KR100190163B1 - Dpms control system - Google Patents

Abstract

The present invention relates to a DPMS mode device, and more particularly, to a DPMS mode device, which is connected between a video card built in a computer and a display device and senses a voltage applied to a specific pin of a video card that transmits a video signal and a synchronization signal, To a DPMS control system that can be implemented.

A signal cable for transmitting a video signal and a sync signal from a video card built in a computer to a display device and a voltage control unit installed at a terminal end of the signal cable to sense a voltage applied to a specific pin of the signal cable, And a DPMS control circuit connected to the voltage sensing unit and controlling the DPMS mode according to the control signal of the voltage sensing unit. The DPMS control circuit is connected between the video card built in the computer and the display device, A digital DPMS driving circuit using a microcomputer can sense an applied voltage to a specific pin of a video card that transmits a synchronous signal, thereby realizing an analog DPMS control system.

Description

DPMS control system

The present invention relates to a DPMS mode device, and more particularly, to a DPMS mode device, which is connected between a video card built in a computer and a display device and senses a voltage applied to a specific pin of a video card that transmits a video signal and a synchronization signal, To a DPMS control system that can be implemented.

In general, a computer peripheral device refers to various input and output devices such as a monitor, a printer, and a plotter connected to a computer system. Typically, such computer peripheral devices are supplied with power by supplying power to the computers, and power may be supplied by separate power on / off switches.

Since each peripheral device is required to perform initializing operation and preheating operation when power is applied, it is not possible to use these devices at the same time as the voltage is applied, and these peripheral devices are not used by the user for a while Even if it does not interrupt the power supply, the power supply has been maintained continuously.

In particular, a monitor widely used as a display device of a computer is a device that receives an input signal from a computer and converts it into a video signal so that a user can visually check the operation of the computer. Is also determined.

In other words, when combined with a computer, it operates by receiving a signal from a computer using a cable for signal transmission. When there is no signal from the computer, the basic operation is lost, but the purpose of the device is lost.

A commonly used method for controlling this is to blank the data image that was being displayed on the monitor if the computer user did not use the computer to exceed the set time. If the user presses the key again while the screen blanking function is being performed, the blanking function of the computer monitor is released to display the previously displayed data image again.

In this method, only the data image being displayed on the monitor is blanked, so that the monitor is still supplied with the power even during the blanking period, so that the power consumption is almost the same as that during normal operation.

As a solution to this problem, VESA (Video Electronics Standards Association) proposes a DPMS (Display Power Management System) that can save power by managing the power of a monitor which is a peripheral device of a computer in response to the use state of a computer system.

According to the DPMS mode, the vertical synchronizing signal of the horizontal synchronizing signal is selectively supplied to or disconnected from the monitor in order to realize different power management states corresponding to the use state of the computer system. In the monitor, the horizontal synchronizing signal and the vertical synchronizing signal The power management state corresponding to the input state is performed.

The power management state is classified into ON state, STAND-BY state, SUSPEND state, and OFF state. The power management state is divided into a horizontal synchronization signal and a vertical synchronization signal The states are shown in Table 1 below.

Power Management Status Synchronous signal Horizontal Perpendicular ON state U U STAND-BY state radish U Suspended (SUSPEND) state U radish OFF state radish radish

In other words, only the pulse output of the vertical synchronizing signal is present in the standby state and only the pulse output of the horizontal synchronizing signal is present in the on state, and only the pulse output of the vertical synchronizing signal is present in the on state. The pulse outputs of the vertical synchronizing signal and the horizontal synchronizing signal do not appear.

Therefore, the power management state can be distinguished according to the pulse output states of the horizontal synchronous signal and the vertical synchronous signal, and these power management states can be switched from the on state to the on state in accordance with the continuous passage of time during which the computer system is not used The apparatus is switched from the standby state to the suspended state to the off state.

In the table (1), the absence and the absence states of each signal means the presence or absence of a normal synchronizing signal frequency of each signal, And the vertical synchronizing signal is 40 Hz or more.

At this time, the duty ratio of the vertical and horizontal pulses should be less than 25%.

In the monitor connected to the computer and displaying various information, when the user does not use the computer, the power consumption mode is operated by the power saving mode by DPMS.

This DPMS mode implementation proceeds as in FIG.

A microcomputer 20 for controlling the implementation of the DPMS mode according to the presence or absence of a horizontal synchronizing signal H_SYNC and a vertical synchronizing signal V_SYNC transmitted from the computer 10, And an SMPS 40 for controlling on / off of the power provided to the secondary side according to a switching result of the PWM-IC 30. The power-saving mode DPMS) mode, PWM control is performed to implement the off mode.

At this time, a method of reducing the power by lowering the secondary output voltage of the SMPS by forcibly decreasing the duty of the pulse is used.

However, the conventional DPMS implementation method must continually check the horizontal synchronizing signal H_SYNC and the vertical synchronizing signal V_SYNC transmitted from the computer 10 to the microcomputer 20, There is a problem that the setting of the reference bandwidth for realizing the DPMS mode must be set in advance in the microcomputer 200 in the reality that the frequencies of the horizontal and vertical synchronizing signals gradually increase in order to meet expectation.

