KR0143674B1 - A horizontal deflection circuit of multi monitor - Google Patents

Abstract

The present invention relates to a horizontal deflection circuit of a multi-monitor, and further includes a horizontal drive signal compensation unit (20) for maintaining a constant current value of the horizontal drive signal applied to the base end of the horizontal output transistor (Q2), By compensating the horizontal drive signal according to the horizontal frequency change, the horizontal driving condition can be kept constant at all times.

Description

A horizontal deflection circuit of multi monitor

1 is a circuit diagram of a horizontal deflection circuit of a conventional multi-monitor,

2 is a circuit diagram of a horizontal deflection circuit of a multi-monitor according to the present invention.

* Explanation of symbols for main parts of the drawings

10: horizontal drive transformer 20: horizontal drive signal compensation unit

22: sensing unit 24: horizontal drive signal control unit

Q1: Horizontal Drive Transistor Q2: Horizontal Output Transistor

Q3: PNP type transistor Q4: NPN type transistor

The present invention relates to a horizontal deflection circuit of a multi-monitor, and more particularly, to a horizontal deflection circuit of a multi-monitor, in which a horizontal driving signal is always kept constant by compensating a horizontal drive signal according to a change in a horizontal deflection frequency.

In general, a horizontal deflection circuit of an image display device such as a monitor is a circuit that generates a horizontal sawtooth wave in a horizontal deflection yoke (hereinafter also referred to as a horizontal yoke) of a CRT according to a horizontal frequency output from a video card.

This horizontal deflection circuit includes a horizontal drive transistor Q1 which performs an on / off operation by a horizontal frequency output from a video card, as shown in FIG. A horizontal drive transformer (10) for outputting a horizontal drive signal by an on / off operation of the horizontal drive transistor (Q1); It is configured to include a horizontal output transistor (Q2) for turning on / off in accordance with the horizontal drive signal to generate a horizontal sawtooth wave in the horizontal deflection coil (H.YL).

D1, which is not described above, is a speed up diode, R1 is a resistor, D2 is a damper diode, and C1 is a retrace capacitor.

That is, the horizontal frequency drives the base of the horizontal output transistor Q2 with a sufficient current through the horizontal drive transistor Q1, the horizontal drive transformer 10, the speed up diode D1, and the resistor R1. When the horizontal output transistor Q2 is turned on by the horizontal driving signal, current flows to the horizontal output transistor Q2 through the horizontal yoke H.YL.

Thus, during the period in which the transistor Q2 is turned on, it corresponds to the second half of the effective scanning period of the horizontal sawtooth wave, and when the horizontal output transistor Q2 is rapidly turned off according to the horizontal drive signal, the horizontal deflection yoke H.YL ), The current accumulated in the circuit charges the retrace capacitor (ie, the resonant capacitor C1).

Subsequently, when the retrace capacitor C1 is fully charged, the discharge capacitor is discharged back to the yoke coil H.YL, and thus, all energy is accumulated in the yoke coil H.YL again. In this way, the entire period of the charging and discharging of the retrace capacitor C1 determines the retrace period.

Subsequently, when all energy is accumulated in the yoke coil (H.YL) and the voltage of the yoke coil reaches a degree of applying a forward bias to the damper diode (D2), the damper diode (D2) starts to conduct and the yoke coil (H.YL) The current flowing through) gradually returns to zero.

As such, when the current reaches zero, the horizontal output transistor Q2 is turned on again by the horizontal drive signal, and the horizontal sawtooth current flows through the horizontal yoke coil H.YL to achieve horizontal deflection by repeating the above process. Done.

However, in the conventional horizontal deflection circuit as described above, there is a problem that the driving conditions of the horizontal output transistor are changed by changing the current value of the horizontal drive signal as the horizontal frequency is changed.

Accordingly, the present invention provides a horizontal deflection circuit of a multi-monitor, which solves the above-mentioned problems of the prior art, by compensating the horizontal drive signal according to the horizontal frequency change, so that the horizontal drive condition is always kept constant. There is a purpose.

The horizontal deflection circuit of the multi-monitor according to the present invention for achieving the above object, the horizontal drive transistor to perform the on / off operation by the horizontal frequency, and outputs the horizontal drive signal by the on / off operation of the horizontal drive transistor In a horizontal deflection circuit of a monitor comprising a horizontal drive transformer and a horizontal output transistor on and off in accordance with the horizontal drive signal to generate a horizontal sawtooth wave in the horizontal deflection coil,

A horizontal drive signal compensation unit for maintaining a constant current value of the horizontal drive signal applied to the base end of the horizontal output transistor is characterized in that it is further provided.

Therefore, even if the horizontal frequency changes, the current value of the horizontal drive signal is kept constant, so that the horizontal driving condition can be kept constant at all times.

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

2 is a circuit diagram of a horizontal deflection circuit of a multi-monitor according to the present invention. The horizontal deflection circuit of the multi-monitor according to the present invention is a horizontal drive transistor Q1 which performs on / off operation by a horizontal frequency input from a video card. )Wow; A horizontal drive transformer (10) for outputting a horizontal drive signal by an on / off operation of the horizontal drive transistor (Q1); A horizontal output transistor Q2 on / off in response to the horizontal drive signal to generate a horizontal sawtooth wave in the horizontal deflection coil H.YL; And a horizontal drive signal compensator 20 which maintains a constant current value of the horizontal drive signal applied to the base end of the horizontal output transistor Q2.

