JPH0116063B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a driving device for driving a laser diode used in optical communication.

In recent years, optical communications using optical fibers have been attracting attention in various fields. For example, a laser diode is used as one of the light sources for this optical communication. Figure 1 shows a conventional laser diode drive circuit, which includes a modulation signal source and an AGC (Automatic Gain) circuit.
The control circuit 10 supplies a modulation signal to the laser diode LD.
The laser diode LD is removably connected to the AGC circuit 10 by a connector 2. The AGC circuit 10 also includes a level control circuit 11, an AC amplifier 12, a detector 13,
Time constant circuit 14 consisting of resistor R ₁ and capacitor C ₁ , DC
It is composed of an amplifier 15 and the like. This AGC
The circuit 10 compares the input level with a reference voltage using a DC amplifier 15, and when the input level is low, operates to increase the level using a level control circuit 11.
On the other hand, when the input level is high, the level control circuit 11
This operates to reduce the voltage in the laser diode LD, and controls the supply level to the laser diode LD.

In such a configuration, for example, if a signal with an extremely low level is input to the AGC circuit 10, the AGC circuit 10 operates to increase the level, so that when the input level returns to normal next time, A suddenly high level may be applied to the laser diode LD. If this high level is instantaneous, such as a so-called whisker pulse, the power is small, so the laser diode
Although it will not destroy the LD, there is a risk that the laser diode LD will be destroyed if a high level is applied for a certain period of time. Since the AGC circuit 10 has a relatively large delay element due to the time constant circuit 14, the AGC circuit 10 has a relatively large delay element caused by the time constant circuit 14.
If a signal with an extremely low level is input to 0, it will be output at a level with enough power to destroy the laser diode LD. There was a significant risk that this would instantly destroy the extremely expensive laser diode.

This invention was made in view of the above points,
To provide a laser diode drive device that can reliably prevent destruction of an expensive laser diode by providing a protection circuit for preventing the destruction of a laser diode used as a light source for optical communication etc. due to the application of high voltage. With the goal.

An embodiment of the present invention will be described below with reference to the drawings. FIG. 2 shows an embodiment of the present invention, and the same parts as in FIG. 1 are given the same reference numerals. This invention is different from that shown in FIG.
This is due to the presence of 0.

The laser diode protection circuit 20 includes a detector 21, a time constant circuit 22 consisting of a resistor _R2 and a capacitor _C2 , a comparator 23, and a laser diode LD.
It consists of an on/off switch 24 and the like provided in the power supply path to the power supply. Note that the delay time T' caused by the time constant circuit 22 is made sufficiently smaller than the delay time T of the time constant circuit 14 of the AGC circuit 10.

The operation of such a configuration will be explained next. For example, when an instantaneous so-called whisker pulse is output from the AGC circuit 10, this pulse is absorbed by the capacitor C of the time constant circuit 20, and does not become higher than the reference voltage V ₃ of the comparator 23. No signal is output from the switch 24, and the switch 24 remains on. For instantaneous output like this, a laser diode
Since it does not have enough power to destroy LD, there is no need to open Switch 24. On the other hand, AGC circuit 1
When a large power output with a large level and a certain time width is output from 0, the output from the time constant circuit 20 exceeds the reference voltage V _S of the comparator 23, so a signal is not output from the comparator 23. , this turns off the switch 24. When the switch 24 is turned off, the level supply path to the laser diode LD is cut off, so the output with the above-mentioned power signal level is not applied to the laser diode LD, preventing the laser diode LD from being destroyed. It can be prevented.

As explained above, according to the present invention, a protection circuit that prevents a high level and powerful voltage from being applied to the laser diode is provided between the laser diode and the AGC circuit. It can prevent expensive laser diodes from being destroyed by the application of high voltage signals generated by some reason, and is extremely useful in terms of protecting laser diodes that will be used more and more in optical communications in the future. It is possible to provide a laser diode drive device with high performance.

[Brief explanation of drawings]

FIG. 1 is a diagram showing an example of a conventional laser diode driving device, and FIG. 2 is a diagram showing a laser diode driving device according to an embodiment of the present invention. 1...Modulation signal source, 2...Connector, 10...
AGC circuit, 20...laser diode protection circuit,
21...Detector, 22...Level detection circuit, 23...Comparator, 24...Switch, LD...Laser diode.

Claims (1)

[Claims] 1 In a drive device that supplies a voltage signal to a laser diode; a time constant circuit controls fluctuations in the voltage signal level with a predetermined time delay.
an AGC circuit; a level detection circuit interposed between the AGC circuit and the laser diode and having a time constant smaller than the time constant of the AGC circuit; a comparison section that compares the output of the level detection circuit with a reference voltage;
A laser diode drive device comprising a protection circuit comprising a switch that cuts off a voltage signal supply path to the laser diode using the output from the comparator.