JP3585101B2 - Display device - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a video display system that adjusts a display screen of a display device using an OSD (On Screen Display) menu that is superimposed on a video image displayed on a display screen of the display device.
[0002]
[Prior art]
In recent years, the personal computer market has been rapidly expanding, and is expected to further expand. Along with this, it has become important to improve the functions of peripheral devices of personal computers. In particular, with the increasing demand for larger screens and higher resolutions for display devices and the advent of liquid crystal displays, operations such as adjustment of display screens have become more complicated. Conventionally, a method has been adopted in which characters and symbols representing a display adjustment function are displayed (OSD) on a display screen of a display device, and the display adjustment function is selected and adjusted through several buttons provided on the display device. . However, with the increase in the number of display screen adjustment functions, the number of button presses for function selection has increased, and it takes time to perform large increases and decreases in adjustment values using the buttons installed on the display device. There were inconveniences in use, such as poor properties.
[0003]
In a television, a method of adjusting a display screen by incorporating a trackball or a mouse into a remote controller provided for power supply, channel switching, and the like, and operating a menu or cursor by an OSD with the trackball or the like (see, for example, 154218).
[0004]
[Problems to be solved by the invention]
However, in the case of a display device connected to a personal computer, unlike a television, a remote control is not attached, and it is troublesome to prepare a remote control with a trackball and a mouse for adjusting the display screen. It costs money. The present invention has been made to solve such a problem, and a pointing device such as a mouse or a trackball provided as an input device in a personal computer is also used as an input device for adjusting a screen display. To improve the operability of the screen display adjustment and reduce the production cost.
[0005]
[Means for Solving the Problems]
A display device according to the present invention is a display device that displays an image on a display screen, wherein the display device relates to a personal computer that outputs a video signal to the display device and a position on the display screen of the display device. An OSD control means for controlling the OSD display based on an output signal of the pointing device; and a switch for executing / stopping the OSD display. a switching means for performing said at OSD display stop, and switching means for switching a connection destination of the pointing device so as to output an output signal of the pointing device to the personal computer, when the OSD display of the execution, the personal From the computer to the pointing device Monitoring the demand signal, when receiving the request signal, and a signal transmitting means for outputting the dummy data of the response signal of the pointing device to the personal computer, thereby achieving the above object.
The OSD control unit may display an OSD related to the adjustment of the display screen and adjust the display screen based on an output signal related to the OSD display of the pointing device.
The signal transmission means may transmit a signal indicating that a pointing device is not operated as the dummy data.
[0011]
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 diagram showing an outline of a video display system according to a first embodiment of the present invention. As shown in this figure, the video display system of the present invention includes a display device 1, a personal computer 2, and a mouse 3 as a pointing device. This video display system normally displays a video output from the personal computer 2 on a screen 1e described later. By switching modes, the video display system overlaps the video displayed on the screen 1e with an OSD (On Screen Display). ) Display the menu. The mode for displaying the OSD menu is called “OSD menu mode”, and the display screen of the display device 1 is adjusted using the OSD menu in the OSD menu mode. The display device 1 includes a mouse interface 1a to which the mouse 3 is connected, a video cable connector 1b, a general-purpose cable connector 1c, an OSD switch 1d for switching ON / OFF of an OSD menu mode, and a screen 1e for displaying a video. Have. The personal computer 2 has a mouse interface 2a and a video cable connector 2b. The mouse 3 has a rotating body (not shown) and a mouse button 3a, and outputs the amount of movement of the mouse 3 in the X-axis direction and the amount of movement in the Y-axis direction based on the rotation of the rotating body, and information on the depression of the mouse button 3a. . Note that the mouse 3 is not limited to the one using a rotating body, and may be any mouse that outputs the amount of movement of the mouse 3 in the X-axis direction and the amount of movement in the Y-axis direction, and information on depression of the mouse button 3a. Alternatively, the movement amount in the X-axis direction and the movement amount in the Y-axis direction may be output based on optical means. In addition, not limited to a mouse, a trackball or the like may be used. The mouse 3 is connected to the mouse interface 1 a of the display device 1. The amount of movement of the mouse 3 in the X-axis direction and the amount of movement in the Y-axis direction, and information on depression of the mouse button 3 a are displayed on the display device 1 via the mouse interface 1 a. Given to. The video cable connector 1b of the display device 1 and the video cable connector 2b of the personal computer 2 are connected by a video cable 21, and the general-purpose cable connector 1c and the mouse interface 2a are connected by a general-purpose cable 22. A video signal output from the personal computer 2 via the video cable connector 2b is input to the display device 1 via the video cable connector 1b via the video cable 21, and a video is displayed on the screen 1e.
