KR200143627Y1 - Power saving apparatus - Google Patents

Abstract

The present invention is directed to a power-saving control device of a monitor, and in the related art, horizontal and vertical synchronization signals (H-SYNC) in accordance with the signal of PC in DPM (Display Power Management), which is a power saving mode. It is standard that RGB video signal is always in the power saving mode because (V-SYNC) alternately disappears or both control signals are applied, but in certain video cards, RGB video signal in the power saving mode is in normal mode. A case was generated.

That is, the sync separator recognizes the G video signal as a sync frequency and applies an abnormal output to a certain terminal of the microcomputer. Thus, the microcomputer 4 commits an error of recognizing the normal mode even in the power saving mode. There was a problem in that the power is not in this power saving mode, and the power is wasted, and the reliability of the product is lowered.

Therefore, in order to solve the above problems, the present invention detects a synchronization signal with a monostable and simultaneously outputs a signal of a certain level, and combines the output signal of a predetermined level to control the operation of the synchronization separator. By constructing the circuit, the video signal of the video card can perform the normal DPM function even in the normal state of the PC in the power saving mode, reducing the power consumption of the monitor system, thereby improving the reliability of the product. Power saving control device for monitors.

Description

Monitor Power Saving Control

1 is a configuration diagram of a power saving control device of a conventional monitor.

2 is a configuration diagram of a power saving control device of the monitor of the present invention.

3 is an operation truth table in the power saving control device of the present invention monitor.

* Explanation of symbols for main parts of the drawings

1: Video input connector 2: Video amplifier

3: synchronous separation unit 4: microcomputer

5: First Mono Stable IC 6: Second Mono Stable IC

7: sickle gate

The present invention relates to a power saving control device for a monitor. In particular, the mono-stable detects a synchronization signal and simultaneously outputs a signal of a certain level, and the output of the signal of a predetermined level can be combined to control the operation of the synchronization separator. By configuring the circuit so that the DPM (Display Power Management) mode, which is a power saving mode, the video signal of the video card is still normal even when the PC is in an active state. It is to enable the function.

The configuration and operation of a power saving control device of a conventional monitor will be described with reference to FIG. 1 as follows.

First, an image input connector unit 1 for outputting an RGB image signal and horizontal and vertical synchronization signals H-SYNC (V-SYNC), and an RGB image output from the image input connector unit 1. The image amplification unit 2 amplifies the signal and outputs the signal to the cathode of the CPT of the monitor, and the G image signal output from the image input connector unit 1, and detects the detected G image. A synchronization separator 3 for separating and outputting the horizontal and vertical synchronization signals H and V of the signal, and a horizontal and vertical synchronization signal H-SYNC output from the video input connector 1 (V-SYNC). ) And the microcomputer 4 for controlling the system of the monitor in the normal / sleep mode according to the horizontal and vertical synchronization signals H and V of the G video signal separated and output from the synchronization separator 3. .

The operation of the power saving control device of the conventional monitor configured as described above is as follows.

First, when the monitor operates in the normal mode (Active), the image input connector unit 1 outputs an RGB image signal to the image amplifier unit 2 while outputting the horizontal and vertical synchronization signals to the microcomputer 4 (H-SYNC). (V-SYNC) is output.

In this case, the image amplifier 2 amplifies the input RGB image signal and outputs the amplified RGB image signal to the cathode end of the CPT.

On the other hand, the sync signal separating unit 3 connected to the G video signal line among the RGB video signals output from the video input connector unit 1 detects the G video signal, and the detected G video signal is a sync separator ( The horizontal and vertical synchronizing signals H and V are separated by 3), and are then input to a predetermined terminal H + V of the microcomputer 4.

Accordingly, the microcomputer 4 monitors the system according to the horizontal and vertical synchronization signals H and V of the G video signal input separately from the horizontal and vertical synchronization signals H-SYNC and V-SYNC. Will be controlled to the normal mode.

On the other hand, when the monitor is operating in a power saving mode (DPM: Display Power Management), the image input connector unit 1, only the horizontal and vertical synchronization signal (H-SYNC) (V-SYNC) to the microcomputer (4). Will be printed.

In addition, the G image signal is not input to the image amplifier 2 in the synchronous separator 3 connected to the G image signal line between the image input connector 1 and the image amplifier 2. As it is detected, the horizontal and vertical synchronization signals of the G video signal are not input to the predetermined terminal H + V of the microcomputer 4.

That is, only the horizontal and vertical synchronizing signals H-SYNC (V-SYNC) output from the image input connector unit 1 are input to the microcomputer 4 so that the microcomputer 4 operates the power saving mode. It will be controlled by the state.

However, the power-saving control device of the conventional monitor is a horizontal and vertical synchronizing signal (H-SYNC) (V-SYNC) in accordance with the signal of the PC (PC) in the power saving mode (DM) Display Power Management (DM) It is standard that the RGB video signal is always in the power saving mode because the control signal can be alternately disappeared or turned off, but the RGB video signal in the power saving mode may be in the normal mode. It became.

