KR100302127B1 - Monitor overscan prevention circuit - Google Patents

Abstract

The present invention relates to an overscan prevention circuit of a monitor, and the apparatus of the present invention includes an EW signal generator (1) for reducing and outputting a DC level of an EW signal in order to increase a horizontal size (H.size); A PWM controller (2) for increasing the duty ratio of the PWM control signal by the EW signal having the reduced DC level; A DC / DC converter (3) for increasing and outputting the magnitude of the B + voltage by the PWM control signal having the increased duty ratio; And a horizontal deflection circuit (4) for increasing the horizontal size by increasing the magnitude of the horizontal deflection current by the increased B + voltage, comprising: a horizontal deflection current detection resistor (R11) for detecting the horizontal deflection current; A compensation voltage generator 10 outputting a DC compensation voltage when the detected magnitude of the horizontal deflection current is equal to or greater than a predetermined value; And a compensation voltage adder 20 which adds the DC compensation voltage to the EW signal output from the EW signal generator 1 after a predetermined amplification, and generates a compensation voltage when the horizontal deflection current is above a predetermined value. By adding to the EW signal, the maximum horizontal size can be limited to prevent overscan, thereby minimizing unnecessary power consumption.

Description

A circuit for preventing a over-scan in a monitor

The present invention relates to an overscan prevention circuit of a monitor, and more particularly, to an overscan prevention circuit of a monitor designed to prevent overscan by generating a compensation voltage and adding it to an EW signal when the horizontal deflection current is above a predetermined value.

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

FIG. 1 is a circuit diagram illustrating a horizontal deflection circuit and a peripheral circuit of a general monitor. As shown in FIG. 1, the high voltage circuit 2 converts a power supply voltage supplied through the switching power supply circuit SMPS into a DC / DC converter. After stabilizing to B + voltage through (4), it is boosted through the flyback transformer (FBT) of the high-voltage circuit (2).

Accordingly, the alternating voltage output from the secondary winding L2 of the flyback transformer FBT is controlled by the rectifier diode D1 and the smoothing capacitor C1. V _H ) Is supplied to the anode of the water pipe (CRT).

Here, the DC / DC converter 4 changes the magnitude of the power supply voltage according to the horizontal frequency by using the power supply voltage output from the switching power supply circuit SMPS (these voltages are referred to as B + voltages). It serves to supply the circuit 2 or the horizontal deflection circuit 3.

High pressure ( V _H The larger the size of), the smaller the size of the picture tube screen. Therefore, in order for the picture tube screen to be constant at all times regardless of the horizontal frequency, the size of the high voltage must always be constant, so that the DC / DC converter 4 keeps the high voltage constant. In order to maintain the voltage, the B + voltage, which is proportional to the horizontal frequency, is supplied to the flyback transformer (FBT).

The DC / DC converter 4 is controlled by a pulse width modulation (PWM) control signal output from the PWM control unit 1, that is, the power control transistor (FET) is turned on / off (ON / OFF). ) Is adjusted.

That is, when the power transistor (FET) maintains the off state for a predetermined time according to the PWM control signal and then transitions to the on state, the power current supplied through the drain terminal is 1 of the DC / DC converter 4 through the source terminal. Flow to the secondary winding.

At this time, the PWM control unit 1 is a feedback voltage output from the dummy winding (L3) of the flyback transformer (FBT) through a feedback terminal ( V _fb ) Is inputted, and the feedback voltage ( V _fb ) Is greater than an internal reference voltage, supplying a PWM control signal having a short on time to the gate terminal of the power transistor (FET), and shortly adjusting the on time of the power transistor (FET), thereby reducing the flyback transformer (FBT). Reduce the magnitude of input voltage and output voltage.

On the contrary, the feedback voltage ( V _fb Is smaller than the reference voltage, a PWM control signal having a long on-time is supplied to the gate terminal of the power transistor (FET), and the on-time of the power transistor (FET) is adjusted to be long, thereby reducing the flyback transformer (FBT). Increase the magnitude of input voltage and output voltage.

Accordingly, the magnitudes of the input voltage and the output voltage of the flyback transformer FBT are stabilized.

On the other hand, the operation of the horizontal deflection circuit 3, when the horizontal output transistor (TR) is turned on by the horizontal drive signal (H.driver), B ⁺ power current of the flyback transformer (FBT) is the horizontal deflection coil ( HD.Y) to the horizontal output transistor TR.