[0012]
The OSD switch 1d switches the OSD menu mode of the video display system between ON and OFF. When the OSD menu mode is OFF, the mouse signal from the mouse 3 input to the display device 1 via the mouse interface 1a is input to the mouse interface 2a of the personal computer 2 via the general-purpose cable 22. When the OSD menu mode is ON, an OSD menu is displayed on the screen 1e, and a mouse signal from the mouse 3 input to the display device 1 is processed in the display device 1 as operation information of the OSD menu.
[0013]
FIG. 2 is a block diagram showing a configuration of the video display system according to the first embodiment of the present invention. One end of a video cable 21 is connected to the video cable connector 2b of the personal computer 2, and the other end of the video cable 21 is connected to the video cable connector 1b of the display device 1. The video cable connector 1b is connected to the video signal processing unit 8, and the video signal output from the personal computer 2 is provided to the video signal processing unit 8 by the video cable 21. The video signal processing unit 8 is connected to the data processing unit 5A, the OSD control unit 6, and the PC / OSD data synthesis unit 9. The video signal processing unit 8 processes the video signal based on the video adjustment data relating to the timing and amplitude of the video signal input from the data processing unit 5A, and outputs RGB data to the PC / OSD data combining unit 9, A horizontal synchronizing signal (Hsync) and a vertical synchronizing signal (Vsync) are output to the PC / OSD data synthesizing unit 9 and the OSD control unit 6. The PC / OSD data synthesizing unit 9 is connected to the driving unit 10 and the OSD control unit 6. The PC / OSD data synthesizing unit 9 generates new RGB data obtained by synthesizing the RGB data input from the video signal processing unit 8 and the OSD display data input from the OSD control unit 6, a horizontal synchronizing signal (Hsync) and a vertical synchronizing signal. And a video control signal based on the synchronization signal (Vsync). The drive unit 10 is connected to the display unit 11, drives the display unit 11 based on the input video control signal, and displays the RGB data input from the PC / OSD data combining unit 9 on the display unit 11. 1e (see FIG. 1).
[0014]
The mouse interface 1a of the display device 1 to which the mouse 3 is connected is connected to the connection switching unit 4, and a mouse signal output from the mouse 3 is given to the connection switching unit 4 via the mouse interface 1a. The connection switching unit 4 is connected to each of the OSD switch 1d, the mouse data processing unit 5B, and the general-purpose cable connector 1c, in addition to the mouse interface 1a. One end of a general-purpose cable 22 is connected to the general-purpose cable connector 1c, and the other end of the general-purpose cable 22 is connected to a mouse interface 2a of the personal computer 2. The connection switching unit 4 connects the mouse interface 1a to the mouse data processing unit 5B inside the connection switching unit 4 when the switch ON signal is input from the OSD switch 1d, and when the switch OFF signal is input. The mouse interface 1a is connected to the general-purpose cable interface 1c. Thus, the mouse signal output from the mouse 3 is given to the mouse data processing unit 5B when the OSD switch 1d is ON, and is given to the personal computer 2 when the OSD switch 1d is OFF. The mouse data processing unit 5B is connected to the OSD control unit 6, processes a mouse signal given from the connection switching unit 4 to the mouse data processing unit 5B, and calculates X-axis direction change amount data for the mouse 3 and Y-axis direction. , And outputs the data to the OSD control unit 6.