That is, the sync separator 3 recognizes the G video signal as the sync frequency and applies an abnormal output to a predetermined terminal (H + V) of the microcomputer 4, so that the microcomputer 4 operates in the normal mode even in the power saving mode. As the error is recognized as a state, the monitor system does not enter the power saving mode, wasting power, there is a problem that the reliability of the product is lowered.

Therefore, in order to solve such a problem, the present invention detects a synchronization signal with a monostable, outputs a signal of a certain level, and combines the output signal of a predetermined level to control the operation of the synchronization separator. In this way, it is intended to increase the reliability of the product while reducing power consumption of the monitor system by allowing the video signal of the video card to perform the normal DPM function even in the normal state of the PC in the power saving mode.

The configuration and operation of the power saving control device of the present invention monitor for achieving the above object will be described with reference to FIG.

First, an image input connector unit 1 for outputting an RGB image signal and horizontal and vertical synchronization signals H-SYNC (V-SYNC), and an RGB image output from the image input connector unit 1. The image amplification unit 2 amplifies the signal and outputs the signal to the cathode of the CPT of the monitor, and the G image signal output from the image input connector unit 1, and detects the detected G image. A synchronization separator 3 for separating and outputting the horizontal and vertical synchronization signals H and V of the signal, and a horizontal and vertical synchronization signal H-SYNC output from the video input connector 1 (V-SYNC). ) And a power supply of the monitor composed of the microcomputer 4 for controlling the system in the normal / sleep mode according to the horizontal and vertical synchronization signals H and V of the G video signal separated and output from the synchronization separator 3. In the power saving control device, the horizontal synchronization signal (H-SYNC) output from the video input connector unit (1) and the resistor (VR1) and condenser A first mono stable IC (IC) 5 for converting and outputting a constant pulse width according to the charge / discharge time constant value by (C1), and a vertical synchronizing signal V- outputted from the video input connector unit 1; A second mono stable IC 6 for converting SYNC into a constant pulse width according to the charge / discharge time constant values of the resistor VR2 and the capacitor C2; and the first and second mono stable ICs 5) a sickle gate 7 for inverting and outputting a signal having a constant pulse width converted and output in (6), and performing an off-switching operation or the sickle gate according to the G image signal detected by the synchronous separator 3. A switch SW1 on-switching to apply the signal of a constant pulse width inverted and outputted at (7) to the base of the transistor Q1, and a constant pulse input to the base according to the on-switching operation of the switch SW1. On / off to control the output of the synchronous separator 3 according to the width signal The transistor Q1 is configured to be turned off.

Referring to the operation of the power saving control device of the monitor of the present invention configured as described above are as follows.

First, when the monitor operates in the normal mode (Active), as shown in FIG. 3, the image input connector unit 1 outputs the RGB image signal to the image amplifier unit 2 while outputting the microcomputer 4 and the first unit. The horizontal and vertical synchronization signals H-SYNC V-SYNC are outputted to the first and second mono stable ICs 5 and 6.

In this case, the image amplifier 2 amplifies the input RGB image signal and outputs the amplified RGB image signal to the cathode end of the CPT (not shown).

On the other hand, the first mono stable IC 5 converts the input horizontal synchronization signal H-SYNC into a constant pulse width according to the charge / discharge time constant values of the resistor VR1 and the condenser C1. The signal of H is inputted to the input terminal a of the sickle gate 7, and the second mono stable IC 6 inputs the input vertical synchronizing signal V-SYNC to the resistor VR2 and the capacitor C2. The high (H) signal converted into a constant pulse width is input to the input terminal (b) of the sickle gate 7 according to the charge / discharge time constant value.

Therefore, the sick gate 7 converts the signal of each high (H) input and converted into a constant pulse width into a logical product and then outputs the constant pulse width signal of the inverted row L to the switch SW1. do.

At this time, the switch SW1 applies a constant pulse width signal of a row output from the sick gate 7 to the base of the transistor Q1 while performing an on switching operation, and the transistor Q1 applies a row applied to the base. The off operation is performed according to the constant pulse width signal of.

Therefore, among the RGB image signals output from the image input connector unit 1, the synchronous separation unit 3 connected to the G image signal line detects the G image signal according to the off operation of the transistor Q1. The G video signal is separated into the horizontal and vertical synchronization signals H and V by the synchronization separating unit 3 and then input to a predetermined terminal H + V of the microcomputer 4.

Accordingly, the microcomputer 4 separates the monitor system according to the horizontal and vertical synchronization signals H and V of the G video signal input separately from the input horizontal and vertical synchronization signals H-SYNC and V-SYNC. The operation is controlled in the normal mode.

