KR930007085B1 - Velosity control method and circuit of capstan motor - Google Patents

Abstract

This circuit controls the capster motor for the video cassette tape recorder with the normal input of mode key by varying the rotating speed of motor. The circuit comprises a micom (2) to control the whole system with key input; the voltage regulating sect. (3) to output a constant voltage as the output of micom (2); a search control sect. (4) to output a search control voltage; and a drive control sect. (5) of capstern motor to output the drive control voltage of capstern motor with the output signal of the voltage control sect. (3) and the search control sect. (4).

Description

Rotational speed control method of capstan motor and its control circuit

1 is a conventional circuit diagram.

2 is a rotation speed control circuit diagram of the capstan motor of the present invention.

3 (a) and 3 (b) are signal flow diagrams according to the method of the present invention.

* Explanation of symbols for main parts of the drawings

1: Key Matrix Part 2: Micom

3: voltage control unit 4: search control unit

5: Capstan motor drive control unit OP ₁ : Operational Amplifier

TR ₁₀ , TR ₁₁ : Transistor VR ₁₀ : Variable resistor

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of controlling a rotation speed of a capstan motor and a control circuit thereof in a video cassette tape recorder, in particular, in the case of a normal key signal after detecting the key signal according to input of each mode key signal. The present invention relates to a rotation speed control method of a capstan motor and a control circuit thereof, which output a variable voltage and variably and rapidly control the rotation speed of a capstan motor in response to a high-speed search key signal input during forward and reverse high speed reproduction.

As shown in FIG. 1, a speed control circuit diagram of a conventional capstan motor includes a still signal and a slow signal input terminals STI ₁ and SLI ₂ through diodes D ₁ and D ₂ , respectively. connected to the base of TR ₁₎ connected to its collector to the base of the transistor (TR _2), and the base of the transistor (TR ₂₎ of the collector resistor (R _1), (a transistor (TR ₃₎ through R ₂₎ connected to and access his collector to the base of the transistor (TR _4), a transistor (TR ₄₎ of the collector is a Zener diode (ZD ₁₎ and connected to the base of the transistor (TR ₅₎ and the forward / reverse signal and a count signal input Terminals F / RI ₃ and CNI ₄ are connected to the bases of transistors TR ₆ and TR ₇ and their collectors are resistor R ₅ through zener diode ZD ₂ and resistor R ₄ . and a connection to the base, a capacitor (C ₁₎ of the transistor (TR _8), the emitter of the transient of the transistor (TR ₈₎ Master that is configured with the emitter of the (TR ₅₎ and connected to an output terminal (VO _1), reference numeral ₃ designates a power supply terminal Vcc ₁ -Vcc.

In the conventional circuit configured as described above, when the power is supplied to the power terminals Vcc _{1 to} Vcc ₃ , the power of the power terminal Vcc ₁ is connected to the transistor TR ₈ through the resistor R ₅ . Since it is applied to the base and it is turned on, the power supply of the power supply terminal Vcc ₁ is outputted to the output terminal V ₁ through the transistor TR ₁ , and a constant voltage (about 12.8 V) is output. When a high potential signal is input to the rewind / rewind signal input terminal F / RI ₃ , the transistor TR ₆ is turned on by the high potential signal, so that the power supply of the power terminal Vcc ₁ turns on the resistor R ₅ and zener. of the diode (ZD _2), the transistor so grounded through a (TR ₆₎ transistor (TR ₆₎ of the base, wherein the Zener diode (ZD ₂₎ the zener voltage (approximately 9V) is applied, so that the transistor (TR ₈₎ of A constant voltage (approximately 8.5 V) is output to the emitter, that is, output terminal VO ₁ , When the counted value of the counter is about 30, a high potential signal is inputted to the count signal input terminal CNI ₄ and the transistor TR ₅ is turned on, so that a voltage of about 6.7 V is applied to the base of the transistor TR ₈ . As a result, a constant voltage (about 6.0 V) is output to the emitter of the transistor TR ₈ , that is, the output terminal VO ₁ , to control the driving of the capstan motor. If a high potential signal is input to both the still and slow signal input terminals STI ₁ and SLI ₂ when the still or slow is to be performed, the high potential signal is a diode D ₁ or D ₂ . The transistor TR ₁ is turned on to turn on the transistor TR ₂ , so that the power supply of the power supply terminal Vcc ₂ is divided by the resistors R ₁ and R ₂ after passing through the transistor TR ₂ . The transistor TR ₃ is turned on, and accordingly, the transistor TR ₄ is turned on so that the power supply of the power supply terminal Vcc ₂ is constant voltage through the resistor R ₃ , the transistor TR ₄ , and the zener diode ZD ₁ . After the transistor is applied to the base of the transistor TR ₅ , it is turned on. Accordingly, the power supply of the power supply terminal Vcc ₂ is outputted to the output terminal V ₀ at a constant voltage through the transistor TR ₅ to be slow or still. Although the driving of the capstan motor is controlled by the driving control voltage of the capstan motor of the The circuit is very complicated in the configuration of the circuit which controls the rotation speed of the capstan motor for each mode (still, slow, rewind / rewind), and it is impossible to exclude the occurrence of malfunction. There was a limitation in controlling, and it was impossible to search at high speed, and there existed defects, such as the fall of the manufacturing process efficiency.

