KR970010613B1 - Assistant power supply circuit of a power supply device - Google Patents

Abstract

The half-wave rectified voltage by the rectifier(71) is high, and the current flowing the collector of the transistor(Q61) increases. Therefore, the current flowing the transistor(Q62) increases too. Because of the increase of the collector current of the transistor(Q62) the current flowing to the capacitor(C21) decreases. But the half-wave rectified voltage by the rectifier(71) is low, the current flowing the collector of the transistor(Q61) decreases, so the current flowing the transistor(Q62) decreases too. As a result, the current flowing the capacitor(C21) of the control part(72) increases. As the current is controlled by the voltage output from the rectifier(71), the amount of the auxiliary source voltage(VCC) is maintained constantly.

Description

Auxiliary power supply circuit of power supply

1 is an auxiliary power supply circuit diagram of a general power supply.

2 is an auxiliary power supply circuit diagram of a power supply apparatus according to the present invention.

* Explanation of symbols for main parts of the drawings

1: bridge diode 2: smooth part

3: transistor 4: output part

5,73 switching unit 6,72 control unit

7: auxiliary power generator 71: rectifier

74: reset portion 75: smoothing portion

76: current control unit R21, R31, R41, R51, R52, R61: resistance

C21, C31, C51: Capacitor Q61, Q62: Transistor

SCR31, SCR41: SRC ZD21: Zener Diode

The present invention relates to a power supply device, and to an auxiliary power supply circuit of a power supply device for supplying power to a control unit for controlling a switching transistor.

As shown in FIG. 1, a general power supply device includes a bridge diode (D) for full-wave rectifying the input AC power (AC) and a smoothing part for smoothing the voltage output from the bridge diode (1). (2), a transformer (3) for outputting the voltage excited to the secondary coil by the smoothed voltage of the smoothing unit (2), a diode (Do) and a condenser (Co) comprises a An output unit 4 for rectifying the excited voltage and outputting it to a load, a switching unit 5 composed of transistors for driving the transformer 3, and sensing and switching a voltage output from the output unit 4 The control part 6 which outputs the control signal for driving the part 5, and the auxiliary power supply part 7 for supplying power to the control part 6 are comprised.

Here, the auxiliary power supply 7 includes a diode D1 for half-wave rectifying the voltage excited by the coil 13 of the transformer 3, and a capacitor C1 for smoothing the half-wave rectified voltage by the diode D1. It consists of.

In the general power supply configured as described above, firstly, the input through power AC is full-wave rectified by the bridge diode 1, and the full-wave rectified voltage is smoothed by the capacitor of the smoothing unit 2.

Then, the smoothed voltage of the smoothing part 2 is applied to the transformer 3 to be excited to the secondary coil of the transformer 3, and the excited secondary voltage of the transformer 3 is the diode of the output part 4 ( Rectified by Do), the output voltage of the rectified diode Do is output after smoothing by the capacitor Co.

Meanwhile, the output voltage of the coil 13 of the auxiliary power supply 7 of the transformer 3 is half-wave rectified by the diode D1, and the half-wave rectified voltage by the diode D1 is applied to the capacitor C2. After smoothing, it is applied to the control unit 6 to drive the control unit 6.

That is, the voltage output from the condenser Co of the output unit 4 is applied to the control unit 6 and sensed, and a control signal corresponding to the sensed voltage is output from the control unit 6, and output from the control unit 6. The control signal is applied to the transistor of the switching unit 5 to switch the transistor.

In the power supply system as described above, it is difficult to constantly maintain the auxiliary power in the case of a system in which the output voltage is variable, and in particular, when the output voltage of the output capacitor is very low, the auxiliary power cannot be kept constant.

On the other hand, the auxiliary power supply circuit of the power supply device for maintaining the auxiliary power constant even in a wide range of output voltage is excited by the auxiliary transformer of the AC power input and then full-wave rectified, the full-wave rectified voltage is applied to the regulator The secondary power supply circuit is configured to be stabilized, and the secondary power supply circuit has a problem in that the loss of the regulator is increased when the range of the input AC power is widened, and light carbon is impossible due to the auxiliary transformer.

Therefore, the present invention provides an auxiliary power supply circuit of a power supply device that can always obtain a constant auxiliary power supply voltage even when the input voltage fluctuation range is wide and the output voltage must be varied and can be light and thin.

The object of the present invention as described above is that the AC power input is full-wave rectified by the bridge diode, and the excited voltage of the transformer, in which the transistor is driven by switching by the voltage excited by the transformer, is applied to the control unit after half-wave rectified. A power supply controlled by switching, comprising: rectifying means for half-wave rectifying the output voltage of the bridge diode; and control means for controlling the output of the auxiliary power supply by outputting a control signal when the voltage output from the rectifying means is equal to or greater than a set voltage. And switching means for switching by a control signal output from the control means so that the output voltage of the rectifying means is applied to the control portion, and for switching by the switching state of the switching means to reset the control signal of the control means. And distributes the current output from the rectifying means. After Keane and filter means to filter. The current applied to the control means is controlled in accordance with the current output from the filter means, so that it can be achieved by providing a constant auxiliary power supply circuit at all times even in a wide range of input voltages.

Exemplary embodiments of an auxiliary power supply circuit of a power supply apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a view showing the configuration of the auxiliary power supply circuit of the power supply device according to the present invention, as shown in this, the bridge diode (1) for full-wave rectifying the AC power (AC) input through the power switch (SW) ), A smoothing unit (2) for smoothing the voltage output from the bridge diode (1), and a transformer (3) for outputting an excitation voltage to the secondary coil by the smoothing voltage of the ping-bow unit (2). ), A diode (Do) and a capacitor (Co), and an output unit (4) for rectifying the excited voltage of the transformer (3) and outputting it to a load, and a transistor to drive the transformer (3) A control unit 6 for sensing a switching unit 5, a voltage output from the output unit 1, and outputting a control signal for driving a transistor of the switching unit 5, and for driving the control unit 6. Beam generating auxiliary power Consists of a power generation unit (7).

