the comparator 6 is less than the output of the EP head applied to the other terminal (+), the comparator 6 outputs a high level.

In this case, the reason for outputting the high level in the comparator 6 is to eliminate such noise since noise is generated on the screen when the output of the SP head is less than the output of the EP head as in the above concept.

Therefore, when the output of the comparator 6 becomes a high level, noise on the screen is generated. Therefore, the high level output of the comparator 6 is changed to a low level through the transistor Q ₂ for the inverter and is applied at the time of a still picture. By dropping the level voltage to ground potential, the capstan motor (M) does not stop and the capstan motor (M) is driven until the output of the comparator 6 is at a low level, that is, until the output of the SP head is greater than the output of the EP head. Let's go.

That is, even when the still image high level input is applied, the output of the comparator 6 does not stop at the low level unless the output of the comparator 6 is at the low level without stopping the capstan motor M. Stop M) to make the noise free screen always appear.

This prevents the cap head motor M from stopping until the envelope output of the SP head is larger than the envelope output of the EP head even when a still picture signal is input. To give.

However, since the width of the video head is much larger than the track pitch during the EP mode, there is almost no noise on the still screen. During the EP mode, the EP transistor high level voltage is applied to turn on the switching transistor Q ₁ . The same operation as that of the driving circuit.

As described above, the present invention does not stop the capstan motor until the envelope output of the SP head is larger than the envelope output of the EP head when the still image is reproduced, and stops the capstan motor only when the output of the SP head is large to display a playback screen. By allowing the user to watch a noise-free playback screen, a simple circuit can be configured, which can expect a reduction in manufacturing cost and can provide a clean, still-noise screen free of noise.

Claims (1)

In a circuit configured such that the envelope signal of the head portion 1 is applied to the FM signal processing processor 3 after the preamplification portion 2 controlled by the head switching signal of the Seobo control integrated device 7, A comparator 6 for comparing the outputs of the envelope detectors 4 and 5 and the envelope detectors 4 and 5 for detecting the envelope output of the amplifier section 2, the output of the comparator 6, and A still picture drive circuit for a VTR, comprising transistors (Q ₁ -Q ₃ ) for controlling the input voltage of the capstan motor drive circuit (11) by switching a high level voltage during EP mode and a high level voltage during a still picture.