KR960014150B1 - Monitor for low spending power - Google Patents

Abstract

a position detecting means outputting a high potential signal when a user leaves by sensing the position of the user; a micro processor outputting a control signal to switch the monitor to a suspend mode; and a switching means which performs the AND operation of the signal from the position detecting means and the control signal from the micro processor, and is switched to suspend mode by the high potential output signal.

Description

Low Power Monitor

1 is a view showing the configuration of a general monitor.

2 is a view showing the configuration of a low power consumption monitor to which the present invention is applied.

* Explanation of symbols for main parts of the drawings

10: main microprocessor 20: video board

30: cathode ray tube 40: main board

50: position detection circuit 51: sensor

52: signal detector 60: microprocessor

70: switching circuit 71: Oa gate

72: switch

TECHNICAL FIELD The present invention relates to a monitor, in particular, when the monitor is not in use for a certain period of time and / or when the user moves away from the position of the monitor, the suspend mode is automatically set to minimize the power consumed by the monitor. The present invention relates to a low power consumption monitor.

In general, a monitor in which the suspend mode is set automatically when the monitor is not used for a certain period of time amplifies R, G, and B color signals output from the microprocessor 1 of the computer, as shown in FIG. And a video board 2 for outputting brightness signals for the R, G and B color signals, a cathode ray tube 3 for displaying R, G and B color signals output from the video board 2, and the micro After processing the vertical synchronizing signal (Vs) and the horizontal synchronizing signal (Hs) output from the processor 1, the screen brightness signal for controlling the overall brightness of the screen and the R, G, B color signal output from the video board 2 It consists of a main board (4) for outputting a deflection signal for deflecting in the vertical or horizontal direction.

In the general monitor configured as described above, first, R, G, and B color signals, which are video signals output from the microprocessor 1 of the computer, are applied to the video board 2 and amplified, and then applied to the cathode ray tube 3.

At this time, the horizontal synchronization signal Hs and the vertical synchronization signal Vs in the form of pulses output from the microprocessor 1 are applied to the main board 4 to be converted into a triangular waveform vertical synchronization signal and a horizontal synchronization signal, The vertical synchronizing signal and the horizontal synchronizing signal of the converted triangular waveform are amplified and a deflection signal is outputted. The deflection signal is a vertical deflection coil and a horizontal deflection coil of the deflection yoke DY, not shown in the drawing of the cathode ray tube 3. The R, G and B color signals applied to and deflected are deflected in the vertical and horizontal directions of the cathode ray tube 3.

At this time, the vertical synchronizing signal Vs and the horizontal synchronizing signal Hs generate high voltage, and then the R, G, B color signals inputted by the high voltage are accurately scanned in the mask on the entire surface of the cathode ray tube 3.

In the monitor operated as described above, when the computer is not used for a predetermined time, only the horizontal synchronizing signal Hs is output from the microprocessor 1 so that the monitor is set to the suspend mode. Therefore, when the computer is not used for a certain time, power consumption can be reduced to a minimum.

However, in the conventional monitor as described above, when the user leaves the place where the computer is located within a predetermined time, the power consumption is large because the monitor remains in the on-mode state.

Accordingly, an object of the present invention is to solve the above problems, and an object of the present invention is to automatically set power to the suspend mode when the user does not use the computer for a predetermined time or when the user leaves the computer during use. It is to provide a monitor for low power consumption that can be minimized.

The object of the present invention is to amplify the R, G, B color signal output from the main microprocessor of the computer, and outputs the brightness signal for the amplified R, G, B color signal, which is output from the main microprocessor. On the monitor to display the deflection signal output after processing the vertical synchronizing signal (Vs) and the horizontal synchronizing signal (Hs), the screen brightness signal for controlling the overall brightness of the screen and the R, G, B color signal by the cathode ray tube Thus, the position detection means for detecting the user's position and output a high potential signal when the user leaves the seat during use, and the control signal for switching the monitor to the suspend mode when the computer is not used for a predetermined time Logic to output a microprocessor and a signal output from the position detecting means and a control signal output from the microprocessor. It can be achieved by providing a low power consumption monitor further comprises a switching means switched to the suspend mode by the output signal of the high potential state.

