DE3203094A1 - Light-emitting diode circuit for the half-duplex operation of an optical waveguide - Google Patents

Abstract

A module for the activation of an optical waveguide is described which is suitable for both transmission and reception operation.

Description

Light-emitting diode circuit for half-duplex operation of a fiber optic cable

The invention relates to a light-emitting diode circuit for half-duplex operation a fiber optic cable. Under the term half-duplex operation of a fiber optic cable one understands the utilization of an optical waveguide in both directions for the transmission of information. For this mode of operation, the fiber optic cable must be at both ends be completed by a toggle switch that optionally connects the optical fiber connects a transmitter or receiver.

Invention Investigations into the type of switch suitable for this purpose have led to a light emitting diode circuit that is defined by the features of the claim 1 is circumscribed. This provides a module that is also used for transmission and reception operation is suitable.

Drawing and description The circuit shown in FIG enables both transmit and receive operation with the same light emitting diode via the fiber optic cable.

For this purpose, the cathode of the light-emitting diode 1, connection point C, is directly connected to it the collector of a transistor T3 and via a resistor R1 to the Xollector of a transistor T1 of opposite conductivity. the The emitters of these transistors are at ground potential or at the operating voltage UB. The bases of both transistors are connected to the connection point via resistors R31 and R11 A connected.

One opposite in the same way with transistors T2 and T4 Control circuit built up conductivity is at the anode of the light emitting diode 1, connection point D, and connected to the connection point B via resistors R21 and R41.

The resistor R2 represents the working resistance of the light emitting diode im Send mode, the resistor R1 the working resistance in the receiving mode.

The output voltage of the light emitting diode when receiving light signals can be tapped between the connection points C - D. For the emission of light signals the input signal is fed in between terminals A - B.

If there is a "Low" signal at both connection points A and B, then the LED is short-circuited via R1 and R2. The light emitting diode is for the Receiving operation prepared. The receiving operation takes place in the Qwasi-Kuizschluss Lies at connection point B, however, the signal "High" on while at connection point A the signal "Low" is applied, then the light-emitting diode via R1 is blocked.

Here, too, is the light-emitting diode for receiving signals via the Optical waveguide 2 prepared, but receiving operation is carried out with a biased Diode.

Raise the light-emitting diode circuit in quasi-short-circuit reception mode the base-emitter voltages arise due to the bridge circuit of T1 and T4. As a result, low temperature drifts are also achieved.

The output voltage in receive mode is at terminals C, D to disposal. rduring reception, the base connection is on the cathode side Transistor series circuit T1, T3 placed at approximately battery potential. The base connection the transistor series circuit T2, T4 on the anode side is in quasi-short-circuit operation also at battery potential, for receiving operation with a biased diode on the other hand in mass.

If the signal "lIigh" is present at connection point A, on the other hand at connection point B the signal "Low", then the diode becomes conductive via R2 and sets the high state of the digital signal to be transmitted, while the signal "High" is at both ends A and B the light-emitting diode is on both sides at sss and the low state of the to be sent out digital signal. During transmission, the base connection is the The transistor series circuit T1, T3 on the cathode side is connected to ground. The broadcast signals are at the base terminal of the anode-side transistor series circuit T2, T4 created.

If you switch several transistors T2, T2 '... with different ones Collector resistors R2, R2 '... and separate connection points B, B' in parallel, in this way, a different current level can be selected for the transmission mode. the In this case, the base of the transistor T4 is of course via a decoupling network to be connected to all connection points B, B '...

It is also within the scope of the invention if instead of the transistor T2 a Konst0tstro: rquelle is inserted into the circuit.

Claims (3)

Claims 1. Leuchtdiodenchaitung for the half-duplex operation of a Optical waveguide, characterized in that the anode and cathode of the light-emitting diode (1) each with the connection point of the collectors of two with the interposition One working resistor each in series connected transistors (T1, R1, T3 resp. T2, R2, T4) of opposite conductivity are connected and that the transmission signal between the base connections of the anode and series connections on the cathode side can be applied. 2. light-emitting diode circuit according to claim 1, characterized in that that in the anode-side series connection of the transistor leading to the battery voltage (T2) is replaced by a constant current source. 3. light-emitting diode circuit according to claim 1 or 2, characterized in that that in the anode-side series connection to the battery voltage several transistors (T2, T2 '...) with differently dimensioned working resistances (R2, R2' ...) or differently dimensioned power sources are connected in parallel, which are separated are switchable.