KR0179285B1 - Data transmission device - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data transmission apparatus, and more particularly, to a data transmission apparatus suitable for efficiently transmitting data in a large amount of data transmission.

To this end, the data transmission apparatus of the present invention receives parallel data from each system in a plurality of systems for data transmission, converts the parallel data into continuous data or outputs it, or error-checks and outputs the received continuous data, Or a UART unit for outputting data sent thereto; An infrared interface for receiving an output of the UART unit and outputting a corresponding infrared signal or receiving an infrared signal and outputting corresponding continuous data to the UART; And a pair of transmitting and receiving devices for receiving the output of the infrared interface and outputting corresponding infrared rays or converting the received infrared rays into corresponding infrared signals and outputting the converted infrared signals to the infrared interface.

Description

Data transfer device

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data transmission apparatus, and more particularly, to a data transmission apparatus suitable for efficiently transmitting data in a large amount of data transmission.

Hereinafter, a data transmission apparatus will be described with reference to the accompanying drawings.

FIG. 1 is a block diagram showing a conventional data transmission apparatus.

As shown in FIG. 1, first and second systems (System) 11 and 21 for transmitting and receiving data for transmission include a UART (Universal Asynchronous Mode) for converting parallel data into serial data, Receiver and Transmitter units 12 and 22 and Infrared Interface units 13 and 23 for converting data into Infrared signals and inputting and outputting infrared signals corresponding to the infrared signals.

The infrared interface units 13 and 23 include infrared interfaces 13a and 23a for converting data into infrared signals and a pair of transceivers 13b and 23b for outputting and recognizing infrared rays corresponding to infrared signals, . The operation for transmitting the data will be described as follows.

When data is transferred from the first system 11 to the second system 21, the 8-bit parallel data is received from the UART unit 12 of the first system 11 and converted into serial data do. And then outputs the serial data as a packet of 8 to 64 bytes (Byte).

The infrared interface unit 13 receives the serial data of 8 to 64 byte packets, which is the output of the UART unit 12, and converts the serial data into an infrared signal corresponding to a serial predetermined packet, To the second system (21).

The infrared interface 13a receives the serial data output from the UART unit 12 and converts the serial data into an infrared signal corresponding to a predetermined series of serial data, .

The pair of transceivers 13b receives the infrared signal output from the infrared interface 13a and outputs the infrared signal corresponding to the infrared signal to the second system 21. The output of the first system is stopped only once.

The infrared ray output from the first system 11 is input to the infrared ray interface 23 of the second system 21 as described above.

In the infrared input operation of the infrared interface unit 23, the pair of transceivers 23b receives infrared rays output from the first system 11 and outputs the infrared rays to the infrared interface 23a.

The infrared interface 23 receives the infrared rays output from the pair of transceivers 23b, converts the infrared ray signals into serial data, and outputs the serial data. The UART unit 22 receives serial data output from the infrared interface unit 23 and performs an error check on the serial data.

The data error check of the UART 22 checks for errors through a parity bit check or a cyclic redundancy check.

If there is no error in the data error check of the UART unit 22, a signal to transmit other data is output to the first system 11 via the infrared interface unit 23.

However, if there is an error in the error check, an error signal is output to the first system 11 via the infrared interface unit 23.

In the first system 11, a signal output from the second system 21 is input to the infrared interface unit 13.

The infrared interface unit 13 outputs the input signal to the UART unit 12.

Then, the UART unit 12 receives the output signal of the infrared interface unit 13 and grasps the contents of the input signal. If there is no error, the UART unit 12 continues to transmit new data. If there is an error, send.

Here, the pair of transceivers 13b and 23b is a photocoupler.

Such conventional data transmission apparatuses can not transmit data while sending an error check signal to the transmission system by receiving a signal from the transmission system, receiving a signal from the transmission system, transmitting the error check signal to the transmission system, There is a problem that the efficiency is lowered.

It is an object of the present invention to provide a data transmission apparatus for simultaneously performing error checking and data transmission using two pairs of transmitting and receiving apparatuses.

FIG. 1 is a block diagram showing a conventional data transmission apparatus.

FIG. 2 is a block diagram showing a configuration of a data transmission apparatus according to the present invention; FIG.

DESCRIPTION OF THE REFERENCE NUMERALS

31: first system 32, 42: UART unit

33, 43: Infrared interface section 33a, 43a: Infrared interface section

33b: first transmission / reception device 33c: second transmission / reception device

43b: third transmission / reception device 43c: fourth transmission / reception device

41: Second system

According to an aspect of the present invention, there is provided a data transmission apparatus for receiving parallel data and converting the serial data into continuous data or outputting the parallel data, error-checking and outputting the received continuous data, and outputting new data or transmitted data according to the error- An infrared interface for receiving an output of the UART unit and outputting a corresponding infrared signal or receiving an infrared signal and outputting corresponding continuous data to the UART unit; And outputting or converting the received infrared rays into corresponding infrared signals and outputting the infrared signals to the infrared interface.

