KR0130291Y1 - Auxiliary power circuit of power supply - Google Patents

Abstract

The present invention relates to a power supply, and more particularly, to an auxiliary power circuit of a power supply for supplying the power required when the mode of the monitor is switched to minimize the power consumption.

The present invention is a power supply of a monitor driven by a voltage excited on the secondary coil of the transformer, the auxiliary power output means for outputting the excited power of the transformer when the mode switching of the monitor, and auxiliary power output Auxiliary power supply control means for applying a negative output voltage to the load driven when the mode is switched by the control signal is further included.

Description

Auxiliary Power Circuit of Power Supply

1 is a view showing the configuration of a general power supply.

2 is a view showing the configuration of the auxiliary power circuit of the power supply according to the present invention.

* Explanation of symbols for main parts of the drawings

1: bridge diode 2: smooth part

3: output unit 4: control unit

5: auxiliary power output unit 6: auxiliary power control unit

R51, R61-R66: Resistor ZD61: Zener Diode

Q61-Q64: Transistor D51: Diode

C51: Condenser

The present invention relates to a power supply, and more particularly, to an auxiliary power circuit of a power supply for supplying the power required when the mode of the monitor is switched to minimize the power consumption.

In general, the monitor has a suspend mode in which only a microprocessor and a heater are driven, an off mode in which only a heater is driven, and all the systems of the monitor, depending on whether horizontal or vertical synchronization signals are input to reduce power consumption. It is set to the operating on mode.

At this time, the power required to drive the microprocessor and the heater is supplied by a power supply device. As shown in FIG. 1, the power supply of a general monitor is provided with an AC power source AC through a power switch SW. A bridge diode (1) that is full-wave rectified and a capacitor, and the smoothing unit (2) applied to the primary side of the transformer (T) after the output voltage of the bridge diode (1) is smoothed, the diode (D0) and the capacitor ( C0) and is excited to the secondary coil of the transformer T. After the voltage is half-wave rectified, the output unit 3 is smoothed and applied to the load LD1. The output unit 3 includes a control unit 4 in which the driving of the transformer T is controlled according to the output voltage.

In the general power supply structure configured as described above, first, when the AC power AC is input through the power switch SW, the AC power input is applied to the bridge diode 1 to be fully-wave rectified and then smoothed ( 2) is applied and smoothed.

The output voltage of the smoothing unit 2 is applied to the primary coil of the transformer T, and the voltage excited on the secondary coil of the transformer T is half-wave rectified by the diode Do of the output unit 3. do.

The half-wave rectified voltage of the diode D0 is smoothed by the condenser C0 and then applied to the load LD1, and the voltage applied to the load LD1 is applied to the control unit 4 and applied to the load LD1. The amount of current flowing in the transformer T is controlled in accordance with the applied voltage.

If the monitor is set to the suspend mode or the off mode at this time, the excited voltage of the transformer T is reduced to about 1/10 so that the voltage applied to the load LD1 becomes small, so that the load LD1 is not driven. do.

As described above, the general power supply device uses a separate regulator for supplying the necessary power to the load even when the mode is switched, since the voltage of the transformer is constant when the monitor is set to the suspend mode or the off mode. There was a problem that should be.

Accordingly, the present invention is to solve such a problem, and the object of the present invention is to provide an auxiliary power circuit of a power supply device having a simple configuration of an auxiliary power circuit required for a load driven at the time of mode switching and a low cost. have.

An object of the present invention as described above, in the power supply of the monitor is driven by the voltage excited on the secondary coil of the transformer, the auxiliary power output means for outputting the excited power of the transformer when the mode switching of the monitor, It can be achieved by providing an auxiliary power circuit of the power supply device, characterized in that the auxiliary power output unit further comprises an auxiliary power control means for driving the output voltage of the auxiliary power output unit is switched to the mode by the control signal.

Hereinafter, an embodiment of an auxiliary power circuit of a power supply device according to the present invention will be described in more detail with reference to the accompanying drawings.

2 is a view showing the configuration of the auxiliary power circuit of the power supply device according to the present invention, as shown in this, the bridge diode (1) is a full-wave rectified AC power (AC) input through the power switch (SW) And a smoothing part 2 applied to the primary side of the transformer T after the output voltage of the bridge diode 1 is smoothed by the condenser and a diode Do and a condenser C0. The driving part of the transformer T is controlled according to the output part 3 which is smoothed after being excited by the secondary coil of the secondary coil and applied to the load LD1 and the output voltage of the output part 3. The control unit 4, the auxiliary power output unit 5 which is smoothed after half-wave rectification of the auxiliary power excited to the secondary coil of the transformer T, and the output voltage of the auxiliary power output unit 5 are controlled. It is driven by the auxiliary power control unit 6 which is driven during the mode switching by the signal CS and applied to the load LD2. It is made.

