Title :
Analysis of high speed p-i-n photodiode S-parameters by a novel small-signal equivalent circuit model
Author :
Wang, G. ; Tokumitsu, T. ; Hanawa, I. ; Sato, K. ; Kobayashi, M.
Author_Institution :
Fujitsu Quantum Devices Ltd., Yamanashi, Japan
Abstract :
A novel small-signal radio frequency (RF) equivalent-circuit of the side-illuminated input tapered waveguide-integrated p-i-n photodiodes (WG PIN PD) is proposed. The proposed RF equivalent-circuit involves both the carrier-transit effect and the external resistance-capacitance (RC) time constant limitation on the frequency response of the p-i-n PD. The carrier-transit effect is realized by adding an RC circuit to an ideal voltage-controlled current source as the input opto-RF equivalent circuit. The carrier transit-time effect is equivalently represented by the time-constant of this input RC circuit. This new equivalent circuit model fits well with both the measured reflection and optoelectronic conversion parameters of the WG PIN PD in a broad frequency range from 45 MHz to 50 GHz.
Keywords :
S-parameters; equivalent circuits; frequency response; microwave photonics; optical receivers; p-i-n photodiodes; 45 MHz to 50 GHz; S-parameters; WG PIN PD; carrier-transit effect; external resistance-capacitance time constant; frequency response; high speed p-i-n photodiode; ideal voltage-controlled current source; optoelectronic conversion parameters; radio frequency equivalent circuit; side-illuminated input tapered waveguide-integrated photodiodes; small-signal equivalent circuit model; Capacitance; Electrical resistance measurement; Equivalent circuits; Frequency measurement; Frequency response; Optical reflection; Optical waveguides; PIN photodiodes; Radio frequency; Scattering parameters;
Journal_Title :
Microwave and Wireless Components Letters, IEEE
DOI :
10.1109/LMWC.2002.804557
