KR20150060334A - High-Power control Circuit for driving Direct Current Motor without Transformer - Google Patents

Abstract

The present invention relates to a high power control circuit for a DC motor without a transformer and, more specifically, to a high power control circuit for a DC motor, capable of driving the DC motor by receiving commercial AC power and converting the AC power into DC power without using the transformer. The high power control circuit for a DC motor without a transformer includes an AC input power source to which commercial AC is applied, an input EMI filter part which blocks the noise of the AC input power source, a rectifying unit which rectifies the AC power to the DC power, a constant voltage generating unit which is serially connected to the rectifying unit, a DC-DC converting unit which is connected to the constant voltage generating unit, a position limit setting unit which drives a position limit setting switch of the DC motor, a forward and backward rotation control unit for the DC motor, and a negative voltage switching unit.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a high-

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a trans-less DC motor drive circuit, and more particularly, to a trans-lean DC motor high output control circuit that receives a commercial AC power and converts the DC power into a DC power without using a transformer .

Motors commonly used in the industry are divided into AC motors and DC motors. Among these, small-sized electronic products usually include a small-sized DC motor.

DC motors use a relatively low DC voltage of several V to several tens V as a driving power source. Therefore, when a high commercial AC voltage of 110 V or 220 V or more is to be used as a driving power, a voltage is lowered by using a transformer, Is rectified and converted into a DC voltage to be used.

However, when a transformer is used, power consumption is increased, electromagnetic waves and noise are generated, and miniaturization of the product becomes difficult.

In recent years, switching power supply (SMPS), which is smaller and lighter than conventional linear power supplies, is used as a driving power source for DC motors. Since a small-sized transformer is also used here, Type power supply, it is difficult to miniaturize the power supply circuit with a one-chip level circuit.

In order to solve the above problems, it is an object of the present invention to provide a transformer which is constructed of a simple circuit without using a transformer and is capable of receiving a commercial AC power and driving a DC motor, And to provide a leased DC motor high output control circuit.

Another object of the present invention is to provide a high-output control circuit for a direct current motor in which a DC motor output is automatically disconnected when an overload torque is applied to the DC motor.

According to an aspect of the present invention, there is provided an AC power supply device including: an AC input power source to which a commercial AC is applied; An input EMI filter connected in parallel to the AC input power source to cut off noise of the AC input power; A rectifier connected in parallel to the AC input power source to rectify the AC power through the input EMI filter to DC power; A constant voltage generating unit connected in series to the rectifying unit to convert the DC voltage input from the rectifying unit into a reference voltage and output the converted reference voltage; A DC-DC converting unit connected to the constant voltage generating unit to convert a constant voltage output from the constant voltage generating unit into an input voltage for driving a position limit switch of the DC motor and output the input voltage; A position limit setting unit configured to receive the output voltage from the DC-DC converter and to drive the position limit switch of the DC motor; A DC motor normal rotation control unit connected to the constant voltage generating unit to receive an input voltage for driving the DC motor from the constant voltage generating unit to forward / reverse the DC motor; And a constant voltage output unit connected in series between the feedback input terminal of the constant voltage generating unit and the ground to cut off the circuit connection between the output constant voltage and the ground when a voltage is applied between the constant voltage output from the constant voltage generating unit and the ground, And a negative voltage switching unit for switching the circuit to be input to the feedback input terminal.

Further, the present invention may be configured such that the constant voltage generating unit includes a high voltage regulator having an input terminal, an output terminal, and a feedback input terminal; A first capacitor and a second capacitor connected in parallel between an output terminal of the high voltage regulator and a feedback input terminal; A diode, a diode, and a coil connected in parallel to each other in series from an output terminal of the high voltage regulator to a feedback input terminal; And a resistor connected in parallel between the cathode terminal of the zener diode and the ground, and a third capacitor.

In the present invention, when the current flowing to the feedback input terminal of the high voltage regulator exceeds 2 A, the connection between the output terminal and the circuit is cut off, so that the operation of the DC motor is stopped and the output terminal is connected to the circuit again, Is restarted.

