KR0136032B1 - Horizontal output transistor protection device in case of overvoltage - Google Patents

Abstract

According to the present invention, when an overvoltage is generated in a power supply circuit of a television and applied to a flyback transformer, the collector voltage applied to the collector side of the horizontal output transistor is increased, causing an overload of the horizontal output transistor, causing an excessive rise in the water pipe anode. This is made in consideration of the fact that a large quantity of X-rays harmful to the human body can be emitted from the receiving tube screen as the applied water tube anode voltage is applied, and the power voltage applied to the flyback transformer through the power circuit of the television is When the overvoltage condition is detected, the horizontal output transistor protection device for overvoltage is provided so as to cut off the input power of the SMPS circuit part to prevent the horizontal output transistor from being overloaded due to the overvoltage.

Accordingly, the present invention provides a power transformer 20 for transforming commercial AC power, a rectifier circuit 21 for rectifying the transformed AC power as a DC power supply, and a power regulator for reducing the DC power and applying it as a standby power supply. (22), a power supply for a television having an SMPS circuit portion (24) for supplying a DC power supply through a rectifying circuit (23) for rectifying commercial AC power to a flyback transformer side as an operating power source, wherein the SMPS circuit portion ( The overvoltage detector 25 for detecting an overvoltage state of the voltage output from the 24 and the microcomputer 26 for controlling the power supply to the SMPS circuit unit 24 to be cut off when the overvoltage state is detected by the overvoltage detector 25. And switching means 27 for interrupting the power supply applied to the SMPS circuit unit 24 under the control of the microcomputer 26, wherein the overvoltage detection unit 25 Zener diodes JD connected in the opposite direction to the direction of application of the power supply and detecting an overvoltage passing above the rated voltage level, rectifying diodes D6 and D7 for the overvoltage current, and the rectified overvoltage It characterized in that it comprises a resistor (R5) and capacitors (C10, C11) for filtering the power supply of the state.

Description

Horizontal output transistor protection device in case of overvoltage

1 is a diagram showing a circuit configuration of a general horizontal output circuit portion.

2 is a diagram showing a power supply circuit portion of a television employing a horizontal output transistor protection device during overvoltage according to the present invention.

* Description of the symbols for the main parts of the drawings *

10: oscillation part, 11: dividing part,

12: horizontal drive unit, 13: horizontal output transistor,

14: deflection coil, 15: flyback transformer,

20: power transformer, 21,23: rectifier circuit,

22: power regulator, 24: SMPS circuit part,

25: overvoltage detection unit, 26: microcomputer,

27: switching element.

The present invention relates to a horizontal output transistor protection device in the event of an overvoltage, and more particularly, if the power supply voltage applied to the flyback transformer (FBT) from the power supply circuit of the television is in an overvoltage state, the SMPS circuit unit (Switching Mode) The present invention relates to a horizontal output transistor protection device in case of overvoltage, which cuts off a power supply and prevents an overload of the horizontal output transistor due to an overvoltage applied to the flyback transformer.

In general, a horizontal output circuit is adopted in a television to apply a pulse having a deflection period of 15.75 KHz through a horizontal deflection circuit to interrupt a voltage applied to a deflection coil of a water pipe and to apply a sawtooth wave current to a horizontal deflection coil. F. In addition, the horizontal output circuit unit uses a flyback pulse generated in the circuit to receive the water pipe anode voltage and the water pipe focus voltage for driving the water pipe, the video output voltage for outputting the video signal, and the number thereof. The ABL voltage applied to the ABL (Automatic Bright Limiting) circuit for detecting the correlated anode current and limiting the beam current flowing through the receiver tube is transformed and output.

FIG. 1 is a diagram showing a circuit configuration of a general horizontal output circuit, in which reference numeral 10 denotes an oscillator for generating a rectangular wave-shaped frequency signal through an oscillation operation by receiving a predetermined frequency signal. A frequency division part for generating a horizontal frequency signal of 15.75 KHz by dividing a frequency signal in the form of a rectangular wave oscillated by the oscillation part 10, and 12 is a horizontal driving part for performing horizontal deflection driving by being switched by the horizontal frequency signal. 13 is a horizontal output transistor which receives the horizontal frequency signal generated by the horizontal deflection driving of the horizontal driving unit 12, and 14 is a deflection coil to which the sawtooth pulse is applied by the conduction of the horizontal output transistor 13. to be. In addition, the horizontal output circuit portion is connected to the primary side of the flyback transformer that transforms and outputs the voltage for driving the water pipe and the ABL voltage, that is, the choke coil.

