Title :
Nonlinearity of p-i-n photodetectors
Author :
Hayes, Robert R. ; Persechini, David L.
Author_Institution :
Hughes Res. Lab., Malibu, CA, USA
Abstract :
At higher operating frequencies, the field dependence of the carrier velocity in p-i-n photodetectors generates harmonics and intermodulation products that can degrade the dynamic range of RF fiber-optic links. The authors present both a perturbational theory and measured harmonic data for a p-i-n photodiode operated at very high power densities which show that this and other detector nonlinear effects need not seriously compromise link performance. In particular, neither transit-time nor static nonlinearities in p-i-n photodiodes need limit the dynamic range of fiber-optic links operating below 5 GHz. The fact that the theoretical bandwidth of the photodiode, with all parasitic capacitance and inductance ideally removed, is 17 GHz, suggests that comparable spur-free performance should be achievable at X and Ku-band frequencies, once packaging parasitics are reduced.<>
Keywords :
infrared detectors; optical receivers; p-i-n photodiodes; photodetectors; 1.06 micron; 17 GHz; Ku-band frequencies; RF fiber-optic links; X-band frequency; bandwidth; carrier velocity; dynamic range; field dependence; harmonics; inductance; intermodulation products; nonlinear effects; p-i-n photodetectors; p-i-n photodiode; packaging parasitics; parasitic capacitance; perturbational theory; spur-free performance; static nonlinearities; transit time nonlinearities; very high power densities; Degradation; Density measurement; Detectors; Dynamic range; Optical fiber theory; PIN photodiodes; Photodetectors; Power measurement; Power system harmonics; Radio frequency;
Journal_Title :
Photonics Technology Letters, IEEE
