KR0135908Y1 - Off mode direct control circuit of monitor - Google Patents

Abstract

The present invention relates to a display power management signal recognition circuit of a monitor, which is installed on one side of the front of the monitor and provides switching detection means for inputting a switching signal according to the user's use of the monitor, and determines the switching signal of the switching detection means. It consists of a monitor microcomputer that directly controls the operation in the off mode, and a power supply unit that directly controls the load voltage supplied to the load stage according to the off-mode control signal of the monitor microcomputer. By switching the means to execute the off mode directly, it goes directly to the off mode without going through several power saving steps, thereby significantly reducing the power consumption. Therefore, the reliability of the system is increased accordingly.

Description

Off mode direct control circuit of monitor

1 is an explanatory diagram illustrating a monitor equipped with a conventional power saving circuit,

Figure 2 is a block diagram illustrating the operation of directly controlling the off mode of the monitor according to the present invention.

* Explanation of symbols for main parts of the drawings

1: keyboard 2: monitor

3: PC main body 4: De-sub connector

5: switching detection means 6: microcomputer

7: deflection circuit 8: cathode stage

9: power supply 10: push switch

TR: Transistor R1-R3: Resistor

The present invention relates to an off-mode direct control circuit of a monitor. In particular, one side of the monitor is provided with a switching means capable of directly executing the off-mode, and when the use is temporarily stopped, the switching means is switched to directly execute the off-mode. By going to the off mode directly without going through several power saving stages, power consumption can be considerably reduced, and the power saving function of the system can be determined by accurately determining whether the user uses the monitor, thereby increasing the reliability of the system. To an off-mode direct control circuit of a built-in monitor.

In general, display power management signaling (DPMS) is widely used in a PC system equipped with a monitor to reduce power consumption by automatically changing modes when a key input signal is not input through a keyboard for a predetermined time. In other words, this DPMS function is usually in ON mode where the user normally uses the system, standby mode (STAND-BY) in which the monitor is temporarily disabled in this ON mode, and the voltage is reduced. When the monitor is stopped for longer than the operating time of BY), the suspend mode is used to reduce the voltage even more in standby mode, and the power consumption is minimized when the suspension time is longer than the suspend mode. It is in OFF mode.

In addition, the existing monitor to which such a function is applied uses 6 [W] to 7 [W] as an auxiliary power source of the microcomputer (not shown) in the power saving mode, but recently, the microcomputer installed in the personal computer is turned on. If the sluggishness is not used for a certain period of time, only 0.6W is consumed, but an ultra-low power circuit has been proposed to switch the display device of the computer (monitor, printer, etc.) to the use mode when the keyboard is operated.

In addition, referring to an embodiment of a PC monitor equipped with such a power saving circuit, as illustrated in FIG. 1, information is processed according to an information control signal of a user input through the keyboard 70, and the processed information is processed. PC main body 72 displayed on the screen of the monitor 71 and various control signals and information display signals transmitted from the PC main body 72, for example, horizontal and vertical synchronizing signals and video information signals to the monitor 71. De-sub connector 73 which transmits and transmits, and various information signal signals of PC main body 72 inputted through this de-sub connector 73 and judges the input information to save power of the monitor 71. And a load terminal connected to the monitor microcomputer 74 for controlling the control circuit and the deflection circuit 75 of the cathode ray tube (not shown) or the heater 76 connected according to the power saving mode control signal of the monitor microcomputer 74. Power supply to control the step by step It consists of 77.

On the other hand, looking at the power-saving operation of the monitor mounted on a conventional PC having the above configuration, first, when the user presses the power-on key (not shown) provided in the PC main body 73, the PC main body 72 The operation control signal, the vertical and horizontal synchronizing signals, and the vertical synchronizing signal are input to the microcomputer 74 of the monitor 71 through the sub connector 73 according to the power on signal. Then, the microcomputer 74 supplies the operating voltage to each load terminal of the monitor 71 through the power supply unit 77, for example, the deflection circuit 75 or the cathode terminal 76 of the electron gun to display the screen of the monitor 71. Execute the action. At this time, when the user sets various information processing functions using the keyboard 70, for example, when using the word processor function, the PC main body 72 recognizes this and processes the information according to the embedded program. . The processed information, for example, the character display signal lamp is input to the microcomputer 74 of the monitor 71 through the sub connector 73.