[0015]
The OSD control unit 6 is connected to each of the OSD switch 1d, the OSD menu display data storage unit 7, the data processing unit 5A, and the PC / OSD data synthesis unit 9. When the power is turned on (or reset operation) or the screen resolution is changed, the OSD control unit 6 reads data for adjusting the display screen from the OSD menu display data storage unit 7 and performs data processing. Output to the unit 5A. The data processing unit 5A outputs the above-described video adjustment data to the video signal processing unit 8 based on the data for adjusting the display screen input from the OSD control unit 6. When a switch ON signal is input from the OSD switch 1d to the OSD control unit 6, the OSD menu display data storage unit 7 reads data for OSD menu display including data for adjusting a display screen. The OSD control unit 6 transmits the OSD menu display data including the display screen adjustment data read from the OSD menu display data storage unit 7 in the X-axis direction of the mouse 3 input from the mouse data processing unit 5B. , The change amount data in the Y-axis direction, and the mouse button press data. The OSD control unit 6 synchronizes the OSD menu display data including the changed data for adjusting the display screen with the horizontal synchronization signal (Hsync) and the vertical synchronization signal (Vsync) input from the video signal processing unit 8. The data is output to the PC / OSD data synthesizing unit 9 as OSD display data. At the same time, when the data for adjusting the display screen is changed, the OSD control unit 6 outputs the updated data for adjusting the display screen to the data processing unit 5A, and the data processing unit 5A performs the OSD control. The image adjustment data is output to the image signal control unit 8 based on the data for adjusting the display screen input from the unit 6.
[0016]
Next, the operations of the mouse data processing unit 5B and the OSD control unit 6 will be described with reference to flowcharts. The numbers attached in parentheses correspond to the step numbers in the flowchart. FIG. 3 is a flowchart showing the operation of the mouse data processing unit 5B. When the OSD switch 1d is turned on, the OSD menu mode is turned on (200), and the connection switching unit 4 connects the mouse 3 to the data processing unit 5B. In the OSD menu mode, since the mouse 3 is connected to the mouse data processing unit 5B instead of the personal computer 2, mouse processing for the personal computer 2 is required. That is, when the personal computer 2 and the mouse 3 are connected by the PS / 2 connection, an input request is made from the personal computer 2 to the mouse 3. However, in the OSD menu mode, since the mouse 3 is connected to the mouse data processing unit 5B via the connection switching unit 4, the mouse 3 does not respond to an input request from the personal computer 2. If there is no response from the mouse 3, the personal computer 2 determines that the mouse 3 is not connected.
[0017]
Once the mouse 3 is not connected, the personal computer 2 does not recognize the connection of the mouse 3 even if the OSD menu mode is turned off and the mouse 3 is connected to the personal computer 2. 3 does not work properly. In order to avoid such a situation, a "dummy data transmission routine" is started as mouse processing (210). The “dummy data transmission routine” monitors an input request signal from the personal computer 2 to the mouse 3 input through the connection switching unit 4 and, when an input request signal is input, transmits mouse input dummy data. . The dummy data is input to the personal computer 2 via the connection switching unit 4 and the general-purpose cable 22. Thus, the personal computer 2 recognizes that the mouse 3 is connected even in the OSD menu mode, so that the mouse 3 can be operated normally even when the OSD menu mode is turned off. As the dummy data, data such as a mouse movement amount of 0 and no depression of a mouse button can be applied.
[0018]
Next, it is determined whether there is an input signal from the mouse 3 (220). When there is an input signal from the mouse 3, the input signal is processed to calculate the change amount data of the cursor in the X-axis direction, the change amount data in the Y-axis direction, and the mouse button press data on the display surface of the screen 1e. To the OSD controller 6 (230). Until the OSD switch 1d is turned off and the OSD menu mode is turned off (240), the processing of steps 220 to 240 is repeated. When the OSD menu mode is turned off, the “dummy data transmission routine” is stopped and the process ends (250).