SUMMARY OF THE INVENTION It is an object of the present invention to solve the above problems and to provide a method and apparatus for implementing a DPMS mode by sensing a voltage applied to a specific pin of a video card connected between a video card built in a computer and a display device, And to provide a DPMS control system.

According to an aspect of the present invention, there is provided a display device including a signal cable for transmitting a video signal and a synchronization signal from a video card built in a computer to a display device,

A voltage sensing unit installed at a terminal end of the signal cable to sense a voltage applied to a specific pin of the signal cable and output a DPMS control signal,

A normal mode control circuit connected to the voltage sensing unit and adapted to control the display device to operate normally when the control signal of the voltage sensing unit is in a normal mode; and a normal mode control circuit connected to the voltage sensing unit, A suspend mode control circuit connected to the voltage sensing unit and adapted to suspend the display device when the control signal of the voltage sensing unit is in the suspend mode, And an off mode control circuit connected to the voltage sensing unit and controlling the display device to be turned off when the control signal of the voltage sensing unit is in the off mode.

1 is a block diagram of a DPMS mode operation system according to the prior art,

2 is a block diagram of a DPMS operation system according to an embodiment of the present invention,

FIG. 3 is a block diagram showing in more detail FIG. 2,

4 is a circuit diagram showing the voltage sensing unit of FIG. 2 in detail.

FIG. 2 shows the installation of a cable for signal transmission between a computer and a display device, in which a video card 11 is embedded in a computer 10 And a signal cable 200 for transmitting a video signal and a synchronization signal from the video card 11 to the voltage sensing unit 110 in the monitor 100 is provided.

FIG. 3 shows that a plurality of control circuits for implementing the DPMS mode are connected to the rear end of the voltage sensing unit 110 of FIG. A standby mode control circuit 111 that operates when the sensing result of the voltage sensing unit 110 is in a standby mode and a suspend mode control unit 111 that operates when the sensing result of the voltage sensing unit 110 is a suspend mode, Circuit 112 and an off mode control circuit 113 which operates when the sensing result of the voltage sensing unit 110 is in an off mode.

4 is a detailed circuit diagram of the voltage sensing unit 110. Referring to FIG. A resistor R1 for detecting a voltage applied to a specific pin of the signal cable 200 and a differential amplifier for receiving a voltage received through the resistors R1, An idle mode control circuit 111 connected to each output terminal of the differential amplifiers OP1, OP2 and OP3; a suspend mode control circuit 112; an off mode control circuit 113; .

The voltage applied through the specific pin of the signal cable 200 is transmitted to the resistors R1, R2, and R3. The voltage applied to the resistor R1 is transmitted to the non-inverting terminal of the differential amplifier OP1 and the reference voltage V _ref1 is applied to the inverting terminal of the differential amplifier OP1, The output voltage of OP1 is determined. Depending on the output voltage at this time, whether or not the DPMS mode control circuit of the subsequent stage is driven is determined. For example, when the voltage transmitted from the video card 11 through the specific pin of the signal cable 200 to the voltage sensing unit 110 in the computer 10 is 0 V, 1 V, 3 V, 5 V, , Standby mode, suspend mode, and off mode. If the reference voltages V _REF1, V _{REF2 and} V _REF3 applied to the inverting terminals of the differential amplifiers OP1, OP2 and OP3 are 1V, 3V and 5V, respectively, the DPMS mode is not realized in the normal mode, If a 1 V or standby mode signal is delivered according to the DPMS mode that is in progress if the user of the computer 10 does not use the keyboard for a certain period of time or after a certain period of time has elapsed due to a difference from the reference voltage V _REF1 of the differential amplifier OP1 When the standby mode adjusting circuit 111 is operated and a signal of 3V is transmitted, the suspend mode adjusting circuit operates by the difference between the reference voltage V _REF2 of the differential amplifier OP2 and the voltage of 5V is transmitted The off mode control circuit operates according to the output signal of the differential amplifier OP3 to implement the DPMS.

As described above, the present invention provides a digital DPMS driving circuit using a microcomputer by sensing a voltage applied to a specific pin of a video card, which is connected between a video card built in a computer and a display device, Thereby realizing an analog DPMS control system.

Claims (3)

A signal cable for transmitting a video signal and a synchronization signal from the video card built in the computer to the display device, A voltage sensing unit installed at a terminal end of the signal cable to sense a voltage applied to a specific pin of the signal cable and output a DPMS control signal, A standby mode control circuit coupled to the voltage sensing unit to adjust the display device to operate in a standby mode when the control signal of the voltage sensing unit is in a standby mode, A suspend mode control circuit coupled to the voltage sensing unit to suspend the display device when the control signal of the voltage sensing unit is in the suspend mode, And an off mode control circuit connected to the voltage sensing unit to control the display device to be turned off when the control signal of the voltage sensing unit is in the off mode. The method according to claim 1, Wherein the voltage sensing unit comprises a plurality of differential amplifiers capable of determining whether to operate the DPMS mode by comparing a voltage applied to a specific pin of the signal cable with a reference voltage. 3. The method of claim 2, Wherein the differential amplifier is configured to receive a voltage transmitted through a specific pin of a signal cable to a non-inverting terminal, receive a reference voltage from the inverting terminal, differentially amplify the same, and display a DPMS control signal at an output terminal thereof. .