FI94467C - Microprocessor based monitor - Google Patents

Description

1 94467

Microprocessor-based display device

The invention relates to a microprocessor-based display device comprising user-operated means 5 for performing adjustments and settings of the display device.

Computer systems, such as a conventional personal computer, generally comprise a central processing unit 1, to which a keyboard 12, a mouse controller 3 and a display device 5 (monitor) (as shown in Figure 1) may be connected. As is known, the computer central processing unit 1 comprises a video display controller (e.g. a VGA controller), the video signal (s) generated by which is fed via a video connection and a video cable 4 to the display device 5. The conventional display device has been characterized by supporting only one display standard. according to the video card.

Today, various monitors / display devices with independent microprocessor control that are able to work with several different display standards or modes, for example with different display resolutions from EGA resolution to 1280 x 1024 resolution, are rapidly becoming more common. Such monitors are commonly referred to as so-called multisync monitors. The Multisync monitor is capable of quickly switching from one display mode to another, depending on the current application. However, especially in the case of non-standard display modes, the problem may be that the position and size adjustments of the image displayed on the screen or other similar adjustments are not quite correct when switching from one display mode to another. For this reason, the multisync monitor 30 needs several separate controls to adjust the appearance of the image.

Previous display device control solutions have been based on a computer hardware structure of the type shown in Figure 1. In this case, the display device 5 is provided with 35 controllers / adjustment unit 9, which is easy but expensive to implement. The control unit 9 is generally easy to understand for the user 2 94467 but not necessarily easy to use. The operating controls are usually located within reach of the user at the front or back of the monitor, but to adjust the monitor, the user must reach closer to the multi-square, making it difficult to change and adjust the image adjustable to normal operating conditions and distances. In addition, the user control unit 9 limits and complicates the design and mechanical structure of the monitor 5, since in current monitors the electronics 10 are typically housed on a single circuit board, which also includes said control unit. Subsequent changes to the structure of the monitor are difficult, if not impossible. Pre-installation of factory settings as well as maintenance adjustment is possible, but cumbersome and slow (manually). It may not be possible to adjust all 15 settings through the monitor's own control unit.

Solutions are also known in which the adjustment of the display device 5 is carried out by some non-standard control from the central processing unit 1, e.g. via a Windows-20 type adjustment window. The latter approach is represented by patent application FI-914435, which discloses the communication between a central processing unit and a display device via a video card and a video interface. This type of adjustment is easy for the user to understand, but it is not quite simple in its operating characteristics: every * time the user wants to adjust the monitor, he has to interrupt the application currently in use and download the adjustment program. In addition to the above-mentioned download problem, there may be a control delay visible to the user due to the slowness of the video card and the communication bus. of water. In addition, the adjustment window on the screen should remain constantly in the image area of the screen, i.e. the adjustment window should not. move when the position of the image is adjusted. The necessary control software must be designed separately for each operating system (DOS, Windows, OS / 2, Unix, etc.), which makes it laborious and expensive to develop and maintain. In addition, there may be 3 - 94467 compatibility problems with the communication bus. This kind of monitor adjustment solution is not well suited for the end user, but rather presented at the factory or service! transfer change settings. In this case, the timing / response of the adjustment procedure 5 itself is not critical, because the image displayed is not adjusted directly, but the adjustment parameters are stored in the monitor's memory for future use.

It is an object of the present invention to provide a new simple, inexpensive and easy-to-use video display adjustment-10 pa.

This is achieved by a processor-based display device of the type described in the introduction, characterized according to the invention, the display device comprising interface means for connecting a separate mouse controller, keyboard and / or other similar interface to the video device , a keyboard and / or other similar user interface means 20 connected via said interface means inside the display device to the microprocessor control.

The basic idea of the invention is to perform the adjustments of the display device, which traditionally require a control unit associated with the display device, using a keyboard, a mouse controller or other similar standard user interface. In this case, the user interface in question is first connected to the display device instead of to the central processing unit and only then to the central processing unit. Inside the display device, the signals of the user interface are also connected to the microprocessor of the display device, so that the user can use the user interface to control the microprocessor and thereby make the desired adjustments or settings. The user interface bus to the computer's CPU is disconnected during adjustment either manually or by the microprocessor of the display device.

The invention provides various advantages: 4 - 94467 - The display device does not need its own controls, as a result of which the structure of the display device is simplified and cheaper and its design becomes easier.

