KR850001029Y1 - Picture search circuit using reel motor - Google Patents

Abstract

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Description

Picture Search Circuit Using Reel Motor

1 is a circuit diagram of the present invention.

2 is an implementation circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

I _1-1 : Monostable Multi I ₂ : Frequency / Voltage Converter

I ₃ : Primary Comparator I _4-1 , I _4-2 : Amplifier

I ₅ : IC for switch control I _1-2 : Reference frequency generator

I ₆ : secondary comparator block A: signal driver

The present invention relates to a picture search circuit in which a reel motor is used instead of a capstan motor to control rewinding or fast forwarding in order to navigate a screen in a video tape recorder (VTR).

Conventionally, the capstan motor is used to control various functions such as sending an instantaneous screen, stopping an image for a certain period of time, or setting the tape traveling speed to an arbitrary speed of the normal driving speed. Since the pinch roller is rotated along the axis of rotation of the capstan motor, the tape is running in proportion to the capstan motor's speed because the tape is running. Special capstan motors and separate control circuits were needed.

At this time, the 9x speed function with the capstan pinch roller attached was not only easy to damage the tape, but also had difficulties such as verticality of the device. For this reason, adding special motors and circuits to the capstan motor not only increased manufacturing costs but also easily damaged the tape.

The present invention is a picture search circuit for controlling the reel motor by using a control signal recorded on the tape to solve this problem will be described in detail with reference to the drawings as follows.

That is, firstly, in FIG. 1, a monostable multi (I _1-1 ) for controlling the pictorial search speed with a variable resistor (VR ₁ ) through a differentiator (1) is connected to a control pulse (CTL pulse) signal source. In addition, a frequency / voltage converter (hereinafter referred to as an F / V converter) (I ₂ ) is provided at an output terminal thereof, and the control pulse (CTL Pulse) signal source and the set speed voltage level (Vref) detected through tape travel therethrough. A signal driver A is configured by connecting a primary comparator I ₃ for inverting and amplifying the voltage difference, and connecting an amplifier I _{4-1 to an} output terminal thereof, and at the output terminal of the signal driver A. A switch for rotation and reverse rotation search (F / PD, R / PS) is provided and connected to the input terminal of the switch control IC (I ₅ ), and to the non-inverting terminal of the amplifier (I _4-2 ). An amplifier for comparing and amplifying the pulse voltage (back electromotive force of the motor) according to the rotation of the reel motor M _4-2 ).

In addition, a secondary comparator (I ₆ ) for generating a square wave pulse by comparing the output of the amplifier (I _4-2 ) and the reference voltage from the reference frequency generator (I _1-2 ) is connected, and its output terminal is a motor. This configuration is connected to the driver 3 and the motor controller 2.

On the other hand, the circuit system as described above can be realized as shown in FIG. 2, where each symbol coincides with FIG. Referring to the embodiment of the present invention having such a configuration as an embodiment of FIG. 2, the control pulse (CTL Pulse) applied to the general control head (CTL Pulse) at the time of normal search at 30Hz during the normal search there is a change to 270Hz, this control head (head control) control pulses (CTL pulse) is detected by the resistance (R ₁₎ monostable multi-capacitor _(1- I via a differentiator (1) consisting of (C _{3) 1)} is input to the eighth terminal resistor (R _2), a square wave with the time constant of the variable resistor (VR _1), the capacitor (C ₃₎ is outputted to the terminal 9.

Since this is input to terminal 1 of the F / V converter (I ₂ ), the control pulse (CTL Pulse) picked up as the tape travels varies from 30 Hz in normal to 270 Hz in a pictorial search as described above. As a result, the voltage changes relatively.

The voltage variation is compared with the reference voltage Vref applied to the inverting terminal 2 of the primary comparator I ₃ and applied to the non-inverting terminal 3, where the reference voltage Vref is R ₅ . It is set to Vcc / (R ₅ + R ₆ + R ₇ ).

Therefore, if the reference voltage Vref is set at 9 times the equivalent voltage, this voltage is compared with the voltage corresponding to the control pulse (CTL pulse) detected at 9 times the normal running speed, and the error is compared with the primary comparator ( I ₃ ) is inverted and output, which is amplified by the amplifier I _4-1 to operate the signal driver A. FIG.

The reason for inverting the error by using the control pulse as the inverting stage input in the primary comparator I ₃ is that the frequency and the voltage are directly proportional (the voltage that is converted when the frequency increases). This is to compensate for errors by increasing or decreasing the voltage converted inversely.

As such, the control pulse (CTL Pulse) detected by the head is output through the signal driver A as described above. Therefore, when one of the forward and reverse rotational search switches (F / PS and R / PS) is pressed, The base of the transistor Q ₂ as a signal output from a microprocessor (Motor controlling each mechanism in the VTR is installed for proper control operation according to a predetermined selected operation (NORMAL, STILL, FAST, SLOW, etc.)) At the same time, the transistor Q ₅ is turned on and the transistor Q ₄ is turned off. Therefore, the voltage output from the first terminal of the primary comparator I ₃ during the Picture search is the output terminal of the amplifier I _4-1 . Since it is applied to the collector of transistor Q ₂ through, transistor Q ₂ is turned on and the output of amplifier I _4-1 is applied to terminal 5 of amplifier I _4-2 .

