Title :
Bandwidth and Charge Balancing of Partially Depleted Absorber Photodiodes
Author_Institution :
Georgia Inst. of Technol., Savannah
Abstract :
Linearized moments of the Boltzmann transport equation are shown to imply a new equivalent circuit model for partially depleted absorber photodiodes. Application of the proposed model demonstrates excellent quantitative agreement with previously reported frequency-response measurement. The influences of depletion region width, placement, and field strength on modulation bandwidth and charge balancing are explored. Simulations indicate that the design goals of high bandwidth and resistance to optical saturation are mutually compatible for variations in depletion-region placement, though not depletion-region width.
Keywords :
Boltzmann equation; equivalent circuits; optical saturable absorption; photodiodes; semiconductor device models; Boltzmann transport equation; charge balancing; depletion-region placement; equivalent circuit model; frequency-response measurement; linearized moments; modulation bandwidth; optical saturation; partially depleted absorber photodiodes; Absorption; Bandwidth; Charge carrier processes; Doping profiles; Electron optics; Optical design; Personal digital assistants; Photodiodes; Space charge; Thyristors; Photodiodes; semiconductor device modeling;
Journal_Title :
Quantum Electronics, IEEE Journal of
DOI :
10.1109/JQE.2007.904460