On the other hand, according to such a horizontal output circuit section, when the horizontal frequency signal of the positive pulse is applied to the horizontal output transistor 13, the point A on the collector side is equal to Vcp = B + (1 + π / 2 Ts / Tr). On the other hand, the flyback transformer 15 boosts the pulse voltage generated during the retrace period so that a high voltage is applied to the water pipe anode.

However, if an overvoltage is generated in the power supply circuit of the television and applied to the flyback transformer, the collector voltage applied to the collector side of the horizontal output transistor is increased, causing the overload of the horizontal output transistor and overloading the horizontal output transistor. Due to the high pressure of the flyback transformer and the excessive riser anode voltage applied to the receiving tube anodewood, a large amount of X-rays harmful to the human body can be emitted from the receiving tube screen. do.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and if the power supply voltage applied to the flyback transformer through the power supply circuit of the television is detected as an overvoltage state, the SMPS is prevented from overloading the horizontal output transistor due to the overvoltage. It is an object of the present invention to provide a horizontal output transistor protection device in case of overvoltage to cut off the input power of the circuit part.

According to a preferred embodiment of the present invention, a power transformer for transforming a commercial AC power source, a rectifying circuit for rectifying the transformed AC power source into a DC power source, and a DC power source are decompressed to a standby power source. A power supply apparatus of a television comprising a power regulator to be applied as a power supply regulator and an SMPS circuit portion to supply a direct current power supply through a rectifying circuit for rectifying commercial AC power to a flyback transformer side as an operating power supply. An overvoltage detector for detecting an overvoltage state, a microcomputer controlling the power supply to the SMPS circuit unit to be cut off when the overvoltage state is detected by the overvoltage detector, and a power supply applied to the SMPS circuit unit under the control of the microcomputer It further comprises a switching means for, the overvoltage inspection The zener diode is connected in a reverse direction to the direction of application of the power supply and detects an overvoltage passing through the rated static pressure level. A horizontal output transistor protection device is provided that is configured to include a resistor and a capacitor to filter the supply.

In the present invention made as described above, if the operating power is converted through the SMPS circuit portion and applied to the flyback transformer side is detected as an overvoltage state, the DC power applied to the primary side of the SMPS circuit portion is cut off and applied to the flyback transformer. The overload condition of the horizontal output transistor is prevented due to overvoltage.

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

2 is a diagram showing a power supply circuit portion of a television employing a horizontal output transistor protection device during an overvoltage according to the present invention. In the apparatus of the present invention, reference numeral 20 denotes a power transformer for transforming a commercial AC power supply. 23 is a rectifier circuit for rectifying the AC power source into a DC power source, 22 is a power regulator for supplying a stable standby power source by reducing the rectified DC power source, and 24 is a DC source rectified from the rectifying circuit 23. SMPS circuit portion for receiving the power to supply the operating power to the flyback transformer 15 side shown in FIG.

Also, reference numeral 25 denotes an overvoltage detector for detecting an overvoltage state for receiving an operating power source from the SMPS circuit unit 24 and for detecting an overvoltage state of the operating power source, in a reverse direction to an application direction of the operating power source. A zener diode JD, in which an overvoltage condition is detected according to a state in which a bias voltage passes through a connected voltage level exceeding the zener voltage level, and a rectifying diode for rectifying the overvoltage passing through the zener diode JD ( D6 and D7, and resistors R5 and capacitors C10 and C11 for filtering the overvoltage.

Also, reference numeral 26 receives a high potential corresponding to the overvoltage detected by the overvoltage detector 25 while the standby power from the power regulator 22 is applied to the first input terminal 11. The microcomputer recognizes and outputs a control signal for shutting off the operating power in the overvoltage state applied to the flyback transformer 15 through the first output terminal O1, where 27 is the control from the microcomputer 26. Switching element made of, for example, an NPN transistor for blocking the application of overvoltage by bypassing the direct current power applied to the primary side of the SMPS circuit portion 24 connected to the collector side while being applied to the base side thereof to the ground side. to be.

