KR940006827B1 - Interface circuit - Google Patents

Abstract

The circuit provides a cost-effective communication interface circuit between several computer terminals employing only one modem. The circuit comprises: a voice source to pull down; a voice source to pull up; a line driver parallelly connected with the voltage source in order to pull up the input lines; a register array (2) to pull down the input lines under the default voltage level; and a photocoupler that the LED is connected between the output line and the ground.

Description

Terminal transmission interface circuit for multidrop connection

1 is an opening diagram showing an example of a conventional multidrop connection.

2 is an opening diagram showing another example of a conventional multidrop connection.

3 is an opening diagram showing a multidrop connection according to the present invention;

4 is an opening diagram of a transmission / reception interface circuit for a multidrop connection of a terminal according to the present invention.

5 is a detailed circuit diagram of the transmission and reception interface circuit of FIG.

FIELD OF THE INVENTION The present invention relates to an interface circuit for multidrop connection, which makes it possible, for example, to connect several terminals to one modem in parallel in a computer system, and more particularly to a terminal having an improved transmission interface circuit. It is about.

In general, the term "multidrop" refers to the connection of multiple terminals in a single communication line in parallel. When transmitting, only one terminal can be transmitted and at the same time, it can be simultaneously received. Conventionally, as a multi-drop connection method, there is a one-to-one connection method using the number of modems as shown in FIG. 1 and a parallel connection using only one modem using a distribution device as shown in FIG.

In the former case, as the number of terminals increases, the number of expensive modems has to be increased, which makes installation complicated and expensive, burdening the user. In the latter case, only one modem can be used, but more expensive distribution device must be used. did.

Therefore, there still remained problems in terms of installation complexity and installation cost from the user side.

Accordingly, the present inventors have found out that the conventional terminal does not allow the user to simply connect a plurality of terminals in parallel with a single modem without a distribution device to solve the above problems. The reason for this is described in the case where two terminals are connected in parallel to one modem without a distribution device. In the conventional terminal, a transmission and reception interface circuit is configured to line-connect the terminal output terminal and the input terminal of the modem. In this case, since the transmission and reception interface circuits of the two terminals are commonly connected through a connector, the interface circuits fail. Specifically, as described above, the two terminals cannot transmit at the same time but can receive at the same time. Therefore, in case of reception, there is no obstacle between receiving interface circuits, but in the case of transmission, the output of the interface circuit being transmitted is commonly connected. This is because the circuit is reversed to the interface circuit of the non-transmitting terminal, causing a short or the like.

Based on this, the present inventors could develop a circuit capable of ensuring stable transmission without damaging the circuit even when several terminals are directly connected in parallel with the modem.

It is an object of the present invention to provide a novel transmission interface circuit that can be simply configured at low cost so that multiple terminals can be directly connected in parallel to one modem using only one modem.

Another object of the present invention is to provide a terminal having such a novel transmission interface circuit.

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

Referring to FIG. 3, it can be seen that terminals T ₁ to T _n configured with improved transmit / receive interface circuits I ₁ to I _n according to the present invention are directly connected to one modem in parallel. Referring to FIG. 4, an opening diagram illustrating a configuration of a transmission / reception interface circuit according to the present invention is shown. Each of the interface circuits I ₁ to I _n includes a line driver 1 and a resistor array 2. And a line receiver 3. Here, the line driver 1 and the register array 2 are the transmission interface circuit according to the present invention, and the line receiver 3 is a known reception interface circuit.

5 is a detailed circuit diagram of the transmission / reception interface circuit of FIG. 4, in which the arrow on the left side of the figure shows a power supply for -12V pull down, a + 12V power supply for pull up and a reference letter GND for ground, B-TXD, B-RTS, B-DTR, B-REF1, and B-REF2 are the data transmission output lines to be transmitted from the terminal to the modem through the connector P _{1 on the} right side of the drawing. TXC, RXC, CD, REF3, RI, RXD, CTS, and DSR are data receiving input lines inputted from the modem to the terminal through the connector P ₂ , and + 5V is a power supply for converting the received data signals into TTL input signal voltages required by the terminal. .

Here, the connector P ₁ may be connected to a plurality of terminals, but only one is connected to the drawing.

