KR910003265Y1 - Control circuit for motor driving - Google Patents

Abstract

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Description

Double deck motor drive control circuit

1 is a circuit diagram of the prior art.

2 is a detailed circuit diagram according to the principles of the present invention.

The present invention relates to a motor drive control circuit of a double deck, and to a motor drive control circuit for the high speed operation and continuous regeneration of the double deck motor at the same time.

The operation control of the conventional double deck motor can be realized by the continuous regeneration controller and the high speed controller.

That is, as shown in FIG. 1, the transistors Q ₁ and Q ₂ are alternately turned on depending on which of the switches P _A and P _B is operated during feeding, rewinding, and recording / reproducing. Either M _A ) or M _B can be driven selectively. In the continuous regeneration operation, the motors (M _A ) and (M _B ) of the first switch unit operated among the switches P _A and P _B operate first, and when the operation is stopped, the other motor is operated.

For example, when the continuous regeneration control signal is applied to the transistor Q ₅ and the switch P _A is turned on, the transistor Q ₁ is operated so that the transistor Q ₁ turns on the motor M _A. In contrast, when the switch P _B is turned on, the transistor Q ₂ is turned on, and thus the motor M _B is operated.

In addition, although a high speed control circuit is provided to make the above operation high speed, this high speed control circuit can realize high speed operation of the motor only when the high speed control switch is turned on.

In addition, such a conventional circuit was not able to feed or rewind the other deck while the deck was in the regenerating state during continuous reproducing operation, and it was troublesome to turn off the continuous reproducing switch in order to feed or rewind. In the absence of a regeneration switch, when two motors were to be used simultaneously, they were limited to only writing operations and were inefficient.

On the other hand, even if there is a high-speed control circuit has the disadvantage that it can take a long time to feed and rewind because only can be fed or rewind at a normal speed.

On the other hand, in the case of the circuit configuration that the high speed operation is performed even during regeneration in the double-deck motor drive circuit, the high speed operation of the fast forwarding and rewinding is possible by turning on the high speed switch, but this configuration causes high speed regeneration even during regeneration. This is because the high speed operation is necessary only during dubbing recording, and it is cumbersome to limit the high speed operation during reproduction, making the high speed operation difficult during the feeding and rewinding operation.

The present invention is to solve the above problems, the double deck with a high-speed dubbing function to reduce the time required by operating the motor at high speed during the feeding or rewinding operation, and to reduce the feeding and rewinding without causing high-speed playback during continuous playback operation It is an object of the present invention to provide a double-deck motor drive control circuit.

Accordingly, the present invention separately installs the feed / rewind lift switches of the first and second deck motors in a motor control circuit composed of a high speed controller and a continuous regeneration unit, and turns them on so that a transistor connected to one of the motors is connected. Turn on, and selectively turn on another transistor according to the operation of the recording / reproducing switch, in which the NAND gate connected to the switch terminals of the bases of these transistors turns its output into a high speed control circuit. It is characterized in that it is provided with a high-speed operation circuit for feeding and rewinding at high speed even during continuous playback since the motor of each deck is selectively controlled.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

In a double-deck motor drive control circuit having a high speed control section (1), a continuous playback control section (2), and a motor control section (3), recording and rewinding at high speed between the high speed control section (1) and the motor control section (3). The collector terminal is connected to the feed and rewind leaf switches F _A and F _B connected to the power supply voltage B ⁺ so that the collector terminal is connected to the motor of the motor controller 3 through resistors R ₁ and R ₆ . _{(M a), (M B} ) is connected to the side, the emitter terminals of the transistor (Q _6), by connecting the base terminal as well as, the emitter terminal of the transistor (Q ₈₎ the ground of the (Q ₇₎ ground, sikimyeo connected to the collector terminal of the (Q _9), a transistor _{(Q 8), (Q 9} ) of the base terminal is a resistor _{(R 10), (R 11} ) via playback switch (P _a of the motor control unit (3) ), (P _B ) and the NAND gates (G ₁ ) and (G ₂ ) to one input terminal and the other input terminals of the NAND gates (G ₁ ) and (G ₂ ). , Rewind And leaf switches F _A and F _B , and the output terminals of the NAND gates G ₁ and G ₂ are connected to the high speed control unit 1 through diodes D ₃ and D ₄ , respectively. ) from a control terminal (CON _1), (CON ₂₎ connected to, and control of the high speed control section (1) terminals (CON _3), the diode (D ₅ the high-speed switch (S ₁₎ and the recording dubbing switch (S ₃₎ Is connected by connecting the motor drive circuit section 4 connected via the "

Referring to the effect of the present invention configured as described above in detail.

First, when the regenerative leaf switch P _A of the motor control unit 93 of the deck side A is turned on while the power is applied, the power supply voltage B ⁺ is applied to the transistors Q ₁ through the resistors R ₂ and R ₃ . Since the transistor is applied to the base terminal of), the transistor Q ₁ is turned on and the motor M _A is driven to perform the A deck regeneration operation. Then, when the B deck side regeneration leaf switch P _B is turned on, the power supply voltage (B ⁺ ) is applied to the base terminal of the transistor Q ₂ through the resistors R ₅ and R ₄ to turn on the transistor Q ₂ , so that the deck regeneration operation is performed while the motor M _B is driven. You lose.

Subsequently, when the continuous regeneration switch S ₂ of the continuous regeneration control unit 2 is turned on, a driving voltage is applied to the base terminal of the transistor Q ₅ through the resistor R ₉ , thereby turning on the transistor Q ₅ . a transistor (Q ₅₎ of transistors (Q ₃₎ emitter terminals are connected to the collector terminal of, (Q ₄₎ is to be saturated.