Thus, while the horizontal output transistor TR is turned on, it corresponds to the second half of the effective scanning period of the horizontal sawtooth wave, and then the horizontal deflection coil is rapidly turned off by the horizontal drive signal H.driver. The current accumulated in (HD.Y) charges the retrace capacitor (RE.C).

When the retrace capacitor RE.C is fully charged, it is discharged back to the horizontal deflection coil HD.Y. Accordingly, current is accumulated in the horizontal deflection coil HD.Y.

In this way, the period between the charging and discharging of the retrace capacitor RE.C determines the retrace period.

When energy is accumulated in the horizontal deflection coil HD.Y and the horizontal deflection coil voltage reaches a degree of applying a forward bias to the damper diode DD, the damper diode DD is turned on and the horizontal deflection coil HD.Y is applied. The current flowing in it drops to zero.

At this time, the current flowing through the damper diode D.D corresponds to the first half of the effective scanning period of the horizontal sawtooth wave.

As such, when the current becomes zero, the horizontal output transistor TR is turned on again by the horizontal drive signal H. driver, and the sawtooth wave current flows through the horizontal deflection coil HD.Y while repeating the above process. A horizontal deflection is made and a horizontal scan is made accordingly.

Normally, the monitor has to adjust the horizontal size (H.size) according to the mode. To increase the horizontal size, the EW signal generator 1 decreases and outputs the DC level of the EW signal. The PWM controller 2 increases and outputs the duty ratio of the PWM control signal by the signal, and the DC / DC converter 3 increases and outputs the magnitude of the B + voltage by the PWM control signal having the increased duty ratio. Accordingly, the horizontal deflection circuit 4 increases the magnitude of the horizontal deflection current by the increased B + voltage, thereby increasing the horizontal size.

As described above, the conventional monitor adjusts the horizontal size by increasing or decreasing the DC level of the EW signal according to each mode. When the horizontal size changes due to component tolerance, a large horizontal deflection current is supplied compared to the desired horizontal size. There was a problem that a scan occurred.

Accordingly, the present invention has been made to solve the above problems, and when the horizontal deflection current is a predetermined value or more to generate a compensation voltage and add to the EW signal, to provide an overscan prevention circuit of the monitor to prevent overscan Its purpose is to.

The overscan prevention circuit of the monitor according to the present invention for achieving the above object, the EW signal generator for reducing and outputting the DC level of the EW signal to increase the horizontal size, the EW signal of the DC level is reduced PWM control unit to increase the duty ratio of the PWM control signal by outputting, DC / DC converter to increase the output of the B + voltage by the PWM control signal with the increased duty ratio, and to output a horizontal deflection current by the increased B + voltage A monitor having a horizontal deflection circuit for increasing the horizontal size by increasing the magnitude of the horizontal deflection current, comprising: a horizontal deflection current detection resistor for detecting a horizontal deflection current; A compensation voltage generation unit and a compensation voltage added to the EW signal output from the EW signal generator after amplifying the DC compensation voltage by a predetermined amount. Characterized by consisting of acid.

1 is a circuit diagram showing a horizontal deflection circuit and a peripheral circuit of a general monitor;

2 is a circuit diagram showing an overscan prevention circuit of the monitor according to the present invention.

* Names of symbols for main parts of the drawings

1: EW signal generator 2: PWM controller

3: DC / DC converter 4: horizontal deflection circuit

10: compensation voltage generator 20: compensation voltage adder

R11: Horizontal deflection current sense resistor TR: Horizontal output transistor

Q11: Transistor OP11: OP Amplifier

D11: diode R 11, 12, 13, 14, 15, 16, 17: resistor

Hereinafter, an embodiment of an apparatus according to the present invention will be described with reference to the accompanying drawings.

2 is a circuit diagram showing an overscan prevention circuit of the monitor according to the present invention.

As shown in Fig. 2, the apparatus of the present invention includes an EW signal generator 1 for reducing and outputting the DC level of the EW signal to increase the horizontal size (H.size); A PWM controller (2) for increasing the duty ratio of the PWM control signal by the EW signal having the reduced DC level; A DC / DC converter (3) for increasing and outputting the magnitude of the B + voltage by the PWM control signal having the increased duty ratio; And a horizontal deflection circuit (4) for increasing the horizontal size by increasing the magnitude of the horizontal deflection current by the increased B + voltage, comprising: a horizontal deflection current detection resistor (R11) for detecting the horizontal deflection current; A compensation voltage generator 10 outputting a DC compensation voltage when the detected magnitude of the horizontal deflection current is equal to or greater than a predetermined value; And a compensation voltage adder 20 which amplifies the DC compensation voltage by predetermined and adds the EW signal output from the EW signal generator 1.

