KR0132076Y1 - Current sensing circuit of smps - Google Patents

Abstract

The present invention relates to a power supply of a monitor, and more particularly, to a current detection circuit of a power supply that can easily detect the amount of current flowing through a transformer. The present invention adds the resistance R31 of the current sensing unit 31 and the resistance R36 of the current controlling unit 32 in accordance with the presence or absence of the synchronization signal Hs to detect the current sensing unit in the power saving mode of the monitor. Also included is a current controller 32 for increasing the current sense signal Is of Is).

Description

Current detection circuit of power supply

1 is a cross-sectional view showing the configuration of a power supply of a general monitor.

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

* Explanation of symbols for main parts of the drawings

10: input unit 20: output unit

30: control signal generation circuit 40: switching unit

R31-R36: Resistor C31-C33: Capacitor

Q31-Q33: Transistor

The present invention relates to a power supply device of a monitor, and more particularly, to a current detection circuit of a power supply device that can easily detect the amount of current flowing through a transformer.

As shown in FIG. 1, the power supply of a general monitor is composed of a bridge diode (BD) and a capacitor (Cin), and after fully rectifying the input AC power (AC), the smoothing of the transformer (T) 1 Controls the input unit 1 to be applied to the secondary coil, the output unit 2 to smoothly apply the voltage to the load LD after half-wave rectifying the excitation voltage of the secondary coil of the transformer T, and the transformer T. A control signal generating circuit (3) for generating a control signal and a transistor for controlling a current flowing through the primary coil of the transformer (T) by being switched by an output signal of the control signal generating circuit (3). It consists of a switching part (4).

Here, the control signal generation circuit 3 is composed of a resistor (R31) (R32) and a capacitor (C31), the current sensing unit for detecting the output current of the switching unit 4 and outputs a current sensing signal Is (7), a voltage sensing unit (6) composed of a resistor (R33) and a capacitor (C32) for sensing an output voltage (Vo) of the output unit (2) and outputting a voltage sensing signal (Vfb); The control unit 5 changes the control signal in accordance with the change of the current sensing signal Is of the sensing unit 7 and the voltage sensing signal Vfb of the voltage sensing unit 6.

In the general power supply of the monitor, the AC power input is applied to the bridge diode BD of the input unit 1 and is full-wave rectified, and the output voltage of the bridge diode BD is the condenser Cin. Is applied to the primary coil of the transformer (T) and then smoothed.

The excitation voltage of the secondary coil of the transformer T is applied to the output unit 2, half-wave rectified, smoothed, and applied to the load LD so that the load LD operates normally.

When the monitor operates normally and the synchronization signal Hs is input, the input synchronization signal Hs is applied to the controller 5 to output a control signal in a high potential state, which is output from the controller 5. The control signal is applied to the transistor of the switching unit 4 so that the transistor is turned on.

On the other hand, the output current of the transistor of the switching unit 4 is sensed as a potential difference between both ends of the resistor R31 of the current sensing unit 7 of the control signal generation circuit 3, and the potential difference between both ends of the resistor R31 is Smoothed by the resistor R32 and the capacitor C31, this smoothed signal is applied to the controller 5 as a current sense signal Is.

The output voltage Vo of the output unit 2 is filtered by the resistor R33 and the capacitor C32 of the voltage sensing unit 6 of the control signal generation circuit 3, and the resistor R33 and the capacitor The output signal of C32 is applied to the control unit 5 as the voltage detection signal Vfb.

The control signal of the control unit 5 is varied according to the change of the current sensing signal Is of the current sensing unit 7 and the voltage sensing signal Vfb of the voltage sensing unit 6, and is output from the control unit 5. The control signal is applied to the transistor of the switching section 4 to control the switching of the transistor.

That is, the current flowing through the primary coil of the transformer T is controlled by the switching state of the transistor, and the excitation voltage of the secondary coil of the transformer T is variable by the current flowing through the primary coil of the transformer T. do.

The power supply of the general monitor as described above is designed to have a small value of the resistance R31 of the current sensing unit 7 in order to reduce the loss, but the resistance R31 of the current sensing unit 7 when the monitor is in the power saving mode. Since the value is too small, the current detection of the switching unit 4 is difficult.

