JP4601186B2 - Display device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention includes a display means, a synchronization signal detection means for detecting presence / absence of input of a synchronization signal, a power supply control means for controlling a supply state of power from a power supply according to a detection result of the synchronization signal detection means, and the display means The present invention relates to a display device comprising display mode detecting means for detecting, based on the synchronization signal, which one of a plurality of predetermined display modes is to be displayed.
[0002]
[Prior art]
One of the standards for power management of displays is DPMS (Display Power Management Signaling) established by the industry organization VESA (Video Electronics Standards Association). In a display that supports DPMS, when it is detected that the synchronization signal supplied from the personal computer has been lost, the power supply to the display system circuit is turned off, or the circuit other than the synchronization signal detection system circuit is connected. Turn off the power supply. A method of turning off the power supply to all circuits is also conceivable.
The synchronization signal supplied from the personal computer is not supplied from the personal computer to the display when, for example, the personal computer is not operated for a predetermined time. In addition, the synchronization signal is not supplied when the operating system (OS) on the personal computer is shut down and the personal computer is turned off.
When power supply to the display system circuit or power supply to other circuits other than the synchronization signal detection system circuit is turned off, the power is supplied to the circuit when the synchronization signal is supplied again from the personal computer. The screen is displayed on the display according to the display signal from the personal computer.
[0003]
[Problems to be solved by the invention]
As described above, when the OS on the personal computer is shut down and the personal computer is turned off, the synchronization signal is not supplied. Therefore, the power supply to the display system circuit and the synchronization signal detection system circuit are excluded. The power supply to the circuit is turned off. In this case, the synchronization signal is not supplied from the personal computer to the display until the personal computer is turned on again.
Since the display signal is not supplied from the personal computer to the display when the power of the personal computer is cut off, even if the power supply to some circuits is maintained in preparation for recovery, That power is wasted. In the conventional display, in order to avoid the waste, the user must operate the display power switch to turn off the display.
In the method of turning off the power supply to all the circuits, the user operates the power switch of the display even when the screen according to the display signal from the personal computer is displayed on the display immediately after the predetermined time has elapsed. That's troublesome.
As described above, in the conventional display device, whether the synchronization signal is not supplied from the personal computer for power saving of the display device, or is the synchronization signal not supplied from the personal computer because the personal computer is turned off? Inconvenience may occur due to the inability to distinguish between the two.
The present invention has been made in view of such problems in the conventional technology. When the display mode is switched before the personal computer is turned off, the switching is detected, and the display device is By distinguishing whether the synchronization signal is no longer supplied to save power, or whether the synchronization signal is not supplied because the personal computer is turned off, it is possible to reduce the necessity of operating the power switch and improve convenience. An object of the present invention is to provide an improved display device.
[0004]
[Means for Solving the Problems]
In order to achieve the above-mentioned object, the present invention provides display means, synchronization signal detection means for detecting presence / absence of input of a synchronization signal including a vertical synchronization signal and a horizontal synchronization signal supplied from a personal computer , and the synchronization signal. A power supply control means for controlling the supply state of power from the power supply according to a detection result of the detection means, and a display mode of a screen displayed on the display means is a plurality of predetermined display modes including a VGA (Video Graphics Array) mode. Display mode detecting means for detecting which one of them is based on the synchronization signal, wherein the display mode of the screen displayed on the display means by the power supply control means is the plurality of display modes. The synchronization signal detecting means detects the same display mode within a set time after the display mode detecting means detects that the predetermined display mode is reached. When the input of the period signal is detected to have changed state in the absence of input from the state where there is a power supply from the prior SL Turn off the display mode is the screen to be displayed on said display means When the state change is detected by the synchronization signal detection means without being detected by the display mode detection means that the VGA mode has been entered, the power supply is switched on in the DPMS (Display Power Management Signaling) mode that suppresses power supply. The display device is configured to be operated .
In the display device according to the present invention, it is detected that the display mode of the screen to be displayed on the display means has become the VGA mode among a plurality of predetermined display modes. When it is detected that has run out, power supply from the power source is turned off.
