KR870001230B1 - Hangul(korean character),english character size control circuit by hardware character generator - Google Patents

Abstract

The system for a korean and English editor includes a hardware character pattern generator, a high speed transfer circ., and a graphic module. Accordn. to the invent., the generator fast composes character informations from bit-image infns. of alphabetic letters to transmit thru the trans. circ. to the graphic module, where the size ratio of Korean characters to English letters can be varied, for example from 1 to 1 to 3 to 2 without the need of a letter clock to obtain visualharmonization between the two language letters looking different in size in composition of printing.

Description

Korean and English sized variable devices by hardware character generation

1 is a block diagram and a clock timing diagram of a general structure of a conventional text editor.

2 is a block diagram of a graphical terminal structure.

3 is a block diagram of character synthesis by a graphic terminal in the case of character synthesis in a computer.

4 is a block diagram of character synthesis by the graphic terminal in the case of synthesizing characters in the internal computing device.

5 is a character proportional diagram in a conventional text editor.

6 is a view showing the difference between the characters on the screen and the printed characters according to the size proportion of the Hangul, English alphabets.

7 is a view comparing the position of the characters on the screen and the printed characters according to the size proportions of Korean and English characters.

8 is a block diagram of a circuit according to the present invention.

9 is a detailed block diagram of a hardware character generator.

Fig. 10 is a diagram showing an example of character composition according to the present invention.

11 is an information flow connection diagram between a high-speed transmission circuit and another device.

12 is a synthesis diagram of bit image information according to the present invention.

13 is a synthesis diagram of bit image information according to the present invention.

14 shows an example of a 16-bit conversion code.

* Explanation of symbols for main parts of the drawings

1: Peripheral Control Unit 2: Character Processing Unit

3: memory device 4: character code buffer

5: hardware character rotation generator 6: buffer circuit

7: High Speed Transmission Circuit 8: Graphic Module

9: T.V.monitor

The present invention relates to a variable size device of Hangul, Hanja (hereinafter referred to as Hangul), and English character size of a Korean terminal and a text editor (hereinafter abbreviated as a text editor).

In the conventional text editor, as shown in FIG. 5, the proportion of Korean and English displayed on a screen is an integer multiple of 1: 1 or 2: 1. The basic structure of the Korean Hangul writing type text editor is slightly different depending on the model, but 1 bit after synthesizing the characters read from the character generator in which the character forms corresponding to the initial, neutral, and final characters are stored as shown in FIG. Display on the monitor one by one. At this time, the time interval for reading one character is limited by the character clock and the character clock must be the same during one scan period. . In this regard, when the character output as shown in FIG. 5 is 1: 1, when the English is 2: 1, the Hangul becomes larger, which is a serious problem in the mechanization of the Hangul. That is, when printed in the form displayed on the screen, the visual balance of the characters is broken. Accordingly, unlike the proportions displayed on the screen, if the size proportions of Korean and English characters are printed as 3: 2, the characters printed on the printer will be visually balanced like normal characters (newspapers, books, etc.). Since the size of the Hangul: English characters can not be displayed by maintaining the proportion 3: 2, the position of the characters displayed on the screen and the position of the printed characters are different from each other. In particular, when editing a sentence of a predetermined form, as shown in Figure 7, the printing position is changed according to the numbers of Korean and English included in the two lines, which has been a cause of confusion for the user.

Another conventional technique has a graphic memory device as shown in FIG. 2, which stores information corresponding to each pixel on the screen. This is fundamentally different from the text editor described above. In this case, there is no limitation of the character clock, so the size of Korean or English characters can be arbitrarily changed. Therefore, the proportion of Korean: English characters appears in the size of 3: 2 directly on the screen. You can remove the defect from the editor.

However, the character synthesis of Hangul by graphic terminal is synthesized in computer as shown in Figure 3 and sends bit-image information to graphic terminal through data communication, or character code in computer as shown in Figure 4. It sends a text message to a graphic terminal by synthesizing characters by an independent computing device inside the graphic terminal. In the former case, since the amount of information to be sent is enormous, the operation time becomes very long due to the limitation of the data communication speed, and it puts a huge burden on the computer of the main body. For example, when Hangul is composed of 24 dots x 21 dots, 63 bytes of information amount is required, but when sent as a character code, the information amount is about 3 bytes or more, and thus 20 times or more is slowed down. In the latter case, the internal arithmetic unit performs character synthesis, which is faster than the former, but also because the character synthesis is performed by software, high-speed communication is impossible, and the waiting time of the user of the text editor is increased so that efficient operation is not possible.

The present invention is to eliminate the problems of the prior art as described above, in the text editor to be able to vary the size of the Hangul and English characters as needed to visually harmonize the size of the Hangul and English characters when printing In addition, the object of the present invention is to make the position displayed on the screen and the position of the printed character the same, and to enable high-speed processing of the character required for data communication. The characteristics of the present invention for achieving the above object is that by combining the high speed of character synthesis by the character generator and the variability of the character size by the graphic terminal, it is possible to quickly display characters in any required size and at the same time the characters on the screen The position of and is equal to the position of letters on the press.

Next, the implementation of the present application will be described in detail with reference to FIGS. 8 to 14. 8 is a block diagram of a variable processing apparatus for Hangul alphabets caused by hardware character generation according to an embodiment of the present invention.