Therefore, the present invention is to solve such a problem, an object of the present invention is to design the resistance value of the current sensing unit in the power saving mode of the monitor to increase, so that the current of the power supply device that can easily detect the minute current of the switching unit It is to provide a detection circuit.

The purpose of the present invention as described above is that the output current of the transistor and the output voltage of the output of the switching unit is sensed by the current sensing unit and the voltage sensing unit, respectively, the current sensing signal and the voltage sensing signal output from the current sensing unit and the voltage sensing unit Is applied to the control unit and outputs a control signal for controlling the transistor of the switching unit, the resistance value for detecting the output current of the switching unit according to the presence or absence of the synchronization signal is increased, the current in the power saving mode of the monitor It can be achieved by providing a current detection circuit of the power supply device characterized in that it further comprises a current control unit for varying the current detection signal of the detection unit.

Hereinafter, a current detection 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 current detection circuit of the power supply of the monitor according to the present invention, as shown in the figure, consisting of a bridge diode (BD) and a condenser (Cin), input AC power (AC) After the full wave rectification, the input section 10 is smoothed and applied to the primary coil of the transformer T, and the output is smoothed and applied to the load LD by half-wave rectifying the excitation voltage of the secondary coil of the transformer T. The control unit 20 includes a control unit 20, a control signal generation circuit 30 for generating a control signal for controlling the transformer T, and a transistor, and is switched by an output signal of the control signal generation circuit 30 to transform the transformer ( It consists of a switching part 40 which controls the electric current which flows through the primary coil of T).

Here, the control signal generation circuit 30 is composed of a resistor (R31) (R32) and a capacitor (C31), the current sensing unit for sensing the output current of the switching unit 40 and outputs a current sensing signal Is. (31) and the current controller 32 for varying the current sensing signal Is of the current sensing unit 31 by increasing the resistance value for sensing the output current of the switching unit 40 in accordance with the presence or absence of the synchronization signal Hs. And a voltage sensing unit 33 configured to include a resistor R37 and a capacitor C33 to sense an output voltage Vo of the output unit 20 and output a voltage sensing signal Vfb. And a control section 34 for varying the control signal in accordance with the variation of the current sensing signal Is of 31 and the voltage sensing signal Vfb of the voltage sensing section 33.

Here, the current controller 32 includes a resistor R33 and a transistor Q31 for biasing and switching the input synchronization signal Hs, a resistor R34 for controlling the output current of the transistor Q31, and a resistor. Transistor Q32 and capacitor C32 which are switched by the output signal of R34 to charge the input voltage Vcc, and resistor R35 and transistor Q33 which switch after biasing the discharge voltage of the capacitor C32. ) And a resistor R36 that increases the current sense signal Is by adding to the value of the resistor R31 of the current sensing unit 31 by the switching state of the transistor Q33.

In the current detection circuit of the power supply unit of the monitor according to the present invention configured as described above, AC power AC input first is applied to the bridge diode BD of the input unit 10, and is fully wave rectified. The output voltage is applied to the capacitor Cin, smoothed, and then applied to the primary coil of the transformer T.

The excitation voltage of the secondary coil of the transformer T is applied to the output unit 20, half-wave rectified, smoothed, and applied to the load LD so that the load LD operates normally.

When the monitor operates normally and the synchronization signal Hs is input, the input synchronization signal Hs is applied to the control unit 34 to output a control signal in a high potential state, and the control output from the control unit 34. The transistor of the switching unit 40 is turned on by the signal.

Meanwhile, in the normal mode of the monitor, the synchronization signal Hs input to the transistor Q31 is applied to the transistor Q31 through the resistor R33 of the current control unit 32 so that the transistor Q31 is turned on and the transistor Q31 is turned on. The transistor Q32 is switched to the on state by the switching state of.

The input power Vcc is applied to the capacitor C32 and charged by the switching state of the transistor Q32, and the charging voltage of the capacitor C32 is applied to the transistor Q33 through the resistor R35 to supply the transistor Q33. ) Is switched on.

