JP2004170822A - Resolution setting method and interface device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a resolution setting method in which resolution of a video signal outputted from a computer is set by an interface device. <P>SOLUTION: In the resolution setting method, resolution of the video signal outputted from the computer is set by the interface device connected between the computer and a display apparatus. A first storage means for storing one kind or plural kinds of display screen information including resolution information of the display apparatus is provided at the interface device. The interface device takes-in display screen information of the display apparatus connected therewith (S4), selects from the display screen information and the display screen information stored by the first storage means based on the taken-in display screen information (S8) and gives the selected display screen information to the computer (S18, S24). <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a resolution setting method for setting the resolution (the number of pixels in the horizontal direction × the number of pixels in the vertical direction) of a video signal output from a computer, and an interface device for setting the resolution of a video signal output from a computer. .
[0002]
[Prior art]
When a computer is connected to a display device such as an LCD (Liquid Crystal Display), a PDP (Plasma Display Panel), a CRT (Cathode Ray Tube), or an ELD (Electro Luminescent Display), and a video signal from the computer is displayed or activated. Sometimes, a computer reads EDID (Extended Display Identification Data), which is unique information held by the display device, and the computer adjusts a synchronization frequency and an RGB signal according to the read EDID to change resolution and color. The adjusted video signal is output to a display device.
[0003]
The EDID is a 128-byte table also called an extended display ID, and includes a vendor name (ID), a product name (ID), a manufacturing date, an EDID version number, analog / digital, a display area size, and color correction. Information, resolution information, serial number, corresponding frequency (dot clock, horizontal scan, vertical scan), etc. are recorded in the ROM.
[0004]
[Patent Document 1]
Japanese Utility Model Publication No. 05-066671
[Patent Document 2]
JP-A-09-138677
[Patent Document 3]
JP-A-11-015425
[Patent Document 4]
JP 2000-11247 A
[Patent Document 5]
JP-A-2002-006817
[0005]
[Problems to be solved by the invention]
In a display device such as an LCD, a PDP, and an ELD, which is lightweight and can be set in an installation mode relatively freely, it is possible to install the display screen by rotating the display screen by 90 degrees and perform portrait display with a long portrait direction.
In this case, as shown in FIG. 5A, since the scanning direction of the display device 20 changes by 90 degrees, the scanning direction when displaying the video signal is also converted by 90 degrees without changing the vertical and horizontal relationship of the video ( Vertical / horizontal conversion).
[0006]
As software for vertically and horizontally converting a video signal, a so-called pivot software is commercially available. However, since vertical and horizontal conversion by software requires a high-speed processing capability particularly in displaying moving images, an expensive computer is required. In addition, there is compatibility with the application software and the OS used, and there are some places where it is impossible to determine whether or not it operates as specified unless it is operated in an actual system.
The applicant of the present application has already proposed a technique for converting the scanning direction when displaying a video signal by hardware without changing the vertical and horizontal relationship of the video, in order to solve a problem that occurs in the vertical / horizontal conversion by software. (Japanese Patent Application 2002-294116).
[0007]
However, as shown in FIG. 5 (b), if the scanning direction when displaying the video signal is changed by 90 degrees without changing the vertical and horizontal relationship of the video, the video portion that is not displayed on the display device 20 will be described. This causes a problem that a blank portion where no video signal exists is generated.
Therefore, as shown in FIG. 5C, it is necessary to cause the computer 18 to output a video signal at a resolution suitable for the portrait display of the display device 20, and then to change the scanning direction when displaying the video signal. is there.
[0008]
The resolution of the video signal can be changed by operating the OS (Operating System) or application software of the computer 18, but the resolution that can be changed by the OS and the application software is limited to the resolution recorded in the EDID. You. That is, it is necessary to newly prepare the resolution information for the portrait display, specifically, the EDID in which the portrait and landscape of the landscape display resolution are exchanged.
As described above, the EDID is stored in the ROM provided inside the display device. If the above-described portrait display is assumed to be a display device in advance, the EDID for the portrait display may be recorded at the time of manufacture, but only the EDID for the landscape display is recorded in the ordinary display device. Therefore, in order to perform the above-described vertical / horizontal conversion by hardware on a normal display device, the EDID for portrait display must be provided to the computer 18 by some method.
