Title :
PABAM: A Physics-Based Analytical Model to Estimate Bipolar Amplification Effect Induced Collected Charge at Circuit Level
Author :
Song Ruiqiang ; Chen Shuming ; Du Yankang ; Huang Pengcheng ; Chen Jianjun ; Chi Yaqing
Author_Institution :
Coll. of Comput., Nat. Univ. of Defense Technol., Changsha, China
Abstract :
This paper presents a physics-based analytical model called PABAM. It is performed to estimate the bipolar amplification effect induced collected charge at circuit level. The PABAM is validated by TCAD simulation with different technologies and layout parameters. The collected charge obtained from combining the PABAM and the diffusion-collection model agrees well with TCAD simulation results, both in magnitude and trend. The proposed PABAM is implemented in the circuit-level SER prediction approach to evaluate SEU for twin- and triple-well SRAMs. The simulated cross sections have a good agreement with heavy ion experimental data, particularly for MCU prediction.
Keywords :
SRAM chips; integrated circuit modelling; radiation hardening (electronics); technology CAD (electronics); MCU prediction; PABAM; SEU; SRAM; TCAD simulation; bipolar amplification effect estimation; circuit-level SER prediction approach; diffusion-collection model; induced collected charge; physics-based analytical model; single event upset; soft error rate; static random access memory; Doping; Electric potential; Integrated circuit modeling; Layout; Mathematical model; Semiconductor process modeling; Transistors; Single-event upset; bipolar amplification effect; charge collection; charge collection.; single-event upset; soft error rate; well potential modulation;
Journal_Title :
Device and Materials Reliability, IEEE Transactions on
DOI :
10.1109/TDMR.2015.2490259
