Title :
A comprehensive method combining deep-depletion profiling and capacitance transients to evaluate energy and depth distribution of MOS bulk defects
Author_Institution :
Siemens AG, Munich, Germany
fDate :
3/1/1992 12:00:00 AM
Abstract :
A measurement procedure is presented which combines deep-depletion profiling of MOS capacitors with transient analysis to simultaneously provide the doping profile and the bulk minority generation current. The evaluation of the transient yields the reverse current directly as a function of the depletion width, thus enabling depth profiling of the generation centers. The substrate temperature is an additional parameter that permits the activation energy of the generation mechanisms to be deduced and diffusion currents from the neutral bulk to be identified. Investigation of typical samples shows that the diffusion component is important in devices on lightly doped substrates, whereas it is not found in devices on heavily doped buried layers
Keywords :
capacitance; doping profiles; metal-insulator-semiconductor structures; minority carriers; semiconductor device testing; transient response; MOS bulk defects; MOS capacitors; activation energy; bulk minority generation current; capacitance transients; deep-depletion profiling; defects depth distribution; defects energy distribution; depletion width; diffusion currents; doping profile; generation mechanisms; heavily doped buried layers; lightly doped substrates; measurement procedure; reverse current; substrate temperature; transient analysis; Capacitance measurement; Current measurement; Dielectric measurements; Doping profiles; MOS capacitors; Random access memory; Steady-state; Time measurement; Transient analysis; Voltage;
Journal_Title :
Electron Devices, IEEE Transactions on
