KR20010073253A - An apparatus for controlling a parameter in a computer system - Google Patents

Abstract

PURPOSE: A computer parameter adjustment system is provided to make a microcomputer of a computer transmit corresponding parameters to a microcomputer of an image display so that it can adjust the parameters without pushing buttons and simplify the structure of the image display device. CONSTITUTION: The system comprises the first microcomputer(12), the first interface(13), the second interface(23), and the second microcomputer(22). The first microcomputer(12), embedded in a main body of a computer, receives parameter adjustment instructions from external key input operation, and generates parameter adjustment data according to the input instructions. The first interface(13), also embedded in the main body of the computer, performs the data process for transmitting the parameter adjustment data, generated in the microcomputer(12), to external devices. The second interface(23), embedded in an image display device, receives the external parameter adjustment data and outputs the data to internal bus. The second microcomputer(22), also embedded in the image display device, adjusts the parameters according to the external instruction data and at the same time displays OSD(On Screen Display) character signals.

Description

An apparatus for controlling a parameter in a computer system}

The present invention relates to a parameter adjusting device of a computer system, and more particularly, to a parameter adjusting device of a computer system adapted to adjust various parameters of an image display device by software of a computer body.

In general, a cathode ray tube (CRT) used in a video display device strikes a fluorescent substance of R, G, B (red, green, blue) coated with a different amount of electron beam on the surface of the cathode ray tube according to the intensity of the image signal. It uses the principle of emitting light of different brightness or color and is widely used because of its excellent price and display performance.

1 is a diagram illustrating a general image display device, and FIG. 2 is a block diagram illustrating a parameter adjusting device of a general image display device.

As shown in FIG. 2, the image display device amplifies an RGB image signal input from a video card of a computer body through a video preamplifier 25 and a video power amplifier 26, and then supplies the same to a cathode terminal of a cathode ray tube (CRT). To display the image on the screen.

At this time, the parameter adjustment is mostly controlled by the microcomputer 22. When a parameter (for example, horizontal size, horizontal shift, vertical size, contrast, pincushion, tilt, etc.) is selected from the operator through the key input unit 11, The microcomputer 22 detects this and outputs parameter adjustment data to the corresponding circuit and the OSD IC 24.

That is, as shown in FIG. 1, the key input unit 11 is mounted on the lower end of the video display device, and the key input unit 10 includes a "menu key", a "select + key", and a "select-key". "," Volume + key ", volume-key".

For example, when the "menu key" is input by the operator, the microcomputer 22 detects this and drives the OSD IC 24 to output a text signal to the video preamplifier 25 to display a menu on the cathode ray tube (CRT). Is displayed.

By looking at the menu displayed on the screen, the operator selects one parameter (e.g. horizontal size) by up / down the "Selection key" and sets the volume by up / down the "volume key". After sensing and driving the OSD IC 24 to output a text signal to the video preamplifier 25 to display it on the cathode ray tube (CRT), the horizontal circuit (not shown) is driven to adjust the horizontal size.

In the conventional parameter adjusting apparatus as described above, since the operator directly adjusts the key input unit 1 mounted at the lower end of the image display apparatus, parameter adjustment is very inconvenient when the image display apparatus is far from the operator. There was a problem. In addition, as the number of functions to be controlled increases as the function of controlling the image display device itself becomes larger these days, there is a problem that not only the circuit becomes complicated but also a rise in manufacturing cost.

Accordingly, an object of the present invention is to provide a parameter adjusting device of a computer system adapted to adjust various parameters of an image display device by software of a computer main body.

The parameter adjusting apparatus of the computer system according to the present invention for achieving the above object is, the built-in computer main body receives a parameter adjustment command from the operator through an external key input to generate the parameter adjustment data according to the key input content 1 microcomputer; A first interface embedded in the computer body for data processing for transmitting parameter adjustment data generated from the first microcomputer to the outside; A second interface embedded in the image display device and configured to process data for outputting parameter adjustment data received from the outside to the internal bus; And a second microcomputer embedded in the image display device and controlling to adjust the parameter by the parameter adjustment data input from the second interface and to display the OSD text signal on the screen.

1 is a diagram illustrating a general image display device;

2 is a block diagram showing a parameter adjusting device of a general video display device;

3 illustrates a computer system in accordance with the present invention;

4 is a block diagram showing a parameter adjusting apparatus of a computer system according to the present invention;

5A and 5B are a flowchart illustrating a parameter adjusting method of a computer system according to the present invention;

6 is a format diagram of packet data according to the present invention.

* Explanation of symbols for main parts of the drawings

10: computer main body 11: the first key input unit

12 first microcomputer 13 first interface

20: video display device 21: second key input unit

22: second microcomputer 23: second interface

24: OSD IC 25: Video Preamplifier

26: video power amplifier CRT: cathode ray tube

Hereinafter, an apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

4 is a block diagram illustrating a parameter adjusting apparatus of a computer system according to the present invention, and FIGS. 5A and 5B are flowcharts illustrating a parameter adjusting method of the computer system according to the present invention.