A preferred embodiment of the data transmission apparatus according to the present invention will now be described in detail with reference to the accompanying drawings.

FIG. 2 is a block diagram showing a data transmission apparatus according to the present invention.

As shown in FIG. 2, the first and second systems 31 and 41, which transmit and receive data for data transmission, respectively have UART units 32 and 42 for converting parallel data into serial data and checking errors of the received data And infrared interface units 33 and 43 for converting data into infrared signals and inputting and outputting infrared signals corresponding to the infrared signals.

The infrared interface units 33 and 43 include infrared interfaces 33a and 43a for converting data into infrared signals and two pairs of transceivers capable of outputting or recognizing infrared rays corresponding to the infrared signals, 2, and third and fourth transceivers 33b, 33c, 43b, and 43c. The operation for transmitting the data will be described as follows.

When data is transferred from the first system 31 to the second system 41, the UART unit 32 of the first system 31 receives 8-bit parallel data and converts the serial data into serial data. And then outputs the serial data as a packet of 8 to 64 bytes (Byte).

The infrared interface unit 33 receives the serial data in the form of 8- to 64-byte packets, which is the output of the UART unit 32, and converts the serial data into an infrared signal corresponding to a serial predetermined packet, To the second system (41).

In the infrared ray output operation of the infrared interface unit 33, the infrared interface 33a receives the serial data, which is the output of the UART unit 32, and converts the serial data into an infrared signal corresponding to a serial predetermined packet, .

Then, the first transceiver 33b receives the infrared signal output from the infrared interface 33a and outputs the infrared signal corresponding to the infrared signal to the second system 41. The output of the first system 31 continues to output.

That is, the first and third transceivers 33b and 43b transmit data from the first system 31 to the second system 41 continuously in one direction.

As described above, in the second system 41, the third transceiver 43b receives the infrared ray output from the first system 31 and outputs the infrared ray to the infrared interface 43a.

The infrared interface 43a receives the infrared ray output from the third transceiver 43b, converts the infrared ray signal into serial data, and outputs the serial data.

The UART unit 42 receives the serial data output from the infrared interface unit 43 and performs an error check on the serial data.

The data error check of the UART 22 checks whether there is an error through a parity bit check or periodic redundancy check.

The data recoding proceeds from the first system 31 to the second system even at the moment of checking for the presence or absence of the error.

If there is no error in the data error check of the UART unit 42, a signal indicating that there is no error is output to the first system 31 via the fourth transceiver 43c included in the infrared interface unit 43 do.

However, if there is an error in the error check, the error signal is output to the first system 31 via the fourth transceiver 43c.

In the first system 31, a signal output from the second system 41 is input to the second transceiver 33c included in the infrared interface 33.

The second transmission / reception unit 33c outputs the input signal to the UART unit 32 via the infrared interface unit 33a.

The UART unit 32 receives the output signal of the infrared interface 33a and recognizes the contents of the input signal. If the signal is an error-free signal, the UART unit 32 transmits the continuously transmitted data. If the signal is an error signal, It is determined whether to generate an interrupt to notify the device (not shown in the figure), or to resend the data sent just before.

The first, second, third, and fourth transceivers 33b, 33c, 43b, and 43c are photocouplers.

The infrared interface 33a of the first system 31 transmits a signal output from the fourth transceiver 43c included in the infrared interface 43 of the second system 41 to the second transceiver 33c are connected to the UART unit 32 of the first system 31 so that signals can be independently transmitted.

As described above, the data transmission apparatus of the present invention has two pairs of transmission apparatuses for each system, and it is disadvantageous to send data and to check the errors of received data, so that data is continuously transmitted from the first system to the second system It is possible to check an error at the same time and efficiently transmit a large amount of data at the same time.

Claims (2)

(1) In a plurality of systems for data transmission, parallel data is input to each system and converted to continuous data or outputted, or error data is checked and outputted, and new data or sent data is outputted UART portion; (2) an infrared interface that receives an output of the UART unit and outputs a corresponding infrared signal, or receives an infrared signal and outputs corresponding continuous data to the UART; And (3) two transmitting / receiving units for receiving the output of the infrared interface and outputting corresponding infrared rays or converting the received infrared rays into corresponding infrared signals and outputting the converted infrared signals to the infrared interface. The data transmission apparatus of claim 1, further comprising: a pair of transmission / reception devices for separating and transmitting data transmission and data error check transmission.