As shown in FIG. 8, the present invention receives a code of Korean and English characters by data communication from a keyboard and a computer by an independent computing device, and operates a variable character processing device of Korean and English characters. (2) Peripheral control device (1), which is transmitted to (2) and peripheral control device (1), divides Korean and English syllables according to code information of English letters and Korean characters, and internally divides them into predetermined bits (16 bits). A character processing unit 2 for synthesizing the character code into the character code buffer 4 and instructing the graphic module 8 with information on the position and length of characters corresponding to Korean and English characters; A character code buffer 4 for connecting the information of the character code of the arithmetic unit 2 to the internal code of the hardware character pattern generator 5, and the predetermined character code in accordance with the information transferred from the character code buffer 4; Bit image A hardware character pattern generator 5 for synthesizing a call at high speed, a buffer circuit 6 for connecting a high-speed transfer circuit, and a graphic module for transferring bit image signals to the graphics module in parallel by predetermined bits in response to the requirements of the graphics module. Receive information on the position and length of characters corresponding to Korean and English characters from the high speed transfer circuit 7 and the character processing operation unit 2 and transmit the character information to the hardware character pattern generator 5 through the high speed transfer circuit 7. In accordance with the transfer request, the hardware character pattern generator 5 receives the synthesized bit operation signal at high speed through the high-speed transfer circuit, and stores the characters of variable size and displays them on the TV monitor 9. ) And a memory device 3 for temporarily storing information of the peripheral control device and storing a program by a command of the character processing arithmetic device.

The operational relationship to the system of the present application described above is as follows. To make it easier to understand, as shown in FIG. 10, the old T.V.

First, upon receiving a character code corresponding to ˝b, ㅏ, ㄺ, ,, ,, ,, TV˝ by the peripheral control unit, the character processing unit 2 inputs the current input according to a command stored in the program memory 3. It determines whether the written character is Korean or English, specifies the length of the character to be input to the graphic module 8, and changes the syllable division into “old, silver, and TV” and transcodes it into the internal 16-bit code.

In the case of "old", 5 bits are assigned to the initial, neutral, and final properties, and the position (address) of the stored bit generation signal of the character ROM is designated as shown in FIG. In FIG. 9, the character generation control unit controls the form of the supernovae (I-shape B) in accordance with the information of the neutral and the finality, and the bit image by controlling the form of neutral (B-shape) in accordance with the information of the finality. Information is synthesized at high speed. The character pattern generator 5 is composed of a ROM and is independently composed of a pattern generator of initial, neutral, and longitudinal. Each of these generators designates a character block having a length of 64 bytes according to 5 bits of the character code buffer and the character type information of the controller. At this time, the graphics module 8 requests the transfer of bytes, i.e., 63-bit bit image information, for pixels of 24 dots x 21 dots (horizontal x vertical). The high-speed transfer circuit 7 is an 8-bit type (1) (2) (3), (4) (5) (6), ... as shown in FIG. Change the address of character ROM to transmit bit image information in order of. The high speed transfer circuit 7 receives the bit image information from the hardware character pattern generator 5 in parallel with each other by 8 bits according to the transfer request from the graphics module 8, and transmits the bit image information to the graphics module 8 through the buffer circuit 6. The bit conveys image information. At this time, the bus of the character processing unit 2 is separated from the high speed transfer circuit 7 and the graphics module 8 so as to transfer the bit-image information at high speed (see FIG. 10). The bit image information input to the graphics module 8 is composed of 24 dots x 21 dots (horizontal x vertical) pixels as shown in FIG. 12, and is stored in a storage device (ROM) built in the graphics module and stored in the character processing arithmetic unit 2. By the instruction, it outputs to the TV monitor 9 so that old or new characters are displayed or printed on a printer (not shown).

On the other hand, in the case of the letter T, the character is converted into 16-bit code by the character processing unit 2, as in the case of the Hangul alphabet. However, as shown in FIG. Eight bits (b _0- b ₇ ) are allocated, and the upper two bits (b _15- b ₁₄ ) are allocated for character identification. The 16-bit binary character conversion code is input to the character code buffer 4, and at the same time, 16-dot x 21-dot (horizontal x vertical) pixels, i.e., 42 bytes in length, are designated to the graphic module 8 by the character processing unit 2. . In addition, according to the signal of the character code buffer 4, the hardware character pattern generator 5 synthesizes the letter T at high speed, and the graphic module 8 transmits the character pattern generator 5 to the character pattern generator 5 through the high speed transfer circuit 7. The character control generator in the character pattern generator 5 in parallel by 8 bits according to the request (1) (2), (3) (4), (5). (6),... The memory device built into the graphics module by inputting 16 dots x 21 dots (horizontal x vertical), that is, 42 bytes of bit image information, which is a pixel configuration different from Korean, to the graphics module 8 via the high-speed transfer circuit 7 in the order of. It is stored in (RAM) and displayed on a TV monitor or printed on a printer according to a command of a character processing unit.

As described above, according to the present invention, bit image information of a character is synthesized and transferred at high speed by a hardware character pattern generator, and the size of the character is changed by a graphic module which does not require a character clock, so the size of Korean and English characters is increased. Even if the ratio of 3 to 2 is printed to visually harmonize the size of Korean and English characters, the position of the characters on the screen and the printed characters match, so the printing position does not change according to the numbers of Korean and English characters. Since the synthesis of characters is possible, there is an effect that high-speed processing of characters required for data communication is enabled.

Claims (1)

In a text editor of Korean and English characters, a hardware character pattern generator 5 for generating character information at high speed, and a high speed transfer circuit 7 for inputting the generated character information into the graphics module 8 at high speed. Graphic module 8 for varying the ratio of the size of Hangul and English characters from the inputted character information. Hangul, English size variable processing device by hardware character generation characterized in that the synthesis of characters at high speed.

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