KR890000278B1 - Display control system - Google Patents

Abstract

The invention adds another 4Kx8bit character generator (6) for fusion with an existing 4Kx8bit character generator (2) for a user to display its own arbitrary characters or images through the use of an 8Kx8bit ROM. The control system also includes a characteristic code interpreting logic (5) connecting to an additional user-defined character decoder (7) through which the output of a characteristic code recording buffer (4) connects with generators (2 and 6) for an option signal (10) for the generator (6) to access both generators.

Description

Display control method that can display user defined characters

1 is a block diagram of a conventional monochrome display device.

2 is a block diagram of the present invention.

3 is a detailed circuit diagram of a character generator, a user-defined character decoder, and a jumper of the present invention.

4 is a configuration diagram using flip-flops instead of the jumper of FIG.

5 is another embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

1: ASCII password record buffer 2, 6, 6 ': character generator

3: sheet register 4: characteristic code recording buffer

5: Characteristic password analysis logic 7: Custom character decoder

8: Jumper 9: NOR-Gate

10: additional character generator selection signal

The present invention provides a display capable of displaying a user-defined character by using a character code (Attrbute code) used in a conventional character display control apparatus, including a personal computer, to allow a user to display arbitrary characters on the screen. It relates to a control method. In the conventional character display method, as shown in the block diagram of FIG. 1, a display control device has a memory device corresponding to a monitor screen, and a character that wants to display a character at a certain position on the screen, that is, the US information exchange standard code ( ASCIIl: American Standard Code for Information Inter-change (ASC) is inputted into the ASCII code record buffer (1). The cathode ray tube control unit (CRTC), which has continuously scanned memory continuously, reads the written data and records the ASCII code. The state of the signal is temporarily held or stored in the buffer 1 and transmitted to the character generator 2 via the data line.

Where the SACII data of the character generator (2) teaches that the image (IMAGE) of the character, in order to achieve a complete image must receive a raster address (Raster Address) supplied from the cathode ray tube control unit (CRTC), At this time, the cathode ray tube adjusting unit increments one address line for each clock and continuously scans the memory stored at each address through the raster address line of the cathode ray tube adjusting unit. As such, the character generator 2 that receives the 8-bit ASCII encryption data output to the ASCII encryption recording buffer 1 and the raster address output from the cathode ray tube adjustment unit 2 outputs an 8-bit parallel image (Image). ) Data is output and applied to the shift register (3) connected to this data line.

Therefore, the shift register 3 receiving 8-bit parallel image data is converted into a serial image signal and sent to the characteristic code analysis logic 5 connected thereto. In this way, various characteristics (e.g. BLINKING to blink the brightness of the character to be displayed on the cathode ray tube control unit on the cathode ray tube controller) and UNDER for emphasizing the display character to the serial image signal input to the characteristic code analysis logic In order to assign LINE, REVERSE, and INTENSITY indicating the intensity or chromaticity of the display characters, the characteristic password is inputted into the characteristic password recording buffer 4 and stored in correspondence with the monitor screen as in the case of the ASCII password. (In this case, the ASCII code is written in an even number, and the feature code is written in an odd address next to it.) The above-mentioned feature code outputted from the feature code recording buffer 4 is connected to the feature code analysis logic (5). By converting the serial video signal input from the shift register (3) to the same character can take a variety of forms even if the same characters on the screen I got it.

The character generator 2 of the conventional display control device using this method uses a 4K × 8 bit ROM including a semi-graphic (SEMI-GRAPHIC) function. There was a problem that cannot be displayed.

Accordingly, in the present invention, another 4K × 8-bit character generator 6 is added to the existing 4K × 8-bit character generator 2 so that the user can display any desired character or image. By arranging or fusing a ROM of 8K × 8 bits and adding a user-defined character decoder 7 to the characteristic encryption analysis logic 5, the present invention will be described in detail below with reference to the accompanying drawings. Is as follows.

As shown in FIG. 2, an 8-bit data line is separated from the output of the ASCII cipher recording buffer 1 through which the image data (Vido Memory Data) is input through the data line. The line is also connected to the input, and the bungee line is also separated from the cathode ray tube control unit (CRTC) so that one side is connected to the input of the existing character generator 2 while the other is connected to the input of the added character generator 6, In the output of the two character generators (2) (6), an 8-bit data line is synthesized, and the user-defined character decoder (7) is additionally arranged through the input and output of the shift register (3). At the output of the characteristic code recording buffer 4, which is connected to the input and inputs the image data (Vido Memory Data), an 8-bit data line is provided so that the characteristic code analysis logic 5 and the user-defined character decoder 7 Existing characters through I / O The additional character generator selection signal 10 output from the user defined character decoder 7 in connection with the input of the added character generator 6 of the animation 2 is connected to the existing character generator 2 or the added character generator 6. (ACCESS) and the user-defined character display image data is output as the output of the characteristic code analysis logic (5). The detailed circuit diagrams of the user-defined character decoder 7, the character generators 2, 6, and the shift register 3 are shown in FIG. 3 as shown in FIG. 3. FIG.

