KR0119282B1 - Power circuits for low electric power - Google Patents

Abstract

Low electric power circuit relates to the mute circuit of the video signal having the higher quality according to the removing the video signal that is displayed from the screen, when the monitor is the stand-by mode, the suspend mode and the open mode. The monitor deflecting the video signal to the cathode rays tube according to the horizontal and vertical synchronous signal, consists of a AND gate that conjuncts the horizontal or vertical synchronous signal converting into the voltage, a mute part removing the video signal that is scanned in the cathode rays tube according to the output of the AND gate.

Description

Low power powder circuit

1 is a conventional circuit diagram.

2 is a low power power circuit diagram according to the present invention.

* Explanation of symbols for main parts of the drawings

10: power IC Q1: first transistor

Q2: 2nd transistor ZDl: Zener diode

Dl: first diode D2: second diode

Cl, C2: condenser T: transformer

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a low power power circuit, and more particularly to a low power power circuit having a power switching unit using a Darlington circuit between a load and a power supply of a monitor to minimize power consumed in an off mode. will be.

The power source switching circuit used in a power supply stage of a conventional monitor or the like operates with an 8V input power source as shown in FIG. 1, and a power IC 10 which outputs an output voltage to a collector of a power transistor and weighs the power, and this power The emitter is connected to the input power supply terminal of the IC 10 and is turned off at normal phase, and is turned on at the time of initial start-up and off of the power IC 10, and the collector and base of the transistor Q1. A resistor Rl which is commonly connected to the base and controls the current flow on the base side, a connection between the emitter of the transistor Q1 and the common contact of the power input terminal of the power IC 10 and the ground shaft of the power IC 10. Capacitor Cl to provide a voltage of a predetermined level to the power input terminal Vin, a zener diode ZD1 connected to the base of the transistor Q1 to apply a constant voltage to the base, and the transistor Q1. Collector and ground The transformer of the transistor Q1 connected to the primary side of the transformer T and the collector of the transistor Q1 connected to the primary side of the transformer Q1 and the collector of the transistor Q1 are connected to the load side. A power supply input terminal of the power supply IC 10 connected between the first diode Dl supplying 80V to the first intermediate tap of the transformer T, and the power supply input Vin of the power supply IC 10; Vin) and a second diode (D2) for supplying 8V.

Looking at the operation of the conventional switching circuit configured as described above are as follows. First, when the power IC 10 operates normally, the transistor Q1 is maintained in an off state. The voltage of the diode Dl is 80V, that is, the voltage at the collector terminal of the transistor Q1 is 80V. The base voltage is fixed at 7.5V by the zener diode ZD, and the emitter voltage is about 8V, which is the same as the voltage of the power input terminal Vin of the power IC 10. The reverse bias causes the transistor Q1 to turn off.

That is, when the monitor is normal, since the emitter voltage of the transistor Q1 is fixed by the capacitor Cl, the transistor Q1 is turned off because the emitter potential is higher than the base because the emitter voltage is always about 8V. Will be maintained.

On the other hand, when the transistor Q1 is turned on, the power input terminal Vin of the power IC 10 reaches 8V until the moment when the power IC 10 operates normally, that is, the voltages d1 and d2 of the transformer T. It turns on until the moment when it reaches the normal voltage, and turns on even in the off mode.

That is, before the power IC 10 operates at a normal voltage, the voltage charged in the capacitor Cl is lower than the base voltage of the transistor Q1, so that the transistor Q1 is turned on, and then the capacitor Cl is charged to 8V. Is generated, the transistor Q1 is turned off.

In the off mode of the monitor, the residual voltage of the secondary side of the transformer T is applied to the primary side in reverse, so that the collector voltage of the transistor Q1 is about 10V, so that the base voltage of the transistor Q1 is the emitter voltage. As the transistor Q1 is turned on, the voltages d1 and d2 of the transformer T are supplied to the input power supply terminal Vin of the power supply IC 10 so that the power supply IC 10 is supplied with the minimum power even in the off mode. It keeps working.

However, in the conventional power supply switching circuit as described above, in order to drive the base of the transistor Q1 in the off mode, a large driving current must be applied so that the power consumption of the resistor Rl connected to the transistor Q1 is 0.64W. As a result, there was a drawback that the power consumption increased.

Accordingly, the present invention has been made to solve the above-mentioned drawbacks, and the switching operation of the power supply stage and the load stage is composed of a Darlington amplifier, so that the switching operation can be minimized. The goal is to provide a low power power circuit that can be reduced to a minimum.