Next, the operation of the present invention made as described above will be described in detail with reference to the accompanying drawings.

First, the commercial AC power is transformed to a constant level through the power transformer 20 and rectified to the DC power by the rectifier circuit 21, and the rectified DC power is decompressed through the power regulator 22 to stabilize the standby. While applied to the microcomputer 26 as a power source, the DC power source rectified by the rectifying circuit 23 is applied to the flyback transformer 15 side shown in FIG. 1 as the operating voltage B + through the SMPS circuit section 24. do.

In addition, as shown in FIG. 1, the flyback transformer 15 is generated by transforming the water pipe anode voltage, the water pipe focus voltage, and the ABL voltage for driving the water pipe in the state where the operating voltage B + is applied. In the horizontal output circuit unit, the oscillation unit 10 oscillates to a predetermined frequency signal to generate a horizontal frequency signal of 15.75 KHz through the division unit 11, and the horizontal output transistor 12 drives the horizontal drive unit 12. As the horizontal drive pulse is applied to the base side of the base 13, the tompa current is applied to the deflection coil 14 by the conduction of the horizontal output transistor 13, while the flyback transformer 15 receives the horizontal output transistor ( By applying the collector voltage to the collector side of 13), the high voltage is applied to the water pipe anode by the pulse voltage generated during the return period.

In such a state, the overvoltage detector 25 receives the operating voltage B + applied to the flyback transformer 15 and detects whether the overvoltage is present. The operating voltage B + is brought into an overvoltage state. When applied and exceeded the zener voltage level of the zener diode JD, the bias voltage according to the overvoltage passes through the zener diode JD to detect an overvoltage state, while the overvoltage passed through the zener diode JD. Is rectified by rectifying diodes D6 and D7, filtered through resistors R5 and capacitors C10 and C11, and applied to the first input terminal I1 of the microcomputer 26 in the form of a high level signal. As a result, the microcomputer 26 receives a high level signal corresponding to the overvoltage, recognizes the high level signal, and outputs a high level control signal through the first output terminal O1.

Accordingly, the switching element 27 whose collector side is connected to the primary side of the SMPS circuit portion 24 is electrically connected to the base side by receiving a high level control signal from the microcomputer 26. Bypassing the DC power applied to the primary side of (24) to the ground side to block the overvoltage is applied to the flyback transformer (15) side.

According to the present invention made as described above, when the operating power applied to the flyback transformer side via the SMPS circuit portion in the power supply circuit of the television is detected as an overvoltage state, a direct current applied to the primary side of the SMPS circuit portion by the control of the microcomputer. By operating to cut off the power, the overvoltage applied to the flyback transformer not only prevents the horizontal output transistor from being overloaded, but also has the advantage of preventing the occurrence of excessive X-rays in the receiving pipe. have.

Claims (1)

A power transformer 20 for transforming commercial common power, a rectifier circuit 21 for rectifying the transformed AC power into a DC power source, a power regulator 22 for reducing the DC power and applying it as a standby power source, and commercial A power supply apparatus for a television having an SMPS circuit section 24 for supplying a DC power supply through a rectifying circuit 23 rectifying AC power to a flyback transformer side as an operating power source, the output being output from the SMPS circuit section 24. An overvoltage detection unit 25 for detecting an overvoltage state of a voltage, a microcomputer 26 for controlling power supply to the SMPS circuit unit 24 when the overvoltage state is detected by the overvoltage detection unit 25, and the micom 26 And switching means 27 for interrupting the power supply applied to the SMPS circuit unit 24 under the control of the power supply. Zener diodes (JD) for detecting an overvoltage passing in a reverse direction with respect to and exceeding the rated voltage level, rectifying diodes (D6, D7) for rectifying the supply power in the overvoltage state, and the rectified overvoltage state Resistor (R5) and capacitors (C10, C11) for filtering the power supply of the horizontal output transistor protection device, characterized in that it comprises a.