KR19980061634U - Driving transistor improvement circuit of V-Cal head drum motor - Google Patents

Abstract

The present invention relates to a drive transistor improvement circuit of a BC head drum motor, and includes: a Hall sensor for detecting rotation of the head drum motor of a BC-AL, and a NPN-type detection transistor that is turned on and switches according to the detection signal of the Hall sensor. And a transistor having a low capacitance coupled to the collector terminal of the detection transistor in multiple stages to control the driving current of the magnet coil of the head drum motor, and connected to the driving transistor means to switch the driving voltage of the magnet coil. A switching transistor, an amplifier connected to the base end of the switching transistor for amplifying and outputting an input current control signal, and a microcomputer connected to the input end of the amplifier to control the overall operation of the V-Cal, the driving voltage of the drum motor. It is necessary to use a large capacity drive transistor for authorization Since yiettara is to significantly reduce the manufacturing cost of the drum motor drive circuit.

Description

Driving transistor improvement circuit of V-Cal head drum motor

The present invention relates to a drive transistor improvement circuit of a BC head drum motor, and in particular, a drive transistor for applying a drive voltage to the magnet coil of the head drum motor is configured in a multi-step circuit by using a transistor having a small capacity, thereby providing a drum motor. Since it is not necessary to use a large-capacity driving transistor to apply a driving voltage of the present invention, the driving transistor improvement circuit of the BC head drum motor can reduce the manufacturing cost of the drum motor driving circuit accordingly.

In general, the VRC system has a very small dimension of recording a video signal, a track width of about 0.2-0.02 mm, a recording wavelength of about several microns, and is recorded in the tape width direction. Therefore, during recording and playback, it is necessary to perform stable control of the head drum rotation so as not to change as the time axis of the video signal increases. In addition, in order to maintain tracking of the video track, it is necessary to maintain the head drum rotation and the tape running state (speed and position relationship) as in recording.

In addition, referring to FIG. 1, the conventional driving circuit of the head drum motor of V-Cal is referred to as a Hall sensor 71 which detects the rotation of the head drum motor 70 of the BC-R and the hall sensor 71. NPN-type detection transistor 72 which is turned on according to the detection signal of the switching transistor and connected to the collector terminal of the detection transistor 72 to drive the driving current of the magnet coils 73A and 73B of the head drum motor 70. A large-capacity PNP type driving transistor 74 to control, a switching transistor 75 connected to the emitter end of the driving transistor 74 to switch the driving voltage of the magnet coils 73A and 73B, and the switching transistor 75 And an amplifier 76 connected to the base of the amplifier to amplify and output the input current control signal.

The microcomputer 77 of V-C is connected to the input terminal of the amplifier 76.

In addition, a bias power supply VCC is connected to the collector terminal of the detection transistor 72 and the base terminal of the driving transistor 74 via resistors R1 and R2. The magnet coil 73A of the head drum motor 70 is connected via R3), and the bias power supply VCC is connected to the collector terminal of the switching transistor 75 via a resistor R1. In addition, a capacitor C is connected between the base of the driving transistor 74 and the collector end.

On the other hand, looking at the operation of the conventional head drum motor driven by the drive circuit having the configuration as described above, when the play mode or recording mode signal is input to the V-Call microcomputer 77 to drive the head drum motor 70 At this time, the first driving is to apply a predetermined detection voltage to the Hall sensor (71). Then, the hall sensor 71 inputs a detection signal to the base end of the detection transistor 72 according to the detection voltage, and accordingly the detection transistor 72 is turned on. When the detection transistor 72 is turned on, the bias voltage flows through the detection transistor 72. Therefore, since no bias voltage flows to the base terminal of the driving transistor 74, a low signal is applied to the base terminal of the driving transistor 74. However, since the driving transistor 74 is of the PNP type, the low signal is applied to this base transistor. It turns on according to the signal. Accordingly, the bias voltage causes a driving current to flow through the switching transistor 75 and the driving transistor 74 to the magnet coil 73A of the drum motor 70. Then, as the driving current flows to the magnet coil 73A, magnetic flux is generated to rotate the rotor (not shown) with the magnetic pole magnetized. Meanwhile, if the rotor (not shown) is rotated according to the above process, The hall sensor 78 connected to the phase detects this and operates the magnet coil 73B of the next phase as in the driving process, so that the rotor rotates by a predetermined rotation angle.

