KR920009344B1 - Laster size control circuit - Google Patents

Abstract

The raster size control circuit for controlling the size of horizontal deflection comprises: a horizontal output section (10) outputting and amplifying the value inputted from the horizontal drive terminal; a detector (20) detecting the horizontal deflection signal by inputting the output signal of the horizontal output sect.; a comparator (30) detecting the state of the horizontal deflection signal by comparing a reference value with the output signal of the deflection signal detector; a controller (50) controlling the power source of the horizontal output sect. (10) by inputting the horizontal deflection signal detected from the comparator. This circuit is useful for protecting the basic circuit from heat or surge current.

Description

Raster Size Control Circuit

1 is a specific circuit diagram of the present invention.

* Explanation of symbols for the main parts of the drawings

10: horizontal output unit 20: deflection signal detection unit

30: differential amplifier 40: reference voltage generator

50: power control unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a circuit around a cathode ray tube (CRT) for controlling the image size, and more particularly to a raster size control circuit for adjusting the magnitude of horizontal deflection.

Conventionally, the horizontal amplitude is adjusted by changing the value of the variable coil VL1 at the horizontal output stage in order to change the horizontal amplitude in the horizontal deflection circuit.

That is, when the value of the variable coil VL1 increases, the current flowing through the horizontal deflection coil H-DY decreases, so that the horizontal amplitude increases.

Another conventional method uses an amplitude capacitor to adjust the horizontal amplitude by varying the current flowing through the deflection coil by a switch method.

However, in the case of the variable coil (VL1), the variable bobbin may be impossible to adjust due to internal heat after a long time. In a switch method using an amplitude capacitor, it may be unreasonable to the basic circuit due to a momentary surge current during switching. Since energy is supplied, it is a cause of failure of the circuit and the value of the variable coil VL1 and the capacitor is limited, so that the horizontal amplitude cannot be infinitely changed.

Accordingly, an object of the present invention is to provide a circuit capable of adjusting the horizontal amplitude by allowing the horizontal amplitude to be infinitely varied regardless of the influence of the ambient temperature.

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

1 is a detailed circuit diagram of the present invention, a horizontal output unit 10 for receiving and amplifying and outputting the output of the horizontal drive stage, and a deflection for detecting the horizontal deflection signal by inputting the output signal of the horizontal output unit 10; The signal detector 20, the comparator 30 for detecting the state of the horizontal deflection signal by comparing the output signal of the deflection signal detector 20 with a predetermined reference value, and a reference voltage for generating the predetermined reference voltage The reference voltage generating unit 40 and the power control unit 50 for controlling the power of the horizontal thrust unit 10 according to the horizontal deflection signal detected by the comparison unit 30.

The horizontal output unit 10 includes a transistor Q1, a diode D1, a capacitor C1, a deceleration coil VL1, and a deflection coil H-DY, and the deflection signal detection unit 20 includes a transformer. T1, diode D2 and capacitor C4, resistors R1-R4, and variable resistor VR1. The comparator 30 includes resistors R5-R8 and capacitors C5-C8. ), A diode (D3) and an op amp (OP1), the reference voltage generator 40 is composed of a zener diode (ZD1) and resistors (R9, R10), the power controller 50 and the resistor (R11-R14) transistors Q2-Q4 and diode D4.

Therefore, a specific embodiment of the present invention that can realize the object of the above configuration will be described.

In FIG. 1, the horizontal B ⁺ voltage is supplied to the primary coil of the transformer T1 of the deflection signal detector 20 through the resistor R14 of the power supply controller 950. At this time, the transistor Q1 of the horizontal output unit 10 is driven by the horizontal drive output signal. Accordingly, a horizontal deflection signal corresponding to the horizontal drive output signal is detected on the secondary side of the transformer T1. The horizontal deflection signal detected at the secondary side of the transformer T1 is rectified by the diode D1, smoothed by the capacitor C4, and output through the resistor R1.

The signal output through the resistor R1 is attenuated by changing the value by the resistors R2-R4 and the variable resistor VR1 which are T-type attenuators. The attenuated horizontal deflection signal is supplied to the negative input terminal of the op amp OP1 of the comparator 30 through the resistor R6. At this time, the op amp OP1 inputting the predetermined reference value supplied from the reference voltage generator 40 to the (+) input terminal compares the two values to determine whether the horizontal deflection signal is higher than the reference voltage value. Otherwise it will detect if it is low.

The predetermined reference value supplied to the (+) input terminal of the op amp OP1 is determined by the value of the zener diode ZD1 of the reference voltage generator 60. The signal output from the OP amplifier OP1 is determined as a bias voltage of the transistor Q2 of the power control unit 50 and amplified by the transistor Q2 to be output to the collector. The signal amplified and output by the collector of the transistor Q2 is applied through the base resistor R13 of the transistor Q3 to determine the bias of the transistor Q3 and at the same time determine the bias of the transistor Q4 to determine the current. The collector current of the amplifying transistor Q4 is determined.

In other words, when the bias voltage of the transistor Q3 is small, the collector current of the transistor Q4 is small. On the contrary, when the bias of the transistor Q3 is large, the collector current of the transistor Q4 is large and the transformer T1 and the transistor Q4 are large. The voltage of the node D, which is the connection point of the collector, is controlled.

Therefore, the current flowing in the horizontal deflection coil can be adjusted.

In addition, even though the transistor Q1 malfunctions due to external noise input to the horizontal output unit 10 and the current decreases in the horizontal deflection coil H-DY, the deflection signal detection unit 20 detects this. The signal is applied to the comparator 30 to be compared with the reference voltage and output, and the B ⁺ power is controlled by the power supply controller 50 by the comparison output signal and flows to the original horizontal deflection coil H-DY. Can recover to current value. When the variable resistor VR1 of the deflection signal detection unit 20 is adjusted, the horizontal size may be arbitrarily changed by adjusting the current flowing through the horizontal deflection coil H-DY.

Therefore, as can be seen through the above embodiment, it is possible to extend the size infinitely compared to the method of varying the horizontal size by varying the variable coil VL1 or by selecting the condenser in a conventional manner and do not use a coil or a switch. Therefore, there is an advantage that can protect the basic circuit from the risk of flowing a sudden surge current to the heat or circuit.

Claims (1)

In the raster size adjustment circuit, a horizontal output unit 10 for receiving and amplifying and outputting the output of the horizontal drive stage, and a deflection signal detector for detecting a horizontal deflection signal by inputting the output signal of the horizontal output unit 10. And a comparator 30 for detecting the state of the horizontal deflection signal by comparing the output signal of the deflection signal detector 20 with a predetermined reference value, and the horizontal deflection signal detected by the comparator 30. And a power control unit (50) for inputting and controlling the power of the horizontal output unit (10).

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