KR19980032645U - Monitor out of protection circuit - Google Patents

Abstract

The present invention relates to a monitor out of protection circuit for preventing the monitor from operating in a synchronization signal outside the frequency used,

PC (1), MCU (2) receiving the horizontal / vertical signal from the PC (1), Horizontal / vertical processor (4) for receiving and controlling the horizontal and vertical signals respectively under the control of the Syick MCU and A vertical amplification and deflection circuit 5 for controlling the amplification and deflection of the vertical signal by the output signal of the horizontal / vertical processor, and a horizontal drive circuit 6 operated by the output signal of the horizontal / vertical processor 4. In the monitor circuit comprising a horizontal deflection and a high voltage circuit (7) for controlling the horizontal deflection by the operation of the horizontal drive circuit (6), and generating a high pressure by the high pressure flyback transformer,

And further comprising a voltage controller 8 between the vertical signal line from the MCU 2 and the horizontal deflection and high voltage circuit 7 to break down the vertical synchronizing signal when an out-of-synchronization signal is input. do.

This enables the monitor circuit to be protected by changing the resistance and xenodiode values for the out-of-frequency even for monitors with a different frequency range.

Description

Monitor out of protection circuit

The present invention relates to a monitor out of protection circuit, and more particularly to a monitor out of protection circuit for preventing the monitor from operating in the synchronization signal outside the frequency used.

A conventional case will be described with reference to FIG. 1.

The monitor has a fixed frequency for horizontal and vertical sync input signals. If the sync signal is input out of the frequency range, the monitor may send out of signal or continue to malfunction.

When the horizontal and vertical synchronizing signals are input from the PC 1, the MCU 2 recognizes the pulse width of the synchronizing signal and knows the input frequency. The MCU 2 controls other functions appropriate to the mode, and A horizontal and vertical pulse signal of frequency is sent to the horizontal / vertical processor 4.

The pulse width of the synchronization signal which can usually be recognized by the MCU 2 is determined. For example, if a pulse width signal shorter than 0.5μs is input, the frequency will not be recognized properly, the mode control will be free, and the vertical and horizontal sync signals will output the input frequency. This is because horizontal and vertical synchronization signal processing inside the MCU is hardware-configured because it does not recognize software and does not control software.

The higher the horizontal frequency, the shorter the period of the signal, and the smaller the pulse width of the synchronization signal.

Even if the monitor is operated out of the monitor because the MCU cannot recognize the frequency, it is difficult for the user to recognize the monitor malfunction as the screen. This is because the mode control is adjusted even if it recognizes and controls another mode. This reduces the reliability of the monitor.

Accordingly, the present invention is to overcome the above-described problems, the object of the present invention is to break down the vertical synchronization of the monitor screen when the horizontal synchronization out of the frequency range used in the monitor employing the CDT, the abnormal screen It is to provide a monitor out of protection circuit to prevent the monitor from operating in the synchronization signal outside the frequency range by giving a warning to the user by displaying the display.

As an example of the monitor out of the protection circuit for achieving the object of the present invention, a PC, a MCU receiving a horizontal / vertical signal from the PC, and receives a horizontal signal and a vertical signal under the control of the Sykes MCU, respectively A horizontal / vertical processor, a vertical amplification and deflection circuit for controlling the amplification and deflection of the vertical signal by the output signal of the horizontal / vertical processor, a horizontal drive circuit operated by the output signal of the horizontal / vertical processor, A monitor circuit comprising a horizontal deflection and a high voltage circuit for controlling a horizontal deflection by operation of the horizontal drive circuit and generating a high pressure by a high voltage flyback transformer,

And a voltage controller between the vertical signal line and the horizontal deflection and high voltage circuit from the MCU, when the out-of-sync signal is input, to break down the vertical sync signal.

1 is a block diagram for vertical and horizontal synchronization signal control of a conventional monitor

2 is a monitor out of protection circuit according to the present invention

<Explanation of symbols for main parts of drawing>

1: PC 2: MCU

4: horizontal / vertical processor

5: vertical amplification and deflection circuit 6: horizontal drive circuit

7 horizontal deflection and high voltage circuit 8 voltage control unit

R1-R3: Resistor Q1: Transistor

D1- D2: Diode

Hereinafter, an embodiment of the present invention will be described in detail with reference to FIG. 2.