Therefore, if this process is repeated, the drum motor rotates continuously, and accordingly, the head drum (not shown) linked with the drum motor is also rotated so that the head mounted on the head drum plays or records information from the videotape. Will be.

However, the driving circuit of the conventional head drum motor as described above has a drum motor driving circuit because the driving transistor 74 for applying driving power to the magnet coil 73A of the head drum motor 70 is composed of an expensive large capacity transistor. There was a disadvantage in that the manufacturing cost of the significantly increased.

In order to solve the above disadvantages, this paper proposes a drive transistor for applying a driving voltage to the magnet coil of the head drum motor by using a transistor having a small capacity so as to configure the circuit in multiple stages. Since there is no need to use a large capacity drive transistor for voltage application, the purpose is to provide a drive transistor retrofit circuit for the VAL head drum motor, which can significantly reduce the manufacturing cost of the drum motor drive circuit.

In order to achieve the above object, the present invention provides a Hall sensor for detecting the rotation of a head drum motor of a BC-AL, a NPN-type detection transistor which is turned on according to a detection signal of the Hall sensor, and a switching transistor. A transistor having low capacitance coupled to the collector stage in multiple stages to control the drive current of the magnet coil of the head drum motor, a switching transistor connected to the drive transistor means to switch the drive voltage of the magnet coil, and the switching And an amplifier connected to the base of the transistor for amplifying and outputting an input current control signal, and a microcomputer connected to the input of the amplifier for overall control of the function of the V-CAL.

1 is an explanatory diagram illustrating a conventional head drum motor,

2 is an explanatory diagram for explaining a head drum motor of the present invention.

* Description of the symbols for the main parts of the drawings *

1: Head drum motor 2: Hall sensor

3: detection transistor 4: magnet coil

5: driving transistor means 6: switching transistor

7: amplifier 8: micom

9: PNP transistor 10: NPN transistor

11: NPN transistor

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

The driving circuit of the present invention has a Hall sensor (2) for detecting the rotation of the head drum motor (1) of V-Cal as shown in Figure 2, and is turned on in accordance with the detection signal of the Hall sensor (2) to switch NPN-type detection transistor 3 and a low-capacitance transistor coupled to the collector terminal of the detection transistor 3 in a plurality of stages to control the driving current of the magnet coils 4A and 4B of the head drum motor 1. A switching transistor 6 connected to the means 5, the driving transistor means 5 to switch the driving voltages of the magnet coils 4A and 4B, and an input current connected to the base end of the switching transistor 6; An amplifier 7 which amplifies and outputs a control signal and a microcomputer 8 which are connected to the input terminal of the amplifier 7 and generally control the functional operation of the V-CAL.

A low-capacitance PNP transistor 9 is connected to the drive transistor means 5 via a resistor R1 at the collector terminal of the detection transistor 3, and a low-capacitance transistor is connected to the collector terminal of the transistor 9. The base end of the transistor 10 is connected, and the base end of the low capacitance transistor 11 is connected to the emitter end of the transistor 10. The emitter end of the transistor 9 is a switching transistor 6. The collector terminal of the transistors 10 and 11 is connected to the collector terminal of the switching transistor 6.

The emitter terminal of the transistor 11 of the driving transistor means 5 is connected to a common connection point of the magnet coil 4A of the head drum motor 1 via a resistor R2.

In addition, a bias power supply (VCC) is connected to the collector terminal of the detection transistor 3 and the base terminal of the transistor 9 of the driving transistor means 5 via resistors R1, R3, and R4, and the switching transistor The bias terminal VCC is connected to the collector terminal of 6) via a resistor R3.

