KR940004032Y1 - Horizontal protecting circuit for tv - Google Patents

Abstract

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Description

TV's horizontal deflection protection circuit

1 is a conventional horizontal deflection circuit diagram.

2A to 2E are signal waveform diagrams during horizontal deflection circuit operation.

3 is a horizontal deflection protection circuit diagram of the present invention.

* Explanation of symbols for main parts of the drawings

1: horizontal drive circuit 2: flyback transformer

3: deflection circuit 4: switching driver

5: switching unit 6: power supply unit

Q1-Q4: Transistor D1, D2: Diode

G: Tuning capacitor Cs: S-calibration capacitor

C1: Electrolytic Capacitor LDY: Deflection Coil

R1-R5: Resistor B1 ⁺ , B2 ⁺ : Driving voltage

The present invention relates to a circuit that protects a horizontal deflection circuit of a TV from overvoltage, and in particular, an overvoltage is applied at the initial stage of the horizontal drive circuit operation in the TV to prevent the destruction of the horizontal output transistor and the damping diode and to cut off the power supply when an abnormal occurrence of the horizontal drive circuit occurs. A horizontal deflection protection circuit for a TV that protects a horizontal deflection circuit.

FIG. 1 is a conventional horizontal deflection circuit diagram. As shown in FIG. 1, the horizontal drive circuit 1 outputs a horizontal drive pulse when a driving voltage B2 ⁺ is applied thereto, and the horizontal drive pulse 1 of the horizontal drive circuit 1 is applied according to the horizontal drive circuit 1. A deflection circuit 2 for driving the deflection coil LDY, and a flyback transformer FBT for generating a high voltage in response to the driving voltage B1 ⁺ applied and turning on and off the transistor Q1 of the deflection circuit 2. The deflection circuit 3 comprises a horizontal output transistor Q1 that is turned on and off by a horizontal drive pulse of the horizontal drive circuit 1 to switch and a high voltage generated in the return period and the flyback transformer. A tuning capacitor (G) for adjusting the voltage, a deflection coil (LDY) for generating a magnetic field to change the CRT beam direction, an S-shaped correction capacitor (Cs) for changing the sawtooth current shape to an S shape, and a horizontal output transistor (Q1). ) Turn off It consists of a diode (D1) to a switching action.

Referring to the operation of the conventional circuit configured as described above are as follows.

First, when the horizontal drive pulse is output from the horizontal drive circuit 1 to which the driving voltage B2 ⁺ is applied and applied to the base terminal of the horizontal output transistor Q1, the horizontal output transistor Q1 is in accordance with the potential level of the horizontal drive pulse. When the horizontal output transistor Q1 is turned on, the driving voltage B1 ⁺ is applied to the flyback transformer 2 so that a high voltage is generated and a current I is applied to the deflection coil LDY. ₃ ) flows, and the S-calibration capacitor Cs is charged.

At this time, when the horizontal output transistor Q1 is turned off, the flow of the current I ₃ is reduced by magnetic induction, and vibrates by the coupling of the tuning capacitor CT and the deflection coil LDY. Since a forward voltage is applied to (D1), a current flows, thereby performing a normal switching operation.

Therefore, referring to the signal waveform diagram during the operation of the horizontal deflection circuit in FIG. 2, when the driving voltage B1 ⁺ is applied to the horizontal drive circuit 1, the horizontal drive pulse as shown in FIG. Since the horizontal output transistor Q1 is turned on during T0-T1, the current I ₃ flowing to the deflection coil LDY increases, and at this time, when the horizontal output transistor Q3 is turned off, the time T1-T2 The current (I ₃ ) flowing to the deflection coil (LDY) during the inversion of the S-calibration capacitor (Cs) gradually decreases as the sawtooth wave is S-shaped, thereby charging the tuning capacitor (CT) to collect the collector of the horizontal output transistor (Q1). When the voltage applied to the terminal is gradually increased and the tuning capacitor CT is fully charged, the voltage decreases while discharging, as shown in (c) of FIG. 2, and the current I ₃ increases during the time T2-T3 and is deflected. The waveform of the current I ₃ flowing through the coil LDY is as shown in FIG.

However, the horizontal drive circuit 1 is horizontal because the drive voltage B1 ⁺ stabilized in the power supply circuit is applied first, and then the horizontal drive circuit 1 is supplied with the drive voltage B2 ⁺ to output a horizontal drive pulse. Since the tuning capacitor CT and the S-shaped correction capacitor Cs are charged before outputting the drive pulse, the horizontal drive pulse is applied to the deflection circuit 3 so that the horizontal output transistor Q1 is turned on. Current (I ₁ + I ₂ + I ₃ ) flows through the collector terminal, and when the horizontal drive pulse falls to low potential, the horizontal output transistor (Q1) is turned off and the current (I ₁ + I ₂ + I ₃ ) flows into the collector terminal. Overvoltage is applied to destroy the horizontal output transistor Q1.

Therefore, it is difficult to apply a conventional horizontal deflection circuit to a large TV with a large output.

In consideration of these problems, the present invention cuts off the supply of voltage to the deflection circuit at the beginning of the operation of the horizontal deflection circuit, and devises a horizontal deflection protection circuit of the TV which prevents an overcurrent from being applied when the horizontal output transistor is turned off by the horizontal drive pulse. If it is described in detail with reference to the accompanying drawings as follows.

