KR100327233B1 - Signal transmission device using light with power supply control - Google Patents

Abstract

Transmitter including a light emitting element for converting the input electrical signal into an optical signal, and outputs, an optical cable for transmitting the optical signal from the transmitter, and a light receiving element for receiving the optical signal transmitted through the optical cable to convert into an electrical signal And a receiving unit including a light emitting element when the connector is not connected by forming a loop-type power supply line connecting the transmitting unit and the receiving unit together with the optical cable to a connector that couples the transmitting unit and the receiving unit via an optical cable. Disclosed is a signal transmission apparatus using light having a power supply control function, wherein power supply to a light receiving element is cut off.

The signal transmission device using the light having the power supply control function as described above can secure the user's safety because the light is not output because the power supply is cut off when the connector is disconnected, and a separate sensor for detecting whether the connector is connected or not Is unnecessary. In addition, the power supply is automatically controlled when the connector is attached or detached.

Description

Signal transmission device using light with power supply control

The present invention relates to a signal transmission apparatus using light having a power supply control function capable of supplying or cutting off power to a light emitting device and / or a light receiving device depending on whether a connector is connected.

In general, a signal transmission device for transmitting and receiving an optical signal includes a transmitter including a light emitting device such as a light emitting diode or a semiconductor laser that converts an input electrical signal into an optical signal and outputs the optical signal; an optical cable for transmitting the optical signal from the transmitter; And a receiving unit including a light receiving element such as a photodiode or a phototransistor that receives an optical signal transmitted through the optical cable and converts the optical signal into an electrical signal, and is coupled to each other by a connector assembly.

Such a conventional signal transmission apparatus using light does not automatically cut off the power supplied to the transmitter even when the connector is disconnected to separate the transmitter and the receiver, so that light is emitted from the transmitter and it is difficult to secure the safety of the user.

In addition, the conventional signal transmission apparatus has a problem in that a separate sensor for detecting whether the connector is connected and a separate data port for sharing data on whether the connector is connected.

On the other hand, there is a problem that requires a separate control function from the power supply on-off switch according to the connection state.

The present invention has been made in view of the above, and has a power supply control function to supply or cut off the power of the light emitting device and / or the light receiving device depending on whether the connector connecting the transmitter and the receiver is coupled. Its purpose is to provide a signal transmission apparatus using light.

1 is a schematic configuration diagram of a signal transmission apparatus using light having a power supply control function according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10, 30 Transmitter and receiver 11a, 31a Light-emitting and light-receiving elements

13 ... Power 15,35 ... Connector

20 ... optical cable 40 ... power supply line

In order to achieve the above object, the present invention provides a transmission unit including a light emitting element for converting an input electrical signal into an optical signal, and outputs an optical cable, an optical cable for transmitting an optical signal from the transmission unit, and an optical signal transmitted through the optical cable. A signal transmission apparatus using light including a receiving unit including a light receiving element for receiving and converting an electric signal, the signal transmitting device comprising: the transmitting unit and the receiving unit together with the optical cable to a connector that couples the transmitting unit and the receiving unit via the optical cable; Forming a loop-type power supply line to connect between, characterized in that the power supply to the light emitting device and / or the light receiving device is cut off when the connector is not connected.

On the other hand, it is preferable that the power supply line is extended to supply power required for the operation of a controller or peripheral device connected to the transmitter and / or receiver from a loop-type power supply line formed in the transmitter and / or receiver.

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

1 is a schematic view showing a signal transmission apparatus using light having a power supply control function according to an embodiment of the present invention.

Referring to the drawings, a signal transmission apparatus using light includes a transmitter 10 for converting an electrical signal into an optical signal and transmitting the optical signal, an optical cable 20 for transmitting an optical signal from the transmitter 10, and the optical cable. Receiving unit 30 for receiving the optical signal transmitted through the 20 to convert into an electrical signal. Here, the transmitter 10 and the receiver 30 are installed in different devices, or installed in different devices, for example, different printed circuit boards (not shown), and converts the signals into optical signals and transmits the signals.

The transmitter 10 includes a light emitting module 11 including a light emitting element 11a such as a light emitting diode or a semiconductor laser that converts an electrical signal into an optical signal, and a power supply for supplying driving power to the light emitting element 11a and the like. (13). In this case, the light emitting module 11 may include a driving circuit (not shown) for driving the light emitting device 11a according to a signal input to the transmitter 10. The receiver 30 includes a light receiving module 31 including a light receiving element 31a such as a photodiode or a phototransistor that receives an optical signal and converts the optical signal into an electrical signal. Here, the light receiving module 31 may include a predetermined circuit (not shown) so that the optical signal input from the transmitter 10 is converted into an appropriate signal and output.