[0009]
Paragraph 0015 of Patent Literature 1 describes an adapter device that switches and specifies the resolution of a graphic controller in a computer main body by operating a switch.
Paragraphs 0016 to 0019 of Patent Literature 2 disclose a display controller that determines whether a video signal can be displayed and, if not, automatically changes display setting contents (resolution or frequency).
Patent Literature 3 describes a display device that displays a video signal from a system device and controls the switching of the display mode of the system device by controlling the reading and rewriting of the EDID.
[0010]
Patent Literature 4 discloses a display device that determines whether image data from a main device can be displayed, and instructs to change the display mode of the main device when it is determined that the image data can be displayed.
In paragraphs 0026 to 0027 of Patent Document 5, the EDID of the head-mounted display device is compared with the EDID of the signal format converter, and an EDID that can operate both is selected and provided to the host computer. A display system is described.
[0011]
The present invention has been made in view of the above circumstances, and has as its object to provide a resolution setting method for setting the resolution of a video signal output by a computer with an interface device.
Another object of the present invention is to provide an interface device that sets the resolution of a video signal output from a computer and displays the video signal of the set resolution on a display device.
[0012]
[Means for Solving the Problems]
A resolution setting method according to a first aspect of the present invention is a resolution setting method for setting a resolution of a video signal output from a computer by an interface device connected between the computer and a display device, the resolution setting method including resolution information of the display device. Alternatively, a first storage unit storing a plurality of types of display screen information is provided in the interface device, the interface device captures display screen information of a connected display device, and displays the display screen information based on the captured display screen information. And selecting from the display screen information stored in the first storage means, and providing the selected display screen information to the computer.
[0013]
In this resolution setting method, the resolution of the video signal output from the computer is set by an interface device connected between the computer and the display device. A first storage unit storing one or more types of display screen information including resolution information of the display device is provided in the interface device, and the interface device captures display screen information of the connected display device, and captures the display screen. Based on the information, a selection is made from the display screen information and the display screen information stored in the first storage means, and the selected display screen information is provided to the connected computer.
Thereby, a resolution setting method of setting the resolution of the video signal output from the computer by the interface device can be realized.
[0014]
A resolution setting method according to a second invention is a resolution setting method for setting a resolution of a video signal output from a computer by an interface device connected between the computer and a display device, wherein the computer-readable storage means Provided in the interface device, the interface device captures display screen information including resolution information of a connected display device, and creates new display screen information including resolution information based on the captured display screen information. By storing the display screen information in the storage means, the display screen information is given to the computer.
[0015]
In this resolution setting method, the resolution of the video signal output from the computer is set by an interface device connected between the computer and the display device. A computer-readable storage unit is provided in the interface device, and the interface device captures display screen information including resolution information of the connected display device, and displays a new resolution information based on the captured display screen information. Create screen information. The interface device gives the display screen information to the connected computer by storing the created display screen information in the storage means.
Thus, it is possible to realize a resolution setting method for setting the resolution of the video signal output from the computer by the interface device without storing display screen information including the resolution in advance.
[0016]
A resolution setting method according to a third aspect of the present invention is a resolution setting method for setting a resolution of a video signal output from a computer by an interface device connected between the computer and a display device, the resolution setting method including resolution information of the display device. Alternatively, a first storage unit storing a plurality of types of display screen information is provided in the interface device, the interface device captures display screen information of a connected display device, and receives the captured display screen information by a given instruction signal. And selecting from the display screen information stored in the first storage means, and providing the selected display screen information to the computer.
[0017]
In this resolution setting method, the resolution of the video signal output from the computer is set by an interface device connected between the computer and the display device. A first storage unit storing one or a plurality of types of display screen information including resolution information of the display device is provided in the interface device, and the interface device captures display screen information of the connected display device, and receives a given instruction. Based on the signal, selection is made from the captured display screen information and the display screen information stored in the first storage means. The interface device provides the selected display screen information to the connected computer.
This makes it possible to realize a resolution setting method for manually setting the resolution of the video signal output by the computer using the interface device.