The horizontal deflection current detection resistor R11 is connected in series between the horizontal output transistor TR11 and ground to detect the horizontal deflection current.

In addition, the compensation voltage generation unit 10, the base end is supplied with the detected horizontal deflection current through the resistor (R12), the collector end is supplied with a predetermined voltage (Vcc) through the resistor (R13) and the emitter end is the resistance And a transistor Q11 grounded through R14, and outputs a DC compensation voltage through the emitter stage when the base current is above a predetermined value.

In addition, the compensation voltage adding unit 20, the non-inverting (-) input terminal receives the DC compensation voltage through the resistor (R15), the inverting (-) input terminal receives the reference voltage (Vr) and the output terminal is a resistor ( OP amplifier OP11 feedbacked to the non-inverting (+) input terminal through R16), and amplifies the DC compensation voltage inputted to the non-inverting (+) input terminal, and then outputs it from the EW signal generator (1). Is added to the EW signal.

In addition, a reverse current blocking diode D11 is installed in the compensation voltage adding unit 20 to prevent a reverse current from flowing.

Next, the operation and effects of the apparatus according to the present invention will be described in detail.

When the EW signal generator 1 decreases and outputs the DC level of the EW signal to increase the horizontal size, the PWM controller 2 increases the duty ratio of the PWM control signal by the EW signal whose DC level is decreased. The DC / DC converter 3 increases the magnitude of the B + voltage by the PWM control signal having the increased duty ratio.

Accordingly, the horizontal deflection circuit 4 increases the magnitude of the horizontal deflection current by the increased B + voltage, thereby increasing the horizontal size.

At this time, the horizontal deflection current detection resistor R11 connected in series between the horizontal output transistor TR and the ground detects the horizontal deflection current.

The horizontal deflection current detected by the horizontal deflection current detection resistor R11 is input to the base terminal of the transistor Q11 through the resistor R12. Outputs

The compensation voltage is input to the non-inverting (−) input terminal of the OP amplifier OP11 through the resistor R15, amplified, and added to the EW signal output from the EW signal generator 1.

Accordingly, as the DC level of the EW signal increases and the DC level of the EW signal increases, the PWM controller 2 decreases and outputs the duty ratio of the PWM control signal, and the DC is reduced by the PWM control signal. The / DC converter 3 reduces the magnitude of the B + voltage and outputs it.

Accordingly, the horizontal deflection circuit 4 reduces the magnitude of the horizontal deflection current by the reduced B + voltage, thereby reducing the horizontal size.

As described above, the device of the present invention generates a compensation voltage and adds it to the EW signal when the horizontal deflection current is above a predetermined value, thereby minimizing unnecessary power consumption by limiting the maximum horizontal size. It works.

Claims (1)

EW signal generation unit 1 for reducing the DC level of the EW signal to increase the horizontal size (H.size), and outputs by increasing the duty ratio of the PWM control signal by the EW signal of the DC level is reduced The PWM controller 2, the DC / DC converter 3 for increasing the output of the B + voltage by the PWM control signal having the increased duty ratio, and outputting the horizontal deflection current by increasing the magnitude of the horizontal deflection current by the increased B + voltage. In a monitor provided with a horizontal deflection circuit 4 for increasing the size, Horizontal deflection current detection resistor (R11) connected to the emitter end of the horizontal output transistor to detect the horizontal deflection current. A compensation voltage generator 10 outputting a DC compensation voltage when the detected magnitude of the horizontal deflection current is equal to or greater than a predetermined value; And The DC compensation voltage is applied to the non-inverting (+) input terminal, a predetermined reference voltage is applied to the inverting (-) input terminal, and the output terminal is composed of an OP amplifier OP11 fed back to the non-inverting (+) input terminal. Amplifying the DC compensation voltage to a predetermined value and adding the EW signal to the EW signal output from the EW signal generator 1 to supply the feedback voltage of the PWM controller 2 to the compensation voltage adder 20. Monitor overscan prevention circuit.