KR19980017810A - Monitor Power Current Sensing Device - Google Patents

Abstract

The present invention relates to a power supply current sensing device of a monitor, the device of the present invention is turned on / off by a PWM control signal switching unit for supplying a DC power supply voltage applied from the power supply (SMPS) to the flyback transformer (FBT) (10) and; A PWM control unit 20 forcibly turning off the switching unit 10 by adjusting a PWM control signal when a predetermined current or more is input to the current detection terminal; A power supply current sensing device of a monitor provided with a DC / DC converter 30 for appropriately processing the power supply voltage B + supplied to the flyback transformer FBT and inputting the signal to the current detection terminal of the PWM controller 20. A detection resistor (40) connected between the DC / DC converter (30) and a flyback transformer (FBT) to detect a power supply current (B +) input to the flyback transformer (FBT); A detection signal output unit 50 for outputting an overcurrent detection signal when a difference between the voltages between the detection resistors 40 is greater than or equal to a reference value; When the overcurrent detection signal is input, the current supply unit 60 supplies an overcurrent to the current detection terminal of the PWM control unit 20. The B + voltage is caused by a load variation or a short circuit of the flyback transformer FBT. When this rises, the effect is to protect the power supply circuit by cutting off the B + voltage supplied to the flyback transformer (FBT).

Description

An apparatus for sensing power current in a monitor

The present invention relates to a power supply current sensing device of a monitor, and more particularly, to a power supply current sensing device configured to detect a power supply current and cut off a power supply voltage supplied to a flyback transformer when the power supply current is above a predetermined value.

In general, the power supply circuit of the monitor plays a role of properly supplying the voltages required by each part of the monitor. Related to this technology, the SMPS (Switched Mode Power) is smaller, lighter and more efficient than the linear power supply. The supply of switching power supply is rapidly developing.

In particular, since the voltage supplied from the switching power supply SMPS to the high voltage circuit or the horizontal output circuit must be changed according to the horizontal frequency (this voltage is referred to as B + voltage), a DC / DC converter is required.

That is, as shown in FIG. 1, a DC power supply voltage (typically 200 V) is applied from a switching power supply SMPS through a drain end of a field effect transistor FET, and the DC power supply voltage is converted into a DC / DC converter through a source end. Supply to one end of primary winding of (DDC). Accordingly, the power supply voltage B + output through the other end of the DC / DC converter (DDC) primary winding is supplied to the flyback transformer FBT.

In this case, the turn on / off of the field effect transistor FET is controlled by a PWM control signal output from the PWM controller 1.

That is, when the field effect transistor (FET) transitions to an on state after being maintained in an off state for a predetermined time according to a PWM control signal, the power current supplied through the drain terminal is transferred to the DC / DC converter (DDC) through the source terminal. Flow into the primary winding.

In this case, the PWM controller 1 receives a voltage output from the flyback transformer FBT through a feedback terminal. When the feedback voltage is greater than an internal reference voltage, the PWM controller 1 outputs a PWM control signal having a short on time to the field effect transistor FET. By supplying to the gate terminal of the ()), the on-time of the field effect transistor (FET) is shortened, thereby changing the magnitude of the input voltage and output voltage of the flyback transformer (FBT). On the contrary, when the feedback voltage is smaller than the reference voltage, the PWM control signal having a long on time is supplied to the gate terminal of the field effect transistor FET, thereby lengthening the on time of the field effect transistor FET.

In addition, the voltage induced through the secondary winding of the DC / DC converter (DDC) is repeatedly charged and discharged through the resistor (R2) and the capacitor (C2) to be fed back into the current detection stage of the PWM controller (1). The PWM controller 1 may adjust the on / off time of the PWM control signal according to the charge / discharge rate of the capacitor C2.

That is, the PWM controller 1 receives a feedback input of the voltage output from the flyback transformer FBT and the current signal output from the secondary winding of the DC / DC converter DDC and compares it with an internal reference voltage, thereby providing a PWM control signal. It is designed to adjust the duty rate of.

However, since the PWM control unit 1 operates only within the horizontal frequency variation range according to the mode conversion, the PWM control unit 1 may be caused by a load variation of the flyback transformer FBT (for example, an abnormality in the horizontal deflection circuit) or a short circuit. When the voltage B + suddenly rises, the duty ratio of the PWM control signal cannot be adjusted, and there is a problem in that the power supply circuit cannot be protected by the conventional method.