As shown in FIG. 4, the parameter adjusting device of the computer system according to the present invention is built in the computer main body 10 and receives parameter adjustment commands from an operator through external key input to generate parameter adjustment data according to key input contents. A first microcomputer 12 to make; A first interface (13) embedded in the computer main body (10) for data processing for transmitting parameter adjustment data generated from the first microcomputer (12) to the outside; A second interface 23 embedded in the image display device 20 for processing data for outputting parameter adjustment data received from the outside to the internal bus; A second microcomputer 22 embedded in the image display device 20 that controls to adjust a parameter by the parameter adjusting data input from the second interface 23 and controls to display an OSD text signal on the screen. It is composed.

As shown in FIG. 5A, the first microcomputer 12 includes an eleventh step S11 of determining whether a parameter adjustment command is input from an operator through key input; A twelfth step (S12) of determining whether a state of the first interface 13 is available when a parameter adjustment command is input as a result of the determination in the eleventh step (S11); A thirteenth step (S13) of switching to an unusable state if it is determined that it is available in the twelfth step (S12); A fourteenth step (S14) of generating the parameter adjustment data according to the key input contents and then packetizing it; A fifteenth step (S15) of transmitting the parameter adjustment data packetized in the fourteenth step (S14) to the outside via the first interface (13); A sixteenth step S16 of waiting for a response from the outside; When the reception response is received in the sixteenth step S16, it is determined whether another parameter adjustment command is input from the operator through key input, and when another parameter adjustment command is input, the seventeenth step is returned to the fourteenth step S14. Step S17; If another parameter adjustment command is not input as a result of the determination in the seventeenth step S17, the eighteenth step S18 of sequentially switching the state of the first interface 13 to the usable state is sequentially performed.

As shown in FIG. 5B, the second microcomputer 22 may include a twenty-first step S21 of receiving packet data through the second interface 23; A twenty-second step (S22) of checking a protocol and an error to determine whether the packet data received in the twenty-first step (S21) is normal; If the result of the check in the twenty-second step S22 is normal, the parameter adjusting data is separated from the packet data, and the OSD IC is controlled by the separated parameter adjusting data to generate the OSD characters, and the corresponding circuit is controlled to adjust the corresponding parameters. 23rd step S23; If the result of the check in the twenty-second step S22 is abnormal, the twenty-fourth step S24 of generating data for retransmission request and transmitting it externally through the second interface 23 is sequentially operated.

Next, the operation and effects of the apparatus according to the present invention configured as described above will be described with reference to FIGS. 3 and 6.

3 is a diagram illustrating a computer system according to the present invention, and FIG. 6 is a format diagram of packet data according to the present invention.

First, the first microcomputer 12 determines whether a parameter adjustment command is input from an operator through the first key input unit 11 (S11).

For example, when a "menu key" provided in the first key input unit 11 is input by the operator, the first microcomputer 12 detects this and determines whether the state of the first interface 13 is in an available state. If it is determined (S12), if the state is available, the state is switched to the unusable state (S13).

The first microcomputer 12 generates the parameter adjustment data according to the key input contents, and then packetizes the generated parameter adjustment data (S14).

As shown in FIG. 6, the packet data includes two-byte protocol type data, one byte packet type data, two bite packet size data, and two bity. It consists of error check (CRC: Cyclic Redundancy Check) data and parameter adjustment data.

Meanwhile, the first microcomputer 12 transmits the parameter adjusting data packetized in the 14th step S14 to the outside through the first interface 13 (S15), and waits for a reception response from the outside (S16). ).

On the other hand, the second microcomputer 22, after receiving the packet data through the second interface 23 (S21), in order to determine whether the packet data received in the 21st step (S21) is normal and The error is checked (S22).

At this time, the second microcomputer 22 detects protocol type data and error check data from the packet data received through the second interface 21, checks whether the protocol is approved, and checks whether an error has occurred.

If the result of the check in the twenty-second step S22 is normal, that is, if the protocol is approved and no error is found, the second microcomputer 22 separates the parameter adjusting data from the packet data and then separates the parameter adjusting data. An OSD (On Screen Display Integrated Circuit) 24 is driven by the data to output a text signal to the video preamplifier 25 to display a menu on a cathode ray tube (CRT).

If the result of the check in the twenty-second step S22 is abnormal, that is, the protocol is not approved or an error is found, the second microcomputer 22 generates the retransmission request data and then generates the retransmission. The request data is packetized and transmitted to the outside via the second interface 23 (S24).

Meanwhile, when the reception response is received in the sixteenth step S16, the first microcomputer 12 determines whether another parameter adjustment command is input from the operator through the first key input unit 11, and adjusts another parameter. When the command is input, the process returns to the fourteenth step S14 (S17).

