Title :
220-MHz monolithically integrated optical sensor with large-area integrated PIN photodiode
Author :
Förtsch, Michael ; Zimmermann, Horst ; Pless, Holger
Author_Institution :
Inst. of Electr. Meas.s & Circuit Design, Vienna Univ. of Technol., Austria
fDate :
4/1/2006 12:00:00 AM
Abstract :
We propose a PIN photodiode integrated in a BiCMOS process which combines a quantum efficiency of nearly 100% for red light, fast response times, and a low junction capacitance. Bandwidths of 720 MHz at 660 nm and 683 MHz at 850 nm are achieved for this PIN photodiode. It allows the design of fast optoelectronic integrated circuits for many advanced applications in optical sensing, optical storage systems, and optical data transmission for optical wavelengths ranging at least from 660 to 850 nm. Because of the low photodiode capacitance of 0.01 fF/μm2, it is possible to achieve high bandwidths, even with large photodetector areas. The proposed optical receiver employing a PIN photodiode with a diameter of 500 μm and a capacitance of only 2.2 pF attains a -3-dB bandwidth of 220 MHz, which corresponds to a maximum nonreturn-to-zero data rate of 300 Mbit/s.
Keywords :
BiCMOS analogue integrated circuits; integrated optoelectronics; optical receivers; optical sensors; p-i-n photodiodes; 2.2 pF; 220 MHz; 300 Mbit/s; 500 micron; 660 to 850 nm; 683 MHz; 720 MHz; BiCMOS analog integrated circuit; high-speed integrated circuit; large-area integrated PIN photodiode; monolithic integrated optical sensor; optical receiver; optoelectronic integrated circuits; Application specific integrated circuits; Bandwidth; BiCMOS integrated circuits; Delay; Integrated optics; Optical design; Optical receivers; Optical sensors; PIN photodiodes; Quantum capacitance; BiCMOS analog integrated circuit; PIN photodiode; high-speed integrated circuit; optical receiver; optical sensor;
Journal_Title :
Sensors Journal, IEEE
DOI :
10.1109/JSEN.2006.870168