The transmitter 10 and the receiver 30 are connected to each other via the optical cable 20 having the connectors 15 and 35 coupled to both ends thereof, and the light emitting module 11 is connected to the transmitter 10. The light receiving module 31 may be mounted to the receiver connector 35 coupled to the receiver 30 to the transmitter connector 15 coupled thereto.

At this time, the transmitter connector 15, the optical cable 20, the receiver connector 35 forms a connector assembly.

In the present embodiment, the optical cable 20 is connected to a connector assembly, that is, the transmitter connector 15 and the receiver connector 35, in order to control the supply of the power source 13 driving the transmitter 10, in particular the light emitting element 11a. And a loop-type power supply line 40 connecting the transmitter 10 and the receiver 30 to each other. The power supply line 40 is connected to the transmitter connector 15 from the power source 13 of the transmitter 10, extends with the optical cable 20 to follow the receiver connector 35, and then from the receiver connector 35 again. It is formed in the form of a loop returning to the power source 13 via the connector 15.

In addition, connection terminals 17 and 37 which connect the power supply lines 40 to each other in order to form a loop at a coupling portion of the transmitter 10 and the receiver 30 to which the transmitter and receiver connectors 15 and 35 are coupled, respectively. ) Is formed.

On the other hand, when it is necessary to supply the power supply 13 required for the operation of the peripheral unit (not shown) or the controller 50 connected to the transmitter 10 and / or receiver 30, for example, the receiver 30, the receiver connector ( The power supply line 45 is extended to be connected to the peripheral device or the controller 50 so that the power source 13 can be drawn out and supplied from the loop-type power supply line 40 passing through the 35.

The optical signal transceiver having a power supply control function according to the present invention as described above operates as follows.

The power supply 13, which supplies power to output light from the light emitting element 11a in the transmitter 10, has a power supply line 40 formed in a loop shape in a connector assembly that couples the transmitter 10 and the receiver 30. Supplied through.

If the transmitter and / or receiver connector 15, 35 is disconnected from the transmitter 10 or the receiver 30, the loop of the power supply line 40 formed in the connector 15, 35 is shorted, so that the light emitting element ( The power source 13 is not supplied to 11a), and light is not output from the transmitter 10.

In addition, even when the peripheral device or the controller 50 is connected to the receiver 30, since the power supply 13 is not supplied and the operation is stopped, power is wasted by the peripheral device or the controller 50 connected to the receiver 30. Is automatically prevented.

In the present embodiment, the power source 13 is described and illustrated as being provided on the side of the transmitting unit 10 in which the light emitting element 11a is installed, but the power source 13 is the receiving unit 30 in which the light receiving element 31a is installed. It can also be installed on the side.

On the other hand, the present invention has been described with reference to the embodiments shown in the drawings, but this is only illustrative, it will be understood that those skilled in the art that various modifications and equivalent other embodiments are possible therefrom. . Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the claims.

The signal transmission apparatus using the light having the power supply control function according to the present invention as described above can ensure the safety of the user because the light is not output when the power supply to the light emitting device is disconnected when the connector is separated, and whether or not the connector is connected There is no need for a separate sensor to detect it. In addition, the power supply is automatically controlled when the connector is attached or detached.

Claims (2)

Transmitter including a light emitting element for converting the input electrical signal into an optical signal, and outputs, an optical cable for transmitting the optical signal from the transmitter, and a light receiving element for receiving the optical signal transmitted through the optical cable to convert into an electrical signal In the signal transmission apparatus using light including a receiving unit comprising: A power supply line in the form of a loop is formed between the transmitting unit and the receiving unit together with the optical cable to a connector that couples the transmitting unit and the receiving unit via the optical cable, and the light emitting element and / or the light receiving unit when the connector is not connected. Signal transmission apparatus using light having a power supply control function, characterized in that the power supply to the device is cut off. The power supply line of claim 1, wherein the power supply line is extended to supply power for operation of a controller or peripheral device connected to the transmitter and / or receiver from a loop-type power supply line formed on the transmitter and / or receiver. Signal transmission apparatus using light having a power supply control function.