KR200301078Y1 - Serial data communication device - Google Patents

Abstract

The present invention relates to a serial data communication device for serial data communication through the RS-232C port.

Conventionally, when checking whether a plurality of circuit boards perform a given function normally, each circuit board is connected to the terminal one by one through the RS-232C port to perform serial data communication between the terminal and the circuit board while performing normal functions of the circuit board. There is a problem in that it takes a lot of time to check whether or not the normal function for many of the plurality of circuit boards perform.

The present invention connects a single terminal and a plurality of circuit boards to enable efficient data communication between a single terminal and a plurality of circuit boards through the RS-232C port. When checking whether it is performed, the work time can be greatly reduced.

Description

Serial data communication device

The present invention relates to a serial data communication device for serial communication of data through an RS-232C port, and in particular, serial data communication for efficiently communicating data through a RS-232C port between a single terminal and a plurality of circuit boards. Relates to a device.

In general, when designing, manufacturing, and maintaining a system consisting of a plurality of circuit boards such as an exchange system, it is necessary to check whether each circuit board is performing a given function normally. As a way to verify that the terminal is connected to each circuit board to send and receive data in series with the circuit board in order to check whether the normal function of the circuit board.

Conventionally, when checking whether a plurality of circuit boards perform a given function normally, each circuit board is connected to the terminal one by one through the RS-232C port to perform serial data communication between the terminal and the circuit board while performing normal functions of the circuit board. It is a problem that it takes a lot of time to check the normal functioning of many circuit boards, and to connect multiple monitors by connecting RS-232C ports to multiple circuit boards. When RS-232C port is installed and connected, there are many RS-232C ports, cables, and monitors.

The present invention has been made to solve the problems described above, the purpose is to connect a single terminal and a plurality of circuit boards can efficiently communicate data through a RS232C port between a single terminal and a plurality of circuit boards A serial data communication device is provided.

1 is a diagram illustrating a communication method of a serial data communication apparatus according to the present invention.

2 is a block diagram of a serial data communication apparatus according to the present invention.

3 is an operation flowchart of a serial data communication apparatus according to the present invention.

Explanation of symbols on the main parts of the drawings

10: serial data communication device 11: CPU

12a to 12c: Buffer 13: ROM

14a-14c: Buffer 15: Transceiver

16: bus interface logic 17: bus connector

18: RS-232C port BD1 to BDn: circuit board

BB1 to BBm: Backboard TM: Terminal

CA: CPU Address CD: CPU Data

CS: Control Signal

BA: Buffered Address

BD: Buffered Data

BBA: Buffered Bus Connector Address

BBD: Buffered Bus Connector Data

A feature of the present invention for achieving the above object is, in the serial data communication device for communication between the circuit board and the terminal, a back board (BB1 ~ BBm) provided with a plurality of circuit boards (BD1 ~ BDn) via a cable A bus connector 17 for connecting; A transceiver 15 for transmitting and receiving data to and from the backboards BB1 to BBm through the bus connector 17; Buffers 14a to 14c for buffering and transferring data inputted to and outputted from the transceiver 15; When the board ID and the communication speed are selected through the terminal TM and connected to the terminal TM through the RS-232C port 18, the circuit boards BD1 to BDn of the back boards BB1 to BBm corresponding to the selected board ID are selected. A CPU 11 for controlling an operation for serial data communication at the selected communication speed with the c) side; A ROM (13) for storing programs and data necessary for the operation of the CPU (11); Buffers 12a-12c for buffering and transferring data input / output between the CPU 11 and the ROM 13, and buffering and transferring data input / output between the CPU 11 and the buffers 14a-14c; ; An RS-232C port 18 for connecting the CPU 11 and the terminal TM; When communication is made to the circuit boards BD1 to BDn of the back boards BB1 to BBm, if the communication speeds do not match the board IDs of the circuit boards BD1 to BDn selected through the CPU 11, the communication speed does not match. It is provided with the bus interface logic 16 which informs the said CPU11 side.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The serial data communication apparatus according to the present invention performs serial data communication in the manner shown in FIG. That is, the present invention connects the back boards BB1 to BBm of the boards on which the plurality of circuit boards BD1 to BDn are installed to the serial data communication device 10 and simultaneously connects the terminal TM to the serial data communication device 10. In connection, the serial data communication apparatus 10 is configured to serially transmit and receive data transmitted and received between the terminal TM and the back boards BB1 to BBm. The circuit boards BB1 to BBm are transmission lines necessary for serial data communication. , The receiving line and the ground line are treated as edge pins and connected to the connectors of the back boards BB1 to BBm, and the connectors of each of the back boards BB1 to BBM are connected to the serial communication device 10 through cables. do.