In order to achieve the above object, the present invention operates with an 8V input power supply, and outputs a power voltage to the collector of the power transistor to control the power and an emitter connected to the input power terminal of the power supply IC. A first transistor that is turned off and turned on at the initial start-up and off of the power IC, a resistor commonly connected to the collector and the base of the first transistor to control the current flow on the base side, and the emitter of the first transistor And a capacitor connected between the common contact of the input power terminal of the power IC and the ground side of the power IC to provide a voltage of a predetermined level to the power input terminal, and connected to the base of the first transistor to apply a constant voltage to the base. Between the zener diode and the collector and ground side of the first transistor. A transformer having a primary coil connected to the load side and a secondary coil connected to the load side; a first diode connected to the collector of the first transistor and the primary side of the transformer, and supplying 80 V to the collector of the first transistor in a normal state; A circuit comprising a second diode connected between a primary side tab of a transformer and a power input terminal of the power IC to supply 8V to a power input terminal of the power IC, wherein the circuit comprises a second diode between the base and the resistor of the first transistor. And a second transistor coupled to the first transistor and Darlington.

Hereinafter, an embodiment of the present invention low power powder circuit will be described in detail with reference to the attached drawings.

2 is a circuit diagram of the present invention, which operates with an 8V input power source, emits an output voltage to a power transistor collector to control a power, and an emitter at a power input terminal Vin of the power IC 10. A second transistor Q2 connected to and normally turned off at the time of initial start-up and the off mode of the power IC 10 and Darlington connected to the second transistor Q2 and applied to the base thereof. The first transistor Q1 turned on by the first transistor Q1, the resistor Rl commonly connected to the collector and the race of the second transistor Q2 to control the current flow on the base side, and the first transistor Q1 It is connected between the common contact of the power input (Vin) of the emitter and the power IC (10) and the ground side of the power IC (10) to provide a voltage of a predetermined level (e.g. 8V) to the power input (Vin) terminal. Connected to the capacitor Cl and the base of the second transistor Q2 A Zener diode ZD1 for applying a constant voltage to the base, a transformer T having a primary coil connected between a collector of the first transistor Q1 and a ground side, and a secondary coil connected to a load side; The first diode Dl connected to the collector of the first transistor Q1 and the primary side of the transformer and supplying 80 V to the collector of the second transistor Q2 when normal, and the primary side intermediate tap of the transformer T. And a second diode D2 connected between the power input terminal Vin of the power IC 10 and supplying 8V to the power input terminal of the power IC 10.

Meanwhile, referring to the operation of the low power power circuit configured as described above, first, when the power IC 10 operates normally, the first transistor Q1 and the second transistor Q2 remain in an off state, which is a diode Dl. ) Is 80V and the base voltage is fixed at 7.5V by the zener diode (ZD1), so the emitter voltage is about 8V, which is the same as the voltage of the power input terminal (Vin) of the IC 10, so that the first and second transistors ( Q1) (02) is all turned off.

On the other hand, in the off mode of the monitor, the residual voltage of the secondary side of the transformer T is applied to the primary side in reverse, so that the collector voltage of the second transistor Q2 becomes about 10V, thereby reducing the base voltage of the second transistor Q2. It becomes larger than the emitter voltage and the second transistor Q2 is turned on. Therefore, the first transistor Q1 to which the voltage applied from the emitter end of the second transistor Q2 is connected in the Darlington manner is also turned on.

At this time, since the first transistor Q1 and the second transistor Q2 are connected in a Darlington manner to drive the base of the second transistor Q2 with a small current, the second transistor Q2 is turned on and thus the second transistor Q2 is turned on. Since the resistor Rl connected to the two transistors Q2 can be replaced by 1 / 2W from the existing 2W, the power consumed by the resistor Rl is reduced to about 0.12W. As a result, in the case of the off mode of the monitor, the use of the first and second transistors Q1 and Q2 of the Darlington method results in a power reduction of about 0.8 W to 1 W.

As described above, the present invention includes a power switching unit in which two transistors are connected to the monitor power supply terminal and the load terminal in a Darlington manner, thereby consuming power of the resistor Rl connected to the base of the second transistor Q2 in the off mode. Can be reduced from 0.64W to about 0.12W.

Claims (1)

The power supply operates at an input power of a predetermined level and emits an output voltage to the collector of the power transistor to control the power, and an emitter is connected to the power input terminal Vin of the power IC. A first transistor which is turned off and connected to the second transistor Q2 and Darlington connected to the second transistor Q2, which is turned on at the initial startup of the power IC 10 and in the off mode, and is turned on by a voltage applied to the base. A resistor Rl commonly connected to the transistor Q1, the collector of the second transistor Q2 and the base to control the current flow on the base side, and the emitter and power IC 10 of the first transistor Q1. A capacitor Cl connected between a common contact of the power input Vin of the power supply input Vin and a ground side of the power supply IC 10 to provide a voltage of a predetermined level to the power input terminal Vin, and the second transistor Q2. Even if a constant voltage is applied to the base And a transformer (T) in which a primary coil is connected between the zener diode 2D1, the collector of the first transistor Q1 and the ground side, and a secondary coil is connected to the load side, and the first transistor Q1 A first diode Dl connected to the collector and the primary side of the transformer and supplying 80V to the collector of the second transistor Q2 when normal, the primary side tab of the transformer T, and the power IC 10; And a second diode (D2) connected between a power supply input terminal (Vin) and a supply of 8V to the power input terminal of the power supply IC (10).