KR0154607B1 - Serial transfer signal converting apparatus - Google Patents

Abstract

The present invention relates to a serial transmission signal converter that is capable of transmitting and receiving data between an RS-232C transmission apparatus and an RS-422 transmission apparatus. In the related art, the two types of transmission apparatuses use data configured in different forms. There was a problem in that a system in which an RS-232C transmitter is installed and a system in which an RS-422 transmitter is installed cannot exchange data with each other.

In the present invention, the RS-232C data is converted into RS-422 data, and the RS-422 data is converted into RS-232C data so that the data can be transferred between two transmission devices of different methods. Sending and receiving is enabled.

Description

Serial Transmission Signal Converter

1 is a schematic transmission diagram of the RS-232C method.

2 is a schematic diagram of transmission of RS-422 system.

3 is a circuit diagram according to the present invention.

4 is an embodiment of serial data transmission.

* Explanation of symbols for main parts of the drawings

1,4 interface 2,3,5,6 level converter

7: flip-flop 8: inverter

9: counter 10: oscillation circuit

The present invention relates to a serial transmission device for data, and more particularly, to a serial transmission signal conversion device that enables data transmission between an RS-232C transmission device and an RS-422 transmission device.

In general, data transmission refers to the transmission and reception of data through a wired or wireless communication channel according to a program between a central device and a terminal device or a peripheral device. The data is processed according to mutually agreed data formats. Receive. In order to transmit such data, an interface for transmitting and receiving data is provided on each of the device transmitting data and the receiving device. In addition, when transmitting data, there is a method of serial transmission and a method of transmitting in parallel. Serial transmission is a method of sequentially transmitting data to be transmitted through one signal line by 1 bit, and parallel transmission is transmission. It means to transmit the data that you want to send by two or more bits through several transmission lines at once. Representative interface devices installed in the data transmitter and data receiver for serial transmission are RS-232C standard and RS-422 or RS-. There is an interface device that adopts the 423 standard.

RS-232C is an interface for connecting a modem and a terminal, or a modem and a computer. It is a standard set by the US EIA in accordance with CCITT's recommendation. In recent years, not only modems but also computers and terminals are directly connected and various devices are connected. It is also used to. It is mainly used to transmit data serially within a short distance of less than 15m. On the other hand, a new standard suitable for the performance of the data communication system is the RS-422 interface device, which has a slower data transmission rate than the RS-232C method, but can transmit over a long distance. I use it.

In this way, RS-232C is mainly used for serial data transmission with a computer, a terminal device, or a peripheral device thereof, and RS-422 is mainly used for serial data transmission with a measuring instrument. Only data transfer between devices using the same method was possible. Thus, in the related art, there is an economic burden due to the necessity of requiring the two types of interface devices, respectively, in a terminal device, a peripheral device, a measuring device, and a computer to which data should be transmitted.

In order to enable serial data transmission between two mutually different interface devices, for example, the RS-232C method and the RS-422 method, the present invention has been developed to solve the above problems. An object of the present invention is to provide a serial transmission signal converting apparatus capable of converting data of 422 method and converting RS-422 method of data into RS-232C method.

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to the accompanying drawings.

According to the present invention, the transmission terminal TX of the RS-232C interface 1 sequentially converts a level converter 2 for converting an RS-232C level into a TTL level and a level converter 3 for converting a TTL level into an RS-422 level. The terminal B of the RS-422 interface 4 is connected thereto, and the terminal A of the RS-422 interface 4 is connected to a level converter 5 for converting an RS-422 level into a TTL level. A receiving terminal RX of the RS-232C interface 1 is connected in sequence through a level converter 6 for converting a TTL level into an RS-232C level, and a set terminal S is connected to an output terminal of the level converter 2. The enable end of the level converter 5 and the enable end of the level converter 3 are connected to the output terminal Q of the flip flop 7 connected to the flip flop 7 through the inverter 8. The reset terminal R of (7) has a structure in which the oscillation circuit 10 is connected via a counter 9.

Reference numeral 1 'denotes an RS-232C interface, and 4' denotes an RS-422 interface.

1 is a schematic diagram of transmission according to the RS-232C method, and each interface (1) 1 'adopts the RS-232C method. In this method, the + is based on the ground line connected between the ground terminals (GND). 12V is logic high and -12V is logic low and transmitted. As shown, transmission and reception are performed through separate preferences.

