KR100459792B1 - A circuit for protecting deflection circuit of display device - Google Patents

Abstract

The present invention rapidly discharges the residual voltage of the deflection integrated circuit due to the irregular input of the AC input power and the residual voltage of the deflection integrated circuit caused by the synchronization detection error of the MCU due to the frequency change caused by the repetitive resolution change in the video signal. It is an object to provide a circuit for protecting a deflection circuit.

In order to achieve the above object, the present invention provides a display device including a deflection integrated circuit, an X-ray protection circuit unit, an MCU, a Display Power Management System (DMPS) circuit unit, and a power terminal secondary voltage side. In the internal circuit, the X-ray protection circuit part is connected to the X-ray recognition pin of the deflection integrated circuit, and the anode terminal of the zener diode recognizes the X-ray of the deflection integrated circuit. A cathode terminal of the zener diode, a cathode terminal of the first diode and a cathode terminal of the second diode are connected to each other, an anode terminal of the first diode is connected to a suspend recognition pin of the MCU, The anode terminal of the second diode is characterized in that connected to the heater terminal and the power terminal secondary voltage side connected to the Display Power Management System (DMPS) circuit.

Description

A CIRCUIT FOR PROTECTING DEFLECTION CIRCUIT OF DISPLAY DEVICE}

In a display device, an image is formed through an electron beam projected on a fluorescent surface, and a circuit for changing the deflection of the electron beam is called a deflection circuit.

The deflection circuit consists of a horizontal deflection circuit and a vertical deflection circuit, and since the horizontal deflection circuit does not have a separate protection circuit, transient phenomenon occurs momentarily during mode change or power on / off operation. There was a case of destruction.

The present invention is a deflection in the display device for preventing the deflection integrated circuit is destroyed by the instability of the input power that may occur during the manufacturing process of the display device (when the AC input power is repeatedly input in a few milliseconds) It relates to a circuit for circuit protection.

If the input power to the display device is repeatedly turned on / off due to the unstable contact of the brush line of the pallet on the automatic conveyor during production, unwanted excessive current flows in the deflection integrated circuit and the deflection integrated circuit is destroyed. Can be.

Such a problem may occur when an error is caused by an external power supply or a signal by a control of a microcontroller unit (hereinafter referred to as MCU) when the display apparatus starts to operate. In addition, it is caused by an abnormal signal system with the communication port power supply of the deflection integrated circuit or the residual voltage on the X-ray recognition port.

1 is a diagram illustrating a part of a conventional monitor internal circuit including a deflection integrated circuit.

Typical X-rays (X) consisting of capacitors (C2, C3), resistors (R3, R4, R5), diodes (D5) and flyback transformers on the X-ray recognition pins of the deflection integrated circuit (IC2). -ray) The protection circuit unit 10 is connected. The X-ray protection circuit is commonly used in an internal circuit of a display device.

In addition, the X-ray recognition pin of the deflection integrated circuit IC2 is connected to the suspend recognition pin of the MCU IC1 and includes a transformer T1, a diode D1, and a capacitor C1. It is connected to the secondary voltage side 30 of the power supply stage, and is connected to a display power management system (DMPS) circuit unit consisting of resistors R1 and R2 and transistors Q1 and Q2.

In the related art, there is a problem that a synchronization detection error of an MCU occurs instantaneously due to a transient phenomenon caused by a frequency change when repetitive resolution changes in an image signal. Due to this, if it is determined that there is no sync, the residual of the input terminal of the X-ray recognition pin of the deflection integrated circuit IC2 when the voltage of the deflection integrated circuit IC2 is turned off within a short time and then returned again There was a problem that the voltage was recognized and the deflection integrated circuit IC2 was not in operation, causing damage to the deflection circuit.

In addition, if the AC input power is repeatedly input irregularly for several milliseconds instantaneously, the VCC of the deflection integrated circuit IC2 continues to charge and discharge repeatedly, and thus the X-ray X of the deflection integrated circuit IC2 is repeated. It may be lower than the residual voltage of the recognition pin, and thus an X-ray malfunction may occur and the deflection integrated circuit IC2 may not operate normally. In such a case, there is a problem that damage to the horizontal deflection circuit.

The present invention has been made in view of the above problems and to solve the above problems, the deflection integrated circuit in the internal circuit of the display device, X-ray (X-ray) protection circuit, MCU, power saving system (DMPS; Display Power Management System) And a discharge part including a zener diode, a first diode, and a second diode connecting the heater terminal connected to the circuit unit and the secondary voltage side of the power supply terminal, so that the residual voltage of the deflection integrated circuit and the image signal of the deflection integrated circuit due to the irregular input of the AC input power supply. It is an object of the present invention to provide a circuit for protecting a deflection circuit by quickly discharging a residual voltage of a deflection integrated circuit caused by a synchronous detection error of an MCU due to a frequency change caused by a repetitive resolution change.

1 is a view showing a part of a conventional monitor internal circuit including a deflection integrated circuit;

2 is a block diagram illustrating a circuit for protecting a deflection circuit of the display device according to the present invention.

