KR930003444Y1 - Control circuit of capstan motor driving - Google Patents

Abstract

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Description

Capstan motor drive control circuit

1 is a block diagram of a general digital audio tape.

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

3 is an output waveform diagram of each part of FIG.

* Explanation of symbols for main parts of the drawings

1: Tape input detector 2: Tape mode detector

3: Power recognition unit 4: Speed control signal generation unit

5: time delay unit 6: frequency / voltage conversion unit

The present invention relates to the control of the capstan motor driving of a digital audio tape recorder. In particular, a soft logic and normal mode tape is recognized according to an identification hole formed in the digital audio tape and a simple logic circuit is applied according to the mode. It relates to a capstan motor drive control circuit for adjusting the speed of the motor.

In general, a digital audio tape has four identification holes 100, 101, 102, 103 formed on the back of the tape, as shown in FIG. 1.

When the digital audio tape (DAT) having the identification hole formed is seated on the deck of the digital audio tape recorder and the play button or the recorder button is pressed, the microcomputer identifies the identification hole of the digital audio tape. 100) (101) 102 (103) to recognize whether the normal mode and the soft mode of the tape depending on the presence or absence of drilling, and adjust the speed of the capstan motor according to the mode.

That is, when all of the identification holes 100, 101 and 102 of the tape seated on the deck are punched out, “0” is input to the microcomputer as a normal tape. In addition, when the identification holes 100 and 101 of the tape are perforated, and only the identification holes 102 are not perforated, this is a track pitch of 1.5 tapes, and the microcomputer has “0, 0, 1”. Is entered. This state is discriminated by the microcomputer to distinguish between normal mode and soft mode tapes. In this case, the normal tape is referred to as the normal mode with the track width * 1 times, and the soft pitch when the track pitch is * 1.5 times. In the soft mode, the microcom capstan motor is used to adjust the relative speed between 13 μm and the tape. Rotate at 1.5x speed. However, in such a general digital audio tape recorder, microcomb can directly determine the normal mode and the soft mode of the tape, and adjust the speed of the capstan motor according to the determined mode. Genie had a problem.

Therefore, the purpose of the present invention is to recognize the tape of soft mode and normal mode according to whether the identification hole formed in the digital audio tape is bored or not, and to apply the simple logic circuit according to the recognized mode to increase the speed of the capstan motor by * 1 times or * Capstan motor drive control circuit is provided to automatically adjust at 1.5 times speed.

Means for achieving the object of the present invention is a tape input sensing means for detecting the presence or absence of the digital audio tape and inverts the sensed signal, and the identification hole punching oil of the tape when the tape is seated, Tape mode detection means for detecting normal and soft mode and inverting the output mode according to the random mode, Power recognition means for recognizing power input by charging and discharging the voltage of power supply terminal during power turn-on, The power recognition means, Tape input detection Means and a speed control signal generating means for outputting a speed control signal of a capstan motor by multiplying the output signal of the tape mode detecting means and the capstanon signal output from the microcomputer when the play button or the record button is pressed, and generating the speed control signal. Time delay means for switching according to a voltage output from the means to determine a time constant, and the time delay It is achieved by converting an input capstan frequency signal into a voltage by a time constant determined from the means and changing the period of the converted voltage to drive the capstan motor at * 1 times or * 1.5 times speed. According to the accompanying drawings of the present invention in detail as follows.

2 is a capstan motor driving control circuit diagram of the present invention, as shown in FIG. 2, a tape input sensing unit 1 which detects the presence or absence of a digital audio tape and inverts the detected signal and outputs the inverted signal. The tape mode detection unit (2) detects normal and soft modes and inverts them according to whether or not the hole of the identification tape is drilled, and charges and discharges the voltage of the power supply terminal (Vcc) at power turn-on to supply power. A power recognition unit 3 comprising a resistor R5, R6 and a capacitor C1 to be recognized, and output from the power recognition unit 3, the tape input detection unit 1, and the tape mode detection unit 2; Capstanon signal output from micom (not shown) when voltage and playback button or recording button is pressed Multiplying by multiplying the double speed control signal generator 4 for outputting the double speed control signal of the capstan motor and the capstan frequency signal CFG inputted to drive the capstan motor to voltage to drive the capstan motor. The third and fourth switches S3 and S4 are turned on in accordance with the converter 4 and the control signal output from the speed control signal generator 4, and the third and fourth switches S3 and S4. ) Determines the period of the output voltage of the frequency / voltage converter 6 by using the resistors R7, R8 and capacitors C2 and C3 to increase the speed of the capstan motor by * 1 times or * It consists of a time delay part (5) to be adjusted at 1.5 times speed.

In the tape input detection unit 1 is input from the power supply terminal (Vcc) according to the on / off of the first switch (S1) and on / off of the first switch (S1) according to the input of the tape It consists of the transistor TR1 which inverts a voltage and inputs into the double speed control signal generation part 4. As shown in FIG.