Accordingly, the present invention has been made to solve the above problems, by detecting the B + current and forcibly turning off the field effect transistor (FET) when the B + current is above a predetermined value, it is supplied to the flyback transformer (FBT) Its purpose is to provide a power supply current sensing device for a monitor that is intended to block the B + voltage.

In accordance with an aspect of the present invention, there is provided a power supply current sensing device of a monitor, the switching unit being turned on / off by a PWM control signal to supply a DC power supply voltage supplied from a power supply to a flyback transformer; A PWM control unit forcibly turning off the switching unit by adjusting a PWM control signal when a predetermined current or more is input to the current detection terminal; A power supply current sensing device of a monitor having a DC / DC converter for properly signal-processing a power supply voltage supplied to the flyback transformer and inputting the signal to a current detection terminal of the PWM controller, wherein the DC / DC converter and a flyback transformer are disposed between the DC / DC converter and the flyback transformer. A detection resistor connected to the detection resistor for detecting a power supply current input to the flyback transformer; A detection signal output unit configured to output an overcurrent detection signal when a difference between the voltages across the detection resistor is greater than or equal to a reference value; Receiving the over-current detection signal is characterized in that the current supply unit for supplying an overcurrent to the current detection stage of the PWM control unit.

That is, according to the present invention, a constant current is supplied to the current detection terminal of the PWM controller by an overcurrent detection signal generated when the difference between the voltages of the detection resistors is greater than or equal to a reference value, whereby the PWM controller forces the switching unit to turn off the power supply circuit. It is intended to protect.

1 is a circuit diagram showing a power supply current sensing device of a typical monitor,

2 is a circuit diagram illustrating a power supply current sensing device of a monitor according to the present invention.

* Names of symbols according to the main parts of the drawings

10: switching unit (FET) 20: PWM control unit

30: DC / DC converter 40: current detection resistor (Rs)

50: detection signal output unit 60: current supply unit

OP: Comparator R: Voltage setting part (R 1,2,3,4)

TR 1,2: first and second transistors R5,6,7,8: protection resistor

C: Capacitor D: Diode

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a circuit diagram illustrating a power supply current sensing device of a monitor according to the present invention.

As shown in FIG. 2, a power supply current sensing device of a monitor according to the present invention includes a switching power supply (SMPS), a flyback transformer (FBT), a switching unit 10, a PWM control unit 20, and a DC / DC. A converter 30, a detection resistor 40, a sense signal output section 50, and a current supply section 60 are comprised.

Here, the sensing signal output unit 50 has a comparator in which an input voltage of the detection resistor 40 is input to a non-inverting (+) input terminal and an output voltage of the detection resistor 40 is input to an inverting (-) input terminal. (OP) and; Implemented with resistors R1, R2, R3, and R4, the input voltage and output voltage of the detection resistor 40 are properly divided, and then input to the comparator OP so that the power supply current (B + current) is excessive. In this case, the voltage setting unit R sets the voltage input to the inverting input terminal of the comparator OP to be smaller than the voltage input to the non-inverting input terminal.

In addition, the current supply unit 60 is a NPN whose base end receives the output signal of the comparator OP through the resistor R5, the collector end receives a constant voltage Vcc, and the emitter end is grounded. Type first transistor TR1; A base terminal is connected in parallel between the constant voltage Vcc and the collector terminal of the first transistor TR1 through a resistor R6, and an emitter terminal is connected to the constant voltage Vcc and the base terminal through a resistor R7. It is connected in parallel between the collector terminal is composed of a PNP-type second transistor (TR2) connected to the PWM control unit 20 via a resistor (R8).

The operation and effects of the power supply current sensing device of the monitor according to the present invention configured as described above will be divided into the case where the B + current is normal and the case where the B + current is excessive.

First, when the B + current is normal, as the B + current output from the DC / DC converter 30 is supplied to the flyback transformer FBT through the detection resistor 40, a constant voltage is applied across the detection resistor 40. I get caught.