In many personal computers that supply a synchronization signal to the display device, when the power of the personal computer is turned off, the previous display mode is set to SVGA (Super Video Graphics Array) mode or XGA (eXtended Graphics). Even in the (Array) mode, the power is turned off after the initialization is performed once and the display mode is changed to the VGA (Video Graphics Array) mode for a short time. Of course, after the power is cut off, no synchronization signal is supplied from the personal computer to the display device. Normally, the VGA mode is rarely used. In the personal computer as described above, if it is detected that the VGA mode has been entered and no synchronization signal is input within the set time, the power supply of the personal computer is practically used. Can be presumed to have been severed.
Therefore, in the display device according to the present invention, when the power source of the personal computer as described above is cut off , the power supply from the power source to the entire device is automatically turned off. Wasteful power consumption can be suppressed almost without operating the power switch of the device.
[0005]
On the other hand, if the state change is detected by the synchronization signal detection means without being detected by the display mode detection means that the display mode of the screen displayed on the display means is the VGA mode, the DPMS The power supply operates in the mode. Here, in the DPMS mode, power from the power source is supplied to only a part of the apparatus including the synchronization signal detecting means and the power control means. In this DPMS mode, power consumption is suppressed compared to the case of normal operation by supplying power only to a part of the apparatus including the synchronization signal detection means and the power supply control means. Since power is supplied, the power supply state from the power source can be controlled according to the detection result of the synchronization signal detecting means.
For example, when the power supply control means detects the input of the synchronization signal by the synchronization signal detection means after the power supply operates in the DPMS mode, the power supply control means supplies the power from the power supply to the entire apparatus. If it is supplied, when the user resumes the operation of the personal computer and the input of the synchronization signal is detected, the user does not have to operate the power switch of the display device. The display of the display means is resumed.
As described above, in the display device according to the present invention, it is distinguished whether the synchronization signal is not supplied for power saving of the display device or the synchronization signal is not supplied because the personal computer is turned off. Therefore, the necessity of operating the power switch can be suppressed and the convenience can be improved.
In the display device according to the present invention, the screen display mode to be displayed on the display means is detected within the set time after it is detected that the VGA mode is selected from a plurality of predetermined display modes. When the input signal is no longer being detected, the zero power supply to the entire device from the power supply, i.e., but it may also be completely cut off.
Further, an operation means for operation is detected by said power supply control means, power supply from said power supply from said power supply only to the operation detection system including the operating means and said power supply control means when it is turned off When power is supplied and the operation of the operation means is detected by the power supply control means, the power supply control means causes the power supply from the power supply to be supplied to the entire apparatus. The power supply from the power source can be resumed.
The power supply control means uses the synchronization signal detection means after the set time elapses after the display mode detection means detects that the display mode of the screen displayed on the display means is the VGA mode. It is conceivable to operate the power supply in the DPMS mode even when the state change is detected.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings for understanding of the present invention. The following embodiments are specific examples of the present invention, and do not limit the technical scope of the present invention.
The display device according to the embodiment of the present invention is embodied as an analog LCD monitor that performs display according to a display signal including, for example, an analog RGB signal and a horizontal / vertical synchronization signal.
As shown in FIG. 1, the monitor has two D-SUB input terminals 1 and 2, selector switch circuit 3, buffer circuit 4, microprocessor unit (MPU) 5, operating means 6, LED circuit 7, PLL (Phase Lock). Loop) circuit 8, amplifier circuit 9, A / D conversion circuit 10, field memory 11, ASIC 12, LCD module 13, inverter circuit 14, power supply circuit 15 and the like.
The D-SUB input terminals 1 and 2 are both input terminals for inputting the display signal, and are connected to the selector switch circuit 3.
The selector switch circuit 3 selects the display signal input from one of the D-SUB input terminals 1 and 2 and separates the selected display signal into an analog RGB signal and a horizontal / vertical synchronization signal. A circuit, which is connected to the buffer circuit 4 and the amplifier circuit 9.
The buffer circuit 4 is a circuit for buffering the horizontal / vertical synchronization signal supplied from the selector switch circuit 3, and is connected to the MPU 5 and the PLL circuit 8.