In view of the above-described deficiencies, the present invention outputs a constant voltage which is variable according to each mode key signal input to accurately control the rotation speed of the capstan motor according to the high-speed search key signal input at the time of forward and reverse high speed regeneration with water. Invented to allow the user to control the rotational speed of the capstan motor variably, which will be described in detail with reference to the accompanying drawings.

2 is a rotational speed control circuit diagram of the capstan motor of the present invention, as shown in the output port (CO ₁ -CO ₃ ) of the microcomputer 2 for controlling the entire system in accordance with the output signal of the key matrix unit (1) Is connected to a resistor (R ₁₃ ) through a resistor (R ₁₀ -R ₁₂ ) to form a voltage regulator (3), the search control output port (SO ₄ ) of the microcomputer (2) the collector is a variable resistor ( VR ₁₀ is connected to the base of the transistor TR ₁₀ connected to the search voltage terminal SV to form the search controller 4, and the output side of the voltage regulator 3 and the transistor of the search controller 4. The emitter of TR ₁₀ is connected to the non-inverting input terminal (+) of the operational amplifier OP ₁ , and its output terminal is connected to the base of the transistor TR ₁₁ , and the resistor R is connected through the resistor R ₁₅ . ₁₄₎ and its inverting input terminal (- feedback connected to) and in contact with the emitter of the output terminal (VO ₁₀₎ of said transistor (TR ₁₁₎ To be configured as a capstan motor drive control section 5, a reference numeral 6 is oscillating, ₃ Vcc is a power supply terminal.

The effects of the present invention configured as described above will be described in detail with reference to the signal flow diagrams of FIGS. 2 and 3.