3 is a horizontal deflection protection circuit diagram of the present invention. As shown in FIG. 3, when the driving voltage B2 ⁺ is applied, the horizontal drive circuit 1 outputting a horizontal drive pulse and the driving voltage B1 ⁺ are applied. A flyback transformer 2 for generating a high pressure and a deflection circuit 3 for switching the beam direction of the CRT and adjusting the high pressure of the flyback transformer 2 by switching by a horizontal drive pulse of the horizontal drive circuit 1. ), A switching driver 4 for sensing a horizontal drive pulse of the horizontal drive 1 and outputting a switching drive signal, and a switching unit for outputting a switching signal when the switching drive signal of the switching driver 4 is applied ( 5) and a power supply unit 6 for supplying a driving voltage B1 ⁺ to the flyback transformer 2 when a switching signal of the switching unit 5 is applied, wherein the switching driver 4 is horizontal. Drive circuit (1) The horizontal live pulse is applied to the electrolytic capacitor C1 and the resistor R3 connected in parallel through the diode D1 and the resistor R1, and the connection point is output. The terminal (-) and the resistor ( The other terminal of R3 is grounded, and the switching unit 5 applies the switching drive signal of the switching driver 4 to the transistor Q2 having the emitter grounded through the resistor R2, and the transistor Q2. The common terminal is connected to the other terminal of the resistor R4, to which the driving voltage B1 ⁺ is applied to the other terminal of the resistor R5, and the base of the transistor Q3 to which the driving voltage B1 ⁺ is applied to the emitter. The emitter of the transistor Q3 is configured to be an output, and the power supply unit 6 is configured to output the emitter of the transistor Q4 to which the driving voltage B1 ⁺ is applied to the collector.

The electrolytic capacitor C1 charges when the initial horizontal drive pulse is detected to give a delay time, and the diode D1 prevents voltage from being applied in the reverse direction when the electrolytic capacitor C1 is discharged.

Referring to the operation and effects of the present invention configured in this way as follows.

First, when the driving voltages B1 ⁺ and B2 ⁺ are stabilized, the driving voltage B2 ⁺ is applied to the horizontal drive circuit 1 to output a horizontal drive pulse, and the output horizontal drive pulse is the diode D2. When applied through and the resistor R1, the electrolytic capacitor C1 is instantaneously charged by the time constant of the electrolytic capacitor C1 and the resistor R3.

At this time, since the charged electrolytic capacitor C1 discharges through the resistor R3, the transistor Q2 to which the switching drive signal, which is the high potential of the switching driver 4, is applied through the resistor R2, turns on the resistor R4, The driving voltage B1 ⁺ through R5 is grounded, and the transistor Q3 to which the low potential is applied is turned on to apply the driving voltage B1 ⁺ to the transistor Q4, and thus is output through the turned-on transistor Q4. The flyback transformer 2 to which one driving voltage B1 ⁺ is applied generates high voltage.

On the other hand, the transistor Q1 is turned on by the high potential horizontal drive pulse output from the horizontal drive circuit 1 so that a current flows in the deflection coil LDY, and the horizontal drive circuit 1 outputs a low potential in the horizontal drive circuit 1. When the switching driver 4 has a low potential applied to the resistor R2 since the potential of the electrolytic capacitor C1 becomes "0", the transistor Q2 is turned off and the driving voltage B1 ⁺ is driven through the resistor R4. The driving voltage B1 ⁺ is not applied to the deflection circuit 3 because the transistor Q3 is applied to the base to be turned off and the transistor Q4 is turned to the low level to be turned off.

Accordingly, the drive voltage is applied to the deflection circuit 3 by sensing the horizontal drive pulse of the horizontal drive circuit 1 by the switching driver 4, outputting a drive signal, switching the switching circuit 5, and controlling the power supply unit 6. Control the supply of (B1 ⁺ ).

As described in detail above, the present invention prevents overvoltage from being applied to the horizontal output transistor of the deflection circuit during initial horizontal drive circuit driving, and cuts off power when the horizontal drive circuit breaks down, thereby protecting the horizontal deflection circuit to increase reliability and large output. It has the effect of promoting safety when large TVs are applied.

Claims (3)

The horizontal drive circuit 1 outputs a horizontal drive pulse when the driving voltage B2 ⁺ is applied, the flyback transformer 2 which generates high voltage when the driving voltage B1 ⁺ is applied, and the horizontal drive circuit ( A deflection circuit 3 for changing the beam direction of the CRT by receiving a horizontal drive pulse of 1) and a horizontal drive pulse of the horizontal drive circuit 1 are detected to give a delay time during initial driving and output a switching drive signal. The switching driver 4, the switching unit 5 for outputting a switching signal in accordance with the switching driving signal of the switching driver 4, and the driving voltage B1 ⁺ in accordance with the switching signal of the switching unit 5 is controlled. Horizontal deflection protection circuit of the TV, characterized in that consisting of a power supply (6). The switching driver (4) according to claim 1, wherein the switching driver (4) connects the output of the horizontal drive circuit (1) to an electrolytic capacitor (C1) and a resistor (R3) connected in parallel through a series connected diode (D2) and a resistor (R1). A TV's horizontal deflection protection circuit comprising a connection point as an output. The switching unit 5 of claim 1, wherein the output of the switching driver 4 connects the resistor R5 to the collector of the transistor Q2 to which the output of the switching driver 4 is applied through the resistor R2, and the other terminal of the resistor R5. The other terminal of the resistor R4 to which the driving voltage B1 ⁺ is applied is connected to the terminal and the connection point is applied to the transistor Q3 to which the driving voltage B1 ⁺ is applied to the collector, thereby to emit the emitter of the transistor Q3. A horizontal deflection protection circuit for a television, which is configured as an output.