On the other hand, when the monitor operates in a power saving mode (DPM: Display Power Management), as shown in FIG. 3, the image input connector 1

First, when outputting only the vertical sync signal (V-SYNC) without outputting the RGB image signal and the horizontal sync signal (H-SYNC), second, the horizontal without outputting the RGB video signal and the vertical sync signal (V-SYNC). When outputting only the synchronization signal H-SYNC, thirdly, it is the same as when not outputting both the RGB image signal and the horizontal and vertical synchronization signal H-SYNC (V-SYNC).

That is, in the microcomputer 4, any one of the horizontal and vertical synchronization signals H-SYNC and V-SYNC is not input or not all the signals are input. Accordingly, the first and second mono stable ICs are not input. In (5) and (6), only the horizontal and vertical synchronizing signals (H-SYNC) and (V-SYNC) are inputted at any one place, and the first and second monostable ICs (5) and (6) convert differently from each other (high). Or outputs a low constant pulse width signal or both outputs a low constant pulse width signal to the input terminals (a) and (b) of the sick gate 7.

Therefore, the sick gate 7 receives a predetermined pulse width signal or a pulse width signal that is all low, and calculates the result by logical multiplication, thereby inverting the pulse signal. To SW1).

At this time, the switch SW1 applies a constant pulse width signal of a high output from the sick gate 7 to the base of the transistor Q1 during the on switching operation, and is applied to the base of the transistor Q1 so as to be high. The ON operation is performed according to the pulse width signal of.

Then, in the synchronous separation unit 3 connected to the G image signal line between the image input connector unit 1 and the image amplifier unit 2, the G image signal is converted into an image amplifier unit according to the operation of the transistor Q1. 2), the operation of the synchronization separator 2 is stopped, or the operation is stopped even in the case of a PC in which the RGB image signal is in the normal mode.

Therefore, in the microcomputer 4, the horizontal and vertical synchronization signals H and V of the G video signal separated by the input terminal H + V are not input, thereby controlling the operation of the monitor system in the power saving mode. Will be.

In addition, when only the RGB image signal is output from the image input connector unit 1 as shown in FIG. 3, the sync separation unit 2 detects the G image signal, and the first and second monostable ICs ( In 5) (6), the sickle gate 7 also stops operation as the horizontal and vertical synchronizing signals H-SYNC V-SYNC are not input and the operation stops.

At this time, when the sick gate 7 is stopped, the switch SW1 performs an off switching operation, and accordingly, the transistor Q1 also performs an off operation.

Accordingly, the sync separator 2 separates the detected horizontal and vertical sync signals H and V of the G video signal, and then separates the separated G video signals to the input terminal H + V of the microcomputer 4. By outputting the horizontal and vertical synchronization signal (H) (V) of the microcomputer (4) is to control the operation of the monitor system to the normal mode state.

As described above, the present invention configures a circuit to detect a synchronization signal with a monostable and output a signal of a certain level, and to control the operation of the synchronization separator by combining the output signal of a predetermined level. In the DPM mode, which is a power saving mode, the video signal of the video card can perform the normal DPM function even in the normal state of the PC, thereby reducing the power consumption of the monitor system and improving the reliability of the product.

Claims (1)

An image input connector unit 1 for outputting an RGB image signal and a horizontal and vertical synchronizing signal H-SYNC (V-SYNC), and an RGB image signal output from the image input connector unit 1 The image amplification unit 2 for amplifying and outputting to the cathode of the CPT of the monitor and the G image signal output from the image input connector unit 1 detects the G image signal. A synchronization separator 3 for separating and outputting the horizontal and vertical synchronization signals H and V, horizontal and vertical synchronization signals H-SYNC and V-SYNC output from the image input connector 1, Power saving control of the monitor consisting of a microcomputer (4) for controlling the system to the normal / power saving mode according to the horizontal and vertical synchronization signal (H) (V) of the G image signal separated and output from the synchronization separation unit (3) In the apparatus, the horizontal synchronizing signal (H-SYNC) output from the video input connector unit (1) is provided with a resistor (VR1) and a capacitor (C1). A first mono stable IC (IC) 5 for converting and outputting a predetermined pulse width according to a charge / discharge time constant value by the constant and a vertical synchronizing signal V-SYNC output from the video input connector unit 1; A second monostable IC 6 for converting and outputting a constant pulse width in accordance with the charge / discharge time constant value by the VR2 and the capacitor C2, and the first and second monostable ICs 5 and 6 And a sickle gate 7 for inverting and outputting a signal having a constant pulse width converted and outputted at the < RTI ID = 0.0 >), < / RTI > A switch SW1 which is on-switched to apply the inverted output constant pulse width signal to the base of the transistor Q1, and a signal of a constant pulse width input to the base according to the on-switching operation of the switch SW1. On / off to control the output of the synchronous separator 3 accordingly. Power saving control unit of the monitor, characterized in that consisting of small transistor (Q1).