The MPU 5 is an arithmetic processing circuit for executing a control program in which predetermined processing is described. The processing includes detecting the presence / absence of a horizontal / vertical synchronizing signal from the buffer circuit 4, controlling the power supply state from the power supply circuit 15 according to the detection result of the horizontal / vertical synchronizing signal, / Processing for detecting the display mode based on the vertical synchronization signal. The MPU 5 exchanges signals with the amplifier circuit 9, the A / D conversion circuit 10, the field memory 11, the ASIC 12, the LCD module 13, the inverter circuit 14, and the power supply circuit 15 to perform the processing. Do. Further, the operating means 6 and the LED circuit 7 are also connected to the MPU 5. The MPU 5 has a built-in timer.
[0007]
The operation means 6 is an input means provided with a power operation switch of the analog LCD monitor, a switch for display adjustment, etc., and a user operation is converted into an electric signal by the operation means 6 and supplied to the MPU 5 Is done.
The LED circuit 7 is a circuit including an LED capable of lighting, for example, two colors of green and orange. When the LED is lit in green according to an instruction from the MPU 5, this indicates that the analog LCD monitor is performing a normal operation, and the LED is lit in orange according to an instruction from the MPU 5. In this case, the analog LCD monitor is operating in the DPMS mode, and when the LED is turned off, the analog LCD monitor is substantially turned off.
The PLL circuit 8 is a circuit that synchronizes an oscillation frequency with a horizontal synchronization signal, and is connected to the A / D conversion circuit 10.
The amplification circuit 9 is a circuit for amplifying the analog RGB signal supplied from the selector switch circuit 3 and is connected to the A / D conversion circuit 10.
The A / D converter circuit 10 is a circuit for converting the analog RGB signal supplied from the amplifier circuit 9 into a digital signal according to the signal oscillated from the PLL circuit 8, and its output is connected to the field memory 11. Has been.
The field memory 11 is a memory that stores the digital RGB signals supplied from the A / D conversion circuit 10.
The ASIC 12 is a dedicated IC circuit that performs control to read out digital RGB signals stored in the field memory 11 and display them on the LCD module 13.
The LCD module 13 is a display module including an LCD panel.
The inverter circuit 14 is an inverter circuit for lighting and driving a lamp (backlight) on the back surface of the LCD module 13.
[0008]
The power supply circuit 15 is a power supply circuit that converts input AC power into DC power and supplies the DC power to the analog LCD monitor.
When viewed from the power supply circuit 15, the above-described configurations 3 to 14 are divided into three power supply sections. 1 including the MPU 5 and the operation means 6 (including an operation detection system) E1, a section E1, the selector switch circuit 3, the buffer circuit 4, and the LED circuit 7. These are three sections, a section E2 within the dotted line in FIG. 1 and a section E3 within the broken line in FIG. 1 including the configurations 3 to 14 including the sections 1 and 2.
The power supply circuit 15 supplies power to any one of the sections E1 to E3 in accordance with the control of the MPU 5. The normal power supply state is a state in which power from the power supply circuit 15 is supplied to the section E3. In this state, power is also supplied to the display system circuit such as the LCD module 13, and display according to the display signal supplied from the D-SUB input terminals 1 and 2 is performed.
On the other hand, in the DPMS mode for reducing power consumption, the power from the power supply circuit 15 is supplied only to the section E2. In this state, power is not supplied to the LCD module 13 or the like that consumes a large amount of power, but power is supplied only to the circuit of the horizontal / vertical synchronization signal input processing system and the LED circuit 7 that displays the state of the analog LCD monitor. Is done.
Further, the state in which the power from the power supply circuit 15 is supplied only to the section E1 is a state in which the power supply of the analog LCD monitor is substantially turned off, and the LED circuit 7 is turned off. . The power consumption in the section E1 including the MPU 5 and the operation means 6 is almost zero compared to the normal power consumption. When the power operation switch of the operation means 6 is operated by a user, the operation is detected by the MPU 5, the power supply state from the power circuit 15 is changed according to the control of the MPU 5, and power is supplied to the section E3. Shifts to a state in which is supplied.
[0009]
The operation of the analog LCD monitor having the above configuration will be described below with reference to the flowchart shown in FIG.
It is detected whether or not an operation to turn on the power operation switch of the operation means 6 has been performed by the MPU 5 to which power from the power circuit 15 is constantly supplied (S1). If not detected, this detection operation is repeated.
When an operation to turn on the power operation switch is performed by the user and an operation to turn on the power operation switch is detected by the MPU 5, a timer built in the MPU 5 is reset to 0, and the timer is in an off state. (S2).