The trans-lyzed direct current motor high output control circuit according to the present invention has a simple circuit structure without using a transformer, so that the direct current motor can be driven by receiving the commercial alternating current power.

Also, since the trans-leased DC motor high output control circuit according to the present invention can receive the commercial AC power of -95 to 265 V and the free frequency of -50 to 60 Hz, it can drive the DC motor, There is an effect that can be used regardless.

Further, in the trans-lean DC motor high output control circuit according to the present invention, when an overload torque is applied to the DC motor, the output of the DC motor is automatically disconnected to overheat the DC motor to prevent the life of the DC motor from being shortened It is effective.

Also, since the trans-lyzed direct current motor high output control circuit according to the present invention receives commercial AC power and directly rectifies it without going through a voltage down using a transformer, it converts the DC voltage into a DC voltage, and thus has a high output of a relatively high voltage and a high current .

In addition, the trans-lyzed direct current motor high output control circuit according to the present invention does not use a transformer, so that it is possible to downsize the transformerless DC motor and to reduce the manufacturing cost.

1 is a circuit diagram of a trans-lyzed direct current motor high output control circuit according to the present invention;

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below.

As shown in FIG. 1, the trans-lyzed direct current motor high output control circuit according to the present invention includes: an AC input power source 1 to which a commercial AC is applied; An input EMI filter unit (2) connected in parallel to the AC input power supply (1) to block noise of the AC input power supply (1); A rectifying part (3) connected in parallel to the AC input power supply (1), for rectifying AC power from the input EMI filter part (2) to DC power; A constant voltage generating unit (4) connected in series to the rectifying unit (3), for converting a DC voltage input from the rectifying unit (3) to a reference voltage and outputting the reference voltage; A DC-DC converting unit 5 connected to the constant voltage generating unit 4 for converting the constant voltage outputted from the constant voltage generating unit 4 into an input voltage for driving the position limit setting switch 12 of the DC motor and outputting ); A position limit setting section (6) for receiving the output voltage from the DC / DC converting section (5) and driving the position limit setting switch (12) of the DC motor; A direct current motor forward / reverse rotation control unit 7 connected to the constant voltage generating unit 4 to receive an input voltage for driving the direct current motor from the constant voltage generating unit 4 to forward / reverse the direct current motor; When a voltage is applied between the constant voltage output from the constant voltage generating unit 4 and the ground, the circuit connection between the output constant voltage and the ground is cut off and the output And a negative voltage switching unit 8 for switching a circuit so that the constant voltage can be inputted to the feedback input terminal of the constant voltage generating unit 4. [

The input EMI filter unit 2 is composed of a capacitor connected in parallel to the AC input power supply 1.

The rectifying unit 3 is composed of a full-wave bridge rectifier 9 composed of four diodes.

The constant voltage generating unit 4 includes a high voltage regulator 10 having an input terminal, an output terminal, and a feedback input terminal; A first capacitor and a second capacitor connected in parallel between an output terminal of the high voltage regulator 10 and a feedback input terminal; A diode, a zener diode, and a coil connected in parallel to each other in series from an output terminal of the high voltage regulator 10 to a feedback input terminal; And a resistor connected in parallel between the cathode terminal of the zener diode and the ground, and a third capacitor.

The constant voltage output from the constant voltage generating unit 4 is input to the feedback input terminal of the high voltage regulator 10 and the high voltage regulator 10 monitors whether or not the constant voltage output is normal.

When the current flowing to the feedback input terminal exceeds 2 A, the output of the high voltage regulator 10 is disconnected from the circuit, and the operation of the DC motor is stopped. After that, the output terminal is connected to the circuit again, Produce the action so that it starts again.

The DC-DC converter 5 includes a DC-DC converter 11 having an input terminal, an output terminal, and a ground terminal, and a capacitor connected in series between an output terminal of the DC-DC converter 11 and ground, DC converter 11 is connected to the cathode terminal of the Zener diode of the constant voltage generator 4, the ground terminal is connected to the ground, and the capacitor is connected in series between the output terminal and the ground.

The negative voltage switching unit 8 is composed of a switching diode connected in series between the feedback input terminal of the constant voltage generating unit 4 and the ground.

