KR890005367B1 - Interexchange of signals - Google Patents

Abstract

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Description

Mutual signal inverter

1 and 2 are block diagrams showing an example of use when installing and operating the mutual signal conversion apparatus according to the present invention.

3 is a detailed circuit diagram of the mutual signal conversion device according to the present invention.

4 is a signal waveform diagram given to each line of the present invention.

5 is a logic diagram and a function table of an IC used as a transmitter and a receiver in the present invention.

* Explanation of symbols for main parts of the drawings

100R: S-232C receiving circuit 200: RS-422 transmitting circuit

300: RS-232C receiving circuit part 400: RS-422 receiving circuit part

: 송신단자 RXD,

: 수신단자TXD,

: Transmit terminal RXD,

: Receive terminal

U ₁ , U ₄ : receiver U ₂ , U ₃ : transmitter

CN ₁ , CN ₁ : Connector

The present invention relates to an inter-signal converting apparatus which enables mutual communication in a period of different signal types, and in particular, a device having different signal types. For example, communication devices such as switchboards and computer terminal devices can be connected to each other to enable mutual data transmission, and at the same time, the data can be inserted at the middle of transmission lines according to the characteristics of the signal system to relay data at high speed to a long distance. A mutual signal conversion device having a role.

Various devices for data communication according to the recent information industrialization trend. For example, exchanges, computers, and the like are being used, and attempts to network terminal devices of such devices are increasing.

In the past, mainly terminals having a RS-232C signal system have become mainstream, but recently, a signal system capable of transmitting data at a higher speed and a longer distance than the RS-232C method has been shown. RS-422 signal type.

For example, in case of RS-232C signal type, the data transmission speed is 20Kbps and the transmission distance is 15m short, so it could be used only for short distance transmission. With the advent of RS-422, a high-efficiency signaling method, high-speed data transfer is possible.

However, there is a problem that data transmission between the devices or terminals adopting the RS-232C method is impossible due to the difference in the signal system.

Therefore, if you want to network the combination of the existing terminal, the terminal you want to install and operate newly, and the terminal with the different signaling methods purchased from different manufacturers, if the signaling method is different, Since data transmission is impossible, conventionally, in order to overcome this problem, there have been disadvantages of inefficient operation such as connecting terminals of the same signal system or attaching a complicated option circuit for converting a signal.

In addition, as described above, in the case of the RS-232C signaling method, since the data transmission speed is low and the transmission distance is short, a large amount of information can be obtained within a short time and a distance constraint that cannot be transmitted to a remote device between these terminals. Following the restriction that you can not send.

The present invention has been made in view of the above-mentioned conventional problems, and its object is to enable mutual data transmission between a terminal of a communication device and a computer using the currently widely used RS-232C method and the recently appeared RS-422 method. It is another object of the present invention to provide a repeater, and another object of the present invention is to provide a repeater for transmitting data at a high speed to a long distance by installing a device according to the present invention between two terminals of the RS-232C signal method. It is.

Referring to the configuration and operation of the present invention according to the accompanying drawings as follows.

Referring to the block diagrams of FIGS. 1 and 2, the data transmission line C ₁ between terminals using the same RS-232C system can always transmit data to each other, and the C ₂ and C ₃ lines have different signaling methods. Since it is mutual communication between the mutual signal converter of the present invention is shown in a configuration that is installed and operated.

In addition, the C ₄ line is the most commonly used RS-232C method, and relatively slow transmission speed and short-range communication are possible, whereas the C ₅ line uses the present invention as a repeater, so that both terminals use the conventional RS-232C method. It shows that it is possible to use RS-422 signal system which is relatively high speed and long distance communication on transmission line.

)에 RS-232C 방식의 신호를 수신할 수 있는 수신기(U₁)와 이 수신기에 입력되는 노이즈를 제거하기 위한 콘덴서(C₁)로 구성된 RS-232C 수신회로부(100)와, 이 RS-232C수신회로부(100)의 출력단과 RS-422 방식을 갖는 단말기 설치된 코넥터(CN₂)의 송신단자(TXD

) (TXD

)에 각각 연결되어 RS-232C 방식으로 입력된 신호를 RS-422 방식에 맞는 신호를 출력하는 송신기(U₃)와 출력 임피던스 매칭을 위한 저항(R₁)으로 구성된 RS-422 송신회로부(200)와, 상기 코넥터(CN₂)의 수신단자(TXD

) (TXD

)와 RS-232C 송신회로부(300)의 입력돤에 각각 연결되어 RS-422 방식의 신호를 수신할 수 있는 수신기(U₄)와 입력 임피던스 매칭을 위한 저항(R₂)으로 구성된 RS-422 수신회로부(400)와, 이 RS-422 수신회로부(400) 및 상기 코넥터(CN₁)의 송신단자(

)에 각각 연결되어 RS-422 방식으로 수신된 신호를 RS-232C 방식에 맞는 규정된 신호로 출력하는 송신기(U₂)로 구성된 RS-232C 송신회로부(300)등 네개의 회로부로 연결구성되어 있다.Referring to the detailed configuration of the present invention according to Figure 3, the receiving terminal of the connector (CN ₁ ) installed in the terminal having the RS-232C system (

RS-232C receiving circuit unit 100 consisting of a receiver (U ₁ ) that can receive a signal of the RS-232C system, and a capacitor (C ₁ ) for removing noise input to the receiver, and this RS-232C Transmitting terminal TXD of the connector CN ₂ having a terminal having an output terminal of the receiving circuit unit 100 and an RS-422 method

) (TXD

RS-422 transmitting circuit unit 200, each of which is connected to the RS-232C method and a transmitter (U ₃ ) for outputting a signal conforming to the RS-422 method and a resistor (R ₁ ) for output impedance matching And a receiving terminal TXD of the connector CN ₂ .

