GBC Photonics 100G optical transceivers - DML and EML lasers.

What are the DML and the EML lasers? The first part of a series of publications devoted to GBC Photonics products.
Advantages and disadvantages of DML and EML lasers:

A Directly Modulated Laser (DML) uses a diffraction grating to receive inner feedback which is used for stabilising a modulated wave. Direct modulation uses alternating current to power a laser diode.

Turning it on activates the laser, this state is interpreted as a logical 1, and turning it off deactivates it, which is interpreted as a logical 0.

The advantages of this type of laser are: compact size (both the laser diode and electrical control system co-exist within one semiconductor element), relatively low power consumption and the fact that the emitted wave has a narrow spectrum. Thanks to this last feature, this type of laser can be used to transmit high frequency signals.

Simplicity in construction is considered a great advantage but at the same time is also the greatest drawback of such a laser. Changing the current that directly controls the diode causes changes in the frequency of the generated radiation (laser chirp), which leads to the spectrum of the emitted radiation becoming blurred.

This phenomenon, combined with chromatic dispersion, dramatically limits the scope of a DML laser.

An Electro-absorption Modulated Laser (EML) is powered by a constant current, with the intensity of the radiation beam being controlled by a device known as an electro-absorption modulator.

Here, the laser diode always emits light with the same, maximum, intensity, and the modulating signal changes the value of the output light signal. In comparison to a DML laser, an EML laser consumes more power and is a more advanced optoelectronic device.

Both types of laser fulfil the conditions defined in MSA standards for 100G QSFP28 optical transceivers (multi-source agreement which contains unified guidelines for constructing optical transceivers) so that they can be used in devices of various manufacturers.

However, the differences between the two significantly affect the parameters of the modules in which they are used. A DML laser consumes less power than an EML laser at low power radiation levels. However, when the voltage of the supply current (and modulating current) that powers the diode is increased for a DML laser, it leads to greater changes in the frequency of the emitted wave.

This, in combination with chromatic dispersion, causes unwanted blurring of the signal spectrum which limits its effective range. That is why a DML laser works effectively at lower values of the supply current that powers the source of the laser light.

In comparison, the diode in an EML laser constantly emits light with the maximum intensity. Moreover, an EAM modulator requires additional energy to power the laser and to modulate the output light.

The diagram below shows how the speed of transmission and the scope of optical transceivers change when using lasers of both types.

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