In the tape mode detection unit 2 is the second switch (S2) is switched on / off according to the presence or absence of puncture of the identification hole formed in the tape when the tape is input, and the on / off of the second switch (S2) The transistor TR2 is configured to invert the voltage of the power supply terminal Vcc through the resistor R3 to be input to the double speed control signal generator 4. In addition, the double speed control signal generator 4 is a first AND gate AND1 that logically multiplies the capstan-on signal CAPON input from the microcomputer with the output signal of the tape input detector 1 and the power recognition unit 3. And the third and fourth switches S3 and S4 of the time delay unit 5 are logically multiplied by the output signal of the first and gate AND1 and the output signal of the tape mode detecting unit 2, respectively. The second and third AND gates AND2 (AND3) for off-switching are shown, and reference numerals R2 and R4 in the figure represent resistors.

When described in detail with reference to Figure 3 the operation, effects of the present invention configured as described above.

First, when power is applied to the system, the voltage of the power supply terminal Vcc is initially charged through the resistor R5 of the power recognition unit 3 to the capacitor C1, and when the charge is completed, the capacitor C1 is completed. ) Is input to one input terminal of the first and gate AND1 configured in the double speed control signal generator 4 through the resistor R6. In this state, when the user seats the digital audio tape as shown in FIG. 1 on the deck of the digital audio tape recorder, the first switch S1 of the tape input detecting unit 1 is turned on. (S1) is turned off. Accordingly, when the tape is seated on the deck and the first switch S1 is turned on, the voltage of the power supply terminal Vcc is changed to the resistance R1 of the tape input detecting unit 1 and the first switch S1. Transistor TR1 is turned off because it is bypassed to ground.

When the transistor TR1 is turned off, the voltage of the power supply terminal Vcc is transmitted to the first end of the double speed control signal generator 4 with a high signal as shown in FIG. 3a through the resistor R2 of the tape input detector 1. It is input to the other input terminal of the gate AND1.

On the other hand, the second switch S2 of the tape mode detecting unit 2 determines whether the tape seated on the deck is a soft mode tape or a normal code tape in the identification hole (here, the third identification hole 102) formed on the tape. The transistor TR 2 is controlled by turning on and off depending on whether or not the hole is perforated. In other words, if the identification hole 102 is drilled (punched) on the tape seated on the deck, the tape is in normal mode, and the second switch S2 is turned off. If the identification hole 102 is not perforated, the tape is in soft mode. As a result, the second switch S2 is turned on by the identification hole 102.

When the tape is in soft mode, that is, when the second switch S2 is turned on, the voltage of the power supply terminal Vc c is grounded through the resistor R3 and the second switch S2 of the tape mode detecting unit 2. When the transistor TR2 is turned off and the digital audio tape seated on the deck is a normal mode tape, that is, when the second switch S is turned off, the voltage of the power supply terminal Vcc is changed to the tape mode detection unit. The transistor TR2 is turned on through the resistor R3 of 2).

In the above case, if the digital audio tape seated on the deck is a normal mode tape, the transistor TR2 of the tape mode detecting unit 2 is turned on, so that the voltage of the power supply terminal Vcc is the resistance R4 and the transistor TR2. The low signal as shown in FIG. 3B is inverted to a high signal through the inverting input terminal of the second and gate AND2 of the double speed control signal generator 4 through the inverted input terminal of FIG. Since the transistor TR2 of the sensing section 2 is turned off, the high speed control signal generation section after passing through the resistor R4 of the tape mode sensing section 2 with a high signal as shown in FIG. The inverting terminal of the second and gate AND2 of 4) is input inverted to a low signal.

After the digital audio tape is seated on the deck and the tape mode is determined, the user presses the play button or the record button. Outputs as low signal.

Capstan on signal output from the micom Is inverted into a low signal through the inverting terminal of the first and gate AND1 of the double speed control signal generator 4, and the first and gate AND1 is inputted from the tape input detecting unit 1. High signal input from signal and power recognition section (3) and capstanon signal inverted from micom The OR signal is multiplied by the high signal to input a high signal such as the third c signal to one input terminal of the second and gate AND2 and the third and gate AND3.

At this time, if the mode detected by the tape mode detecting unit 2 is a normal mode tape, that is, the low signal output from the tape mode detecting unit 2 is input to the other input terminal of the third and gate AND3, When the second and gate AND2 are inverted into the high signal through the inverting terminal of the second and gate AND2, the second and gate AND2 is input from the tape mode sensing unit 2 to the inverted high signal and the first and gate AND1. The high signal input from the AND is output to a high signal as shown in FIG. 3D, and the third and gate AND3 are input from the low signal input from the tape mode sensing unit 2 and the first and gate AND1. By multiplying the high signal, a low signal as shown in FIG. 3e is output.

Accordingly, the third switch S3 of the time delay unit 5 is turned on by the high signal output from the second and gate AND2 of the double speed control signal generator 4, and the fourth switch S4. Is turned off by the low signal output from the third and gate AND3. When the third switch S3 of the time delay unit 5 is turned on, the time constant of the frequency / voltage converter 6 is controlled by the resistor R7 and the capacitor C2 of the time delay unit 5. Determined to rotate the capstan motor at * 1x speed.