Here, although the magnet coil 4A has been described only as a single phase, it is usually a multi-phase, for example, since it is composed of a two-phase motor, such a configuration circuit is also connected to the next magnet coil 4B in the same manner. .

Next, the operation of the present invention having the above configuration will be described.

As shown in FIG. 2, the microcomputer 8 drives the head drum motor 1 when a play mode or a recording mode signal is input to the VRC, as shown in FIG. 2. It is applied to the Hall sensor (2). Then, the Hall sensor 2 inputs a detection signal to the base end of the detection transistor 3 in accordance with the detection voltage, thereby turning on the detection transistor 3. When the detection transistor 3 is turned on, all of the bias voltages flow through the detection transistor 3. Therefore, no bias voltage flows to the base end of the transistor 9 of the drive transistor means 5, so that a low signal is applied to the base end of the transistor 9 of the drive transistor means 5. Since the transistor 9 of the drive transistor means 5 is a low-capacity PNP type transistor, it is turned on in accordance with this low signal. Accordingly, the bias voltage is inputted to the base terminal of the transistor 10 of the driving transistor means 5 via the switching transistor 6 and the transistor 9 of the driving transistor means 5. Then, the transistor 10 is turned on according to the input small bias voltage and amplifies the collector current flowing into the collector stage to a predetermined level, and then inputs it to the base terminal of the transistor 11 of the driving transistor means 5. . Accordingly, the transistor 11 of the drive transistor means 5 is turned on by the collector current of the input transistor 10 to amplify the bias voltage to a predetermined level so that the current is applied to the magnet coil 4A of the drum motor 1. In this case, the driving voltage input to the magnet coil 4A of the drum motor 1 is amplified to a predetermined level while passing through the combined transistors 9, 10, and 11 of the driving transistor means 5. Therefore, the same driving voltage as that supplied by the large-capacity power transistor is applied.

Then, as the driving current flows to the magnet coil 4A, magnetic flux is generated to rotate the rotor (not shown) in which the magnetic pole is magnetized. At this time, the microcomputer 8 compares the speed pulse signal input from the FG circuit of the drum motor and inputs the speed control signal of the drum motor 1 suitable for the currently set mode to the amplifier 7. Therefore, the amplifier 7 amplifies the speed control signal of the microcomputer 8 and applies it to the base end of the switching transistor 6, and the output current of the amplifier 7 is the base current of the switching transistor 6. Will be controlled. Therefore, the current supplied to the magnet coil 4A of the drum motor 1 via the driving transistor means 5 is also subtracted in accordance with the base current of the switching transistor 6, and thus the rotational speed of the drum motor 1 is reduced. Will also accelerate and decelerate.

Therefore, according to the present invention as in the above process, the driving transistor means 5 for driving the drum motor 1 is a combination of a plurality of low-cost transistors can achieve the same results as the operating characteristics of the large-capacity power transistor.

As described above, the present invention is designed to construct a drive transistor for applying a drive voltage to the magnet coil of the head drum motor in a multi-step circuit using a transistor having a small capacity, thereby providing a large capacity drive transistor for applying the drive voltage of the drum motor. Therefore, there is no need to use, and accordingly there is an effect that can significantly reduce the manufacturing cost of the drum motor drive circuit.

Claims (2)

NPN-type detection transistor 3 which is turned on according to the detection signal of the hall sensor 2 and switching transistor 6 which switches the driving voltage of the drum motor 1 in accordance with the drive switching control signal of the microcomputer 8. In the VRC head drum motor driving circuit, One end of the detection transistor (3) is characterized in that the low transistors (9, 10, 11) are coupled in a plurality of stages drive transistor means (5) for controlling the drive current of the head drum motor (1) is provided Driving transistor improvement circuit of V-Cal head drum motor. 2. The low voltage transistor of claim 1, wherein the drive transistor means connects a low-capacity PNP type transistor 9 to the collector terminal of the detection transistor 3. A base transistor is connected, and an emitter terminal of the transistor (10) is connected to the base terminal of the low-capacitance transistor (11) drive transistor improvement circuit of the BC head drum motor, characterized in that the configuration.