KR101493520B1 - Dual output SMPS Device - Google Patents

Abstract

The present invention relates to a dual output SMPS device in which stability of dual output voltage is improved and output efficiency is improved without adding a regulator using the output voltage of a secondary output terminal. According to the present invention, the dual output SMPS device comprises: a transformer having a first output terminal and a second terminal at a secondary side, such that a DC is inputted to a primary side by a switching of a first switching element and an AC proportional to a turns ratio is induced; a first switching control unit which detects a voltage outputted from the first output terminal of the secondary side and controls the switching of the first switching element according to the output voltage; a second switching element which switches the AC induced in the second output terminal of the secondary side; and a second switching control which detects a voltage outputted in the second output terminal and controls a switching of the second switching element according to the output voltage.

Description

Dual output SMPS device < RTI ID = 0.0 >

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a SMPS (Switching Mode Power Supply) device, and more particularly, to a dual output SMPS device capable of stabilizing a dual output voltage and improving output efficiency by using a synchronous rectifier without adding a constant voltage regulator .

Generally, SMPS refers to a power supply using a switching circuit as one type of power supply for supplying power to a computer system. It is more efficient and durable than a conventional linear power supply, and is small and lightweight It is advantageous.

These SMPSs are applied not only for industrial use but also for home appliances. In household appliances, a flyback type dual output SMPS device is applied for SMPS standardization.

1 is a schematic diagram of a dual output SMPS according to the prior art.

Referring to FIG. 1, in the conventional dual output SMPS circuit 10, the input DC voltage Vin is supplied to the primary side of the transformer PT by the switching operation of the switching element Q. The switching element Q performs a switching operation by the switching control unit 11 according to the first output voltage Vo1 of the secondary side, and time-divides the input DC voltage Vin into a rectangular AC.

When a DC voltage is applied to the primary side of the transformer (PT), an AC voltage proportional to the respective turns ratio is induced in the first and second output terminals of the secondary side, respectively. Each of the alternating-current voltages thus induced is converted into direct-current voltages Vo1 and Vo2 by the rectifying means D1 or D2 and the smoothing means C1 or C2. The output voltage Vo1 of the first output terminal of the secondary side is detected by the switching controller 11 and the switching control signal corresponding to the detected value is fed back to the switching element Q to adjust the duty ratio . Although the switching control unit 11 is connected to the first output terminal of the secondary side in the figure, it may also be connected to the second output terminal. In another embodiment, the switching controller 11 may be connected to the first and second output terminals of the secondary side at the same time to feed back the control signal to the switching element Q.

This conventional dual output SMPS circuit 10 has a small number of elements and a simple structure when applied to a low power load, so that the cost can be minimized. On the other hand, the control of one of the two outputs causes a cross regulation problem in which the other output fluctuates. To solve this problem, a constant voltage regulator or a DC / DC converter (not shown) is necessarily required.

In this prior art, the efficiency of the circuit is reduced by adding a regulator, and it is difficult to establish a standardization method of the regulator according to the capacity of the output voltages (Vout1, Vout2) outputted to the first and second output terminals of the secondary side. There is a problem that the cost of additional installation increases.

In addition, in this conventional technique, since one feedback control unit is used, it is difficult to independently control two output stages, thereby limiting the efficiency of the SMPS.

Korean Patent No. 0769350 Korean Registered Patent No. 1163186

SUMMARY OF THE INVENTION It is an object of the present invention to provide a dual output SMPS device capable of maintaining a constant voltage output at both the first and second output stages by independently controlling the first and second output terminals of the secondary side A dual output SMPS device is provided.

According to an aspect of the present invention, there is provided a dual output SMPS device including:

A transformer having a first output terminal and a second output terminal on the secondary side so that a direct current is inputted to the primary side by switching of the first switching element and an alternating current proportional to the winding ratio is induced; A first switching control unit for detecting a voltage output from the first output terminal of the secondary side and controlling switching of the first switching device according to the output voltage; A second switching device for switching an alternating current induced in a second output terminal of the secondary side; And a second switching controller for detecting a voltage output from the second output terminal and controlling switching of the second switching element according to the output voltage. When the second switching element is turned on, the current of the second output terminal decreases in the negative direction until the duty ratio of the second output terminal is completed, and the average value thereof is decreased And the output voltage of the second output terminal is maintained to be the reduced average value.