Then, the microcomputer 74 recognizes this and displays the input character information on the screen of the monitor 71 during the horizontal and vertical synchronization signal cycles. However, if the user's key input is not executed for a predetermined time during the process, the PC main body 72 checks it every predetermined time and inputs the power saving mode control signal to the microcomputer 74. Then, the microcomputer 74 controls the monitor 71 by determining the power saving mode control signal of the PC main body 72 input through the desub connector 73. For example, the monitor 73 deserves the subsub. The power saving mode is executed in stages by detecting the presence or absence of the vertical and horizontal synchronizing signals input through the connector 73.

That is, when both the vertical and horizontal synchronizing signals are input, each load stage is normally operated. When the vertical signal (standby mode) or the horizontal signal (suspend mode) is input, the microcomputer 74 of the monitor 71 is input. Only the cathode stage 76 is supplied with power, whereas when both vertical and horizontal synchronization signals are not input, the controller recognizes the off mode and supplies the operating power only to the microcomputer 74 through the power supply unit 77.

Therefore, since the monitor 71 is supplied with operating power in stages according to the user's use, power consumption is reduced by that amount.

However, the monitor system having the conventional power saving function as described above requires the microcomputer of the monitor to execute the power saving mode step by step according to the power saving mode control signal of the PC main body. In this mode, the monitor itself is deteriorated, and since the sub-connector is protruded outwards, if the connector is incorrectly connected to the user's surroundings, the microcomputer of the monitor may execute an accurate power saving mode. There was a flaw.

Therefore, the present invention has been devised to solve the above problems, and has a switching means capable of directly executing the off mode on one side of the monitor, and switching off the switching mode directly when the use is temporarily stopped. By going to the off mode without going through several power saving steps, the power consumption can be considerably reduced, and the system's power saving function can be performed by accurately determining whether the user's monitor is used. The purpose is to provide an off-mode direct control circuit for the monitor that is intended to increase.

In order to achieve the above object, the present invention has a push switch installed on one side of the front of the monitor, and the user sets an off-mode setting signal, resistors connected to both ends of the push switch, and a common contact of the push switch. Switching means for directly setting an off mode comprising a transistor connected to the switch; The microcomputer is configured to directly control the operation of the monitor in the off mode according to the switching state of the switching means.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The circuit of the present invention processes the information according to the information control signal of the user input through the keyboard 1 as shown in FIG. 2 and the PC main body 3 on which the monitor 2 displays the processed information on the screen. And a sub-connector (4) for connecting and transmitting various control signals and information display signals transmitted from the PC main body (3) to the monitor (2). Switching means (5) is provided on one side of the front surface and outputs a switching signal according to whether the user monitor off mode, and the switching signal of the switching means (5) is judged to turn off the operation of the monitor (2) And a load terminal connected according to the power saving mode control signal of the microcomputer 6 and the microcomputer 6 for controlling various information signals of the PC main body 3 input through the sub-connector 4 directly. Tube (not shown) is deflector (7) or caso Comprises a power supply unit (9) for stepwise control of the load voltage which is supplied to stage (8).

The switching means 5 includes a push switch 10 installed at one side of the front surface of the monitor body to set a user's off mode setting signal, and a transistor connected to a common contact of the push switch 10 for switching ( TR).

In addition, resistors R1 and R2 are connected to both ends of the push switch 10, and a port of the microcomputer 6 is connected to one end of the resistor R1 through a resistor R3. A bias voltage Vcc is supplied to one end of R1.

Next will be described the operation and effect of the present invention made of the configuration as described above.