When the user presses the key of the key matrix unit 1 while the power is applied to the power supply terminal Vcc ₃ , and the key signal is input to the microcomputer 2, the microcomputer 2 is shown in FIG. 3. The data of the key signal input together is stored in the accumulator A, the signals stored in the Y register Y and the SPY register SPY are interchanged and stored, and the data signal stored in the accumulator A is stored in the Y register Y. ), The input data signal is stored in the accumulator (A), subtracted from the signal stored in the Y register (Y), and then stored in the Y register (Y), and the signal stored in the Y register (Y) If it is zero and if it is zero, it is again determined whether the signal stored in the accumulator (A) is zero. If it is zero, the same key as in the case where the signal stored in the Y register (Y) is not zero is the same. Not a signal and no key signal After detecting that the signal is not input, the signals stored in the Y register (Y) and the SPY register (SPY) are interchanged and stored, and then returned to the main routine, while the signal stored in the accumulator (A) is not zero. In this case, the key signal detected by the error detection routine is applied to the key signal after performing a key signal error detection routine for interchanging and storing signals stored in the Y register (Y) and the SPY register (SPY). A key signal discrimination routine for determining which key signal is performed, that is, when the input key signal is an eject and stop key signal, the eject and stop key signals are inputted to the output ports CO ₁ -CO ₃ of the microcomputer 1. The output of the constant potential, the output potential is divided by the resistance (R _10- R ₁₃ ) of the voltage adjusting section 3, the non-inverting input terminal of the operational amplifier (OP ₁ ) of the capstan motor drive control section (5) Mouth on (+) Because so its output terminal, the amplified constant voltage is output, and an output terminal (VO ₁₀₎ a constant voltage is output to the according to the the output voltage is applied to the base of the transistor (TR ₁₁₎ of the applied voltage is proportional to the voltage Rotates and stops the capstan motor at a speed to stop and eject and stop, and if it is not the eject and stop key signals, discriminates whether it is a fast-forward key signal. If not, the output port (CO ₁ -CO ₃ ) of the microcomputer 1 outputs a constant potential according to the fast-forward key signal input, and the output potential is adjusted by the voltage adjusting unit 3, and then the capstan motor Since it is output to the output terminal VO ₁₀ at a constant voltage according to the fast-forward key signal input through the drive control unit 5 by rotating the capstan motor at a speed proportional to the output voltage When the rewind mode is in operation, the output potentials CO _{1 to} CO ₃ are output to the output ports CO _{1 to} CO ₃ of the microcomputer 1, and thus the output potential is adjusted by the voltage adjusting unit 3. After the capstan motor driving control unit 5, the constant voltage according to the fast-forward key signal input is output to the output terminal VO ₁₀ in the regeneration mode, and the capstan motor is rotated at a speed proportional to the output voltage. If it is not a fast-forward key signal, it determines whether it is a rewind key signal. If it is a rewind key signal, it determines whether it is in a regeneration mode. (CO ₁ -CO ₃ ) to output a constant potential in accordance with the rewind key signal input, the output potential is adjusted in the voltage adjusting section 3, and then output the output terminal at a constant voltage through the capstan motor drive control section (5) VO ₁₀ ) And a rewinding operation by rotating the capstan motor at a speed proportional to the output voltage, and in the above regeneration mode, a constant potential corresponding to the output port (CO ₁ -CO ₃ ) of the microcomputer (1). After the output is adjusted to a constant voltage in the voltage regulator 3, the constant voltage according to the rewind key signal input in the regeneration mode through the capstan motor drive control unit 5 is output to the output terminal (VO ₁₀ ), the output Rotate the capstan motor at a speed proportional to the rated voltage to perform reverse high speed replay (REV), and if it is not a rewind key signal, discriminate whether it is a high speed search key signal or not. and determining, when the determination whether the backward high-speed reproduction, if not the forward high-speed reproduction backward high-speed reproduction, the search of the same microcomputer 1, and when the forward high-speed reproduction control output port (SO ₄₎ After being outputs a high potential signal, the high potential signal is applied to the base of the transistor (TR ₁₀₎ of a search control section 4, the voltage of the search voltage terminal (SV), so he came through the variable resistor (VR ₁₀₎ According to the variable resistance VR ₁₀ , the synthesized voltage is combined with the regulated voltage output from the voltage regulator 3 according to the forward and backward fast regeneration through the transistor TR ₁₀ , and the synthesized voltage is the capstan motor driving controller. (5) A constant voltage corresponding to the high-speed search key signal is output to the output terminal VD ₁₀ during the forward and reverse high-speed reproduction, and the high-speed search operation is performed by rotating the capstan motor at a speed proportional to the output voltage. If it is not a high-speed search key signal, it is determined whether it is another key signal, and if it is another key signal, it performs an operation according to the input of another key signal, and then returns to the key signal error detection routine. This key signal is repeatedly executed according to the input.

As described above, the present invention outputs a voltage varying according to each mode key signal input to precisely control the rotation speed of the capstan motor, and also prevents the occurrence of an error of the key signal. When the capstan motor can be rotated at high speed according to the high speed search key signal input, the search speed is increased, and the user can arbitrarily adjust the high speed search speed.

Claims (2)

The microcomputer 2 stores the key signal data input through the key matrix unit 1 in the accumulator A, exchanges data stored in the Y and SPY registers Y and SPY, and accumulates the accumulator A. ) Store the key signal data stored in the Y register (Y), store the current input key signal data in the accumulator (A), and subtract from the data stored in the Y register (Y). YA) is stored in the Y register Y, and if the value stored in the Y register Y is zero, if the key signal data stored in the accumulator A is not zero, it is determined as a normal key signal input to perform the next routine. If the value is zero, the key signal error detection routine for exchanging and returning the signals stored in the Y and SPY registers (Y) and (SPY) is performed in the same manner as if the value stored in the Y register (Y) is not zero. One after Rotation speed control method of the capstan motor, characterized in that for performing the call determination routine to control the capstan motor speed according to each key signal. The microcomputer 2 for controlling the operation of the entire system according to the key signal of the key matrix unit 1, the voltage regulator 3 for regulating and outputting a constant voltage according to the output signal of the microcomputer 2, and the search control. And a capstan motor drive controller 5 for outputting a drive control voltage of the capstan motor according to the output signal of the voltage controller 3 and the search controller 4. Rotational speed control circuit of the capstan motor.

Images