Here, the auxiliary power generator 7 is composed of a diode rectifying unit 71 for half-wave rectifying the AC power AC input through the power switch (SW), the resistor (R21) and the capacitor (C21), When the half-wave rectified voltage of the Zener diode ZD21 and output from the rectifier 71 becomes equal to or higher than the set voltage of the Zener diode ZD21, the controller 72 outputs a control signal in a high potential state, and the resistor R31. ) And the condenser (C31) and SCR (SCR31)

Switch CR 73 is switched by the control signal output from the 72 so that the output voltage of the rectifier 71 is applied to the control unit 6 as an auxiliary power supply Vcc, A reset unit 74 comprising an SCR31 and a resistor R41 to switch the SCR11 by the switching state of the SCR31 of the switching unit 73 to reset the switching of the SCR31. And a filter unit 75 composed of resistors R51, R52, and capacitor C51 for distributing and filtering the half-wave rectified voltage by the rectifier 71, resistor R61, and transistor Q61. Q62 is configured to control the current flowing through the resistor R21 of the controller 72 according to the current output from the filter unit 75, and the constant auxiliary power Vcc is always output even in a wide range of input voltages. It consists of a current control unit 76.

In the auxiliary power supply circuit of the power supply device according to the present invention configured as described above, the AC power input first is full-wave rectified by the bridge diode (1), the full-wave rectified voltage is a capacitor of the smoothing unit (2) Is smoothed by

Then, the smoothed voltage of the smoothing part 2 is applied to the transformer 3 to be excited to the secondary coil of the transformer 3, and the excited secondary voltage of the transformer 3 is the diode of the output part 4 ( Rectified by Do), the output voltage of the rectified diode Do is output after smoothing by the capacitor Co.

On the other hand, AC power is applied to the rectifier 71 of the auxiliary power generator 7 to be half-wave rectified. The half-wave rectified voltage by the rectifier 71 is smoothed by the resistor R21 and the capacitor C21 of the controller 72.

When the voltage smoothed by the capacitor C21 becomes equal to or higher than the set voltage of the zener diode ZD21, the zener diode ZD21 is switched on to output a high-potential control signal.

The control signal in the high potential state is applied to the gate side of the SCR31 of the switching unit 73 so that the SCR31 is turned on, and the switching state of the SCR31 is switched. The output voltage of the rectifier 71 averaged through the resistor R3l of the switching unit 73 and the capacitor C31 is applied to the controller 6 as an auxiliary power source Vcc.

The control signal of the high potential state output from the control unit 72 is applied to the gate side of the CR (SCR41) through the resistor (R41) of the reset unit 74 is switched to the SCR41 is turned on, The smoothed voltage of the capacitor C21 is discharged by the switching state of the SCR41, and the output of the auxiliary power supply Vcc is cut off.

On the other hand, the output voltage of the rectifier 71 is divided by the resistors R51 and R52 of the filter unit 75 and the voltage is smoothed by the capacitor C51.

The voltage smoothed by the filter unit 75 is applied to the current control unit 76 through the resistor R61 to the base side of the transistors Q61 and 62 and the collector side of the transistor Q61.

That is, since the current flowing to the collector side of the transistor Q62 is controlled in accordance with the current flowing to the collector side of the transistor Q61, the current flowing to the resistor R21 of the control unit 72 is controlled.

For example, when the magnitude of the half-wave rectified voltage in the rectifier 71 is large, the current flowing to the collector side of the transistor Q61 increases, so that the current flowing to the transistor Q62 also increases, and the collector side of the transistor Q62 Due to the increase in the current, the current flowing to the condenser C21 of the controller 72 decreases.

However, if the magnitude of the half-wave rectified voltage in the rectifier 71 is small, the current flowing to the collector side of the transistor Q61 is decreased, and the current flowing to the transistor Q62 is also reduced, and the collector side of the transistor Q62 is reduced. Due to the decrease in current, the current flowing to the condenser C21 of the controller 72 increases.

Therefore, since the current is controlled in accordance with the voltage output from the rectifier 71, the size of the auxiliary power supply (Vcc) applied to the controller 6 is kept constant.

As described above, in the auxiliary power supply circuit of the power supply device according to the present invention, since the transistor is configured as a current mirror and the current varies according to the range of the input power, the auxiliary power is always constant, and the light and short reduction is possible. It works.

Claims (2)

The input AC power is full-wave rectified by the bridge diode, the excited voltage of the transformer driven by the switching of the transistor by the voltage excited by the transformer is half-wave rectified and then applied to the control unit to supply the power to control the switching of the transistor. An apparatus comprising: rectifying means for half-wave rectifying the output voltage of the bridge diode, control means for controlling the output of the auxiliary power supply by outputting a control signal when the voltage output from the rectifying means is equal to or greater than a set voltage; Switching means for switching by a control signal output from the switching means, the output voltage of the rectifying means being applied to the control unit, reset means for switching the switching signal of the switching means to reset the control signal of the control means, and the rectifying means. After distributing the current output from the filter And a current control means for controlling the current applied to the control means according to the current output from the filter means to always output a constant auxiliary power even in a wide range of input voltages. Supply circuit. The power supply apparatus according to claim 1, wherein the current control means comprises a resistance for bypassing the voltage filtered by the filter means, and a current mirror in which a current flowing through the control means is controlled by a current flowing through the resistance. Auxiliary power supply circuit.