[0018]
A resolution setting method according to a fourth aspect of the present invention is a resolution setting method for setting a resolution of a video signal output from a computer by an interface device connected between the computer and a display device, wherein the plurality of resolution signals include resolution information of the display device. First interface means for storing display screen information of different types is provided in the interface device, and the interface device selects from the display screen information stored in the first storage means by a given instruction signal, and selects the selected display screen. Information is provided to the computer.
[0019]
In this resolution setting method, the resolution of the video signal output from the computer is set by an interface device connected between the computer and the display device. A first storage unit storing a plurality of types of display screen information including the resolution information of the display device is provided in the interface device, and the interface device receives the instruction signal from the display screen information stored in the first storage unit. Select and provide the selected display screen information to the connected computer.
This makes it possible to realize a resolution setting method for manually setting the resolution of the video signal output by the computer using the interface device.
[0020]
In the resolution setting method according to a fifth aspect, the computer further comprises a second storage device readable by the interface device, and the interface device writes the selected display screen information to the second storage device. Display screen information is provided to the computer.
[0021]
In this resolution setting method, a second storage means readable by a connected computer is further provided in the interface device, and the interface device writes the selected display screen information to the second storage means, thereby displaying the display screen information. To the connected computer.
Thereby, a resolution setting method of setting the resolution of the video signal output from the computer by the interface device can be realized.
[0022]
An interface device according to a sixth aspect of the present invention includes an input terminal connected to a computer, and an output terminal connected to a display device. A video signal from a computer connected to the input terminal is transmitted to a display device connected to the output terminal. An interface device adapted to be displayed, comprising a first connection terminal connected to the display device, a second connection terminal connected to the computer, and one or more types of display screen information including resolution information of the display device. First storage means for storing the display screen information, means for taking in display screen information of a display device connected to the first connection terminal, and display screen information and the first storage means based on the display screen information taken in by the means. Selecting means for selecting from display screen information to be stored, wherein the display screen information selected by the selecting means is output through the second connection terminal. And wherein the Rukoto.
[0023]
In this interface device, the input terminal is connected to the computer, the output terminal is connected to the display device, and the video signal from the computer connected to the input terminal is displayed on the display device connected to the output terminal. The first connection terminal is connected to the display device, the second connection terminal is connected to the computer, and the first storage means stores one or more types of display screen information including resolution information of the display device. The capturing means captures display screen information of the display device connected to the first connection terminal, and based on the captured display screen information, the selection means determines the captured display screen information and the display screen information stored in the first storage means. And the display screen information selected by the selection means is output through the second connection terminal.
Thus, it is possible to realize an interface device that sets the resolution of the video signal output from the computer and displays the video signal of the set resolution on the display device.
[0024]
The interface device according to a seventh aspect of the present invention is characterized in that the interface device further comprises means for operating the selection means from the outside, and wherein the selection means selects display screen information in accordance with the operation of the means.
[0025]
The interface device further includes a unit for externally operating the selecting unit. According to the operation of the operating unit, the selecting unit selects the display screen information, so that the resolution of the video signal output from the computer is manually set, An interface device that displays a video signal of a set resolution on a display device can be realized.
[0026]
An interface device according to an eighth aspect of the present invention includes an input terminal connected to a computer, and an output terminal connected to a display device. A video signal from a computer connected to the input terminal is transmitted to a display device connected to the output terminal. An interface device configured to display, a connection terminal connected to the computer, first storage means storing a plurality of types of display screen information including resolution information of a display device, and Selecting means for selecting from the display screen information stored in the first storage means, wherein the display screen information selected by the selecting means is output through the connection terminal.
[0027]
In this interface device, the input terminal is connected to the computer, the output terminal is connected to the display device, and the video signal from the computer connected to the input terminal is displayed on the display device connected to the output terminal. The connection terminal is connected to the computer, and the first storage means stores a plurality of types of display screen information including resolution information of the display device. The selection means selects from the display screen information stored in the first storage means according to an operation from the outside, and outputs the display screen information selected by the selection means through the connection terminal.
Thus, it is possible to realize an interface device that manually sets the resolution of the video signal output from the computer and displays the video signal of the set resolution on the display device.