) (TXD

) RS-422 reception consisting of a receiver (U ₄ ) and a resistor (R ₂ ) for input impedance matching, respectively, connected to the input of the RS-232C transmission circuit unit 300 and receiving an RS-422 signal. A circuit unit 400, a transmission terminal of the RS-422 receiving circuit unit 400 and the connector CN ₁

RS-232C transmitter circuit unit 300, which consists of a transmitter (U ₂ ) that is connected to the RS-422 method and outputs a signal received by the RS-422 method as a prescribed signal according to the RS-232C method. .

In FIG. 4, the waveforms given to the tracks of FIG. 3 are shown, and the waveform numbers are assigned to match the line defenses of FIG.

FIG. 5 also shows the logic diagram and function table of the IC used as the receiver U ₁ (U ₄ ) and transmitter U ₂ (U ₃ ) shown in FIG. ₃ for convenience of description. (Texas Instruments) The product of the company has been described as an example.

Referring to the operation and effect of the present invention according to the above configuration as follows.

First transmitter the same time that they are reverse in phase while when the RS-232C system for signal via a third degree line A contains as waveform A degree 4 the signal passes through the receiver (U ₁₎ having a phase shift function (U ₃₎ A signal such as waveform B of FIG. ₄ appears on the line B and is inputted to the transmitter U ₃ as an input of a signal.

At this time, the capacitor C ₁ of the RS-230 receiving circuit unit 100 performs a function of removing a high frequency noise component mixed in the RS-232C signal input to the receiver U ₁ .

)에 입력되는 신호가 'H'(5V)일때 송신단자(TXD

)에는 'L'(0V) 신호가 나타나고 또한 송신단자(TXD

)에 'L'(OV)가 입력될때는 송신단자 (TXD

)에 'H'(5V) 신호가 나타나도록 해준다.Transmitter U ₃ receiving the same signal as waveform B of FIG. 4 is converted into two signals to conform to the RS-422 method. That is, as shown in waveform C of FIG. 4, the transmitter terminal TXD is connected to the connector CN ₂ .

) Transmitting terminal (TXD) when signal input to 'H' (5V)

) Shows 'L' (0V) signal and also transmit terminal (TXD

) When 'L' (OV) is inputted to TX terminal (TXD

Display 'H' (5V) signal.

On the other hand, when the signal is transmitted from the RS-422 type connector CN ₂ to the RS-232C type connector CN ₂ , the RS-422 type signal is transmitted through the line D of FIG. 3. When the type and degree waveform D receiver, receiving the signal (U ₄₎ will appear on the line E in the form it is converted to an appropriate signal, such as a fourth-degree waveform E as an input of the transmitter (U ₂₎ to the transmitter (U ₂₎ It is input.

Here, the resistance R ₂ of the RS-422 receiving circuit unit 400 is for input impedance matching.

)로 보내게 된다.Transmitter U ₂ receiving the same signal as waveform E of FIG. 4 is converted to the same signal as waveform F of FIG. 4 to conform to the RS-232C method.

Will be sent).

In summary, the RS-232C signal inputted through the connector (CN ₁ ) installed in the RS-232C terminal is changed to the RS-422 signal while passing through the apparatus of the present invention, and the connector installed in the terminal of the RS-422 system ( CN ₂ ) is outputted, and RS-422 type signal coming into connector (CN ₂ ) installed in RS-422 type terminal is converted into RS-232C type signal while passing through the device of the present invention. It is sent to the connector (CN ₁ ) installed in the terminal.

As described in detail above, in the related art, a device and a terminal using the RS-232C method and a terminal using the RS-422 method cannot be mutually compatible with each other. However, the apparatus for changing a mutual signal according to the present invention has a circuit configuration. It is simple and has excellent efficiency of signal change, which makes it possible to freely communicate between devices and terminals, resulting in efficient and economical operation effect.

In addition, by installing the mutual signal conversion device according to the present invention on both sides of the transmission path between the two terminals of the RS-232C signal method, the data can be transmitted at a high speed to a long distance, so that the existing RS-232C communication line repeater It can also be used as a good economical effect.

Claims (1)

In the mutual signal conversion apparatus, the receiving terminal of the connector CN ₁ installed in the terminal having the RS-232C method (

RS-232C receiving circuit unit 100 consisting of a receiver (U ₁ ) that can receive a signal of the RS-232C system, and a capacitor (C ₁ ) for removing noise input to the receiver, and this RS-232C The output terminal of the receiving circuit unit 100 and the transmitting terminal TXD of the connector CN ₂ installed in the terminal having the RS-422 method.

) (TXD

) It is connected to the resistance (R ₁₎ to the RS-422 transmission circuit part configured for outputting a prescribed signal transmitter (U ₃₎ and the output impedance matching fit the signal inputted to the RS-232C system for RS-422 system ( 200 and a receiver U ₄ which is connected to an input terminal of the receiving terminal RXD + and the RS-232C transmitting circuit unit 300 of the connector CN ₂ to receive an RS-422 signal, respectively. ) And the RS-422 receiving circuit unit 400 comprising a resistor R ₂ for input impedance matching, and the transmitting terminal of the RS-422 receiving circuit unit 400 and the connector CN ₁ .

RS-232C transmission circuit unit 300 is composed of a transmitter (U ₂ ) connected to each of the) to output a signal received in the RS-422 method as a prescribed signal for the RS-232C method, RS-232C method It is possible not only to enable mutual communication between devices or terminals with different signal types, such as and RS-422 type, but also to install data between two terminals of RS-232C signal type so that data can be transmitted to a long distance at high speed. Mutual signal converter characterized in that can also serve as a repeater.

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