At this time, the input voltage of the detection resistor 40 is divided by the resistors R1 and R2 and input to the non-inverting input terminal of the comparator OP, and the output voltage of the detection resistor 40 is the resistors R3 and R4. The voltage is divided through and input to the inverting input terminal of the comparator OP.

The resistors R1, R2, R3, and R4 are set such that the voltage applied to the inverting input terminal is greater than the voltage applied to the non-inverting input terminal during normal operation, so that the output voltage of the comparator OP is at a low level during normal operation. Adjust to keep

The low level signal output from the comparator OP is applied to the base terminal of the first transistor TR1 to turn off the first transistor TR1. Accordingly, since the high level signal is applied to the base terminal of the second transistor TR2 and the second transistor TR2 is turned off, the constant voltage Vcc is not supplied to the current detection terminal of the PWM controller 20. Do not. Therefore, the PWM controller 20 is in normal operation.

On the contrary, when the B + current is excessive, the voltage across the detection resistor 40 is also excessively taken as compared with normal phase.

At this time, the voltage applied to the inverting input terminal is set to be smaller than the voltage applied to the non-inverting input terminal during the transient operation by the resistors R1, R2, R3, and R4, so that the output voltage of the comparator OP is at a high level. It is a transition.

The high level signal output from the comparator OP is applied to the base terminal of the first transistor TR1 to turn on the first transistor TR1. Accordingly, since a low level signal is applied to the base terminal of the second transistor TR2 and the second transistor TR2 is turned on, a constant voltage Vcc is applied to the emitter terminal and the collector terminal of the second transistor TR2. It is supplied to the current detection stage of the PWM control unit 20 through.

Accordingly, the PWM controller 20 forcibly turns off the field effect transistor FET by dropping the PWM control signal to a low level and supplying it to the base end of the field effect transistor FET.

As the field effect transistor FET is turned off, the B + voltage supplied from the switching power supply SMPS to the flyback transformer FBT is cut off.

As described above, the device of the present invention cuts off the B + voltage supplied to the flyback transformer (FBT) when the voltage of the B + rises due to a load variation of the flyback transformer (FBT) or a short circuit of the circuit. The effect is to protect the power supply circuit.

Claims (3)

A switching unit 10 that is turned on / off by a PWM control signal and supplies a DC power supply voltage applied from a power supply SMPS to a flyback transformer FBT; A PWM control unit 20 forcibly turning off the switching unit 10 by adjusting a PWM control signal when a predetermined current or more is input to the current detection terminal; A power supply current sensing device of a monitor provided with a DC / DC converter 30 for appropriately processing the power supply voltage B + supplied to the flyback transformer FBT and inputting the signal to the current detection terminal of the PWM controller 20. A detection resistor (40) connected between the DC / DC converter (30) and a flyback transformer (FBT) to detect a power supply current (B +) input to the flyback transformer (FBT); A detection signal output unit 50 for outputting an overcurrent detection signal when a difference between the voltages between the detection resistors 40 is greater than or equal to a reference value; The power supply current sensing device of the monitor, characterized in that the current supply unit 60 is configured to supply an overcurrent to the current detection stage of the PWM control unit 20 when receiving the overcurrent detection signal. The sensing signal output unit 50 of claim 1, wherein an input voltage of the detection resistor 40 is input to a non-inverting (+) input terminal and an output voltage of the detection resistor 40 to an inverting (−) input terminal. A comparator (OP) to be inputted; When the input voltage and the output voltage of the detection resistor 40 are properly divided, the voltage is input to the comparator OP, and when the power current B + is excessive, the voltage input to the inverting input terminal of the comparator OP is non- A power supply current sensing device of a monitor, characterized by comprising a voltage setting unit (R) which is set to be smaller than a voltage input to an inverting input terminal. The current supply unit 60 of claim 2, wherein the base terminal receives the output signal of the comparator OP through the resistor R5, the collector terminal receives a constant voltage Vcc, and the emitter terminal is grounded. An NPN type first transistor TR1; A base terminal is connected in parallel between the constant voltage Vcc and the collector terminal of the first transistor TR1 through a resistor R6, and an emitter terminal is connected to the constant voltage Vcc and the base terminal through a resistor R7. A power supply current sensing device of a monitor, connected in parallel therebetween, wherein the collector end is composed of a PNP type second transistor (TR2) connected to the PWM control unit (20) through a resistor (R8).