[0028]
The interface device according to a ninth aspect further includes a second storage unit that stores the display screen information selected by the selection unit, and stores the display screen information stored by the second storage unit into the second connection terminal or the connection terminal. Characterized by being output through
[0029]
In this interface device, the second storage means stores the display screen information selected by the selection means and outputs the display screen information stored by the second storage means through the second connection terminal or the connection terminal. An interface device that sets the resolution of the video signal to be displayed and displays the video signal of the set resolution on the display device can be realized.
[0030]
An interface device according to a tenth aspect includes an input terminal connected to a computer, and an output terminal connected to a display device. A video signal from a computer connected to the input terminal is transmitted to a display device connected to the output terminal. An interface device adapted to be displayed, including a first connection terminal connected to the display device, a second connection terminal connected to the computer, and resolution information of the display device connected to the first connection terminal. Means for capturing display screen information, based on the display screen information captured by the means, means for creating display screen information including new resolution information, and means for storing the display screen information created by the means, The display screen information stored by the means is output through the second connection terminal.
[0031]
In this interface device, the input terminal is connected to the computer, the output terminal is connected to the display device, and the video signal from the computer connected to the input terminal is displayed on the display device connected to the output terminal. The first connection terminal connects to the display device, and the second connection terminal connects to the computer. The capturing means captures display screen information including the resolution information of the display device connected to the first connection terminal, and the creating means newly creates display screen information including the resolution information based on the captured display screen information. . The storage means stores the created display screen information and outputs the stored display screen information through the second connection terminal.
This realizes an interface device that sets the resolution of a video signal output from a computer and displays the video signal of the set resolution on a display device without having a storage unit that stores display screen information including resolution in advance. You can do it.
[0032]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing a configuration of an interface device according to the present invention for executing a resolution setting method and a video conversion method according to the present invention. The interface device 19 a includes a DVI (Digital Visual Interface) connector 1 connected to a personal computer (hereinafter, referred to as a PC) 17, and a TMDS (Transmission Minimized Differential Signaling) signal which is a video signal input through an input terminal of the DVI connector 1. And a TMDS receiver 5 for converting the received TMDS signal into a TTL (Transistor-Transistor Logic) signal, and a TTL signal converted by the TMDS receiver 5 are provided, and a video signal (constituting the given TTL signal) is displayed. ASIC (Application Spec) that converts the scanning direction at 90 ° to 90 degrees without changing the vertical and horizontal relationship of the video. fic IC) and a 6 (means for converting).
[0033]
The interface device 19a also provides the memory 8 connected to the vertical / horizontal conversion ASIC 6 and the TTL signal, which is a video signal obtained by converting the scanning direction by 90 degrees without changing the vertical / horizontal relationship of the video. A TMDS transmitter 7 for converting the signal into a TMDS signal; and a DVI connector 4 connected to a monitor 16 (display device) and having an output terminal for outputting the TMDS signal converted by the TMDS transmitter 7 to the monitor 16. .
[0034]
The interface device 19a also includes a power supply for a DDC (Display Data Channel) for obtaining the above-described EDID (display screen information) on the monitor 16 when the microprocessor 13 is connected to the monitor 16 via the DVI connector 4. DDC 5V and a signal line SCL for sending a clock for the microprocessor 13 to obtain the EDID on the monitor 16 side M (Serial Clock M) and a signal line SDA for obtaining the EDID M (Serial DAta) M) a signal line HPD for transmitting and receiving hot plugs between the (first connection terminal) and the microprocessor 13 and the monitor 16 M.
[0035]
The interface device 19a also includes an EEPROM (Electrically Erasable Programmable ROM) 2 (second storage unit) for storing the EDID selected by the microprocessor 13, and an EEPROM 15 (first storage) for storing one or more types of EDID. Means) and a selection key 14 for manually selecting from the EDID obtained from the monitor 16 and the EDID stored in the EEPROM 15. A signal line for setting a write-inhibited state to the EEPROM 2 is connected between the microprocessor 13 and the EEPROM 2. The selection key 14 switches between a state in which the EDID obtained from the monitor 16 is specified, a state in which each EDID stored in the EEPROM 15 is specified, and a state in which the EDID is not specified.
