KR970000270B1 - X-ray shielding circuti of a monitor - Google Patents

Abstract

A circuit which, when overflowing electronic current and voltage are generated from the monitor's CRT causing outflow of harmful X-ray to the body, breaks it and display warning lines by using OSD. It is composed of : a switching circuit that plays when overflowing electric current or overflowing voltage from the fly back trans ; a micro processor, when low potential is inputted from the switching circuit, recognize it and convert power supply side to DPMS off mode and control OSD playing part ; a OSD playing part that generate warning phrases of breaking the x-ray to the image dealing part according to the control of micro processor.

Description

Monitor's X-ray Cutoff Circuit

1 is an X-ray blocking circuit diagram of a conventional monitor.

2 is an X-ray blocking circuit diagram of a monitor according to the present invention.

3 is a flowchart of operation according to the present invention.

* Explanation of symbols for main parts of the drawings

30: preamplifier 40: image processing unit

50: switching unit 60: microcomputer

70: power supply unit 80: OSD operation unit

CRT: SHALTI FBT: Flyback Trans

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a monitor. In particular, when an excessive current or voltage is generated from the monitor's CRT, an X-ray harmful to the human body is blocked, and at the same time, an alarm character is displayed on the screen using an OSD. It relates to an X-ray blocking circuit of a monitor that can be displayed.

In general, when an excessive amount of current or voltage is generated from Falti's flyback transformer (FBT), the X-rays that are harmful to the human body are leaked.

In the related art, an X-ray blocking circuit as shown in FIG.

Looking at the configuration of the conventional X-ray blocking circuit, a flyback transformer (FBT) for applying high pressure to the SALTI, a horizontal signal oscillator 10 for generating a horizontal signal, the flyback transformer (FBT) and a horizontal signal The horizontal signal oscillator 10 is connected between the oscillator 10 and is composed of transistors Q1 and Q2 and resistors R1 to R6 to block excessive currents or voltages generated from the flyback transformer FBT. It was configured to include a blocking circuit 20 for blocking the output of.

Referring to the operation of the X-ray blocking circuit of the conventional monitor configured as described above, when excessive current or voltage is generated from the flyback transformer FBT, the transistor Q1 is connected through the resistors R1 and R2 of the blocking circuit 20. The high potential is applied to the base of the transistor Q1 to turn on. Accordingly, the low potential of the ground side is applied to the base of the transistor Q2 to turn on the transistor Q2. Thus, the output of the horizontal signal oscillator 10 is muted. The monitor has stopped working.

However, in the X-ray blocking circuit of the conventional monitor as described above, for example, when the monitor is stopped so that the X-ray is not generated by the processing circuit 20 because an overcurrent or an overvoltage is generated from CALTI, There is a problem that can be recognized as a malfunction because the monitor does not understand the reason why the operation of the monitor is stopped, there was a problem that after turning off the power after the freezing (about 10 seconds) to turn on again.

The present invention has been made to solve such a conventional problem to prevent the X-rays from leaking from the monitor's CT, as well as to make it easy for the user to recognize when the X-ray blocking operation is made. Its purpose is to provide an X-ray blocking circuit for a monitor that can be displayed by SD.

The present invention for achieving the above object is R.G.B. A monitor circuit comprising a preamplifier for amplifying a signal to a predetermined width, an image processor for processing the output of the preamplifier to appear as a Cititier image, and a fly back transformer for applying a high pressure to the Cititi, A switching circuit which is switched when an overcurrent or an overvoltage is generated from the flyback transformer, a microcomputer that recognizes when a low potential is input from the switching circuit, switches a power supply unit to a DPMS off mode, and simultaneously controls an OSD operation unit; Under the control of the microcomputer, the image processing unit is configured to include an OSD operation unit for generating a warning character according to the X-ray blocking.

Hereinafter, an embodiment of the X-ray blocking circuit of the present invention will be described in detail with reference to the accompanying drawings.

2 is a block diagram of the present invention R.G.B. A preamplifier 30 that amplifies the signal to a predetermined width, an image processor 40 which processes the output of the preamplifier 30 to appear as an image on the CRT, and a high pressure to the CRT. A monitor circuit comprising a flyback transformer (FBT) for applying a voltage, comprising: a transistor (Q10) and resistors (R11 to R13) that are switched when an overcurrent or an overvoltage is generated from the flyback transformer (FBT). The microcomputer 60 which recognizes when the low potential is input from the switching circuit 50 and the switching circuit 50, switches the power supply unit 70 to the DPMS off mode, and simultaneously controls the OS operation unit 80. And an OSD operation unit 80 for generating a warning text according to the X-ray blocking to the image processor 40 under the control of the microcomputer 60.

According to the present invention configured as described above, when a normal current or a voltage is output from the flyback transformer FBT, a low potential is output from the flyback transformer FBT so that the transistor Q10 of the switching unit 50 is turned off, and thus the microcomputer 60 is turned on. Since the high potential of the power supply Vcc is applied to the microcomputer 60, the microcomputer 60 recognizes this and controls the power to be supplied normally from the power supply unit 70. In this case, the OSD operation unit 80 is not controlled and the preamplifier is not supplied. RGB over 30 The signal is displayed on the CRT through the image processor 40.

That is, referring to FIG. 3, the microcomputer 60 determines whether the output of the switching unit 50 has a high potential or a low potential, and if the output of the switching unit 50 has a high potential, cuts off an X-ray. Since there is no need, the operation of the software of the microcomputer 60 is completed.

If the normal current or the voltage is not output from the flyback transformer FBT and the overcurrent or the overvoltage is output, the transistor Q10 of the switching unit 50 is turned on so that a low potential is applied to the terminal of the microcomputer 60.

In FIG. 3, the microcomputer 60 determines whether the terminal has a high potential or a low potential, and determines that the terminal has a low potential. When the low potential is determined, the microcomputer 60 moves to the OS operation unit 80. The data is sent to the CRT through the image processor 40 to control the display of the X-ray excess, turn off, and at the same time, the power supply 70 is controlled to switch to the DPMS off mode.

That is, when an overcurrent or an overvoltage occurs from the flyback transformer (FBT), the microcomputer 60 recognizes it through the switching unit 50 and transmits data about the address of the corresponding character of the font ROM and the display position of the font ROM. By sending to the SD operation unit 80 it is possible to display the desired character through the CRT (CRT).

As described above, the present invention can display a warning message through a CRT when an overcurrent or an overvoltage occurs from a flyback transformer (FBT) when the monitor is used, and at the same time, the power can be switched to the DPMS off mode. By effectively blocking the X-rays generated from the monitor there is an effect that can prevent the harm to the human body by the X-rays.

Claims (1)

R.G.B. A monitor circuit comprising a preamplifier for amplifying a signal to a predetermined width, an image processing unit for processing the output of the preamplifier to appear as a cialier image, and a flyback transformer for applying high pressure to the ciali, A switching circuit that is turned on when an overcurrent or an overvoltage is generated from the flyback transformer, a microcomputer that recognizes when a low potential is input from the switching circuit, switches a power supply unit to a DPMS off mode, and simultaneously controls an OSD operation unit; And an OSD operation unit for generating a warning character according to the X-ray blocking to the image processing unit under the control of the microcomputer.