KR840002276B1 - Font data electrical transmission device - Google Patents

Abstract

A transmission method for font data can detect omitted data or compensate for it and expand its capacity according to the increase of transmitted data. The font data is divided into row or column dots with constant numbers and is transmitted with added signal points that show the start and end of the font data. The signal point coincides with the address counter and in transmitted in a divided state.

Description

Font data transfer method

1 is an explanatory diagram in a case where a vertical dot of font data is divided into three and transmitted.

2 is an explanatory diagram of a conventional dot matrix font data transmission method.

3 is a diagram showing an embodiment of a dot matrix font data transmission method of the present invention.

4 is a diagram showing another embodiment of a method of transmitting dot matrix font data of the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a font data transfer method, and more particularly, to a font data transfer method such as a Chinese character display printer that displays or prints characters or figures as a dot matrix.

The dot matrix system displays one character in (15x18) to (32x32) dot pattern, which requires a memory for a character generator having a capacity corresponding to the number of dots. Data changed into patterns in the character generator is accumulated and stored in the buffer memory and displayed or printed.

In recent years, in order to obtain a high quality display or printing, as the number of vertical dots increases to " 24 " and " 32, " That is, in the conventional dot matrix font data transfer method, as shown in FIG. 1, the vertical and horizontal 24 × 24 font data are divided by 8 bits, and the vertical data is divided into three to transmit data as byte units (2). Transmit in order (3).

In the above-mentioned divisional transmission, the method of storing data in the buffer in the order of reception is used to detect the occurrence of one-byte data missing or increment (hereinafter referred to as byte missing or byte increment) due to extraneous noise. After the error occurs, all received font data is inaccurate and insecure.

In order to prevent this, in the conventional transmission method, as shown in FIG. 2, two address lines 4 are prepared in the interface, the decoder 5 is installed, and the decoder outputs the decoder output to the memory 6. The data is input to the chip select terminal CS and stored in the designated memory 6.

The font data 7 is input to the memory 6 in three rows through eight signal lines in numerical order of the? Mark (data transmission order in FIG. 1). The strobe signal 8 is input to the NOR gate 9 as a signal for writing the memory 6.

The address counter 11 is an address counter of each memory 6, and increments the output of the decoder 5 by the inverter 10 to the north gate 9 by receiving three bytes. The memory 6 is scanned in the longitudinal direction through the n signal lines.

However, as shown in FIG. 2, in the method of decoding the data from the decoder 5 using the address line 4 to select a chip of the memory 6, and then storing the data 7 in the memory 6, FIG. As the number of partitions of data in a row increases, the number of address lines increases, so that there is no scalability of an interface with respect to an increase in the number of dots, and there is a problem that cannot be detected even if missing or incremented bytes occur.

The object of the present invention is to solve such a conventional problem, and to facilitate the detection or correction of byte missing, incremental during the transmission of font data, and to increase the number of data in a row without increasing the number of interfaces. It is to provide a dot matrix font data transmission method that can be extended using the same interface.

The dot matrix font data transmission method of the present invention is a dot matrix font in a device that displays or prints a character or a figure as a dot matrix, and when a dot of a series of fonts is divided into a predetermined number and transferred between devices, the font of another vertical line of the data line is transferred. One signal line indicating the first or last data of the data is provided at the interface, and the font data is transferred in accordance with the signal from the signal line in accordance with the address counter of the transmission line.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described below with reference to the drawings.

3 is a diagram showing a detection circuit sequence of byte missing and enlargement in the dot matrix font data transmission method of the present invention.

In FIG. 3, a matching circuit which detects a match between the ternary counter 12 progressing in the division unit of the vertical dot, the start signal 13 of the vertical dot and the decoder output signal 16 of the decoder 5 is matched. (14) is provided to input the strobe signal (8) to the counter input terminal (up) of the ternary counter (12), and then decoded by the decoder (5) to select the memory (6) chip and then the data ( 7) is stored in the memory 6. At this time, the vertical dot start signal 13 and the decoder output signal 16 are inputted to the matching circuit 14 to output an error signal 15 to notify the transmitting side when there is a mismatch. When receiving font data, a signal or code for discriminating font data and code data is generally used.

By using this signal or code, the font data start signal 17 is generated and input to the reset terminal R, and then the ternary counter 12 is set to zero before the font data is received.

Only the first of the count outputs of the decoder 5 is connected to the input of the EOR data.