[0036]
The interface device 19a also has a switch for returning a DDC power supply of 5V obtained from the PC 17 as a hot plug to the PC 17 under the control of the microprocessor 13 when connected to the PC 17 through the DVI connector 1. 12, a signal line SCL (Serial Clock) for sending a clock for reading and writing the stored contents of the EEPROM 2, and a signal line SDA (Serial DATa) for reading and writing the stored contents.
[0037]
The signal lines SCL and SDA are connected to the signal line SCL connected to the microprocessor 13. MP, SDA MP and signal line SCL connected to DVI connector 1 to connect to PC 17 PC, SDA And a PC (second connection terminal).
Signal line SCL connected to microprocessor 13 MP, SDA A switch 9 that is turned on / off by a write / read selection signal from the microprocessor 13 is provided in the middle of the MP. Signal line SCL connected to DVI connector 1 PC, SDA In the middle of the PC, there are provided switches 10 which are turned off / on by the inverted signal of the write / read selection signal from the microprocessor 13 by the inverter 11, respectively. When the switch 9 is on, the switch 10 is off, and when the switch 9 is off, the switch 10 is on.
[0038]
The operation of the interface device 19a having such a configuration will be described below with reference to the flowcharts of FIGS.
Since the EDID of the interface device 19a must be set when the PC 17 is started, the interface device 19a and the monitor 16 are connected before starting the PC 17.
The microprocessor (hereinafter abbreviated as MP) 13 is turned on (not shown), the DVI connector 4 is connected to the monitor 16, the DDC 5V is supplied from the interface device 19a to the monitor 16, and the monitor 16 returns the hot plug. Is determined to be connected to the monitor 16 (S2), and the EDID is read (taken) from the ROM incorporated in the monitor 16 (S4).
[0039]
Next, the MP 13 determines the optimum resolution for displaying the monitor 16 in the portrait mode from the resolution included in the read EDID (S4) (S6), and determines from the EDID stored in the EEPROM 15 and the read EDID (S4). Then, an EDID including the same or closest resolution to the determined resolution (S6) is selected (S8).
[0040]
Here, the optimal resolution for portrait display determined by the MP 13 is obtained by exchanging the vertical resolution and the horizontal resolution of the resolution included in the EDID read from the monitor 16. For example, assuming that the monitor 16 has a resolution of a so-called XGA (extended Graphics Array; a general resolution), the EDID records 1024 horizontal pixels and 768 vertical pixels. In this case, the optimum resolution for the portrait display is 768 pixels horizontally and 1024 pixels vertically.
[0041]
In recent years, resolutions commonly used as computer monitor resolutions are resolutions referred to as VGA, SVGA, and SXGA, including the XGA. VGA has 640 horizontal pixels and 480 vertical pixels, SVGA has 800 horizontal pixels and 600 vertical pixels, and SXGA has 1280 horizontal pixels and 1024 vertical pixels. .
Therefore, it is only necessary to store the EDID in which the horizontal resolution and the vertical resolution of these general resolutions are interchanged in the EEPROM 15.
Further, the MP 13 may replace the horizontal resolution and the vertical resolution of the resolution included in the read EDID, create a new EDID, and store the new EDID in the EEPROM 2. In this case, the EEPROM 15 for storing the EDID for portrait display is unnecessary.
[0042]
After selecting the EDID (S8), the MP 13 turns on the switch 9 and turns off the switch 10 (S10), and then releases the write-protected state of the EEPROM 2 (S12).
Next, the MP 13 determines whether there is an EDID designated by the selection key 14 from the EDID stored in the EEPROM 15 and the read EDID (S4) (S14). EDID is selected (S16).
Next, the MP 13 writes the selected EDID (S8 or S16) to the EEPROM 2 (S18), and then sets the EEPROM 2 to a write-protected state (S20). Next, the switch 9 is turned off and the switch 10 is turned on to restore the connection state to the EEPROM 2 (S22).
[0043]
When the DVI connector 1 and the PC 17 are connected, the MP 13 writes the selected EDID into the EEPROM 2, sets the EEPROM 2 to a write-protected state, and restores the connection state to the EEPROM 2 (S22). It is returned to the PC 17 and is electrically connected to the PC 17 (S24).