Here, the auxiliary power control unit 6 is a resistor (R61) (R62) for distributing the control signal (CS) input at the time of mode switching, and the transistor (Q61) switched by the divided voltage of the resistor (R61) (R62). ), The transistor Q62 switched by the output voltage of the transistor Q61, the transistor Q63 switched by the switching state of the transistor Q62, and the switching state of the transistor Q63. Through the resistor R63 to which the output voltage of the power output unit 5 is biased, the zener diode ZD61 for setting a constant voltage, and the transistor Q63 switched by the set voltage of the zener diode ZD61. The output auxiliary power supply is constituted by the transistor Q64 which is humanized to the load LD2.

In the auxiliary power circuit of the power supply apparatus according to the present invention configured as described above, the case where the monitor is in the on mode will be described first.

The AC power AC input through the power switch SW is applied to the bridge diode 1 and is full-wave rectified. The output voltage of the bridge diode 1 is applied to the capacitor of the smoothing unit 2 and smoothed.

The output voltage of the smoothing unit 2 is applied to the primary coil of the transformer T, and the excited voltage of the secondary coil of the transformer T is half-wave rectified by the diode D0 of the output unit 3. do.

The output voltage of the diode D0 of the output part 3 is applied to the load LD1 after being smoothed by the capacitor C0.

The voltage applied to the load LD1 is applied to the controller 4 to control the amount of current flowing through the primary coil of the transformer T.

On the other hand, the excited auxiliary voltage of the secondary side auxiliary coil of the transformer T is smoothed after half-wave rectified by the diode D51 and the capacitor C51 of the auxiliary power output unit 5.

The control signal CS, which is input in the high potential state when the monitor is set to the normal mode, is distributed by the resistors R61 and R62 of the auxiliary power control unit 6, and the divided voltages of the resistors R61 and R62 are distributed. Is applied to the transistor Q61 so that the transistor Q61 is turned on.

Since the output voltage of the transistor Q61 is turned to the low potential state by the turn-on state of the transistor Q61, the transistor Q62 is switched to the turn-off state and the transistor Q62 is turned off by the turn-off state of the transistor Q62. Since the output voltage of the transistor is in the high potential state, the transistor Q63 is switched to the off state.

That is, the output voltage of the auxiliary power supply output section 5 is not applied to the load LD2 by the switching state of the transistor Q63.

On the other hand, when the monitor sets the monitor to the suspend mode or the off mode in order to minimize the power consumption, the control signal CS input in the low potential state is the resistance (R61) (R62) of the auxiliary power control section 6 ), And the divided voltages of the resistors R61 and R62 are applied to the transistor Q61 so that the transistor Q61 is turned off.

Since the output voltage of the transistor Q61 is turned into the high potential state by the turn-off state of the transistor Q61, the transistor Q62 is switched to the turn-on state, and the transistor Q62 is turned on to turn on the transistor Q62. Since the output voltage is at the low potential state, the transistor Q63 is switched to the on state. That is, the output voltage of the auxiliary power supply output section 5 is applied to the base side of the transistor Q64 through the transistor Q63 and the resistor R66 by the switching state of the transistor Q63.

At this time, the auxiliary voltage applied to the base side of the transistor Q64 is clamped to the set voltage of the zener diode ZD61, and the output voltage of the zener diode ZD61 is applied to the transistor Q64, so that the transistor Q64 is turned on. The output voltage of the transistor Q63 is applied to the load LD2 through the transistor Q64 by the turn-on state of the transistor Q64.

That is, the auxiliary voltage of the auxiliary power output unit 5 is applied to the load LD2 and driven through the transistors Q63 and Q64.

As described above, the auxiliary power circuit of the power supply device according to the present invention is driven by the voltage excitation from the auxiliary coil of the transformer, which is a load operated when the suspend mode or the off mode of the monitor is set, As the load is operated sadly, the suspend mode or the off mode is set to be stable, thereby reducing power consumption to a minimum.

Claims (1)

In the power supply of the monitor that the load is driven by the voltage excited on the secondary coil of the transformer, the auxiliary power output unit (5) which outputs the excited power of the transformer when the mode switching of the monitor, and is input during the mode switching Resistors R61 and R62 to which the control signal CS is distributed; A transistor Q61 switched by the division voltage of the resistors R61 and R62; A transistor Q63 switched by the switching state of the transistor Q62; A resistor R63 in which the output voltage of the auxiliary power supply output means is biased by the switching state of the transistor Q63; A zener diode ZD61 in which an output voltage of the resistor R63 is clamped to a set voltage; Auxiliary power supply control circuit 6 composed of a transistor Q64 that is switched by the set voltage of the zener diode ZD61 and output through the transistor Q63 is applied to the load LD2, the auxiliary power supply An auxiliary power circuit of a power supply device, characterized in that the output voltage of the output unit 5 is applied to the load from the control signal according to the mode switching.