KR20030053289A - Device for interfacing - Google Patents

Abstract

PURPOSE: An interface device is provided to make one interface device transfer the same signal to many second terminals from the first terminal at the same time. CONSTITUTION: A transmitting part(210) converts an original signal inputted from the first terminal(101a) into a transmission signal fit to a transmission standard, and amplifies and outputs it. A transmission signal dividing tool(231) divides the transmission signal outputted from the transmitting part(210) into 'n' partitions. A reflecting wave interrupt tool(232) prevents the divided transmission signals from interfering with each other. A receiving part(230) comprises the line receivers(130a-130b) converting the divided transmission signal into a process signal fit to the second terminals(102a-102n). A transferring part(220) transfers the transmission signal outputted from the transmitting part(210) to the receiving part(230).

Description

Interface device {Device for interfacing}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an interface device, and more particularly, to an interface device for one-to-many data transmission in a serial communication method used for medium and long distance signal transmission.

Today, with the development of information and communication technology and the advancement of the performance of electronic devices, there is a need for signal transmission between various electronic devices.

However, in general, electronic devices have different signal transmission schemes, and thus, for signal transmission, a signal transmission system that standardizes the signal transmission scheme therebetween according to a standard and physically implements it according to the standard therebetween. There is a need for a method and interface device.

At this time, the typical signal transmission methods used include serial communication methods such as RS232C, RS422, and RS423 that transmit signals in serial, and parallel communication methods such as centronics that transmit signals in parallel. have. Here, the parallel communication method is a method of sending and receiving data in units of bytes, and is 8 times faster than the serial communication method of sending and receiving data in units of bits, but requires multiple lines. In the case of a long distance, the interface construction is expensive. Therefore, in medium and long distance signal transmission, even if the data transmission speed is slightly reduced, a serial communication method is used that facilitates interface construction and countermeasures against noise generated during the transmission process.

On the other hand, the serial communication method is divided into RS232C method, RS422, RS422 method, etc. according to the electrical characteristics, the RS422 method is improved by the RS-232C method to transmit data faster and far, bit 0 and 1 It converts into current level and transmits 4 lines of 2 lines for reception and 2 lines for transmission.

1 is a view showing an interface device according to a conventional RS422 method.

Referring to FIG. 1, the conventional RS422 interface device receives signals transmitted from the first terminal 101a to interface these signals with the first terminal 101a and the second terminal 102a. A line driver 110a for converting and amplifying, a cable 120 for transmitting a signal converted and amplified by the line driver 110a, and a signal transmitted through the cable 120 to receive the second terminal 102a. And a line receiver 130a or the like for converting the signal into a suitable processing signal.

Then, the operation of the conventional interface device configured as described above will be briefly described.

First, the line driver 110a, for example, the RS422 driver, receives a signal transmitted from the first terminal 101a, converts it into a signal conforming to a communication standard, that is, a transmission signal, and then amplifies and transmits the signal. The transmitted transmission signal is transmitted through the cable 120 connecting the line driver 110a and the line receiver 130a, and is then received by the line receiver 130a.

Accordingly, the line receiver 130a transmits the received transmission signal to the second terminal 102a.

On the other hand, the line receiver 130a is matched with the impedance 131 of the two cables 120 to reduce the noise generated during the transmission process. That is, resistors 131 are connected in parallel to the ends of the two cables.

However, the conventional interface device as described above was proposed based on one-to-one communication. In other words, two devices requiring data communication, for example, the first terminal 101a and the second terminal 102a, have to be used in one-to-one connection.

Therefore, in order to simultaneously receive the same signal transmitted from the first terminal 101a from the plurality of second terminals 102a and 102b, the number of interface devices, that is, the line drive 110b and the line drive 130b are added. In this case, there is a huge additional cost to build the interface.

In particular, when the number of second terminals requiring signal transmission is very large, and long distance, the above problem becomes more important.

The present invention has been made in view of the above circumstances, and in transmitting signals from one first terminal to a plurality of second terminals, one interface device can simultaneously transmit the same signal to a plurality of second terminals. The purpose is to provide an interface device.

1 is a view showing an interface device according to a conventional RS422 method,

2 is a configuration diagram schematically showing an embodiment of an interface device according to the present invention.