When starting up, the PC 17 reads out the EDID stored in the EEPROM 2 in the same manner as when the PC 17 is connected to the monitor 16 (S26), and adjusts the synchronizing frequency and the RGB signal according to the read out EDID to change the resolution. The output of the color-adjusted video signal is started.
[0044]
In the interface device 19a, the TMDS receiver 5 starts receiving the video signal output from the PC 17 via the DVI connector 1 (S28), and the TMDS receiver 5 changes the received video signal from a TMDS signal to a TTL signal, and performs vertical / horizontal conversion. Give to ASIC6. The vertical / horizontal conversion ASIC 6 operates the writing / reading of the memory 8 so that the scanning direction when the given video signal is displayed on the monitor 16 is changed by 90 degrees without changing the vertical / horizontal relationship of the video. The video signal is converted, and the converted video signal is provided to the transmitter 7. The transmitter 7 converts the given video signal from a TTL signal to a TMDS signal, and outputs it to the monitor 16 via the DVI connector 4 (S30).
The details of the operation of the vertical / horizontal conversion ASIC 6 for converting the scanning direction when displaying a video signal are described in detail in Japanese Patent Application No. 2002-294116, and thus the description thereof is omitted.
[0045]
As described above, as shown in FIG. 4, the interface device 19a causes the PC 17 (computer 18) to recognize a resolution suitable for portrait display on the monitor 16 (display device 20), and changes the scanning direction when displaying a video signal. Since the image is converted by 90 degrees without changing the vertical / horizontal relationship of the image, the image converted vertically and horizontally can be displayed on the monitor 16 without protruding and without generating a blank portion where no video signal exists. .
[0046]
The interface device converts the scanning direction when displaying the video signal and outputs the converted video signal (S30) until the power supply (not shown) is turned off and finished (S32). (S32), the electric connection with the monitor 16 is cut off (S34), the electric connection with the PC 17 is cut off (S36), and the process ends.
[0047]
The PC 17 may be able to read the EDID selected by the MP 13 without providing the EEPROM 2. For example, the EEPROM 15 may be set so that the PC 17 can read only the EDID selected by the MP 13, or the PC 17 may be directly read from the monitor 16 when the MP 13 selects the EDID from the monitor 16. .
Alternatively, the MP 13 may read the EDID from the monitor 16 and manually select the EDID stored in the EEPROM 15 by using the selection key 14. In this case, the signal line SCL for reading the EDID from the monitor 16 is used. M, SDA M is unnecessary.
[0048]
【The invention's effect】
According to the resolution setting method according to the first and fifth inventions, it is possible to realize a resolution setting method for setting the resolution of a video signal output from a computer with an interface device.
[0049]
According to the resolution setting method of the second aspect, it is possible to realize a resolution setting method of setting the resolution of a video signal output from a computer by an interface device without storing display screen information including the resolution in advance. I can do it.
[0050]
According to the resolution setting method according to the third and fourth inventions, it is possible to realize a resolution setting method of manually setting the resolution of a video signal output by a computer with an interface device.
[0051]
According to the interface device according to the sixth and ninth aspects, it is possible to realize an interface device that sets the resolution of the video signal output from the computer and displays the video signal of the set resolution on the display device.
[0052]
According to the interface device according to the seventh and eighth aspects, it is possible to realize an interface device that manually sets the resolution of the video signal output from the computer and displays the video signal of the set resolution on the display device.
[0053]
According to the interface device of the tenth aspect, the resolution of the video signal output by the computer is set and the video signal of the set resolution is displayed without the provision of the storage unit for storing the display screen information including the resolution in advance. An interface device to be displayed on the device can be realized.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration of an interface device according to the present invention that executes a resolution setting method and a video conversion method according to the present invention.
FIG. 2 is a flowchart showing the operation of the interface device according to the present invention.
FIG. 3 is a flowchart showing an operation of the interface device according to the present invention.
FIG. 4 is an explanatory diagram showing the operation of the interface device according to the present invention.
