OCF: Q7

Description

Optical Communication Fundamentals Flashcards on OCF: Q7, created by Tolga Aras on 09/01/2018.
Tolga Aras
Flashcards by Tolga Aras, updated more than 1 year ago
Tolga Aras
Created by Tolga Aras almost 7 years ago
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Resource summary

Question Answer
What two processes must a photodetector perform to be able to work? 1. It must absorb photons and transfer the energy to an excited electron-hole pair. 2. Electron-hole pair needs to initiate a current
In which layer of a pn-photodiode is it preferable to have the most absorption? In Depletion Layer. (drift-zone)
Why does a pin-photodiode increase performance compared to a pn-photodiode? - larger absorbing layer - better speed & dynamic due to increased current - generation within the drift-zone
How do we optimize the efficiency of a photodiode? - Minimizing reflection at the surface of the diode. - Minimizing width of the p-doped section. - Choosing a material with a large absorption coefficient.
What limits the transit time of a photodiode? The applied voltage and the width of the depletion region.
What are the four types of photodetectors that we discussed? - pin-Photodiodes - Avalanche Photodiodes (APD) - Schottky Photodetectors - Uni-Travelling-Carrier Photodiodes (UTCPD)
What constitutes the front end of an optical receiver? What are the important parameters when designing the front end? A photodiode followed by an electrical preamplifier. The load-resistor R_L
Which kind of front end provides both high responsivity and large bandwidth? Transimpedance Front-End
What are the fundamental noise mechanisms that result in current fluctuations in optical receivers? - Shot Noise - Thermal Noise
What is the source of shot noise? Which probability distribution function describes shot noise? Every incident photon is converted only by a probability of η into an electron. Binomial distribution -> Poisson distribution (for large n)
What is the source of thermal noise (a.k.a. Johnson noise or Nyquist noise)? (Random thermal motion of electrons) At a finite Temperature, electrons move randomly in any Conductor.
The dominance of either shot or thermal noise depends on the input optical pwr. at the PIN receiver. State the cases where one is dominant over the other and write the equations for the SNR of the received electrical signal for the two cases. Small P_in -> Thermal Noise Large P_in -> Shot Noise
Why does the enhancement of the responsivity in an APD receiver result in a reduction of the SNR? Shot noise is enhanced by K^2.
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