KR910004618Y1 - X-ray exposing display circuit - Google Patents

Abstract

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Description

Display circuit of X-ray exposure

Circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

10: X-ray protection unit 20: control unit

40: Micom 30: Segment Drive

1: horizontal power generation unit 2: generator

3: segment R ₁ -R ₁₁ : resistance

C ₁ -C ₃ : Capacitor Q ₁ -Q ₄ : Transistor

D ₁ -D ₃ : Diode ZD ₁ : Zener Diode

FBT: Flyback transformer B ^-: Power

The present invention relates to a display circuit of X-ray exposure.

In general, when X-ray exposure is applied, the high pressure applied from the fly back transformer increases, which causes darkening of the screen, which causes circuit instability and makes it difficult to distinguish what causes the dark state of the screen. There was this.

In view of the above, the object of the present invention is to define the horizontal oscillation action by the high pressure applied from the flyback transformer during X-ray exposure and simultaneously drive the segment to display the X-ray exposure state. It is intended to provide an exposure display circuit and to control the high-pressure horizontal oscillator and segments applied from the flyback transformer.

This will be described with reference to the accompanying drawings.

In the circuit diagram of the present invention, the X-ray protection unit 10 is configured such that the power source induced on the secondary side of the flyback transformer (FBT) is converted into direct current through the rectifying diode (D ₃ ) and the smoothing capacitor (C ₃ ). after the resistance (R ₁₎ (R ₂₎ and the zener diode to detect the X- ray exposure state resistance (R ₃₎ (R ₄₎ diode to control the horizontal oscillator 1 and direction control through a via (ZD ₁₎ It is configured to drive the oscillator ₂ via (D ₂ ).

The controller 20 configures the output of the generator 2 to drive the transistor Q ₁ through the bias resistors R ₅ and R ₆ , and then, together with the power supply B ⁻ , the bias resistors R _7- R _9. ) And the rear stage is controlled by driving the transistor Q ₂ through the direction control diode D ₁ and the noise removing capacitor C _{2. The} segment drive 30 is biased by the output of the controller 20. Drive power source V ₁ to segment ₃ via transistor Q ₃ (Q ₄ ) connected to resistor R ₁₀ (R ₁₁ ) and driven to output P ₁ (P ₂ ) of microcomputer 30. (V ₂ ) is configured to be applied, and then the segment 3 is driven by the data SD of the microcomputer 40.

Referring to the effect of the present invention configured as described above are as follows.

In the circuit diagram of the present invention, when the overvoltage is induced from the flyback transformer (FBT) and the X-ray is exposed, the overvoltage induced on the secondary side of the flyback transformer (FBT) is rectified diode (D ₃ ) and the smoothing capacitor (C _3). ) it is converted to direct current through the Sikkim driving the counter DC power supply zener diode (oscillator 2 as greater than the Zener voltage of ZD ₁₎ after passing through the zener diode (ZD ₁₎ through a direction control diode (D ₂₎ In addition, X-ray exposure adversely affects the human body by stopping the horizontal oscillation by applying a "H level" to the X-ray protector terminal of the horizontal oscillator 1 through the resistors R ₃ and R ₄ . This can be blocked.

At the same time, the output of oscillator 2 "turns on" transistor Q ₁ through bias resistor R ₅ (R ₆ ) and then power source B ^- turns on resistor R ₇ and transistor Q ₁ . diode control direction in accordance with the flow to the ground through (D ₁₎ and a bias resistor (R ₉₎ and noise reduction through the capacitor (C ₂₎ for by applying a low potential on the base side of the transistor (Q ₂₎ transistors (Q ₂₎ Is " turned on " at which time power source B ^- passes through resistor R ₈ and transistor Q ₂ .

Here, the output P ₁ (P ₂ ) of the microcomputer 40 applies a low potential to the base side of the transistors Q ₃ (Q ₄ ) through the bias resistors R ₁₀ (R ₁₁ ), thereby providing a transistor Q _3. ) (Q _4), the "turn-on" power supply (B passing through the transistor (Q ₂₎ according to Sikkim ^-) and the transistor (Q ₃₎ (driving power source (V ₁₎ to the segment (3) through the Q ₄₎ (V ₂ ), the segment 3 is displayed by the data of the microcomputer 40 so that the exposure state of the X-ray can be detected.

Therefore, when the overvoltage is induced from the fly back transformer (FBT) and the X-ray is exposed, the function of the horizontal oscillator 1 is stopped and the screen is stopped so that the X-ray exposure can be prevented and at the same time, the oscillator 1 and the By displaying the segment 3 as a function of the microcomputer 40, the X-ray exposure state can be detected.

As described above, the present invention is configured to drive the segment through the oscillator and the microcomputer after the horizontal oscillator is controlled by the high pressure induced from the flyback transformer when the X-ray is exposed.

1. By blinking the segments in the remote control series during X-ray radiation, consumers can effectively detect the TV status.

2. With a simple circuit configuration, the condition of the TV can be checked.

3. The internal circuit of the TV can be stabilized by operating the segment to take immediate action after the abnormal condition of the TV.

Claims (4)

An X-ray protection unit 10 which causes the oscillator 2 to be driven after the high pressure induced on the secondary side of the flyback tranche FBT during the X-ray exposure causes the horizontal oscillator 1 to be controlled, The control unit 20 in which the output of the oscillator 2 controls the rear end through the transistors Q ₁ and Q ₂ , and the output of the control unit 20 are the data P ₁ (P ₁ ) of the microcomputer 40 (P). ₂ ) A display circuit of X-ray exposure, characterized in that it consists of a segment drive (30) which drives the segment (3) with (SD) to detect the X-ray exposure. The method of claim 1, wherein the X-ray protection unit 10 is a high-voltage induced on the secondary side of the flyback transformer (FBT) is converted into a direct current through a diode (D ₃ ) and a capacitor (C ₃ ) resistance (R ₁₎ ) (R ₂₎ is to be configured, then by detecting a Zener diode (X- ray exposed through ZD ₁₎ adapted to control the resistance (R ₃₎ (R ₄₎ horizontal oscillator 1 through a diode and a (D ₂ ) display circuit of X-ray exposure configured to drive the oscillator (2) through. The method of claim 1, wherein the control unit 20 the power (B ^-) and then the output of the one oscillator (2) is configured to bias drive a resistance (R ₅₎ transistor (Q ₄₎ through (R ₆₎ biased with A display circuit of X-ray exposure configured to be controlled by driving transistor (Q ₂ ) through resistors (R ₇ -R ₉ ), diode (D ₁ ) and capacitor (C ₂ ). The method of claim 1, wherein the segment drive 30 is the output of the above-described control unit 20 is connected to the bias resistor (R ₁₀₎ (R ₁₁₎ transistor which is driven by the output of the microcomputer (40) (Q ₃₎ (Q ₄ ) display circuit of X-ray exposure configured to drive segment (3) through.