FIG. 5 is an explanatory diagram for explaining portrait display on a display device.
[Explanation of symbols]
1,4 DVI connector
2 EEPROM (second storage unit, storage unit, storage unit)
6 Vertical / horizontal conversion ASIC
8 memory
9,10,12 switch
13 Microprocessor (MP)
14. Selection keys (means for external operation)
15 EEPROM (first storage means)
16 Monitor (display device)
17 Personal computer (PC)
19a Interface device
DDC5V Power supply for DDC
SDA M signal line (first connection terminal)
SDA PC signal line (second connection terminal, connection terminal)
SCL M, SCL MP, SCL PC (clock) signal line
SDA, SDA MP signal line

Claims (10)

A resolution setting method for setting the resolution of a video signal output by a computer with an interface device connected between the computer and a display device,
A first storage unit storing one or more types of display screen information including resolution information of a display device is provided in the interface device. The interface device captures display screen information of a connected display device, and displays the captured display screen. A resolution setting method comprising: selecting from the display screen information and the display screen information stored in the first storage means based on the information, and providing the selected display screen information to the computer. A resolution setting method for setting the resolution of a video signal output by a computer with an interface device connected between the computer and a display device,
The computer is provided with storage means readable by the interface device, the interface device captures display screen information including resolution information of a connected display device, and newly includes resolution information based on the captured display screen information. A resolution setting method, wherein display screen information is created, and the created display screen information is stored in the storage unit, so that the display screen information is given to the computer. A resolution setting method for setting the resolution of a video signal output by a computer with an interface device connected between the computer and a display device,
A first storage unit that stores one or more types of display screen information including resolution information of a display device is provided in the interface device. The interface device captures display screen information of a connected display device, and receives a given instruction. A resolution setting method comprising: selecting from display image information taken in and display image information stored in the first storage means according to a signal; and providing the selected display image information to the computer. A resolution setting method for setting the resolution of a video signal output by a computer with an interface device connected between the computer and a display device,
A first storage unit storing a plurality of types of display screen information including resolution information of a display device is provided in the interface device, and the interface device stores the display screen information stored in the first storage unit in response to a given instruction signal. And setting the selected display screen information to the computer. The computer further comprising a second storage device readable by the computer, wherein the interface device supplies the display screen information to the computer by writing the selected display screen information to the second storage device. A resolution setting method according to any one of 1, 3, and 4. An interface device comprising an input terminal connected to a computer, and an output terminal connected to a display device, wherein an image signal from a computer connected to the input terminal is displayed on a display device connected to the output terminal. So,
A first connection terminal connected to the display device, a second connection terminal connected to the computer, first storage means storing one or a plurality of types of display screen information including resolution information of the display device, Means for capturing display screen information of a display device connected to the connection terminal; and selecting means for selecting from the display screen information and the display screen information stored in the first storage means based on the display screen information captured by the means. An interface device for outputting the display screen information selected by the selection means through the second connection terminal. 7. The interface device according to claim 6, further comprising: means for externally operating said selecting means, wherein said selecting means selects display screen information in accordance with an operation of said means. An interface device comprising an input terminal connected to a computer, and an output terminal connected to a display device, wherein an image signal from a computer connected to the input terminal is displayed on a display device connected to the output terminal. So,
A connection terminal connected to the computer, a first storage unit storing a plurality of types of display screen information including resolution information of a display device, and a display screen information stored in the first storage unit in accordance with an external operation And a display unit for outputting the display screen information selected by the selection unit through the connection terminal. A second storage unit for storing the display screen information selected by the selection unit, wherein the display screen information stored by the second storage unit is output through the second connection terminal or the connection terminal. 9. The interface device according to any one of items 6 to 8. An interface device comprising an input terminal connected to a computer, and an output terminal connected to a display device, wherein an image signal from a computer connected to the input terminal is displayed on a display device connected to the output terminal. So,
A first connection terminal connected to the display device, a second connection terminal connected to the computer, and a unit for capturing display screen information including resolution information of the display device connected to the first connection terminal; Means for creating display screen information including new resolution information based on the display screen information, and means for storing the display screen information created by the means. 2. An interface device characterized by outputting through two connection terminals.

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