JPH11266209A - Optical transmission equipment - Google Patents

Abstract

(57) [Problem] To realize an optical transmission device for connecting half-duplex serial transmission devices with a full-duplex optical transmission line with a simple configuration. SOLUTION: In an optical transmission device 1 having a transmitter 3 for outputting a signal from an optical fiber and a receiver 2 for receiving a signal from a half-duplex serial transmission device, an output of the transmitter 3 is connected to a receiver via a resistor 6. Connect to input 2 When the half-duplex serial transmission device outputs a signal, the signal is input to the receiver 2 without being affected by the output level of the transmitter 3 and the half-duplex serial transmission device outputs a signal. When there is no signal, the output signal of the transmitter 3 is set to a value that is correctly input to the half-duplex serial transmission device.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an optical transmission device for performing optical communication between devices having a half-duplex serial communication function such as a personal computer and a sequence controller.

[0002]

2. Description of the Related Art In order to transmit half-duplex serial data over a full-duplex optical transmission line, a signal from the optical transmission line is output to the half-duplex serial transmission line during a period when the half-duplex serial transmission device outputs data. A mechanism is required to prevent this. As means for solving this, for example, JP-A-2-104
As disclosed in JP-A-141, a control mechanism for monitoring an output signal of a half-duplex serial transmission device and preventing a signal from an optical transmission line for a predetermined time during which a transmission data block can be transmitted from being output to the half-duplex serial transmission line is provided. There is technology.

[0003]

In the above technique, a circuit for monitoring an output signal of a half-duplex serial transmission device, a timer for measuring a predetermined time during which a transmission data block can be transmitted, and a predetermined time from an optical transmission line. A circuit such as a switch for preventing a signal from being output to a half-duplex serial transmission line is required.

The present invention realizes an optical transmission device for connecting a half-duplex serial transmission device with a full-duplex optical transmission line by using only a simple configuration without using these circuits. .

[0005]

According to the present invention, there is provided an optical transmission device for connecting between a half-duplex serial transmission device and a full-duplex optical transmission line, wherein an output from the half-duplex serial transmission device is output. A receiver for inputting a transmission signal to be transmitted, an optical transmitter for electro-optically converting the output of the receiver and outputting an optical signal to an optical transmission line, and an optical receiver for photoelectrically converting an optical signal received via the optical transmission line. A transmitter for outputting the output of the optical receiver to the half-duplex serial transmission device, and connected between an output terminal of the transmitter and an input terminal of the receiver, wherein the half-duplex serial transmission device is When a signal is output, the effect of the transmitter output voltage is reduced so that the signal appears correctly at the output of the receiver. When the half-duplex serial transmission device does not output a signal, the Tsu optical transmission device data of the output signal is characterized by comprising the resistor having a value that is entered correctly on the half-duplex serial transmission system is provided.

[0006]

FIG. 1 is a block diagram showing an optical transmission device 1 according to one embodiment of the present invention. In FIG. 1, a receiver 2 receives a transmission signal output from a half-duplex serial transmission device such as a personal computer or a sequence controller and outputs the signal to an optical transmitter 4. The optical transmitter 4 electro-optically converts an output signal of the receiver 2 and outputs an optical signal to an optical transmission line such as an optical fiber. The optical receiver 5 photoelectrically converts an optical signal received via the optical transmission line and outputs the signal to the transmitter 3. The transmitter 3 outputs an output signal of the optical receiver 5 to the half-duplex serial transmission device. Since an optical signal having only two values, ON or OFF, is converted into an electric signal by the optical receiver 5, the output of the transmitter 3 has a high impedance even when there is no received signal. Instead, a high or low level (often low level) voltage is output.
However, when the half-duplex serial transmission device outputs a signal, the influence of the output voltage of the transmitter 3 is reduced to the extent that the output voltage of the transmitter 3 does not affect the input of the receiver 2 by the resistor 6 described later.

[0007] The resistor 6 is connected between the output terminal of the transmitter 3 and the input terminal of the receiver 2. When the half-duplex serial transmission device outputs a signal, the resistance value of the resistor 6 is equal to or greater than a value that can reduce the influence of the output voltage of the transmitter 3 to such an extent that the signal appears correctly at the output of the receiver 2. If the half-duplex serial transmission device does not output a signal, the output signal of the transmitter 3 is selected to be equal to or less than a value that can be correctly input to the half-duplex serial transmission device. Examples of the half-duplex communication method include RS-485 and USB (Universal Serial Bus).

FIG. 2 shows an example in which the optical transmission device 1 of the present invention is used to connect two personal computers 10 having an RS-485 interface with an optical fiber 12. In this case, the resistance value of the resistor 6 (FIG. 1) is such that the output of the transmitter 3 (FIG. 1) is opposite to the level of the voltage of the output signal of the personal computer when the personal computer 10 is outputting a signal (for example, Even when the voltage of the output signal is at a high level, the output signal reaching the receiver 2 (FIG. 1) is maintained at a level that can be identified by the input threshold of the receiver. When the signal 10 is in an input state without outputting a signal, the value of the output signal of the transmitter 3 is selected to be a value that is maintained at a level that can be identified by the input threshold value of the personal computer 10.

For example, as a receiver and a transmitter used in the optical transmission device and the personal computer of the present invention, SN75176 of Texas Instruments Inc.
When B is used, the resistance value is set in a range from 10Ω to 500 kΩ.

[0010]

According to the present invention, there is provided a circuit for monitoring an output signal of a half-duplex serial transmission apparatus, a timer for measuring a predetermined time during which a transmission data block can be transmitted, and a half-time signal from an optical transmission line for a predetermined time. Connects two half-duplex serial transmission devices with a full-duplex optical transmission line with a simple configuration using only resistors without using complicated circuits such as switches to prevent output to the double serial transmission line. Optical transmission device can be realized.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a specific embodiment of an optical transmission device according to the present invention.

FIG. 2 is a configuration diagram showing an embodiment in which two optical transmission devices according to the present invention are used to transmit an RS-485 signal between two personal computers via an optical signal. .

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Optical transmission apparatus 2 ... Receiver 3 ... Transmitter 4 ... Optical transmitter 5 ... Optical receiver 6 ... Resistance

Claims (1)

[Claims] An optical transmission device for connecting between a half-duplex serial transmission device and a full-duplex optical transmission line, comprising: a receiver for inputting a transmission signal output from the half-duplex serial transmission device; An optical transmitter for electro-optically converting the output of the receiver to output an optical signal to an optical transmission line, an optical receiver for photoelectrically converting an optical signal received via the optical transmission line, and an output of the optical receiver A transmitter for outputting to the half-duplex serial transmission device, connected between an output terminal of the transmitter and an input terminal of the receiver, and the signal is output when the half-duplex serial transmission device outputs a signal. Reduce the effect of the transmitter output voltage so that it appears correctly at the receiver output, and if the half-duplex serial transmission device does not output a signal, the transmitter output signal The optical transmission device characterized by a resistor having a resistance value that is input to the serial transmission system.