- Because the existing keyboard and / or mouse of the data-5 machine system (or possibly other peripheral suitable for adjustment) is used to adjust the display device, there is no additional cost for the control device.

- The computer keyboard does not set limits on the number of adjustable features of the display device. If necessary, the adjustments can be easily removed or added without having to change the mechanical structure of the display device itself.

- Computer keyboard or mouse-based control creates a variety of advanced, user-friendly interfaces for adjusting the display device.

- The solution is compatible with existing computer (PC) systems.

- The CPU does not need to be involved in adjusting the monitor 20 in any way, so there is no need for additional, non-standard device driver programs.

- There are no problems with the control response in the control, because the control information flows almost in real time from the keyboard or mouse directly to the microprocessor of the display device.

- The keyboard and mouse can be connected directly to a touch screen display unit and not to a remote CPU. In this case, the central processing unit itself can be invisible, e.g. under a table, without making it difficult to use the keyboard / mouse and connecting it to the system. This also eliminates the need for long keyboard and mouse games.

- All connections required for adjustment are easily at the user's fingertips, so there is no need to change the normal 35 working position when evaluating the image feature adjustment 5 94467, - The keyboard / peripheral interface between monitor and PC sn can be used as a communication bus, eg to transfer factory and service presets from PC to monitor 5 . The bus can be bidirectional, so that the monitor can also send, for example, monitor identification data to PCs, - The number of connection cables between peripherals does not increase substantially. Because the keyboard and mouse 10 are each connected to the display device separately, the previously planned expensive solution of connecting the keyboard and mouse is avoided. In this case, there is no need to place an expensive special mouse connector on a cheap and standard PC keyboard, but the necessary additional costs are transferred to a display device that always supports PC keyboard control.

The invention will now be described by way of example with reference to the accompanying drawings, in which Figure 1 illustrates a prior art computer system 20 with display devices, and Figures 2 and 3 show a computer system using a display device according to the invention.

In the computer system of Figure 2, the user interface, in the exemplary case the keyboard 2 and the mouse controller 3 are 23 connected by cables 8 and 7 to the display device 25 according to the invention and from there by a common cable 10 to the central processing unit 1. There is also a video cable 4 for transmitting video signals.

The display device 25 is a microprocessor-controlled display device, the operation of which is controlled and the necessary adjustments are made by its own internal microprocessor system 15. The microprocessor system 15 can be programmed to perform almost any control and adjustment, but from the user's point of view the most common are 6,94467 size, position, brightness, contrast, etc. Traditionally, the display device has had its own controls for these adjustments, such as the controls 9 in the display device 5 of Figure 1, with which the user has been able to control the micropro-5 sensor system 15.

In the display device 25 according to the invention, the user performs all the desired adjustments via a user interface connected to the display device, such as a keyboard 2 or a mouse controller 3. In the preferred embodiment of the invention shown in Fig. 3, the display device 25 is provided with a standard mouse controller connector 11. , and a standard keyboard connector 12 to which the keyboard 2 is connected by an interface cable 8. Inside the display device 15 there is a communication bus 14 according to a standard corresponding to the respective user interface, which passes from terminals 11 and 12 via a switching unit 17 to a microprocessor system 15 an interface cable 10 connected at one end 20 to a suitable user interface connector on the central processing unit 1, typically a keyboard / mouse connector. The internal communication bus 14 contains the same signals as the connection cables 7, 8 and 10 and is thus in a way only an extension of them inside the display device 25. In the preferred embodiment of the invention 2.5, the keyboard 2, the mouse controller 3 and the connectors 11, 12 and 13 are of the PS / 2 type.

In normal use, the signals produced by the keyboard 2 and the mouse controller 3 are routed via cables 7 and 8 to terminals 11 and 12 and from there via internal bus 14 to terminal 13, from where the signals are connected by connection cable 10 to CPU 11. In other words, interface signals are only recycled to the display device. 25, which provides them with the necessary physical connection in the form of terminals 11 and 12.

The control according to the invention is based When the control of the monitor 7 94467 is started, the switching unit 17 disconnects the bus 14 from the terminal 13 and thus disconnects the central processing unit 1 in order to avoid error controls in the central processing unit.

The start of the control and the control 5 of the switching unit 17 can take place by the microprocessor 15 as a result of, for example, a command given from the keyboard or manually by a separate switch.