According to the present invention, as shown in FIG. 3, when the user presses a power on key (not shown) provided in the PC main body 3, the PC main body 3 operates an operation control signal according to the power on signal. The vertical and horizontal synchronous signals or the vertical synchronous signals are input through the desub connector 4. Then, the microcomputer 6 in the monitor 2 supplies the operating voltage to each load terminal of the monitor 2 through the power supply unit 9, for example, the deflection circuit 7 or the cathode terminal 8 of the electron gun. Perform the screen display operation of 2).

At this time, when the user sets various information processing functions using the keyboard 1, for example, when using the word processor function, the PC main body 3 recognizes this and processes the information according to the embedded program. Then, the processed information, for example, a character display signal or the like, is input to the microcomputer 6 of the monitor 2 through the sub connector 4. The microcomputer 6 then recognizes this and displays the input character information on the screen of the monitor 2 during the horizontal and vertical synchronization signal periods.

However, if the user's key input is not executed for a predetermined time during the process, the PC main body 3 checks it every predetermined time and inputs a power saving mode control signal to the microcomputer 6 of the monitor 2. Then, the microcomputer 6 determines the power saving mode control signal of the PC main body 3 input through the desub connector 4 to control the monitor 2, for example, the monitor 2 is a desub connector. When both vertical and horizontal synchronous signals input through (4) are input, each load stage is normally operated.If only the vertical signal (standby mode) or the horizontal signal (suspend mode) is input, respectively, the microcomputer (6) and the cathode are input. The power is supplied only to the stage (8), while on the other hand, when both the vertical and horizontal synchronization signals are not input, the power is supplied to the microcomputer (6) through the power supply unit (9). Therefore, since the operating power is supplied to the monitor 2 step by step according to the user's use or not, power consumption is reduced by that amount.

On the other hand, if the user wants to directly run the off-mode without going through the power saving mode of the various steps as described above, the user presses the push switch 10 of the switching means (5). Then, the contact point of the push switch 10 is turned on, so that the bias voltage Vcc is input to the base terminal of the transistor TR via the common contact point of the resistor R1 and the push switch 10. Therefore, the base stage becomes a high potential state, and eventually the transistor TR is turned on and all the bias voltages flowing through the resistor R3 to the port PORT of the microcomputer 6 flow through the transistor TR to the ground side. .

Therefore, the microcomputer 6 judges the low signal inputted to the port and directly advances the operation of the monitor 2 to the off mode. That is, the operating power is supplied only to the microcomputer 6 through the power supply unit 9.

On the other hand, if the user wants to use the monitor 2 again after the direct switching to the off mode as described above, if the user pushes the push switch 10 again, the contact of the push switch 10 is turned off and thus The base end of the transistor TR is in a low potential state. Accordingly, the transistor TR is turned off so that the bias voltage Vcc is input to the port of the microcomputer 6 through the resistor R3. At this time, the microcomputer 6 determines that the potential of the port is high, and operates the monitor normally.

Therefore, as the user directly turns on and off the switching means, the monitor 2 consumes as much as the direct off mode is correctly executed regardless of the signal output from the PC main body 3, i.e., without going through several power saving modes. Power is reduced.

As described above, the present invention includes a switching means that can be directly executed in the off mode on one side of the monitor, and switches the switch means to execute the off mode directly when the use is temporarily stopped. As it proceeds directly to the off mode without going through it, the power consumption can be considerably reduced, and the power saving function can be performed by accurately determining the user's use of the monitor, thereby increasing the reliability of the system.

Claims (1)

A push switch 10 installed on one side of the front surface of the monitor 2 to generate an off-mode setting signal as selected by a user, resistors R1 and R2 connected to both ends of the push switch, and the push A switching means (5) consisting of a transistor (TR) for generating a switching signal in accordance with the off-mode setting signal generated from the switch (10), and a resistor (R3) connected between the collector terminal of the transistor (TR) and the resistor (R1). and; Off mode of the monitor, characterized in that the microcomputer 6 directly controls the power supply operation of the power supply unit 9 by determining the potential state of the port according to the switching signal generated from the switching means 5 Direct control circuit.