The position limit setting unit 6 receives the output voltage output from the DC-DC converting unit 5 and drives the position limit setting switch 12 of the DC motor.

The DC motor normal / reverse rotation control unit 7 receives the input voltage for driving the DC motor from the constant voltage generating unit 4, and rotates the DC motor forward / reverse.

The operation principle of the trans-lean DC motor high output circuit according to the present invention is as follows.

The rectifier 3 receives the commercial AC power (prevolt -95 to 265V, prefrequency -50 to 60Hz) from the AC input power supply 1 and stabilizes the input voltage to the capacitor of the input EMI filter unit 2, The rectifier 9 rectifies the alternating current to the direct current. In the constant voltage generating unit 4, the high voltage regulator 10 receives a DC voltage from the rectifying unit 3 to an input terminal, outputs an output voltage of 100 V or less to an output terminal, smoothing an output voltage with the first capacitor, Stabilizes the output voltage, converts the output voltage to a reference voltage (30 to 40 V) with a diode and a zener diode, outputs the coil to stabilize the output current, and stabilizes the output voltage again with the resistor and the third capacitor. The constant voltage output from the constant voltage generating unit 4 is input to the DC motor normal / reverse rotation control unit 7 to forward / reverse the DC motor and is output to the feedback input terminal of the high voltage regulator 10 of the constant voltage generating unit 4 A constant voltage is input to monitor whether the constant voltage output from the high voltage regulator 10 is normal. On the other hand, the constant voltage output from the constant voltage generating section 4 is sent to the input terminal of the DC-DC converter 11 of the DC-DC converter section 5 so that the DC-DC converter 11 outputs a DC voltage of 12 V Is applied to the input voltage of the position limit setting section (6) to drive the position limit setting switch (12).

The present invention is not limited to the above-described embodiments and the accompanying drawings. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims, .

1: AC input power
2: Input EMI filter section
3: rectification part
4: Constant voltage generating unit
5: DC-DC converter section
6: Position limit setting section
7: DC motor forward / reverse rotation control
8: Negative voltage switching section
9: Full-wave bridge rectifier
10: High-voltage regulator
11: DC-DC converter 12: Position limit setting switch

Claims (3)

AC input power supplied with commercial AC; An input EMI filter connected in parallel to the AC input power source to cut off noise of the AC input power; A rectifier connected in parallel to the AC input power source to rectify the AC power through the input EMI filter to DC power; A constant voltage generating unit connected in series to the rectifying unit to convert the DC voltage input from the rectifying unit into a reference voltage and output the converted reference voltage; A DC-DC converting unit connected to the constant voltage generating unit to convert a constant voltage output from the constant voltage generating unit into an input voltage for driving a position limit switch of the DC motor and output the input voltage; A position limit setting unit configured to receive the output voltage from the DC-DC converter and to drive the position limit switch of the DC motor; A DC motor normal rotation control unit connected to the constant voltage generating unit to receive an input voltage for driving the DC motor from the constant voltage generating unit to forward / reverse the DC motor; And a constant voltage output unit connected in series between the feedback input terminal of the constant voltage generating unit and the ground to cut off the circuit connection between the output constant voltage and the ground when a voltage is applied between the constant voltage output from the constant voltage generating unit and the ground, And a negative voltage switching unit for switching a circuit so as to be inputted to a feedback input terminal. The transformerless DC motor high output control circuit
The method according to claim 1,
The constant voltage generating unit includes a high voltage regulator having an input end, an output end, and a feedback input end; A first capacitor and a second capacitor connected in parallel between an output terminal of the high voltage regulator and a feedback input terminal; A diode, a diode, and a coil connected in parallel to each other in series from an output terminal of the high voltage regulator to a feedback input terminal; And a third capacitor connected in parallel between the cathode terminal of the Zener diode and the ground, and a third capacitor connected between the cathode terminal and the ground of the Zener diode.
3. The method of claim 2,
When the current flowing to the feedback input terminal exceeds 2 A, the high-voltage regulator disconnects the output terminal from the circuit, so that the operation of the DC motor is stopped. After the elapse of time, the output terminal is connected again to the circuit, A high-output control circuit

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