For example, when data is normally received, the output signal 16 of the decoder 5 is "high" when the data of FIG. 1 is received, and the vertical dot start signal 13 is also "high". The output signal 15 of the coincidence circuit 14 becomes " low ", and when the data of ② and ③ are received, the decoder output signal 16 is " low ", and the vertical dot start signal 13 is also " low " ", The output signal 15 of the coincidence circuit 14 is also" low ". In the data reception of ④, the ternary counter 12 is in the same state as when the data is received in ①. At this time, the vertical dot start signal 13 is also received at the same time. Is in the same state as when data was received, and the error signal 15 did not come out.

For example, when there is a byte increment between the data of ⑧ and ⑨, it becomes 3 bytes in the data of ⑦ and ⑧ and the incremental data, etc. Therefore, when the data of ⑨ is received, the decoder output signal 16 becomes “high”, but the vertical dot starts. Since the signal 13 is a "low" signal, the error signal 15 turns "high" and knows that an error has occurred.

When the data of ⑨ is missing, the ternary counter 12 is in the same state as the normal data of ⑨ when the data of ⑩ is received, and the decode output signal 16 is "low". When the signal "high" of the signal 13 is received, it is not matched and an error signal 15 is issued.

As a result, detection of missing and incremental bytes is possible. Note that numerals marked with ○ written in the memory 6 of FIG. 3 correspond to the transfer order 3 of the bytes shown in FIG. In addition, although the conventional method shown in FIG. 2 can be used for input of the address counter 11, in this embodiment, the dot start signal 13 is used.

4 is a diagram showing a circuit for detecting byte increments and allocating memory in the dot matrix font data transmission method of the present invention.

In FIG. 4, a counter 18 is provided to input the strobe signal 8 to the count input up of the counter 18, and to input the vertical dot start signal 13 to the reset terminal R, thereby receiving the vertical dot. Since the counter 18 is reset by the start signal 13, when the vertical dot start signal 13 is received, the decoded output signal 16 must be outputted to select data of a predetermined chip of the memory 6 ( Remember 7).

For example, when the data of (8) in FIG. 1 is missing, the data of (9) is stored in the memory address where the data of (8) is to be stored. The increment of 11) and the reset of the counter are performed at the same time so that the data of V is stored in the predetermined area of the memory 6.

When the byte increment occurs between the data of ⑧ and ⑨, the data is incremented to 3 bytes from the data of ⑦ and ⑧ and the incremental data. When the data of ⑨ is received, the output of the counter 18 is quadratic and the output of the decoder 5 is output. A byte increment error signal 19 is issued as a signal. At this time, even when the host apparatus ignores the error signal 19 and transmits data, when the data is received, the increment of the address counter 11 and the reset of the counter 18 are performed by the vertical dot start signal 13. Therefore, the data after ⑩ is described at a predetermined position.

As a result, even if there is a missing or incremented byte, the receiving data can be corrected only by the error of the first column where the error occurs. In addition, the occurrence of the byte increment can be detected by the byte increment error signal even though it is easy to occur due to the byte missing on the interface which is the byte increment.

In FIG. 3 and FIG. 4, the transfer of dots in a single row has been described. However, the present invention is not limited to the transfer of dots in a single row. The present invention can also be applied to the transfer method of dot data for transferring dots in a row. have.

3 and 4, the circuit for detecting and correcting the byte missing increment of the font data using the seed dot start signal indicating the beginning of the division unit of the vertical dot has been described. The same circuit can be easily configured by using the signal indicating the end of the seed dot, not limited to the seed dot start signal indicating the beginning of the dot.

Specifically, in FIG. 3, the input terminal of the signal line input to the coincidence circuit 14 may be changed, and in FIG. 4, the timing of the reset of the counter 18 is made as the last dot of the vertical dot signal. Done.

As described above, according to the present invention, in the method of dividing font data and transmitting the font data, a signal line indicating that the font data is the first or last data of a series of font data is provided. Therefore, the font data is transmitted using the signal from the signal line. It can be divided and transmitted in accordance with the address counter of the prior art, and it is possible to easily detect or correct byte missing and increment on the receiving side during transmission.

Therefore, even if the signal line is not increased and the interface is not changed, the division unit of the vertical dot of the font data can be increased, so that the increase in the vertical dot can be determined by the same interface.

Claims (1)

In a device for displaying or printing a character figure as a dot matrix, a signal line indicating the first or last of vertical or horizontal font data in addition to the data line when the vertical or horizontal dot of a font is divided into a predetermined number and transmitted between devices. And dividing the font data in accordance with the address counter on the transmission line by a signal from the signal line.

Images