In the present invention, it further includes a diode connected in parallel to the second switching element in the reverse direction.

In the present invention, when the first switching element is off, the second switching element is turned on.

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According to the present invention, it is possible to stabilize the output voltage of the dual output and to output the constant voltage without adding an additional constant voltage regulator to solve the problem of cross regulation as compared with the conventional technology.

In addition, according to the present invention, since the first and second output terminals of the secondary side independently perform a constant voltage output, the efficiency can be improved as compared with the prior art.

1 is a circuit diagram of a conventional dual output SMPS device.
2 is a circuit diagram of a dual output SMPS device in accordance with the present invention;
3 is a waveform diagram showing the operation principle of a dual output SMPS device according to the present invention;
4 is a simulation waveform diagram of an output voltage in a dual output SMPS device according to the prior art and the present invention according to a change in input voltage.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In the following description, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

First, repetitive explanations of the same components as those of the prior art are omitted, and the same reference numerals are used for the same configurations as those of the prior art.

2 is a circuit diagram of a dual output SMPS device according to an embodiment of the present invention.

Referring to FIG. 2, a dual output SMPS device 100 according to an embodiment of the present invention includes a transformer (PT) having a dual output. A DC voltage (Vin) is input to the primary side of the transformer (PT) by the switching operation of the first switching device (Q). Thus, alternating current is induced in the first output terminal and the second output terminal of the secondary side according to the respective winding ratios. Since the amount of energy transmitted from the primary side to the secondary side of the transformer PT depends on the amount of energy transmitted to the first output terminal of the secondary side, the first switching controller 110 are connected.

The first switching control unit 110 detects the output voltage Vo1 output from the first output terminal of the secondary side and controls the switching operation of the first switching device Q according to the output voltage Vo1. More specifically, when the load connected to the first output terminal of the secondary side is detected, the first switching control unit 110 may prevent the voltage of the second output terminal of the secondary side from rising The first switching control unit 110 outputs a switching control signal so that the duty ratio of the first switching device Q is reduced so that the second output terminal of the secondary side can maintain the constant voltage output Vo2.

The first switching control unit 110 controls the first switching control unit 110 to prevent the output voltage Vo2 of the secondary side second output terminal from decreasing when the output voltage Vo1 of the first output terminal of the secondary side rises, The output voltage Vo2 of the second output terminal of the secondary side can maintain the constant voltage output by outputting the switching control signal so that the duty ratio of the first switching device Q is increased.

In addition, the dual output SMPS device 100 according to the present invention includes a second switching device Q 'for switching an alternating current induced in accordance with the ratio of turns to the second output terminal of the secondary side of the transformer PT. The second switching device Q 'switches the AC current to the second output terminal through the switching operation. The first and second switching elements Q and Q 'may be implemented as a mosfet switch, for example.

In addition, the dual output SMPS device 100 of the present invention detects the output voltage Vo2 output from the second output terminal of the secondary side and switches the second switching device Q 'according to the detected output voltage Vo2 And a second switching control unit 120 for controlling operations. Accordingly, two independent switching controllers 110 and 1250 are connected to the respective output terminals, respectively, to perform the switching control. The second switching controller 120 controls the duty ratio of the second switching element Q 'to prevent the load on the secondary side second output terminal from being reduced as a result of detecting the load on the secondary side of the secondary side, So that the secondary side second output terminal can maintain the constant voltage output.

In this case, the second switching device Q 'in this embodiment includes a diode D connected in parallel to the second switching device Q' in the reverse direction so as to conduct the alternating current to the second output terminal in the reverse direction. The second switching element Q 'is turned on when the first switching element Q is turned off.