On the other hand, as shown in Fig. 2, the serial data communication apparatus 10 includes the CPU 11, the buffers 12a to 12c, the ROM 13, the buffers 14a to 14c, the transceiver 15, and the bus interface logic ( 16), bus connector 17 and RS-232C port 18 is made. The bus connector 17 connects a plurality of back boards BB1 to BBm through cables. The transceiver 15 transmits and receives data to and from the plurality of back boards BB1 to BBm through the bus connector 17. The data applied through the buffers 14a to 14c is transferred to the back boards BB1 to BB through the bus connector 17. The data is transmitted to the BBm side, and the data applied from the back boards BB1 to BBm is received through the bus connector 17 and output to the buffers 14a to 14c. The buffers 14a to 14c buffer and transfer data input / output between the buffers 12a to 12c and the transceiver 15. The ROM 13 stores programs and data necessary for the operation of the CPU 11. The buffers 12a to 12c buffer and transfer data inputted to and outputted from the CPU 11, which allows the CPU 11 to access the ROM 13 and transfers data from the buffers 14a to 14c. The data is sent to the (11) side, and the data from the CPU 11 is transferred to the buffers 14a to 14c. The CPU 11 controls the operation for serial data communication, and performs data transmission / reception processing in accordance with the operation of the terminal TM connected through the RS-232C port 18 to execute the RS-232C port 18 and the buffer 12a. Data is inputted and outputted between ˜12c). In addition, the bus interface logic 16 includes information on the board ID and communication speed set on the circuit boards BD1 to BDn of the respective backboards BB1 to BBm, and the circuit boards BD1 to BB of the backboards BB1 to BBm. When communication is made to the BDn side, if the board IDs of the circuit boards BD1 to BDn selected through the CPU 11 and the communication speed do not match, the CPU 11 is notified.

The operation of the serial data communication apparatus 10 according to the present invention configured as described above will be described with reference to the flowchart of FIG. 3.

First, the user operates the keyboard of the terminal TM to execute a program for serial data communication, and the circuit boards BD1 to BDn installed on the back boards BB1 to BBm to communicate through the keyboard of the terminal TM. The board ID is selected, and the communication speed corresponding to the circuit boards BD1 to BDn is selected. In this way, when the user selects the circuit board ID and communication speed to communicate through the keyboard of the terminal TM, the circuit board functions normally while exchanging data with the corresponding circuit board while viewing the contents displayed on the monitor of the terminal TM. In this case, the serial data communication apparatus 10 performs data communication between the terminal TM and the circuit board by transmitting and receiving data at the selected communication speed with the circuit board side of the selected board ID. Then, in case of communicating with another circuit board after data communication with one circuit board, the user selects the board ID and the communication speed of the corresponding other circuit board through the keyboard of the terminal TM to be displayed through the monitor. While viewing the contents, it is possible to check whether the circuit board performs normal functions while exchanging data with the circuit board.

As described above, the operation of the serial data communication device 10 in the case of communicating between the terminal TM and the circuit boards BD1 to BDn of the back boards BB1 to BBm will be described. First, the CPU 11 returns to the terminal TM. From the RS-232C port 18 through the board ID and the communication speed is selected, and then send and receive data with the circuit board side of the board ID, the data applied through the RS-232C port 18 from the terminal (TM) Is transmitted to the circuit board side via the buffers 12a to 12c, the buffers 14a to 14c, the transceiver 15, and the bus connector 17, and from the circuit board, the bus connector 17, the transceiver 15, The data applied via the buffers 14a to 14c and the buffers 12a to 12c is outputted to the terminal TM side through the RS-232C port 18. In addition, when there is an error in the communication speed and the board ID selected through the terminal TM, the bus interface logic 16 notifies the CPU 11 that there is an error in the communication speed with the corresponding board ID.

As described above, the present invention connects a single terminal and a plurality of circuit boards so that data can be efficiently communicated between a single terminal and a plurality of circuit boards through an RS-232C port. When checking whether the board performs normal functions, working time can be greatly reduced.

Claims (2)

A serial data communication apparatus for communicating between a circuit board and a terminal, comprising: a bus connector (17) for connecting a back board (BB1 to BBm) provided with a plurality of circuit boards (BD1 to BDn) through a cable; A transceiver 15 for transmitting and receiving data to and from the backboards BB1 to BBm through the bus connector 17; Buffers 14a to 14c for buffering and transferring data inputted to and outputted from the transceiver 15; When the board ID and the communication speed are selected through the terminal TM and connected to the terminal TM through the RS-232C port 18, the circuit boards BD1 to BDn of the back boards BB1 to BBm corresponding to the selected board ID are selected. A CPU 11 for controlling an operation for serial data communication at the selected communication speed with the c) side; A ROM (13) for storing programs and data necessary for the operation of the CPU (11); Buffers 12a-12c for buffering and transferring data input / output between the CPU 11 and the ROM 13, and buffering and transferring data input / output between the CPU 11 and the buffers 14a-14c; ; An RS-232C port 18 for connecting the CPU 11 and the terminal TM; When communication is made to the circuit boards BD1 to BDn of the back boards BB1 to BBm, if the communication speeds do not match the board IDs of the circuit boards BD1 to BDn selected through the CPU 11, the communication speed does not match. And a bus interface logic (16) for notifying the CPU (11) side. 2. The circuit board of claim 1, wherein the circuit boards BB1 to BBm are connected to the connectors of the back boards BB1 to BBm by treating the transmission lines, the receiving lines, and the ground lines necessary for serial data communication with edge pins. A connector of BB1 to BBm is connected to the bus connector (17) via a cable.