Reference numerals 1 and 2 are line drivers and register arrays constituting the transmission interface circuit as described above, and the line driver 1 pulls down the signal voltage of each data transmission output line to the signal voltage required by the modem. 3 is a line receiver, which is a line receiver, which converts a + 12V signal received from a modem into a TTL pulse signal of + 5V required at a terminal by two IC circuits as described above. Means to do that. Since the line receiver 3 is a well-known receiving interface circuit as described above, it is not a characteristic part of the present invention, and thus the description thereof will be omitted and only for the transmission interface circuit, that is, the line driver 1 and the register array 2. Explain.

The line driver 1 is connected between all the output lines of the terminal and the connector P ₁ , and in the preferred embodiment of the invention consists of photocouplers 4.

Since the configurations are the same, only one data output line B-TXD will be described as an example. The light emitting diode LED of the photocoupler 4 is connected in the forward direction between the output line B-TXD and the ground GND, and the input power supply of the positive power supply (for example, + 12V) and the connector P _{1 for the} pull-up. The light receiving transistor PT of the photocoupler 4 is connected in the forward direction between the TXDs. As a result, the photocoupler 4 completely separates the transmission output terminal of the terminal and the input terminal of the connector.

On the other hand, the input line of the connector P ₁ is connected to a pull-down negative power supply (eg -12V) through the pull-down resistor 5 of the resistor array 2. The resistor array 2 is generally known and is formed by connecting pull-down resistors 5 in parallel. The resistor array 2 is commonly connected to supply -12V to the input line of the connector P ₁ .

The operational effects of the transmission interface circuit I ₁ configured as described above are as follows.

For convenience, a case where two terminals are connected in parallel to one modem will be described with reference to FIG. When the terminal T _{1 of} FIG. 5 is transmitting, when the transmission signal voltage (eg + 5V) appears on the output line (eg B-TXD) of the terminal, the LED is emitted and the light receiving transistor is turned on so that the input of the connector P ₁ is performed. The voltage of the line (eg TXD) can be pulled by the pull-over power supply + 12V and input as the signal voltage required by the modem. In this case other bisong input line of the connector (P ₂₎ of the transmission interface circuit (T ₂₎ of carefully the terminal (T ₂₎ is (dwaetjiman not shown, refer to FIG. 5 because it is the same configuration), the pull-down of the register array (2) Since it is surely pulled down to -12V by the resistor (5), the insulation signal is reliably separated by the pull-down resistor (5) and the photocoupler (4) even though the output signal of the interface circuit being transmitted is + 12V through the common connection terminal of the connector. Thus, the light receiving transistor PT of the pull-down resistor 5 and the photocoupler 4 serves as a protection circuit. Therefore, a terminal having a transmission interface circuit according to the present invention can be multidrop connected to one modem without a distribution device.

As described above, the novel transmission interface circuit developed by the present invention may be simply configured with a low-cost device each of a line driver or a register array, may be configured in a consistent operation during terminal manufacturing, or may be required by modularizing parts. It can be configured to be easily detached and assembled, so it can be realized at very low cost. Therefore, the cost of terminal multidrop connection can be greatly reduced, and the user can simply configure the network by simply connecting. will be.

Claims (3)

A reception and transmission interface circuit for a multidrop connection of a terminal for connecting multiple terminals in parallel to a single modem in a computer system, comprising: a pull-up positive power supply and a pull-down negative power supply, and a plurality of data transmission output lines of the terminal; With pull-up means connected in parallel to both power supplies to electrically insulate the corresponding input lines of the modem and to pull down the input lines to predetermined voltages respectively in response to the signal output of the output lines when transmitting therebetween. And a resistor array (2) comprising a line driver (1) which is connected to the negative power supply in parallel so as to pull down the input lines to a predetermined voltage during non-transmission. Transmission interface circuit for connection. 2. The device according to claim 1, wherein the pull-up means is composed of a photocoupler (4), the light emitting element (LED) of the photocoupler is connected in a forward direction between the output line and ground, and the light receiving element (PT) thereof is pulled up. A transmission interface circuit for a multidrop connection of a terminal, which is connected between a power supply and the input line. The transmission interface circuit according to claim 1, wherein the pull-down means is a pull-down resistor (5).