In the former case, the microprocessor system 15, which is also connected to the internal bus 14, 10 is in normal operation during the monitoring mode in which it monitors the signals of the bus 14. In monitoring mode, the microprocessor system responds only to a predetermined signal / string, causing it to enter the active control mode and direct the switching unit 15 17 to disconnect the traffic to the central processing unit 1. In this case, all signals from the interface and bus 14 control the display device. In this case, the microprocessor system 15 controls. After the user has made the desired adjustments, the microprocessor system 5 can be returned to the monitoring mode by giving it a predetermined control signal, whereby the microprocessor system 17 controls the switching unit 17 to connect the bus 14 to the terminal 13 as well.

Good adjustment of the display device requires that it be 2T. is easy to understand and simple to use (i.e. ergonomic) and indicates in one way or another in which adjustment mode and where the adjustment range is located. In practice, it can be difficult, if not impossible, to carry out ergonomic adjustment of the display device without any switches and function indicators on the monitor itself.

Therefore, in the preferred embodiment of the invention, the aim has been to simplify and minimize the number of controllers so that these requirements for good control do not have to be substantially compromised. At the front of the display device 25 shown in Figures 2 and 3, a control-related gap 3,94467 is placed with a switch and indicator light unit 29, shown in more detail in Figure 4. The unit 29 comprises a separate on / off switch 41 by which the user manually sets the monitor to the bus 14 is disconnected 5 from the terminal 13. In addition, the unit 29 comprises three indicator lights (LEDs) 42, 43 and 44, which indicate different adjustment modes, respectively: e.g. brightness, contrast and image position adjustment.

The following is one example of control steps 10 by which the control operation of the display device 25 can be performed from a keyboard or a mouse: 1) The display device 25 is set to the control mode by a switch 41. The switch 41 disconnects the keyboard / mouse bus to the PC 1. All LEDs 42, 43 and 44 are briefly lit to indicate that the control mode has been entered.

2) The display device 25 indicates the adjustment mode (brightness, contrast, image position) with the indicator light on. You can use the horizontal arrow keys on the keyboard 2 or the left / right mouse button 3 20 to move to the desired adjustment mode. For the desired adjustment mode, this mode is acknowledged, for example, by pressing the ENTER key on the keyboard 2 or by pressing the left mouse button 3 twice.

2.5 3) Adjust the selected image property with the vertical and / or horizontal arrow keys on the keyboard 2 or by moving the mouse 3 in the X / Y direction. When the maximum or minimum adjustment limit is reached, the indicator 42, 43 or 44 of the selected adjustment mode starts flashing. When the adjustment is in the desired position, the adjustment setting is reset, for example, by pressing the * key; press the 2 ENTER key or press the left mouse button 3 twice.

4) Exit the display mode of the display device with switch 41.

The invention has been described above in a PC hardware environment. However, the invention is also suitable for use in other applications, such as in connection with computer terminals, in which the keyboard is already connected to the terminal display device.

Otherwise, the accompanying figures and the related description are intended to illustrate the present invention only. The details of the display device according to the invention may vary within the scope of the appended claims.

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Claims (7)

Microprocessor-based display (25), comprising user-operated means for controlling and installing the display, characterized in that the display comprises connecting means (11, 12, 13, 14, 17) for coupling a separate mouse controller ( 3), a keyboard (2) and / or a similar user interface via the display screen (25) of a computer 10 (1) operating as a video signal source, and that means for controlling and adjusting the display screen comprise said separate mouse controller (3), keyboard ( 2) and / or other similar user interface, which is connected to the microprocessor controller (15) via said connecting means inside the display. 2. Display according to claim 1, characterized in that the microprocessor controller (15) is normally in a first operating state, where it observes signals from the user interface (2, 3) but responds only to a predetermined signal so that it to an active control state, where all signals from the user interface control the display's controls and settings. Display according to claim 1, characterized in that the display comprises a switching device 2b (41) for coupling the microprocessor means (15) to the control state. Monitor according to Claim 1, 2 or 3, characterized in that the transmission of signals from the user interface (2, 3) via the monitor (25) to the computer (1) is blocked when the microprocessor control (15) is in the active control state. Display according to any of the preceding claims, characterized in that both a keyboard (2) and a mouse (3) are connected to the display (25). Display according to any of the preceding claims, characterized in that the display has 94467 means (42, 43, 44) for indicating the various control functions for the user. . Display according to any of the preceding claims, characterized in that the keyboard (2) 5 and / or the mouse (3) are of the PS / 2 type. f