Next, the presence / absence of a horizontal / vertical synchronization signal from the buffer circuit 4 is detected by the MPU 5 (S3).
When a horizontal / vertical synchronization signal is detected, a normal operation mode is set, and power from the power supply circuit 15 is supplied to the section E3 in accordance with the control of the MPU 5, and the LED circuit 7 is in accordance with instructions from the MPU 5. LED lights up in green (S4).
Next, it is detected whether or not the MPU 5 has performed an operation to turn off the power operation switch (S5).
If the operation to turn off the power operation switch is not performed, the MPU 5 performs a frequency discrimination process for discriminating the frequency of the horizontal / vertical synchronization signal (S6).
When the frequency discrimination process is performed, the MPU 5 determines whether the display mode is the VGA mode based on the result (S7).
If the display mode is the VGA mode, the timer is reset to 0, the timer is turned on, and time measurement by the timer is started (S8).
Next, the VGA setting data stored in advance is read by the MPU 5, the VGA data is supplied to the ASIC 12 (S9), and the process returns to the procedure S3.
If the display mode is not the VGA mode, the MPU 5 determines whether the display mode is the SVGA mode (S10).
If the display mode is the SVGA mode, the previously stored SVGA setting data is read by the MPU 5, the SVGA setting data is supplied to the ASIC 12 (S11), and the process returns to the step S2.
Next, if the display mode is not the SVGA mode, the MPU 5 determines whether or not the display mode is the XGA mode (S12).
If the display mode is the XGA mode, the XGA setting data stored in advance is read out by the MPU 5, the XGA setting data is supplied to the ASIC 12 (S13), and the process returns to the procedure S2.
Further, if the display mode is not the XGA mode, an out-of-display process is performed by the MPU 5 (S14), and the process returns to the procedure S3.
[0010]
While the processing from steps S1 to S14 is performed, the power from the power supply circuit 15 is supplied to the section E3, and the display signal input from the D-SUB input terminals 1 and 2 is applied to the display signal. The corresponding display is performed by the LCD module 13 or the like.
For example, when the personal computer is not operated for a predetermined time, the display signal is not input from the personal computer to the D-SUB input terminals 1 and 2, and the horizontal / vertical synchronization signal is lost in the step S3. When it is detected, the MPU 5 determines whether or not the timer is turned on and whether or not the timer time is within one minute (S15).
The timer is turned on only when the display mode is the VGA mode, and it has been detected that the horizontal / vertical synchronization signal has disappeared since the display mode was switched to the VGA mode. Is within one minute, the power supply state from the power supply circuit 15 is changed by the control of the MPU 5, and the power from the power supply circuit 15 is supplied only to the section E1, and the power supply is substantially reduced. Is disconnected (S16), and the process returns to the procedure S1.
In many personal computers, when the personal computer is turned off, even if the previous display mode is SVGA mode, XGA mode, etc., initialization is performed once and the display mode is changed to VGA mode. Then, the power is turned off. Therefore, when the horizontal / vertical synchronization signal is not detected within one minute after the display mode is switched to the VGA mode, it can be estimated that the power of the personal computer is actually cut off. When the power of the analog LCD monitor is turned off, the power consumption is automatically reduced to zero even if the user does not turn off the power operation switch of the analog LCD monitor. Can be suppressed as much as possible.
In addition, even if the timer is not turned on or the timer is turned on, the power supply from the power supply circuit 15 is controlled by the MPU 5 unless the timer time is within one minute. The state is changed, and power from the power supply circuit 15 is supplied only to the section E2 (S17). That is, the analog LCD monitor operates in the DPMS mode.
[0011]
After the analog LCD monitor operates in the DPMS mode, the MPU 5 detects a horizontal / vertical synchronization signal (S18). If a horizontal / vertical synchronization signal is not detected, it is detected by the MPU 5 whether or not an operation for turning off the power operation switch has been performed (S19).
If neither a horizontal / vertical synchronizing signal nor an off operation of the power operation switch is detected, the process returns to step S18, and both detections are repeated.
