Title :
Bit-error rates for optical receivers using avalanche photodiodes with dead space
Author :
Hayat, Majeed M. ; Saleh, Bahaa E A ; Gubner, John A.
Author_Institution :
Dept. of Electr. & Comput. Eng., Wisconsin Univ., Madison, WI, USA
fDate :
1/1/1995 12:00:00 AM
Abstract :
Bit-error rates are computed for an on-off keying optical communication system using avalanche photodiodes (APDs). We use a model for the APD that includes dead space and the finite response time. Dead space is the minimum distance that a newly generated carrier must travel in order to acquire sufficient energy to become capable of causing an impact ionization in the multiplication region of the APD. The detector´s finite impulse response and its randomness are important for high data-rate systems. Using an exact analysis, we show that the presence of dead space enhances the performance at relatively low data rates. Using a Gaussian approximation technique with the exact mean and variance, we demonstrate that dead space degrades the performance at-high data rates since it is responsible for longer tails in the impulse response function of the APD, which in turn increases the effect of intersymbol interference
Keywords :
avalanche photodiodes; error statistics; intersymbol interference; optical fibre communication; optical receivers; transient response; Gaussian approximation; avalanche photodiodes; bit-error rates; dead space; finite impulse response; finite response time; high data-rate systems; impact ionization; impulse response function; intersymbol interference; mean; multiplication region; on-off keying optical communication system; optical receivers; Avalanche photodiodes; Bit error rate; Delay; Gaussian approximation; Impact ionization; Optical computing; Optical fiber communication; Optical receivers; Performance analysis; Space exploration;
Journal_Title :
Communications, IEEE Transactions on