In addition, the horizontal driving signal compensator 20 detects the horizontal frequency value and the base of the horizontal output transistor Q2 when the horizontal frequency value detected by the sensing part 22 is large. And a horizontal drive signal controller 24 which reduces the current value of the horizontal drive signal applied to the stage and increases the current value of the horizontal drive signal when the horizontal frequency value is small.

In addition, the sensing unit 22 receives the current flowing through the capacitor C1 connected to the drain terminal of the fraudulent horizontal drive transistor Q1 to the base coil of the primary drive of the horizontal drive transformer 10 and receives the current. It comprises a PNP type transistor Q3 which increases and decreases collector current according to a value.

In addition, the horizontal drive signal controller 24 receives the collector current of the PNP transistor Q3 to the base end, and the collector end is connected to the base end of the horizontal output transistor Q2. When the collector current of transistor Q3 increases, the current value of the horizontal drive signal applied to the horizontal output transistor Q2 decreases. When the collector current of the PNP type transistor Q3 decreases, the horizontal output transistor Q2. And an NPN transistor Q4 for increasing the current value of the horizontal drive signal applied to the.

The above-described D1 is a speed up diode, D2 is a damper diode, D3 and D4 are stable diodes, R1 to R6 are resistors, C1 is a retrace capacitor, and C3 to C6 are capacitors.

The operation and effects of the horizontal deflection circuit of the multi-monitor according to the present invention configured as described above are described in detail.

When the horizontal frequency value applied to the base end of the horizontal drive transistor Q1 increases, the current value of the horizontal drive signal applied to the base end of the horizontal output transistor Q2 increases, and conversely, the base of the horizontal drive transistor Q1 is increased. When the horizontal frequency value applied to the stage decreases, the current value of the horizontal drive signal applied to the base stage of the horizontal output transistor Q2 decreases.

At this time, the detection unit 22 of the horizontal drive signal compensation unit 20 detects the horizontal frequency value, and if the horizontal drive signal control unit 24 detects the horizontal frequency value detected by the detection unit 22, the horizontal output. The current value of the horizontal drive signal applied to the base terminal of the transistor Q2 is decreased, and when the value of the horizontal frequency is small, the current value of the horizontal drive signal is increased.

That is, when the horizontal frequency value increases, the current flowing through the primary coil of the horizontal driving transistor 10 increases, and thus the current value applied to the base terminal of the PNP type transistor Q3 increases.

As the current value applied to the base terminal of the PNP transistor Q3 increases, the collector current of the PNP transistor Q3 increases, and as the collector current of the PNP transistor Q3 increases. The base current of the NPN transistor Q4 also increases.

As the base current of the NPN transistor Q4 increases, the collector current of the NPN transistor Q4 also increases, so that the current value of the horizontal driving signal applied to the base end of the horizontal output transistor Q2. To reduce.

On the other hand, when the horizontal frequency value decreases, the current flowing in the primary coil of the horizontal driving transistor 10 decreases, so that the current value applied to the base end of the PNP type transistor Q3 decreases.

As the current value applied to the base terminal of the PNP transistor Q3 decreases, the collector current of the PNP transistor Q3 decreases, and as the collector current of the PNP transistor Q3 decreases. The base current of the NPN transistor Q4 is also reduced.

As the base current of the NPN transistor Q4 decreases, the collector current of the NPN transistor Q4 also decreases, so that the current value of the horizontal driving signal applied to the base end of the horizontal output transistor Q2. To increase.

In conclusion, the current condition of the horizontal driving signal applied to the base end of the horizontal output transistor Q2 is always kept constant so that the driving conditions can be kept constant.

As described above, according to the present invention, by compensating the horizontal drive signal according to the horizontal frequency change, the horizontal driving condition can be kept constant at all times.

Claims (4)

A horizontal drive transistor Q1 performing an on / off operation by a horizontal frequency, a horizontal drive transformer 10 outputting a horizontal drive signal by an on / off operation of the horizontal drive transistor Q1, and the horizontal drive signal In the horizontal deflection circuit of a multi-monitor comprising a horizontal output transistor (Q2) that is turned on / off to generate a horizontal sawtooth wave in the horizontal deflection coil (H.YL), the base end of the horizontal output transistor (Q2) The horizontal deflection circuit of the multi-monitor, characterized in that further provided with a horizontal drive signal compensation unit 20 for maintaining a constant current value of the horizontal drive signal applied to. According to claim 1, wherein the horizontal drive signal compensation unit 20, The detection unit 22 for detecting the horizontal frequency value, If the horizontal frequency value detected by the detection unit 22 is the horizontal output transistor ( And a horizontal drive signal controller 24 which reduces the current value of the horizontal drive signal applied to the base end of Q2) and increases the current value of the horizontal drive signal when the horizontal frequency value is small. Horizontal deflection circuit in multi monitors. The method of claim 2, wherein the detection unit 22, the current flowing in the primary coil of the horizontal drive transformer 10 through the capacitor (C1) connected to the drain terminal of the horizontal drive transistor (Q1) to the base end. And a PNP type transistor (Q3) configured to receive an input and increase and decrease a collector current according to the current value. The horizontal driving signal control unit 24 receives the collector current of the PNP type transistor Q3 as the base end, and the collector end is connected to the base end of the horizontal output transistor Q2. When the collector current of the PNP transistor Q3 is increased, the current value of the horizontal drive signal applied to the horizontal output transistor Q2 is decreased. When the collector current of the PNP transistor Q3 is decreased, the horizontal output is decreased. And a NPN transistor (Q4) for increasing the current value of the horizontal drive signal applied to the transistor (Q2).