At this time, when the regeneration leaf switch P _A is turned on for continuous regeneration, the feed rewind leaf switch F _A is also turned on at the same time.

Accordingly, the transistor Q ₁ and the transistor Q ₈ of the motor driving circuit unit 4 are turned on, and the power supply voltage B ⁺ is supplied through the diode D ₁ and the resistor R ₇ of the continuous control unit 2. Transistor Q ₃ is turned on.

On the other hand, since the high signal is input to the input terminal of the NAND gate G ₁ by the regenerative leaf switch P _A and the feed / rewind leaf switch F _A , a low signal is output to the output terminal of the motor control unit 1. Since it is applied to the control terminal CON ₁ , the high speed control unit 1 performs normal playback without any change.

As described above, when the regeneration leaf switch P _B of the deck B is turned on in the state where the transistor Q ₄ is turned on, that is, in the continuous regeneration state, the feeding and rewinding leaf switch F _B is turned on as in the above case. Since the collector terminals of the transistors Q ₃ and Q ₅ are already grounded by the on state, even when the regenerative leaf switch P _B is turned on, the power supply voltage B ⁺ is a resistor R ₅ and a diode D. _2), the transistor (Q _3), so to be ground through the (Q _5), does not drive the transistor (that is grounded transistor (Q ₂₎ the potential of the base terminal of Q _2), a NAND gate (G ₂₎ Since the input of the high signal is also applied, the output terminal thereof becomes a low signal so that the high speed controller 1 does not change at all.

That is, the motor of the deck B (M _B ) does not drive, but only drives the motor (M _A ) of the deck _A.

Thereafter, when the driving of the motor M A of the deck _A is completed and the regeneration leaf switch P _A is turned off, the power voltage B ⁺ applied to the transistors Q ₁ and Q ₃ is cut off. The transistors Q ₁ and Q ₃ are inverted to the off state, while the power supply voltage B ⁺ is caused by the resistors R ₅ and R ₄ by the B-deck regeneration switch P _{B that} is already on. ) so applied to the base terminal of the transistor (Q ₂₎ of the transistor (Q ₂₎ through a is turned on, thereby then continuously regenerative drives the a, B deck both to drive the motor (M _B) in series to the motor (M _a) .

On the other hand, in the above continuous regeneration drive, when the regeneration leaf switch P _B of the deck _B is turned on, and the regeneration leaf switch P _A of the deck _A is turned on, in contrast to the above operation, the motor M _{Since B} ) is driven and the transistor Q ₄ of the continuous regeneration control unit 2 is turned on _first , the voltage applied to the base terminal of the transistor Q ₁ of the motor control unit 3 of the deck A is the transistor Q ₄ . , Q ₅ is grounded and cannot be driven until the motor M _B is completed. Therefore, the motor M _A is driven to be regenerated following the motor M _B.

In this way, when the feed and rewind leaf switch F _A or F _B is pressed on a grounded deck portion that is not driven during continuous regeneration driving, the transistors Q ₆ and Q ₇ of the motor driving circuit section 4 are turned on. Since a high signal is output to the output terminals of the NAND gates G ₁ and G ₂ and applied to the high speed control unit 1, it is possible to perform fast feeding and rewinding operations at high speed.

When the recording dubbing switch S ₃ is turned on for recording, the high speed switch S ₁ is turned on, and accordingly, the control terminal CON ₂ of the high speed control unit 1 is connected to the control terminal CON ₂ through the diode D ₅ . The signal voltage is applied to the high speed control unit 1 to control the motor M _A (M _B ) at high speed so as to perform a high speed dubbing operation. In this case, the high speed operation is driven separately regardless of the continuous regeneration operation.

The driving of only the deck portion A for fast feeding and rewinding will be described first. If the feeding and rewinding leaf switch F _A of the motor driving circuit part 4 is turned on for fast rewinding, the regeneration leaf switch P _A ) (P _B) is not turned on, thus the power source voltage (B ⁺⁾ is and simultaneously turns on the transistor (Q ₆₎ NAND gates (G ₁₎ is because it is a high signal on one terminal of the NAND gate (G ₁ Since a low signal is applied to the other input terminal of the NAND gate, a high signal is output to the output terminal of the NAND gate G ₁ , and a high signal is applied to the control terminal CON ₁ of the high speed controller 1 through the diode D ₃ . In the control unit 1, the motor M _A is driven at a high speed, so that the fast forwarding rewind operates at a high speed.

On the contrary, since the B deck portion also operates in the same manner as the A deck portion, description thereof will be omitted.

As described above, the present invention adds a motor driving circuit unit to a motor control circuit of a double deck capable of performing continuous regeneration, so that the deck part can be fast-moved and rewinded at high speed even during continuous regeneration. By greatly improving the ability to use and to perform this at high speed even during the fast forwarding and rewinding operation, it is possible to provide an effect that can be a fast time for the fast forwarding, rewinding operation.

Claims (1)

In a double-deck motor drive control circuit having a high speed control section (1), a continuous playback control section (2), and a motor control section (3), recording, feeding, and rewinding a high speed between the high speed control section (1) and the motor control section (3). The feed rewind leaf switch (F _A ) (F _B ) is connected so that the feed, rewind leaf switch (F _A ), (F _B ) can be turned on and off with transistors (Q ₆ ) and (Q ₇ ). And the high speed control unit 1 in which an output signal is controlled according to the operation of the regeneration leaf switch P _A (P _B ) and the fast-forward rewind leaf switches F _A , and F _B of the motor control unit 3. A motor drive control circuit having a double deck, characterized in that a motor drive circuit portion (4) consisting of a NAND gate (G ₁ ) (G ₂ ) for controlling is connected.