[0019]
FIG. 4 is a flowchart showing the operation of the OSD control unit 6. When the OSD switch 1d is turned on, the OSD menu mode is turned on (300), and the connection switching unit 4 connects the mouse 3 to the data processing unit 5B. Next, the display positions of the OSD menu and the cursor for the menu are set to initial values (310). The OSD menu display data storage unit 7 reads out the OSD menu display data and the currently set numerical data for screen display adjustment, and transmits them to the PC / ODS data synthesizing unit 9 as OSD display data (320). Thereby, the OSD menu is displayed on the screen 1e of the display unit 11. Next, it is determined whether or not data relating to mouse operation has been input from the mouse data processing unit 5B (330). If the input data is data related to cursor movement (340), the cursor position information is changed based on the input mouse X-axis direction change data and Y-axis direction change data (350). . Next, the OSD display data including the changed cursor position information is transmitted to the PC / OSD synthesizing unit 9 (360). Thereby, the position of the cursor on the OSD menu displayed on the screen 1e is moved by operating the mouse 3. Next, it is determined whether or not the input data relating to the mouse operation is data relating to the depression of the mouse button (370). If the data is relating to the depression of the mouse button, the depression of the mouse button at the current cursor position is determined. It is determined whether it is valid (380). When the depression of the mouse button is valid, the lower menu is displayed, the menu item is executed, the numerical value for adjusting the screen display displayed on the menu is changed, and the like is executed according to the cursor position on the OSD menu. (390). Next, the OSD display data is transmitted to the PC / OSD synthesizing unit in order to reflect the execution results such as the display of the lower menu, the execution of the menu items, the change of the numerical value for adjusting the screen display, etc. on the OSD menu displayed on the screen 1e. Transmit (400). When the data for adjusting the display screen is changed, the data for adjusting the display screen updated to reflect the execution result in the video signal displayed on the screen 1e is sent to the data processing unit 5A. Output. Steps 330 to 410 are repeated until the OSD switch 1d is turned off and the OSD menu mode is turned off (410). When the OSD menu mode is turned off, the changed numerical data for screen display adjustment is written and stored in the OSD menu display data storage unit 7. Further, the transmission of the OSD display data is stopped, the OSD menu and the cursor for the menu are erased from the screen 1e (see FIG. 1), and the process ends (420).
[0020]
As described above, according to the video display system of the present invention, the operability of the OSD menu is improved because the selection of the OSD menu and the numerical change of the screen display adjustment within the menu items are performed using the mouse. Also, the mouse can be operated normally before and after the OSD menu mode.
[0021]
FIG. 5 is a diagram showing an outline of a video display system according to the second embodiment of the present invention. Hereinafter, only points different from the first embodiment will be described. As shown in this figure, the video display system of the present invention includes a display device 1, a personal computer 2, and a mouse 3 as a pointing device. One end of the video cable 21 is connected to the video cable connector 1b of the display device 1, and the other end of the video cable 21 is connected to the video cable connector 2b of the personal computer 2. Are connected. The mouse 3 is connected to either the mouse interface 1a of the display device 1 or the mouse interface 2a of the personal computer 2. The mouse interface 1a and the mouse interface 2b are USB interfaces, and the display device 1 and the personal computer 2 can detect whether or not the mouse 3 is connected. When the video display system is used while the OSD menu mode is OFF, the mouse 3 is connected to the mouse interface 2a of the personal computer 2. On the other hand, when using the video display system in the OSD menu mode in which the screen display of the display device 1 is adjusted using the OSD menu, the mouse 3 is connected to the mouse interface 1a of the display device 1. In the OSD menu mode, a mouse signal input from the mouse 3 to the mouse interface 1a is processed inside the display device 1 as operation information of the OSD menu.
[0022]
FIG. 6 is a block diagram illustrating a configuration of the video display system according to the second embodiment of this invention. The video display system does not have the OSD switch 1d and the connection switching unit 4 but has the connector connection detection unit 12 as compared with the video system of the first embodiment (FIG. 2). The mouse 3 is connected to the connector connection detection unit 12 via the mouse interface 1a, and the connector connection detection unit 12 is connected to the mouse data processing unit 5B and the OSD control unit 6. When the mouse 3 is connected to the mouse interface 1a, the connector connection detection unit 12 detects the connection and outputs a mouse detection signal to the OSD control unit 6. The mouse signal output by the mouse 3 is provided to the mouse data processing unit 5B via the mouse interface 1a and the connector connection detection unit 12.