An 8-bit data line is provided at the output of the characteristic code recording buffer 4 which takes image data as an input, and is connected to the inputs A ₀ -A ₂ of the user-defined character decoder 7 and the characteristic code analysis logic 5. However, enable (E ₁ , E ₂ ) of the user-defined character decoder (7) is common ground, enable (E ₃ ) is connected to + 5V through resistor (R ₂ ) while its output (Y ₂ ) The other input (B) of the NOR-gate (9) is connected to the terminal (J) of the jumper (8) so that the terminal (J) is connected to ground. It is selectively connected to the connected terminal (L) and the terminal (H) connected to + 5V through the resistor (R ₁ ) so that a user-defined character display possible signal is applied to the input (B) of the NOR-gate (9), and the NOR - an output (C) is a view for the second-degree character generator (2) (6) by fusing the character generator 65 is a single chip (one chip) of the BK × 8 bit ROM type (a ₁₂₎ of the gate (9) And (the existing text generator in figure 2 ) Is a 4K x 8-bit ROM, and the added character generator 6 is also a 4K x 8-bit ROM, so the two 4K x 8-bit generators 2 The character generator 6 'of FIG. 3 is a single chip ROM of 8Kx8 bits, i.e., a single chip ROM of 2 ¹³ = 8192xB bits with an additional address line. Is).

In addition, the other input (A ₃ -A ₁₀ ) of the molecular generation (6 ') of 8K x 8-bit single chip ROM is connected to the data line provided at the output of the ASCII cryptographic recording buffer 1, and the character generator ( 6 '), another input (A _0, -A ₂ A ₁₁ ) connects to the address line provided at the output of the cathode ray tube adjustment section (CRTC) while its output is connected to the shift register (3) via a data line. Is connected to the input (AH), and the shift register (3) converts it to serial image data and sends it to its output (OH) to be connected to the input of the characteristic code analysis logic (5 ') connected thereto. .

In this way, the above method is different from the existing ones. In the case of English (including numbers, symbols, semi-graphics, etc.), two character generators have more capacity than the existing character generator 2 having a capacity of 4K × 8 bits. (2) Use (6) by fusing or arranging, or using the character generator 6 'of BK x 8-bit single chip ROM as shown in FIG. By adding the decoder 7 to access the input (A ₁₂ ) of the character generator 6 and the added character generator 6 and the character generator 6 'of FIG. It is also possible to display images of.

The character generator (2) (6) used at this time stores English images (including semi-graphics, numbers, symbols, etc.), and the character generator (6) having 4K or more, i.e., the character generator or image, which the user wants to display. Should be placed.

For this purpose, data should be added to 4K or more of the character generator 6 or placed in RAM.

Referring to the effects of the present invention configured as described above are as follows. As shown in FIG. 2, when a memory device corresponding to a monitor screen is placed in a display control device and a character is to be displayed at a certain position on the screen, the central processing unit (CPU) converts a character to be displayed in a memory corresponding to that position on the screen. When inserted into the encryption recording buffer (1), the cathode ray tube adjusting unit (CRTC), which continuously scans the memory sequentially through the address line, reads the recorded data and latches it in the ASCII encryption recording buffer (1). An 8-bit data line is passed to the inputs of the existing character generator 2 and the added character generator 6.

At this time, the added character generator 6 stores a character or an image which the user wants to display as a part of 4K or more. The existing character generator (2) and the additional character generator that the 8-bit ADCII password outputted through the data line of the ASCII encryption recording buffer (1) and the rastat address line of the cathode ray tube control unit (CRTC) are intended to display. At the output of the characteristic code recording buffer 4 which designates the address of (6) and simultaneously inputs the video memory, 8-bit characteristic code data is input to the input of the user-defined character decoder 7 through the data line. When applied, the user-defined character decoder 7 logically calculates a signal corresponding to the user-defined character selection, and generates an additional character generator selection signal 10 generated by the existing character generator 2 or the added character generator 6 connected thereto. (ACCESS) is sent to the shift register (3).

At this time, the 8-bit ASCII password output from the ASCII encryption recording buffer 1, the raster address output from the cathode ray tube adjusting unit, and the additional character generator selection signal 10 output from the user-defined character decoder 7 are conventional character generators. (2) is applied to the input of the character generator (6) and the output of the 8-bit parallel image data is applied to the input of the shift register (3) through the data line, the shift register (3) is a serial image When the data is converted into data and sent to the input of the characteristic code analysis logic 5, the characteristic code analysis logic 5 outputs the image data to which the user-defined character display is added.