<Explanation of symbols for main parts of the drawings>

101a, 101b: first terminal 102a, 102b: second terminal

110a, 110b: line driver 120: cable

130a, 130b: line receiver 131: impedance

210: transmitter 220: transmitter

230: receiving unit 232: reflected wave blocking means

In order to achieve the above object, the interface device according to the present invention,

In interfacing one first terminal and n second terminals,

A transmitter for converting an original signal inputted from the first terminal into a transmission signal conforming to a transmission standard and then amplifying and outputting the original signal;

A transmission signal dividing means for receiving the transmission signal output from the transmitter and dividing the signal into n pieces, a reflection wave blocking means for preventing the n divided transmission signals from interfering with each other, and the second divided transmission signals A receiving unit comprising n line receivers for converting the signal into a processing signal suitable for the output; And

A transmitter for transmitting the transmission signal output from the transmitter to the receiver; It characterized by including the.

Here, the reflected wave blocking means is composed of a series resistor.

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

On the other hand, Figure 2 is a schematic diagram showing an embodiment of an interface device according to the present invention.

Referring to FIG. 2, in interfacing one first terminal 101a and a plurality of second terminals 102a ... 102n, the interface device receives an original signal input from the first terminal 101a. A transmission unit 210 for converting into a transmission signal conforming to a transmission standard and then amplifying and outputting the transmission signal; a transmission signal dividing unit 231 for receiving and dividing the transmission signal output from the transmission unit 210 into n units; Reflection blocking means 232 which prevents the divided transmission signals from interfering with each other, and n lines which receive the n divided transmission signals and convert them into processing signals suitable for the second terminals 102a ... 102n. The receiver 230 includes a receiver 130a... 130n and a transmitter 220 that transmits the transmission signal output from the transmitter 210 to the receiver 230.

Next, the operation of the interface device configured as described above will be described in detail.

First, the line driver 110a (for example, an RS422 driver) receives signals transmitted from the first terminal 101a (for example, a sensor) and converts these signals into signals compliant with a communication standard, that is, a transmission signal.

On the other hand, the two devices that require signal transmission, that is, the first terminal 101a and the second terminal 102a... 102n are separated by a predetermined distance or more. Therefore, the transmission signal is amplified and transmitted.

Thereafter, the transmitted transmission signal is transmitted to the receiver 230 which is connected to the second terminal 102a ... 102n through an appropriate signal transmission means 220, for example, a cable.

Thereafter, the transmission signals are distributed to n by the transmission signal dividing means 231 and then received by the line receivers 130a ... 130n. Here, n is the number of second terminals 102a ... 102n for which signal transmission is required and is appropriately adjusted as necessary. Of course, there are n transmission signals received in the above process.

However, if the transmission signals are simply divided into n, the divided transmission signals interfere with each other. That is, the divided transmission signals are input to the specific line receiver 130a and the other line receiver 130b, respectively, in which some of the transmission signals input to the other line receiver 130b are reflected, which in turn reverses the line. It is input again to the specific line receiver 130a. In other words, the specific line receiver 130a may receive a distorted transmission signal by mixing the original transmission signal with the reflected transmission signal, which causes the specific receiver 130a to recognize the transmission signal as an error signal. .

Therefore, the interface device according to the present invention is provided with a reflection wave blocking means, that is, two resistors 232 in series to prevent the transmission signal reflected from the other line receiver 130b from being input to the specific line receiver 130a. The resistance 232 value will be properly adjusted according to the impedance 131 matching value in the prior art, but preferably has a value of 30Ω ~ 100Ω.

As described above, the above embodiments are disclosed for purposes of illustration, and those skilled in the art will appreciate that various modifications, improvements, substitutions, and additions may be made without departing from the spirit of the present invention. Accordingly, the technical scope of the present invention should be defined by the appended claims.

As described above, the interface device according to the present invention may interface several terminals with one interface device in transmitting signals from one terminal to a plurality of terminals. That is, one-to-many signal transmission is possible. Therefore, there is an advantage that can greatly reduce the inconvenience and cost of installing several interface devices.

Claims (2)

In interfacing one first terminal and n second terminals, A transmitter for converting an original signal inputted from the first terminal into a transmission signal conforming to a transmission standard and then amplifying and outputting the original signal; A transmission signal dividing means for receiving the transmission signal output from the transmitter and dividing the signal into n pieces, a reflection wave blocking means for preventing the n divided transmission signals from interfering with each other, and receiving the n divided transmission signals A receiving unit comprising n line receivers for converting into a processing signal suitable for two terminals; And A transmitter for transmitting the transmission signal output from the transmitter to the receiver; Interface device comprising a. The method of claim 1, And said reflected wave blocking means comprises a series resistor.