[0023]
When the mouse 3 connected to the mouse interface 2a of the personal computer 2 is connected to the mouse interface 1a of the display device 1, the connector connection detection unit 12 detects the connection and outputs a connection detection signal to the OSD control unit 6. . When the mouse detection signal is input to the OSD control unit 6, the video display system enters the OSD menu mode. In the OSD menu mode, a mouse signal output from the mouse 3 is supplied to the mouse data processing unit 5B via the mouse interface 1a and the connector connection detection unit 12, and the OSD is processed in the same procedure as described in the first embodiment. Processed as menu operation information. When the mouse 3 is detached from the mouse interface 1a, the connector connection detector 12 detects the detachment and outputs a detachment detection signal to the OSD controller 6. When the mouse removal detection signal is input to the OSD control unit 6, the image display system is turned off in the OSD menu mode.
[0024]
In such a video display system according to the second embodiment of the present invention, the mouse interface 2a provided in the personal computer 2 can detect whether or not the mouse 3 is connected, and issue a mouse input request. Also do not do. Therefore, even when the mouse 3 is temporarily disconnected from the mouse interface 2a of the personal computer 2 and connected again after performing the OSD menu operation, the personal computer 2 recognizes the mouse 3 and operates normally.
[0025]
【The invention's effect】
According to the video display system of the present invention, a pointing device such as a mouse provided in the personal computer as an input device is used as an input device for selecting an OSD menu of the display device or changing a numerical value of a screen display adjustment in a menu item. By using this, it is possible to suppress the cost while improving the operability of the OSD menu. Also, once the connection between the mouse and the personal computer is cut off, even if the mouse and the personal computer are connected by the PS / 2 connection that does not recognize the mouse even when the mouse is connected again, the mouse can be used as an input means for the OSD menu. The mouse can be operated normally before and after use.
[Brief description of the drawings]
FIG. 1 is a diagram showing an outline of a first embodiment of a video display system to which the present invention has been applied.
FIG. 2 is a block diagram showing a configuration of a video display system according to a first embodiment of the present invention;
FIG. 3 is a flowchart showing an operation of a mouse data processing unit in FIG. 2;
FIG. 4 is a flowchart showing the operation of the OSD control unit in FIG. 2;
FIG. 5 is a diagram showing an outline of a second embodiment of a video display system to which the present invention is applied.
FIG. 6 is a block diagram showing a configuration of a video display system according to a second embodiment of the present invention.
[Explanation of symbols]
Reference Signs List 1 display device 1a mouse interface 1b video cable connector 1c general-purpose cable connector 1d OSD switch 1e display screen 2 personal computer 2a mouse interface 2b general-purpose cable connector 3 mouse (pointing device)
4 Connection switching unit 5A Data processing unit 5B Mouse data processing unit 6 OSD control unit 7 OSD menu display data storage unit 8 Video signal processing unit 9 PC / OSD data synthesis unit 10 Drive unit 11 Display unit 21 Video cable 22 General-purpose cable

Claims (3)

A display device for displaying an image on a display screen,
The display device is configured to be connectable to a personal computer that outputs a video signal to the display device, and a pointing device that outputs information on a position on a display screen of the display device to the display device,
OSD control means for controlling the OSD display based on an output signal of the pointing device;
Switching means for switching the execution / stop of the OSD display, wherein the switching means switches a connection destination of the pointing device so as to output an output signal of the pointing device to the personal computer when the OSD display is stopped; ,
A signal transmitting unit that monitors a request signal for the pointing device from the personal computer during the execution of the OSD display, and outputs dummy data of a response signal of the pointing device to the personal computer when the request signal is received ; A display device comprising: The display device according to claim 1, wherein the OSD control unit displays an OSD related to the adjustment of the display screen, and adjusts the display screen based on an output signal related to the OSD display of the pointing device. . The display device according to claim 1, wherein the signal transmitting unit transmits a signal indicating that a pointing device is not operated as the dummy data.

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