FIG. 3 is a detailed circuit diagram for explaining this in detail. The character generator 6 'uses 8K x 8-bit ROM and uses the character code "02H" (02H is a hexadecimal code: Hexadecimal code, which is randomly chosen by the user), which is not used in the existing character code. In the embodiment of the present invention, among the data output from the characteristic code recording buffer 4, the characteristic code data D ₀ -D ₂ " _{0, 1} , ₀ " When enabled as inputs (A ₀ -A ₂ ), enable (E ₁ , E ₂ ) of user-defined character decoder (7) is grounded, enable (E ₃ ) at + 5V through resistor (R ₂ ). Since it is connected, "0, 1,0" is applied to the enable (E ₁ -E ₃ ). Therefore, a low is output to the output Y ₂ of the user-defined character decoder 7 formed of a set of AND circuits. In other words, the internal circuit of the user-defined character decoder (7) and its truth table in Table-1 and Table-2,

TABLE 1

TABLE 2

(In this case, only output (Y ₂ ) of the output (X ₀ ... Y ₅ ) of the user-defined character decoder 7 is used.) As described above, the output (Y ₂ ) of the output (Y ₂ ) of the user-defined character decoder 7 is used. "0" or 02H is output and applied to the input A of the NOR-gate 9 connected thereto.

At this time, when the user focuses on the terminal J of the jumper 8, the letter display enable signal " 0 " before the user is applied to the input B of the NOR-gate 9. Accordingly, "1" is output to the output C of the NOR-gate 9 and applied to the input Y _{12 of the} character generator 6 'while the other input A ₀ A ₁₁ of the character generator 6' is output. 8-bit ASCII cipher data (D ₀ -D ₇ ) through the data line provided at the output of the ASCII cipher recording buffer (1) and the 4-bit through the address line provided at the output of the cathode ray tube adjusting unit (CRTC). Raster addresses RA ₀ -RA ₂ are input to access more than 4K portions of the character generator 6 '. Therefore, at the output of the character generator 6 ', 8-bit parallel image data (D ₀ -D ₇ ) is applied to the input (AH) of the shift register 3 through the data line, where it is converted into a serial image signal. The image data added with the user-defined character display is output through the connected characteristic code analysis logic 5.

Here, the character generator 6 'is an 8x8-bit ROM, where existing image data is stored only in the portion less than 4K, and user-defined character image data is recorded in the portion more than 4K. In addition, when the characteristic password data (D ₀ -D ₂ ) output from the characteristic password recording buffer 4 specifies a conventional character (when the characteristic password data (D ₀ -D ₂ ) is not 02H, or "01,0"). ) The output Y ₂ of the user-defined character decoder 7 is outputted with "1" and applied to the input A of the NOR-gate 9, and the terminal J of the jumper 8 is connected to the terminal L. Or (H) and a user-definable character display enable signal 0 or 1 is applied to the NOR-gate input B, the output thereof is " 0 " to the input A ₁₂ of the character generator 6 '. As it is, the ASCII cipher data (D _0- D ₇ ) output from the ASCII cipher recording buffer (1) accesses a region less than 4K of the character generator 6 'and then shifts the register 3 and the characteristic cipher analysis logic ( 5) through the conventional text image data is output only.

In order to cope with such various situations (there is no characteristic code not used in the color characteristic code), when the terminal J of the jumper 8 is connected to the terminal H, the output C of the NOR-gate 9 ) Always becomes "0" to prevent access to the user character area. It is also possible to set a new port instead of jumper 8 to take over the role of jumper 8. While the setting method of user-defined character display using the jumper 8 of FIG. 3 should be directly connected by hardware, the method of FIG. 4 uses software of flip-flop to convert the user-defined character display signal. Easy to set by

Referring to the effect on the fourth degree is as follows.

"L" or cpu data line to a port set using a decoder 11 that decodes the port and a flip-flop 12 that latches certain data by arbitrarily setting a port for setting displayability. By writing "H" data, the output terminal Q of the flip-flop 12 can be controlled to set a user-defined character display possible signal.

Figure 5 shows another embodiment of the present invention using the character generator as a RAM. This has the advantage that the method of FIG. 3 can be added to the system memory by loading the character to be added to SRAM, and the character to be added at any time later can be changed.

The data to be loaded into the SRAM 15 enters through the buffer 13 and when the characteristic code selects "02H", the ROM 14 is chip disabled so that the output is threestate and the inverter ( 16) the SRAM 15 is enabled so that the data can be transferred to the shift register 3 to image data other than the contents of the ROM 14.

Claims (1)

In the character display control device comprising an ASCII encryption recording buffer (1), a character generator (2), a shift register (3), a characteristic password recording buffer (4), and a characteristic password analysis logic (5), the character generator (2) described above. Fusion or placement of the additional character generator (6), with a data line at its output, and connected to the character code analysis logic (5) with the custom character decoder (7) additionally arranged via the shift register (3). In addition, the output of the characteristic code recording buffer 4 is provided with a data line, and is connected to the existing character generator 2 and the added character generator 6 through a user-defined character decoder 7 so that an additional character generator selection signal ( Display control method capable of displaying a user-defined character, characterized in that 10) to access the character generator (2) (6) to output the image of the character generator 6 added in addition to the existing character generator (2) .

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