At this time, the amplifier (I _4-2 ) is compared with the pulse voltage according to the rotation of the reel motor (M) applied to the sixth terminal and the output is applied to the third terminal of the secondary comparator (I ₆ ) again 2 Comparing the approximately 25 kHz square wave component generated by the reference frequency generator (I _1-2 ) applied to the terminal (this is picked up to generate the voltage required for shifting the motor (M) to be 9 times the normal state at the time of search). And the output is output to the output terminal 7 of the secondary comparator (I ₆ ), so that the motor (M) voltage drive transistor (Q ₁ ) is turned on and the collector has a voltage of 25 KHz square wave component. At this time, the 25KHz square wave component is shaped by the reactor L ₁ and the condenser C ₈ and then supplied to the reel motor M power.

And, Referring to the Motor control unit 2, operation of the reel Motor (M), forward rotation, has a voltage applied from the terminal (STOP) a transistor (Q _6), (Q ₁₁₎ is is ON transistors (Q _7, Q ₁₀ ) is turned OFF, transistor Q ₁₄ is ON, and transistors Q ₈ and Q ₉ are ON, so current flows from the top to the bottom of motor M to perform forward rotation. When (STOP) is pressed, the base current of the transistor Q ₆ is cut off and the transistors Q ₇ and Q ₁₀ are turned on, so that the top of the motor M is grounded and the bottom is applied from the terminal REV. Since the transistors Q ₁₁ and Q ₁₄ are turned on by the voltage, the motor M is stopped by grounding.

On the other hand, in reverse rotation, if the switch REV is pressed in the stop state, the transistors Q ₆ and Q ₁₁ are all turned off by blocking the base current, and the transistors Q ₇ and Q ₁₀ are turned off due to the OFF of the transistor Q ₆ . oN so Motor upper base potential is step-down transistor (Q ₁₂₎ (Q ₁₃₎ due to an OFF transistor (Q ₁₄₎ of oN and a transistor (Q ₁₁₎ of the ground and the transistor (Q ₁₂₎ of the (M) Is turned off. Therefore, the current flows from the lower end of the motor M to the upper end to reverse rotation.

Meanwhile, Chung. If the reel motor (M) rotates at approximately 9x speed while pressing the reverse picture search switches (F / PS, R / PS), the drum motor must also be shifted to the same speed as during recording so that the screen does not collapse. Normal screen reproduction is possible. For this, the process of controlling the drum motor is explained in the switch control IC (I ₅ ). Since the transistor (Q ₁₅ ) is turned off in the state of no picture search, the power is applied to the terminal #. The short terminal is burned, and the voltage applied to the drum motor is transferred directly from the PE IN to PE OUT terminal.

On the other hand, in the state at the time of pick-Miniature search is the power is supplied to the base of the transistor (Q _15), so the transistor (Q ₁₅₎ ON ⑫ one terminal is zero soon as power is supplied to ⑬ one terminal at the same time in ⑤ or ⑥ times Power is applied to the terminal, and terminal ⑧⑨ is shorted, and the terminals ①② or ③④ are shorted.

Then, the power input (PE IN) applied to the drum motor is output (PE OUT) to the ①② or ④③ through the switch terminal ⑧⑨ and the variable resistor (VR ₃ ) or (VR ₂ ). Thus, the drum motor is controlled at a relative speed according to the reel motor's speed by controlling the drum rotation by supplying an arbitrary voltage by the variable resistors VR ₂ and VR ₃ with the phase difference of the drum motor 0. The synchronization is stable and the screen is normally generated.

As described above, the present invention controls the tape running speed by the reel motor without using the capstan motor and simultaneously controls the relative speed of the drum motor, thereby preventing distortion of the screen during high speed double speed operation and driving force thereof. It is stable and has the characteristics to add credibility to the screen navigation operation.

Claims (1)

It is connected to the monostable multi (I _1-1 ) from the control signal source (CLL Pulse) through the differentiator (1), and has an F / V converter (I ₂ ) for converting its output frequency into voltage, and its output Is connected to the primary comparator (I ₃ ) which inverts and amplifies the reference voltage (Vref), and is connected to the rotation of the reel motor (REEL M) through the amplifier (I _4-1 ) and the picture search switch (SW). The amplifier (I _4-2 ) to amplify and compare the pulse voltage according to the output, and the output shown by comparing the output of the amplifier (I _4-2 ) and the reference voltage from the reference frequency generator (I _1-2 ) Connect the motor control part 2 which can control the forward / reverse rotation of the motor M through the motor driver 3, and press the forward / reverse picture search switch (F / PS, R.PS) to press the reel motor ( M) reel Mou, characterized in that for controlling the reel motor (M) in accordance with the error from the set frequency by the control pulse (CTL Pulse). Search circuit using a computer.