KR910005935Y1 - Power supply circuit - Google Patents

Abstract

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Description

TV's Power Start Drive Transistor Protection Circuit

The accompanying drawings show an embodiment circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

1: X-ray protective switching part 2: Relay drive part

3: power supply drive R _1- R ₇ : resistance

Q ₁ -Q ₃ : Transistor D ₁ -D ₄ : Diode

RY ₁ : relay C ₁ : condenser

The present invention relates to a power start driving transistor protection circuit of a television, in which the main power is cut off when the television X-ray protector is operated so that the power start driving transistor is not damaged.

Conventionally, even when the X-ray protector operates, a current flows continuously through the power start driving transistor, thereby causing a problem in that the power start driving transistor is damaged.

In order to solve this problem, the present invention is designed to prevent the breakdown of the power start driving transistor by turning off the operation of the relay when the X-ray protector is operated to cut off the main power applied to the power start driving transistor. As described below, the configuration and operation effects of the present invention in detail by the accompanying drawings.

The output of the X-ray protector PT is applied to the X-ray protective switching unit 1, and the output of this X-ray protective switching unit 1 is applied to the relay driver 2, and this relay driver 2 ) Is applied to the power supply driving unit 3, and the relay driving unit 2 includes the coil RL of the output relay RY ₁ of the X-ray protective switching unit 1 and the diode for preventing the counter electromotive force ( D ₁ ) and the current limiting resistor (R ₄ ) are applied to the collector of the relay driving transistor (Q ₂ ), and the bias resistor (R ₂ ) (R ₃ ) is mediated to the base of the transistor (Q ₂ ). The power "on" signal PO is applied, while the main power voltage B ⁺ is fed via the contact RC of the relay RY ₁ , and the main power voltage B ⁺ is the flyback transformer primary coil voltage FB ⁺ . Is applied to the base of the power supply start driving transistor Q ₃ through the bias resistor R ₅ and the zener diode D ₄ , and at the same time, the current limiting resistor R ₆ ) is applied to the collector of the transistor (Q ₃ ), the emitter output is configured to be applied to the horizontal oscillating circuit power (HB ⁺ ) through the reverse current prevention diode (D ₂ ).

In the present invention configured as described above, first, the power supply voltage B ⁺ ₂ in the X-ray protective switching unit 1 is input in the standby state, so that the switching transistor Q _{1 is} connected through the resistor R ₇ . The output of this X-ray protective switching unit 1 becomes the power supply voltage B ⁺ ₂ as it is applied to the collector and there is no output of the X-ray protector PT and this transistor Q ₁ is "off". The voltage B ⁺ ₂ is applied to the collector of the relay driving transistor Q ₂ through the coil RL and the resistor R ₄ of the relay RY ₁ in the relay driving unit ₂ . When turned "on", the "high" level voltage is input to the power "on" signal PO and applied to the base of the relay driving transistor Q ₂ through the bias resistors R ₂ and R ₃ , and thus the transistors. (Q ₂₎ is conductive as a relay point (RY ₁₎ the current flow in the coil (RL) of the coil (RL) of the relay (RY ₁₎ is women relay (RY ₁₎ (R C) is "on". Accordingly, the main power supply voltage B ⁺ is applied to the power supply driving unit 3 through the contact RC of the relay RY ₁ , and is applied to the normal flyback transformer primary coil voltage FB ⁺ and at the same time, the resistor R _5. (R ₆ ) and Zener diode (D ₄ ) are applied to the base and the collector of the power supply start driving transistor (Q ₃ ), respectively, and the transistor (Q ₃ ) is conducted so that the power supply voltage HB ⁺ ) is applied to initial start-up, and after the initial start-up, the flyback transformer secondary coil voltage (B ⁺ ₁ ) is input and applied to the horizontal oscillation circuit as the power supply voltage (HB ⁺ ) through the diode (D ₃ ). At this time, the transformer secondary coil voltage (B ⁺ ₁ ) is input and the power supply voltage (HB ⁺ ) is applied to the horizontal oscillation circuit through the diode (D ₃ ), where the transformer secondary coil voltage (B ⁺ ₁ ) is a transistor It is higher than the emitter voltage of the output (Q ₃₎ a diode (D ₂₎ is "off" It is good.

In this state of normal operation, when a large amount of X-rays are emitted and the X-ray protector PT is operated, the output of the X-ray protector PT becomes a "high" level voltage, and this "high" level voltage becomes X. When applied to the base of the switching transistor Q ₁ via the bias resistor R _{1 in the} line protection switching section 1, the transistor Q ₁ is turned on and thus the collector potential of this transistor Q ₁ . Becomes the ground potential, and a ground voltage, which is an output voltage of the X-ray protective switching unit 1, is applied to the relay driver 2 so that the relay driver transistor Q ₂ is " off ". Thus, the relay coil (RL) main power source voltage (B ⁺⁾ that the current is not flow applied to the relay (RY ₁₎ the power drive unit 3 as the contact (RC) is "off" for the (RY ₁₎ is As it is blocked, the flyback transformer primary coil voltage FB ⁺ is blocked, and at the same time, the voltage applied to the power start driving transistor Q ₃ is cut off.

In this way, the present invention cuts off the main power voltage applied to the power start driving transistor when the X-ray protector is operated because a large amount of X-rays are emitted during the normal operation of the television. It is a useful design that can improve the reliability of the product by preventing damage.

※ Note: The disclosure is based on the initial application.

Claims (2)

X-ray protective switching unit (1) for inputting the output of the X-ray protector (PT) and switching the output voltage according to whether the X-ray protector (PT) is operated, and this X-ray protective switching unit (1) The power supply of the TV, characterized in that the output of the input is composed of a relay drive unit (2) for preventing the main power supply voltage (B ⁺ ) from being applied to the normal power drive unit (3) during operation of the X-ray protector (PT) Driving transistor protection circuit. 2. The relay driving unit 2 according to claim 1, wherein the output of the X-ray protective switching unit ₁ is the coil RL of the relay RY ₁ and the anti-electromotive force preventing diode D ₁ and the current limiting resistor R _4. Is applied to the collector of the relay driving transistor Q ₂ and a power supply " on " signal PO is applied to the base of the transistor Q ₂ via the bias resistor R ₂ (R ₃ ). And a main power supply voltage (B ⁺ ) is applied to the power supply driving section (3) via the contact point (RC) of the relay (RY ₁ ).