<Description of Drawing>

10 .... X-ray protection circuit part 20 .... discharge part

30 .... Power supply secondary voltage side 40 .... Display Power Management System (DMPS) circuit part

R1, R2, R3, R4, R5 .... Resistors C1, C2, C3 .... Capacitors

D1, D5 .... Diode D2 .... First Diode

D3 .... Second Diode D4 .... Zener Diode

T1 .... secondary transformer T2 .... flyback transformer

IC1 .... MCU IC2 .... deflection integrated circuit

Q1, Q2 .... transistor

In order to achieve the above object, the present invention provides a Zener diode in an internal circuit of a display device including a deflection integrated circuit, an X-ray protection circuit, an MCU, and a Display Power Management System (DMPS) circuit. And a discharge part including a first diode and a second diode, wherein the X-ray protection circuit part is connected to an X-ray recognition pin of the deflection integrated circuit, and an anode terminal of the zener diode is connected to the deflection. An X-ray recognition pin of an integrated circuit is connected, and a cathode terminal of the zener diode, a cathode terminal of the first diode and a cathode terminal of the second diode are connected to each other, and an anode terminal of the first diode is connected to the MCU. The anode terminal of the second diode is connected to a suspend recognition pin, and is connected to a heater end connected to a display power management system (DMPS) circuit part. The power supply terminal is characterized in that connected to the secondary voltage side.

Hereinafter, a circuit for protecting a deflection circuit of a display device according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram illustrating a circuit for protecting a deflection circuit of the display device according to the present invention.

As shown in the figure, the configuration of a circuit for deflection circuit protection of the display device according to the present invention is as follows.

Typical X-rays (X) consisting of capacitors (C2, C3), resistors (R3, R4, R5), diodes (D5) and flyback transformers on the X-ray recognition pins of the deflection integrated circuit (IC2). -ray) The protection circuit unit 10 is connected.

In addition, an anode terminal of the zener diode D4 is connected to the node where the X-ray recognition pin of the deflection integrated circuit IC2 and the X-ray protection circuit unit 10 are connected.

The cathode terminal of the zener diode D4, the cathode terminal of the first diode D2 and the cathode terminal of the second diode D3 are connected to each other.

The anode terminal of the first diode D2 is connected to the suspend recognition pin of the MCU IC1, and the second diode D3 includes a transformer T1, a diode D1, and a capacitor C1. The heater side is connected to the secondary voltage side 30 of the power supply terminal and is connected to a circuit part of a display power management system (DMPS) consisting of resistors R1 and R2 and transistors Q1 and Q2. Connected.

Further comprising a discharge unit 20 consisting of a zener diode (D4), a first diode (D2) and a second diode, by the transient phenomenon due to the frequency change in the repetitive resolution change in the conventional video signal instantaneously If it is determined that there is no synchronization due to a problem that a synchronization detection error may occur and a synchronization detection error of the MCU, when the voltage of the deflection integrated circuit IC2 is turned off within a short time and then resumes, The residual voltage is recognized at the input terminal of the X-ray recognition pin of the deflection integrated circuit IC2, and the deflection integrated circuit IC2 is not operated. Thus, the deflection circuit may be damaged. I can solve it.

The terminal of the suspend recognition pin of the MCU IC1 falls to low when there is no sync, so that the anode terminal of the first diode D2 is connected to the terminal of the MCU IC1. The first diode D2 instantaneously discharges the residual voltage of the X-ray recognition pin to the suspend recognition pin of the MCU IC1 by connecting to a suspend recognition pin. You can solve the problem.

In addition, if the AC input power is repeatedly input irregularly for a few milliseconds instantaneously, the VCC of the deflection integrated circuit IC2 continues to charge and discharge repeatedly, and thus the X-ray (X−) of the deflection integrated circuit IC2 is repeated. ray) and lower than the residual voltage of the recognition pin, malfunction of the X-ray (X-ray) occurs, the deflection integrated circuit (IC2) may not operate normally. In this case, there is a problem that the horizontal deflection stage circuit may be damaged.

A heater connected to the Zener diode (D4) and the second diode (D3) to the X-ray (X-ray) recognition pin of the deflection integrated circuit (IC2) and the Display Power Management System (DMPS) circuit unit 40 It is connected to the secondary voltage side 30 of the power supply terminal consisting of a heater side and a transistor T1, a diode D1, and a capacitor C1.

By such a connection, the residual voltage of the deflection integrated circuit IC2 is quickly discharged to the heater side and the secondary voltage side during the momentary instability of the AC input power source, thereby preventing the problem of damage to the deflection circuit caused by the residual voltage. Solve.

Here, the zener diode (D4) serves to discharge quickly while maintaining a constant voltage, and the second diode (D3) serves to prevent the reverse voltage.

As described above, when the circuit for the deflection circuit protection of the display device according to the present invention is used, the following effects are obtained.

Zener diode which connects the deflection integrated circuit, X-ray protection circuit part, MCU, heater terminal and power terminal secondary voltage side in the internal circuit of the display device, MCU, Display Power Management System (DMPS) circuit part, It is further provided with a first diode and a second diode, which can effectively prevent the breakdown of the deflection circuit due to transient phenomenon by quickly discharging the residual voltage of the deflection integrated circuit which may occur due to instability of the input power during the manufacturing process of the display device. have.

In particular, the deflection circuit is protected by discharging the residual voltage of the X-ray recognition pin of the deflection integrated circuit to the suspend pin of the MCU or to the secondary voltage of the heater side or the power supply terminal of the display device. It can work.

Claims (1)

In the internal circuit of the display device including a deflection integrated circuit, an X-ray (X-ray) protection circuit portion, an MCU, a Display Power Management System (DMPS) circuit portion and the power supply secondary voltage side, A discharge unit including a zener diode, a first diode, and a second diode, The X-ray protection circuit unit is connected to an X-ray recognition pin of the deflection integrated circuit, The anode terminal of the zener diode is connected to the X-ray recognition pin of the deflection integrated circuit, A cathode terminal of the zener diode, a cathode terminal of the first diode and a cathode terminal of the second diode are connected to each other, The anode terminal of the first diode is connected to the suspend recognition pin of the MCU, And an anode terminal of the second diode is connected to a heater terminal and a power terminal secondary voltage side of a display power management system (DMPS) circuit.