Furthermore, in this embodiment, the first and second switching controllers 110 and 120 include a comparator (not shown) for comparing the output voltages Vo1 and Vo2 of the first and second output terminals with predetermined reference voltages, And a PWM module (not shown) for outputting a predetermined PWM signal according to the comparison result of the comparator. The first and second switching controllers 110 and 120 output a PWM signal for controlling the switching operation of the first and second switching elements Q.Q 'according to the output voltage and the reference voltage of each output terminal, So that the constant output voltages Vo1 and Vo2 of constant voltage are maintained.

3 is a waveform diagram illustrating the operation of a dual output SMPS device in accordance with the present invention.

Referring to FIG. 3, it is assumed that the dual output SMPS device 100 of the present invention operates in DCM (Discontinuous Conduction Mode). The operation principle of each mode is the same as that of the conventional DCM dual output SMPS device when the load is full, but the duty ratio of the second output terminal increases as the load of the second output terminal becomes lower, (t2 to t3, t3 to t4, and t4 to t5) are changed in the three modes (t1, t1 to t2). Of the modified modes, the third mode (t2 to t3) corresponds to the duty ratio of the second output stage as the load decreases and increases.

As shown in FIG. 3, the second switching element Q 'is turned on for t1 to t3 when the first switching element Q is turned on at t0 to t1 and turned off at t1. At this time, the third mode (t2 to t3) is started. When the third mode (t2 to t3) is started, the current i _SR of the second output terminal decreases in the negative direction until the duty ratio of the second output terminal ends. As a result, the average of the currents at the second output terminal is reduced, so that the output voltage Vo2 at the second output terminal can be controlled at a constant voltage.

Then, the fourth mode (t3 to t4) starts when the duty ratio of the second output end ends. The negative current flowing from the second output terminal flows in the dot direction of the primary side and flows through the output capacitor of the first switching device Q to discharge the first switching device Q to turn on. The fourth mode is ended when the current charged in the magnetizing inductance of the secondary side goes to the primary side and the current i _ds of the first switching device Q becomes zero.

Subsequently, the fifth mode (t4 to t5) is started when the current i _ds of the first switching device Q becomes zero and the gate signal of the first switching device Q is high, Lt; / RTI >

FIG. 4 is a simulation waveform diagram of a dual output SMPS device according to the present invention and a conventional technology according to a change in input voltage.

4 (a) is a comparison between a secondary side output voltage of the conventional SMPS device and an SMPS device of the present invention when the input voltage is 85 V, and FIG. 4 (b) Side output voltage. 4 (a) and 4 (b), in the case of the conventional SMPS device, the constant output voltage of the first output terminal is maintained at a constant voltage of 5 V, while in the case of the second output terminal, It can be seen that, in the prior art, fluctuation occurs.

Although the present invention has been described in detail with reference to preferred embodiments thereof, it is to be understood that the invention is not limited to the details of the illustrated embodiments. Those skilled in the art will appreciate that various modifications, additions and substitutions are possible, without departing from the scope of the appended claims, The genius will be so self-evident. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims.

PT: Transformer Q, Q ': Switching element
110: first switching control unit 120: second switching control unit

Claims (4)

A transformer having a first output terminal and a second output terminal on the secondary side so that a direct current is inputted to the primary side by switching of the first switching element and an alternating current proportional to the winding ratio is induced;
A first switching control unit for detecting a voltage output from the first output terminal of the secondary side and controlling switching of the first switching device according to the output voltage;
A second switching device for switching an alternating current induced in a second output terminal of the secondary side; And
A second switching control unit for detecting a voltage output from the second output terminal and controlling switching of the second switching device according to the output voltage; Lt; / RTI >
When the second switching device is turned on, the current of the second output terminal decreases in the negative direction until the duty ratio of the second output terminal is completed, the average value thereof is decreased, and the reduced average value So that the output voltage of the second output stage is maintained. The method according to claim 1,
And a diode connected in parallel backward to the second switching device. 3. The method of claim 2,
And the second switching device is turned on when the first switching device is off. delete

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