For example, when looking at the menu displayed on the screen, the operator selects one parameter (e.g., horizontal size) by up / down the "Selection key" and sets the volume by up / down the "Volume key". Detects this to generate the parameter adjustment data, and then packetizes the generated parameter adjustment data (S14).

The first microcomputer 12 transmits the parameter adjustment data packetized in the fourteenth step S14 to the outside through the first interface 13 (S15), and waits for a reception response from the outside (S16).

After receiving the packet data through the second interface 23 (S21), the second microcomputer 22 receives a protocol and an error to determine whether the received packet data is normal in the twenty-first step S21. Check (S22).

If the result of the check in the twenty-second step S22 is normal, that is, if the protocol is approved and there is no error, the second microcomputer 22 separates the parameter adjusting data from the packet data, and then separates the separated parameter adjusting data. In this case, the OSD IC 24 is driven to output a text signal to the video preamplifier 25 to display the text signal on the cathode ray tube (CRT) and to drive a horizontal circuit (not shown) to adjust the horizontal size.

On the other hand, if another parameter adjustment command is not input as a result of the determination in the seventeenth step S17, the state of the first interface 13 is re-switched to an available state (S18).

Accordingly, even if the image display device 20 is far from the operator as shown in FIG. 3, various parameters (eg, horizontal size, horizontal shift, vertical size, contrast, pincushion, tilt, etc.) It is adjustable.

That is, using the Windows Serial Communication Program, the first microcomputer 12 of the computer main body 10 controls the second microcomputer 22 of the image display device 20 to control various parameters. Adjust

Here, the first interface 13 and the second interface 23 may serially communicate using a universal asynchronous receiver transmitter (UART), and the first microcomputer 12 and the first interface 12. ), The second microcomputer 22 and the second interface 23 may communicate using an I ² C scheme.

Since the above-described UART communication method and I ² C communication method are well-known technologies widely used in various communication devices, description thereof will be omitted.

As described above, in the method of the present invention, the first microcomputer 12 of the computer main body 10 generates a corresponding parameter at the request of an operator and transmits the parameter to the second microcomputer 22 of the image display device 20. By re-adjusting each part of the circuit of the video display device 20 to adjust the various parameters of the video display device 20 by software of the computer main body 10, it is mounted on the lower end of the video display device 20 Not only is it easy to adjust parameters without pressing a key, but it can also significantly reduce the number of keys for adjustment, simplifying circuit implementation and reducing manufacturing costs.

Claims (6)

A first microcomputer embedded in the computer body for receiving parameter adjustment commands from an operator through external key input and generating data for parameter adjustment according to key input contents; A first interface embedded in the computer body for data processing for transmitting parameter adjustment data generated from the first microcomputer to the outside; A second interface embedded in the image display device and configured to process data for outputting parameter adjustment data received from the outside to the internal bus; And a second microcomputer embedded in the image display device, the second microcomputer controlling the parameter adjustment by the parameter adjustment data input from the second interface and displaying the OSD text signal on the screen. Parameter adjuster. The method of claim 1, And the first interface and the second interface are in serial communication in a UART scheme. The method of claim 1, And the first microcomputer and the first interface, the second microcomputer and the second interface communicate in accordance with the I ² C scheme. The method of claim 1 wherein the first microcomputer, An eleventh step of determining whether a parameter adjustment command is input from an operator through key input; A twelfth step of determining whether a state of a first interface is available when a parameter adjustment command is input as a result of the determination in the eleventh step; A thirteenth step of switching to an unusable state if it is determined that the determination is made in the twelfth step; A fourteenth step of generating the parameter adjustment data according to the key input contents and packetizing the data; A fifteenth step of transmitting the parameter adjustment data packetized in the fourteenth step to the outside through the first interface; A sixteenth step of waiting for a response from the outside; A seventeenth step of determining whether another parameter adjustment command is inputted from the operator through a key input when a reception response is received in the sixteenth step, and returning to the fourteenth step if another parameter adjustment command is inputted; 18. The apparatus for adjusting a parameter of a computer system according to claim 17, wherein the operation of the eighteenth step of re-switching the state of the first interface to the usable state is performed sequentially if another parameter adjustment command is not input. The method of claim 4 wherein the second microcomputer, A twenty-first step of receiving packet data via a second interface; A twenty-second step of checking a protocol and an error to determine whether the packet data received in the twenty-first step is normal; In the twenty-third step, if the result of the check in the twenty-second step is normal, the parameter adjustment data is separated from the packet data, and the OSD IC is controlled by the separated parameter adjustment data to generate an OSD character, and the corresponding circuit is controlled to adjust the corresponding parameter. ; And if it is abnormal as a result of the check in the twenty-second step, sequentially operating the twenty-fourth step of generating data for retransmission request and transmitting it externally through the second interface. The method of claim 1, And said packet data comprises protocol type data, packet type data, packet size data, error check data, and parameter adjusting data.