Hereinafter, an embodiment of a low power consumption monitor according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a view illustrating a configuration of a low power consumption monitor to which the present invention is applied. As shown in the drawing, a cathode ray tube 30 displaying R, G, and B color signals output from a main microprocessor 100 of a computer is shown. And a screen brightness signal for controlling the brightness of the entire screen after processing the vertical sync signal Vs and the horizontal sync signal Hs output from the main microprocessor 10, and an R output from the video board 20. Main board 40 for outputting a deflection signal for deflecting the G and B color signals in a vertical or horizontal direction, and a position detection circuit for outputting a high-potential signal when the user leaves a seat during use by detecting a user's position 50 and a microprocessor 60 for outputting a control signal for switching the monitor to the suspend mode when the computer is not used for a predetermined time; The switching circuit 70 is configured to logically combine the signal output from the furnace 50 and the control signal output from the microprocessor 60 and switch to the suspend mode by the output signal in the high potential state.

Here, the position detection circuit 50 is composed of a sensor 51 for detecting the position of the user, and a signal detector 52 for detecting a signal output from the sensor 51, the switching circuit 70 ON by the OR gate 71 for ORing the signal output from the position detection circuit 50 and the control signal output from the microprocessor 60 and the output signal of the potential state output from the OR gate 71. The mode consists of a switch 72 that switches to suspend mode.

In the low power consumption monitor according to the present invention configured as described above, first, the R, G, B color signals, which are video signals output from the main microprocessor 10 of the computer, are applied to the video board 20 and amplified, and then the cathode ray tube Is applied to 30.

At this time, the horizontal synchronization signal Hs and the vertical synchronization signal Vs in the form of pulses output from the main microprocessor 10 are applied to the main board 40 so that the vertical synchronization signal and the horizontal synchronization signal of the triangular waveform are amplified. Afterwards, the R, G and B color signals applied to the vertical deflection coil and the horizontal deflection coil of the deflection yoke DY not shown in the drawing of the cathode ray tube 30 are deflected in the vertical and horizontal directions of the cathode ray tube 30. do.

At this time, the vertical synchronizing signal Vs and the horizontal synchronizing signal Hs generate high voltage, and then the R, G, and B color signals inputted by the high voltage are accurately scanned in the mask on the entire surface of the cathode ray tube 30.

On the other hand, if the user does not use the computer for a certain period of time, the control signal of the high potential state is output from the microprocessor (60).

In addition, when the user leaves the seat during use of the computer, that is, when the user detects that the user is out of a certain period by the sensor 51 of the position detection circuit 50, the infrared signal output from the sensor 71 is It is detected by the signal detector 52 and outputs a high potential signal.

Thereafter, when the high potential state signal output from the signal detector 52 and / or the high potential state control signal output from the microprocessor 60 are applied to the ora gate 71 of the switching circuit 70, the high potential state is applied. The signal of the state is output, and the signal of the high potential state is applied to the switch 72 to switch the monitor from the on mode to the suspend mode.

As described above, in the low power consumption monitor of the present invention, when the computer is not used for a predetermined time or when the user leaves the computer during use, the microprocessor 60 or / and the signal detector 52 The high potential state signal is output, the high potential state signal is output from the OR gate 71 by the high potential state signal, and the switch 72 is output by the high potential state signal output from the ORA gate 71. Is activated and the monitor switches to suspend mode.

As described above, the low power consumption monitor according to the present invention has the effect of reducing the power consumed to a minimum because the monitor is switched to the suspend mode even when the user leaves for a while during use.

Claims (3)

Normally, amplify R, G, and B color signals outputted from the main microprocessor of the computer, and output brightness signals for the amplified R, G, and B color signals, and output vertical sync signals (Vs) and horizontal outputs from the main microprocessor. In the monitor that displays the brightness signal and the R, G, B color signal by controlling the brightness of the entire screen after processing the synchronization signal (Hs) by the cathode ray tube, the user's position by detecting the position Position detection means for outputting a high potential signal, a microprocessor for outputting a control signal for switching the monitor to suspend mode if the computer is not used for a predetermined time, and the position detection means. Logic sum of the signal output from the control signal and the control signal output from the microprocessor, and in the suspend mode by the output signal of the high potential state Low power monitor characterized in that it further comprises a switching means for switching. The low power consumption monitor of claim 1, wherein the position detecting unit comprises a sensor detecting a position of a user and a signal detecting unit detecting a signal output from the sensor. 2. The switching device of claim 1, wherein the switching means suspends the on mode by an OR gate performing an OR of the signal output from the position detecting means and the control signal output from the microprocessor, and a signal of a high potential state output from the OR gate. Low power type monitor, characterized by consisting of a switch to switch to the idle mode.