Referring to FIG. 2, the monitor out of protection circuit according to the present invention includes a PC 1, an MCU 2 receiving a horizontal / vertical signal from the PC 1, and a horizontal signal and A horizontal / vertical processor 4 for receiving and controlling a vertical signal respectively, a vertical amplification and deflection circuit 5 for controlling amplification and deflection of the vertical signal by an output signal of the horizontal / vertical processor, and the horizontal / vertical A horizontal drive circuit 6 operated by the output signal of the processor 4 and a horizontal deflection and high voltage circuit which controls the horizontal deflection by the operation of the horizontal drive circuit 6 and generates a high pressure by a high pressure flyback transformer In the monitor circuit composed of (7),

It further comprises a voltage controller 8 between the vertical signal line from the MCU 2 and the horizontal deflection and high voltage circuit 7.

The voltage control section 8 includes resistors R1 and R2 for branching the high voltage from the high voltage circuit 97, a xenodiode D1 having a cathode connected to the resistors, and a base on the anode of the xenodiode D1. When the emitter is connected and the emitter is grounded, the collector is composed of a transistor Q1 connected to a power supply via a resistor R3 and a diode D2 connected to the power supply side.

With the above configuration, the monitor out of protection circuit of the present invention operates as follows.

The monitor must maintain a constant high voltage according to the mode. For this purpose, a voltage control unit 8 for controlling the voltage B + supplied to the high-voltage generating transformer FBT for each mode is provided to differentially supply the voltage B +.

The voltage B + increases as the horizontal frequency increases, which is the point where the voltage difference is the most severe in each mode. For example, the operating frequency is about 145V at 31KHZ and about 164V at 75KHZ. When the horizontal signal is input to the monitor whose frequency is 31KHZ-70KHZ, if the signal pulse width is too small and the MCU does not recognize the frequency, the MCU sends a horizontal / vertical signal of the input signal frequency to the horizontal / vertical processor (4). In this case, the monitor will have vertical and horizontal deflection at out of frequency.

At this time, the voltage B + is supplied with a voltage corresponding to 75 KHZ, and the voltage controller 8 branches the high voltage B + with the resistors R1 and R2 to a low voltage. When the voltage B + of 70 KHZ is at the open state, the xenodiode D1 is open. At the voltage B + of 75 KHZ, the xenodiode D1 is energized. For example, when the Zeno diode D1 is for 12V, the anode of the Zeno diode D1 is about 11V when the voltage (B +) is 70 KHZ. Adjust the value. The voltage (B +) of 70 KHZ and 75 KHZ can be designed to be about 20V.

When a voltage is supplied to the base of the transistor Q1 and the transistor Q1 is turned on, the vertical pulse signal of 5V level becomes 0.6V, so that the horizontal / vertical processor 4 is prevented from vertical synchronization and the vertical surface collapses.

When the transistor Q1 is turned off, since the diode D2 blocks the supply voltage 5V of the transistor Q1 from flowing into the vertical signal, the vertical signal is not affected and maintains the normal level.

As described above, the monitor out-of-protection circuit according to the present invention can protect the monitor circuit by changing the resistance and xenodiode values with respect to the out-of-frequency even if the monitor has a different frequency range.

What has been described above is just one embodiment for implementing the monitor out of protection circuit according to the present invention, the present invention is not limited to the above embodiment, this invention claimed in the following utility model registration claims Various changes may be made by those skilled in the art without departing from the gist of the present invention.

Claims (2)

PC (1), MCU (2) receiving the horizontal / vertical signal from the PC (1), Horizontal / vertical processor (4) for receiving and controlling the horizontal and vertical signals respectively under the control of the Syick MCU and A vertical amplification and deflection circuit 5 for controlling the amplification and deflection of the vertical signal by the output signal of the horizontal / vertical processor, and a horizontal drive circuit 6 operated by the output signal of the horizontal / vertical processor 4. In the monitor circuit comprising a horizontal deflection and a high voltage circuit (7) for controlling the horizontal deflection by the operation of the horizontal drive circuit (6), and generating a high pressure by the high pressure flyback transformer, And further comprising a voltage controller 8 between the vertical signal line from the MCU 2 and the horizontal deflection and high voltage circuit 7 to break down the vertical synchronizing signal when an out-of-synchronization signal is input. Monitor out of protection circuit. The method of claim 1, The voltage control section 8 includes resistors R1 and R2 for branching the high voltage from the high voltage circuit 97, a xenodiode D1 having a cathode connected to the resistors, and a base on the anode of the xenodiode D1. Is connected and the emitter is grounded, the collector comprises a transistor (Q1) connected to a power supply via a resistor (R3) and a diode (D2) connected to the power supply side.