That is, the frequency / voltage converter 6 converts the capstan frequency signal CFG inputted to drive the speed of the capstan motor into a voltage, and converts the pulse period of the converted voltage into the time delay unit 5. The on / off cycle is widely delayed by the time constant of the resistor R7 and the condenser C2 to rotate the capstan motor at * 1 times speed through its output terminal Out.

On the contrary, if the mode detected by the tape mode detecting unit 2 is a soft mode tape, that is, the high signal output from the tape mode detecting unit 2 is input to the other input terminal of the third and gate AND3 and the second signal. When the signal is inverted into the low signal through the inverting terminal of the AND gate AND2, the second AND gate AND2 is input from the tape mode sensing unit 2 and input from the inverted low signal and the first AND gate AND1. The high signal input from the tape mode sensing unit 2 and the high signal input from the first and gate AND1 are outputted by the AND signal by multiplying the high signal. Is multiplied by and outputs a high signal as shown in FIG. 3E to the time delay unit 5.

Accordingly, the third and fourth switches S3 and S4 of the time delay unit 5 are turned on by the high signal output from the third and gate AND3 of the double speed control signal generator 4. When the third and fourth switches S3 and S4 of the time delay unit 5 are turned on, the time constant of the frequency / voltage conversion unit 6 is the parallel resistance of the time delay unit 5. It is determined by (R7) (R8) and condenser (C2) (C3) to rotate the capstan motor at * 1.5 times speed.

That is, the frequency / voltage converter 6 converts the capstan frequency signal CFG, which is input to drive the speed of the capstan motor, into a voltage, and converts the pulse period of the converted voltage into the time delay unit 5. The time constant of the parallel resistors (R7) and (R8) and the capacitors (C2) and (C3) delays the on / off cycle briefly, and the capstan motor is connected through the output terminal (Out). It rotates at 1.5 times speed. When the digital audio tape is not seated on the deck of the audio device, a low signal is output from the first and gate AND1 of the double speed control signal generator 4 so that one side of the second and third AND and AND3 AND3s is output. By being input to the input terminal, the second and third AND gates AND2 and AND3 output a low signal irrespective of the other input, so that the third and fourth switches S3 and S4 of the time delay unit 5 are output. Is turned off, and the frequency / voltage converter 6 cuts off the input capstan frequency signal CFG since the time constant is not determined by turning off the third and fourth switches S3 and S4. It will suppress the driving of.

As described in detail above, the present invention recognizes the tape in the soft mode and the normal mode according to whether the identification hole formed in the digital audio tape is present or not, and applies a simple logic circuit to the capstan by not using a microcomputer according to the recognized mode. By automatically adjusting the speed of the motor to * 1 times or * 1.5 times, the circuit configuration is simple and the cost of the product is reduced.

Claims (5)

A tape input detecting means for detecting the presence or absence of a digital audio tape and inverting the detected signal and outputting the detected signal; and a tape mode detecting means for detecting the normal and soft modes of the tape and inverting the tape when the tape is mounted; Power recognition means for recognizing power input by charging and discharging the voltage of the power supply terminal during power turn-on, the signal input from the power recognition means, tape input detection means, tape mode detection means and input when pressing the play button or recording button A speed control signal generating means for outputting a speed control signal of the capstan motor in accordance with the capstan on signal, a time delay means for determining a time constant by switching according to a voltage input from the speed control signal generating means, and the time delay means Change the period of the input capstan frequency in accordance with the time constant of The capstan motor drive control circuit, including frequency / voltage converting means for driving a. The method of claim 1, wherein the tape input sensing means is input from the power supply terminal (Vcc) according to the first switch (S1) on / off according to the presence or absence of the tape input, and the on / off of the first switch (S1). And a transistor (TR1) for inverting the voltage to be input to the double speed control signal generating means. The method of claim 1, wherein the tape mode detecting means has a first switch (S2) and the second switch (S2) of the on and off switching depending on whether the hole of the identification hole according to the mode of the tape when the tape is seated, Capstan motor drive control circuit, characterized in that consisting of a transistor (TR2) input to the speed control signal generation means by inverting the voltage of the power supply terminal (Vcc) through the resistor (R3) according to on / off. The capstan on signal according to claim 1, wherein the speed control signal generating means is input. And a first delay (AN D1) for ANDing the output signals of the tape input sensing means and the power recognition means, a time delay by ANDing the output signal of the first and gate AND1 and the output signal of the tape mode sensing means, respectively. Capstan motor drive control circuit comprising a second, third and gate (A ND2) (AND3) for controlling the means on / off. 2. The apparatus of claim 1, wherein the time delay means comprises: third and fourth switches S3 and S4 switched on and off by voltages output from the double speed control signal generating means, respectively; Capstan motor driving, characterized in that it comprises a resistor (R7) (R8) and a capacitor (C2) (C3) to determine the time constant according to the on / off of S3) (S4) and input to the frequency / voltage conversion means, respectively. Control circuit.