Meanwhile, in the case of the RS-422 method, as shown in FIG. 2, a ground line is not used and transmission and reception are not performed through a separate line.

In addition, the logic level and the logic low are determined based on the voltage difference between the two transmission lines instead of the ground line. Therefore, in this case, only two differential lines are used, so if one side transmits data, the other side can not transmit but only receive.

3 is a circuit diagram of a serial transmission signal converter according to the present invention.

The interface 1 is an interface employing a normal RS-232C system, and the interface 4 is an interface employing a normal RS-422 system.

The level converter 2 converts an RS-232C level into a TTL level. As shown in Table 1, a + 12V output generates a + 5V output and a -12V input produces a 0V output. The level converter 3 converts the TTL level into an RS-422 signal and performs an input / output function as shown in Table 2, and the level converter 5 converts an RS-422 signal into a TTL level. The level converter 6 converts the TTL level into the RS-232C level and performs the input / output function as shown in Table 4. In addition, the level converters 3 and 5 can output the input signals through the output stages only when the enable stages are each non-33 high.

The following describes a case of transmitting data between the RS-232C interface 1 and the RS-422 interface 4, for example, the binary number 11010001 as shown in FIG. Here, the number of bits of data to be transmitted is 8 bits, and S is a start bit indicating the start of data bits to be transmitted.

When the start bit S is output from the data transmission terminal TX of the RS-232C interface 1, it is input to the set terminal S of the RS flip-flop 7 to set the RS flip-flop 7. Let's do it. Thus, a high level signal is output from the output terminal Q of the RS flip-flop 7 and input to the enable terminal of the level converters 3 and 5. The level converter 5 allows the inverter 8 to be input. It is input through the low level. Therefore, the level converter 3 is enabled and the level converter 5 is not enabled, so that a signal transmitted from the RS-232C interface 1 can be transmitted to the RS-422 interface 4. That is, the data bits transmitted after the level converter 3 is enabled by the start bit S, for example, the RS-232C signal of the binary number 11010001 are sequentially turned into bits by one bit, as shown in Table 1 below. After conversion to the TTL level, the level converter 3 converts to the RS-422 level as shown in Table 2 and inputs the RS-422 interface 4. In addition, a clock signal is applied from the oscillator circuit 10 to the counter 9 so that the counter 9 counts the number of clock signals inputted, for example, the eight clocks in the counter 9 when the transmission is set in units of 8 bits. When the signal is counted, one pulse is sent to the output terminal OUT to reset the RS flip-flop 7. As a result, the level converter 3 is disabled and the level converter 5 is disabled by the low signal output from the output terminal Q of the RS-flip flop 7 and becomes a transmission standby frame as a whole. In this way, the serial transmission signal of the RS-232C system transmitted from the RS-232C interface 1 can also be received by the interface 4 of the RS-422 system.

In the transmission standby state as described above, since the level converter 3 is in the disabled state and the level converter 5 is in the enabled state, data transmission from the RS-232C interface 1 to the RS-422 interface 4 is performed. It becomes possible. That is, the serial transmission signal of the RS-422 level transmitted from the RS-422 interface 4 is converted into the TTL level as shown in Table 3 in the level converter 5, and then RS- as shown in Table 4 by the level converter 6 again. Since it is converted to the 232C level, the RS-232C interface 1 can receive data transmitted from the RS-422 interface 4.

This operation is not shown in the figure, but is controlled by, for example, a main computer in which the RS-232C interface 1 is installed.

As described above, the present invention can convert serial data of RS-232C level into serial data of RS-422 level and serial data of RS-422 level into serial data of RS-232C level. There is an advantage that the two signals can be transmitted and received to each other.

Claims (1)

In the transmission terminal TX of the RS-232C interface 1, RS-232C level is converted into a TTL level through a level converter 2 for converting the RS-232C level into a TTL level and a level converter 3 for converting the TTL level into an RS-422 level. The terminal B of the 422 interface 4 is connected, and the terminal A and the B of the RS-422 interface 4 have a level converter 5 and a TTL level for converting an RS-422 level into a TTL level. A receiving terminal RX of the RS-232C interface 1 is connected in turn through a level converter 6 for converting to an RS-232C level, and a set terminal S is connected to an output terminal of the level converter 2. The enable end of the level converter 5 and the enable end of the level converter 3 are connected to the output terminal Q of the flip-flop 7 by an inverter 8. A serial transmission signal conversion device having an oscillation circuit (10) connected to a reset terminal (R) via a counter (9).