While the steps S18 and S19 are repeated, the user operates the personal computer to resume the supply of the display signal from the personal computer to the analog LCD monitor. When the synchronization signal is detected by the MPU 5, the process is returned to the procedure S2, and the power from the power supply circuit 15 is supplied to the section E3. That is, even if the user does not perform an operation of turning on the power operation switch of the analog LCD monitor, the normal operation state is automatically shifted to display.
If the user operates the power operation switch of the analog LCD monitor while the steps S18 and S19 are repeated, and an operation to turn off the power operation switch is detected in the step S19, a process is performed. Goes to the step S16, the power is substantially cut off, and the process returns to the step S1. If the user performs an operation to turn on the power operation switch of the analog LCD monitor after the power is substantially cut off, the operation is detected in the procedure S1, and the processing after the procedure S2 is performed. .
In the above-described embodiment, the present invention is applied to the analog LCD monitor. However, the present invention is not limited to this, and can be applied to other display devices such as an analog CRT monitor.
In the embodiment, the power from the power supply circuit 15 is supplied to the section E1 even when the power supply is substantially cut off. If the power supply circuit 15 and the MPU 5 are mechanically connected by the operation of the power supply operation switch, the power from the power supply circuit 15 is not supplied to any section in the step S16. It is also possible to make it zero.
[0012]
【The invention's effect】
As described above, in the display device according to the present invention, when the personal computer is turned off so that the display mode is switched to the predetermined display mode when the power is turned off, the power supply on the display device side is also automatically turned on. Even if the synchronization signal is not detected, if the display signal is not detected within the set time after the display mode is detected, the power is The power supply state can be controlled, and it is possible to automatically shift from a state in which power consumption is suppressed to a normal state. As a result, the user is hardly required to perform an operation of turning off the power supply on the display device side, and wasteful power consumption can be suppressed while improving the convenience of the display device.
[Brief description of the drawings]
FIG. 1 is a diagram showing a schematic configuration of a display device according to an embodiment of the present invention.
FIG. 2 is a flowchart for explaining the operation of the display device.
[Explanation of symbols]
1, 2 ... D-SUB input terminal 3 ... Selector switch circuit 4 ... Buffer circuit 5 ... MPU
6 ... Operating means 7 ... LED circuit 8 ... PLL circuit 9 ... Amplifier circuit 10 ... A / D conversion circuit 11 ... Field memory 12 ... ASIC
13 ... LCD module 14 ... inverter circuit 15 ... power supply circuit

Claims (4)

Display means; synchronization signal detection means for detecting presence / absence of input of a synchronization signal including a vertical synchronization signal and a horizontal synchronization signal supplied from a personal computer; and a power supply state from a power source according to a detection result of the synchronization signal detection means Based on the synchronization signal, a power control means for controlling the display and a display mode of a screen displayed on the display means is selected from a plurality of predetermined display modes including a VGA (Video Graphics Array) mode A display device having display mode detecting means for
The power control means is
The synchronization signal detection means detects the synchronization signal within a set time after the display mode detection means detects that the display mode of the screen displayed on the display means is the VGA mode of the plurality of display modes. if the input has changed state in the absence of input from the state where there is is detected, turn off the power supply from the prior SL power,
When the state change is detected by the synchronization signal detection means without the display mode detection means detecting that the display mode of the screen displayed on the display means is the VGA mode, the power supply is suppressed. A display device in which the power supply is operated in DPMS (Display Power Management Signaling) mode . The DPMS mode, only a shall be supplied with power from the power source to a portion of the synchronization signal detecting means and apparatus, including the power control unit,
Wherein it said power control means from the power source is operating in the DPMS mode, when the input of the synchronizing signal is detected by the synchronization signal detection means, comprising by supplying power from the previous SL power to the entire device Item 4. The display device according to Item 1. An operation means for operation is detected by said power supply control means, when the power supply from the power source is turned off, the power from the power supply only to the operation detecting system including the operating means and said power supply control means There is supplied from power supply from the power source is turned off, when the operation of the operating means is detected by said power supply control means, said power supply control means, the entire device power from said power supply The display device according to claim 1, wherein the display device is supplied. After the set time elapses after the display mode detection means detects that the display mode of the screen displayed on the display means by the power supply control means is the VGA mode, the state is detected by the synchronization signal detection means. The display device according to claim 1, wherein the power source is operated in the DPMS mode when a change is detected.

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