When the transistor Q33 is turned on, the output current of the transistor of the switching unit 40 is sensed by the resistor R31 of the current sensing unit 31 of the control signal generation circuit 30, and the resistance ( The potential difference between both ends of R31 is filtered by the resistor R32 and the capacitor C31, and the output signals of the resistor R32 and the capacitor C31 are applied to the controller 34 as a current sense signal Is.

The output voltage Vo of the output unit 20 is filtered by the resistor R37 and the capacitor C33 of the voltage sensing unit 33 of the control signal generating circuit 30 and then the voltage sensing signal Vfb. To the control unit 34.

The control signal of the control unit 34 is varied according to the change of the current sensing signal Is of the current sensing unit 31 and the voltage sensing signal Vfb of the voltage sensing unit 33, and is output from the control unit 34. The control signal is applied to the transistor of the switching unit 40 to control the switching of the transistor.

On the other hand, since the synchronization signal Hs is not input when the monitor is in the power saving mode, the transistor Q31 of the current control unit 32 is switched to the off state, and the transistor Q32 is switched by the switching state of the transistor Q31. Is switched off.

The charging voltage of the capacitor C32 is discharged through the resistor R35 by the switching state of the transistor Q32, and when the discharge is completed, the transistor Q33 is switched to the turn-off state.

In addition, due to the turn-off state of the transistor Q33, the output current of the transistor of the switching unit 40 is controlled by the resistor R31 and the current control unit 32 of the current sensing unit 31 of the control signal generation circuit 30. Is sensed by the resistor R36 and the output currents of the resistors R31 and R36 are filtered by the resistor R32 and the capacitor C31 of the current sensing unit 13.

The output signal of the resistor R32 and the capacitor C31 of the current sensing unit 31 is applied to the control unit 34 as a current sensing signal Is, and the output voltage Vo of the output unit 20 is controlled. After filtering by the resistor R37 and the capacitor C33 of the voltage sensing unit 33 of the signal generating circuit 30 is applied to the control unit 34 as a voltage sensing signal (Vfb).

The control signal of the controller 34 is varied according to the change of the current sensing signal Is of the current sensing unit 31 and the voltage sensing signal Vfb of the voltage sensing unit 33, The control signal is applied to the transistor of the switching unit 40 to control the switching of the transistor.

The current flowing through the primary coil of the transformer T is controlled by the switching phase of the transistor, and the exciting voltage of the secondary coil of the transformer T is changed by the current flowing through the primary coil of the transformer T.

As described above, in the current detection circuit of the power supply of the monitor according to the present invention, since the output current of the transistor of the switching unit is sensed by the resistance of the current sensing unit and the resistance of the current control unit in the power saving mode of the monitor, the power of the monitor In the saving mode, it is easy to detect the output current of the switching unit.

Claims (2)

The output current of the transistor of the switching unit 40 and the output voltage of the output unit 20 are sensed by the current sensing unit 31 and the voltage sensing unit 33, respectively, and the current sensing unit 31 and the voltage sensing unit, respectively. In the power supply of the monitor for outputting a control signal for controlling the transistor of the switching unit 40 is applied to the current sensing signal Is and the voltage sensing signal (Vfb) output from the (33) The resistance value for detecting the output current of the switching unit 40 increases according to the presence or absence of the synchronization signal Hs input and connected to the current sensing unit 31, so that the current of the current sensing unit 31 in the power saving mode. And a current control unit (32) for varying the detection signal (Is). The resistor R33 and the transistor Q31 for switching and biasing the input synchronization signal Hs, and the resistor for controlling the output current of the transistor Q31. R34 and the transistor Q32 and capacitor C32 which are switched by the output signal of this resistor R34 to fill the input voltage Vcc, and the resistor which biases and discharges the discharge voltage of this capacitor C32 ( R35 and transistor Q33, and a resistor R36 that is added to the resistor R31 of the current sensing unit 31 by the switching state of the transistor Q33 to increase the current sensing resistance value. Current detection circuit of the power supply unit.