KR0116528Y1 - Horizontal size compensation circuit of a monitor - Google Patents

Abstract

The present invention relates to a horizontal size compensation circuit by a high voltage regulation in which a horizontal size is adjusted by feeding back a high voltage ripple voltage detected from a high voltage circuit to a circuit for adjusting a horizontal size of a monitor screen. The voltage difference between the line and the white line increases the amount of ripple voltage in the capacitor of the high voltage generator, causing the trigger signal, and the horizontal size of the white line becomes larger due to the voltage difference. There was a problem in that it was not visually bad by being unable to do so. In view of this, the present invention compensates for the entire horizontal size by feeding back the ripple voltage caused by the voltage difference between the white line and the black line and using it in the horizontal size adjustment circuit. The screen state Visually good, improve the reliability of the product.

Description

Horizontal size compensation circuit by high voltage regulation

1 is a horizontal size compensation circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

10: high pressure generating unit 20: high pressure regulation unit

21,31: amplifier 22: inverter

30: horizontal size adjusting unit T: trance

R1 ~ R6, R11 ~ R13: Resistor C1, C2, C11, C12: Capacitor

D1 ~ D3: Diode VR1: Variable Resistor

The present invention relates to a horizontal size compensation circuit by a high voltage regulation that allows the size of the horizontal size to be adjusted by feeding back a high voltage ripple voltage detected in the high voltage circuit to a circuit for adjusting the horizontal size of the monitor screen.

In general, a circuit for compensating the horizontal size of a monitor screen is based on an east-west signal (EW) for adjusting the horizontal state of a line, a signal (H-SIZE) for adjusting the size of a horizontal screen as a whole, and a horizontal size as a whole. If it is larger than the size, each of the CURRENT SENSE inputs through a resistor is added to the amplifier to compare with the magnitude of the reference voltage already set in the amplifier.If it is larger than the reference voltage, reduce the duty to reduce the horizontal size. If smaller than the reference voltage, the duty was increased to increase the horizontal size. However, the high voltage applied to each color line is generated in the high voltage generator, for example, the minimum voltage is applied to the white line and the largest voltage is applied to the black line. At this time, if the black line and the white line are adjacent to each other, the amount of ripple voltage increases due to the voltage difference. In addition, because the black and white lines are adjacent, the voltage difference makes the white line larger in horizontal size.

As a result, the horizontal size of the screen becomes uneven, resulting in poor visual appearance.

The present invention is characterized in that the entire horizontal size is compensated by feeding back the ripple voltage generated by the voltage difference between the white line and the black line to be used in the horizontal size adjusting circuit.

In other words, the configuration of the horizontal size compensation circuit of the present invention feeds back and stabilizes the ripple voltage generated according to the capacity of the capacitor of the high voltage generator that generates and outputs a high voltage, and inputs other horizontal size adjustment signals to compare with the reference voltage. It consists of a high-pressure regulation unit to be applied to the horizontal size adjustment unit to control the duty of the horizontal size of.

The high voltage regulation unit includes an amplifier for inputting a ripple voltage according to the capacitance of the capacitor of the high voltage generation unit through a resistor and a capacitor whose one end is grounded, and an inverter that receives the output thereof again.

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

1 is a horizontal size compensation circuit diagram according to the high voltage regulation of the present invention.

Inputs a high voltage generator 10 for generating a high voltage and outputting the voltage required for each line constituting the monitor screen, and a ripple voltage generated according to the capacity of the capacitor C1 of the high voltage generator 10. High-pressure regulator unit 20 to stabilize and stabilize the output signal of the high-voltage regulator unit 20, the east-west signal EW for adjusting the horizontal state of the line, and a signal for adjusting the size of the horizontal screen as a whole (H). -SIZE), and when the horizontal size becomes larger than the reference size as a whole, it is input together with the signal to lower the voltage (CURRENT SENSE) and compared with the magnitude of the reference voltage to control the duty of the horizontal size of the monitor screen. It consists of a horizontal size adjustment part 30.

The high voltage generating unit 10 is a circuit for generating a high voltage in general, and generates a voltage through the transformer (T) to output a high voltage through each diode (D1, D2, D3). It is smoothed by the grounded capacitor C1 and adjusted by several resistors R1, R2, R3 and variable resistor VR1.

The high voltage regulator 20 may include an amplifier 21 for inputting a ripple voltage of the capacitor C1 of the high voltage generator 10 through a resistor R11 and a capacitor C11 having one end grounded; It consists of an inverter 22 which inverts the output signal of the amplifier 21.

The amplifier 21 is operated at a constant voltage, that is, a voltage of 12 V, input through the resistor R12 and the capacitor C12 having one end grounded, and the ripple voltage by the high voltage generator 10 is positive. +) And the output is the voltage floor where the input is output as is.

The horizontal size adjusting unit 30 is a circuit for adjusting a monitor horizontal screen in general, an east-west signal EW for adjusting a horizontal state of a line, and a signal for adjusting the size of a horizontal screen as a whole (H-SIZE). ) And a signal (CURRENT SENSE) to lower the voltage when the horizontal size becomes larger than the reference size as a whole, plus the output signal of the high voltage regulator unit 20 through the resistors R4, R5, R6, and R14, respectively. Comprising an amplifier 31 input to the stage (+), the input voltage is compared with the reference voltage set in the negative stage (-), and then the output signal is input to the horizontal drive circuit. (C2) is a capacitor whose one end is grounded.

The operation of the present invention configured as described above is as follows.

The high voltage generated by the high voltage generator 10 is generated when there is an adjacent white line and a black line, and a large ripple voltage is generated by the capacitor C1. The ripple voltage generated as described above is input to the amplifier 21 of the high voltage regulation unit 20 and stabilized, and then fed back to the horizontal size adjusting unit 30.

In the horizontal size adjusting unit 30, the east-west signal EW for adjusting the horizontal state of the line, the signal for adjusting the size of the horizontal screen as a whole, and the voltage when the horizontal size becomes larger than the reference size as a whole. The signal CURRENT SENSE to lower the voltage and the ripple voltage fed back by the high voltage regulator 20 are input to the amplifier 31 and compared with a reference voltage set. If the input voltage is greater than the reference voltage, the horizontal size reduces the duty. If the input voltage is less than the reference voltage, the horizontal size increases the duty. This compensates for the horizontal size of the monitor.

As described above, according to the present invention, the horizontal size is compensated by feeding back the ripple voltage generated from the capacitor of the high voltage generating unit to adjust the duty of the monitor horizontal size, thereby improving the visual state of the product. Improved reliability

Claims (2)

In constructing a circuit that compensates for the horizontal size of the bonnet screen, The ripple voltage generated according to the capacity of the capacitor C1 of the high voltage generator 10 that generates and outputs a high voltage is fed back to stabilize the input, and inputs other horizontal size control signals EW, H-SIZE, and CURRENT SENSE. The horizontal size compensation circuit by the high voltage regulation is characterized in that the horizontal size is compensated by configuring the high voltage regulator 20 to be applied to the horizontal size adjusting unit 20 to be compared with the voltage so that the duty of the horizontal size of the monitor screen is controlled. . The method of claim 1, The high voltage regulator 20 includes an amplifier 21 for inputting a ripple voltage according to the capacity of the capacitor C1 of the high voltage generator 10 through a resistor R11 and a capacitor C11 having one end grounded; The horizontal size compensation circuit by the high voltage regulation characterized by consisting of an inverter 22 for inverting its output.