Title :
Circuit Level Modeling Methodology of Parasitic Substrate Current Injection from a High-Voltage H-bridge at High Temperature
Author :
Lo Conte, Fabrizio ; Sallese, Jean-Michel ; Kayal, Maher
Author_Institution :
Electron. Lab. (e-Lab..epfl.ch), Ecole Polytech. Fed. de Lausanne, Lausanne, Switzerland
Abstract :
In this paper, a modeling methodology is validated based on an enhanced model of the diode, that we have developed to simulate substrate current coupling mechanisms on a typical H -bridge structure. An equivalent schematic based on an enhanced model of the diode was previously proposed to account for minority and majority carrier propagation in the substrate and implemented in Verilog-A code. In this study, the injected parasitic substrate current from high-voltage MOSFET´s structure is simulated in a circuit-level simulator and with a finite element method, as well. Both are compared to measurements and confirm a very good agreement up to 400 K. Not only the simulation resources needed by the proposed equivalent schematics are greatly reduced with regard to the finite element approach, but this circuit-level modeling methodology is fully compatible with Spice-like simulations of complex ICs.
Keywords :
MOSFET; bridge circuits; finite element analysis; semiconductor device models; semiconductor diodes; H-bridge structure; Spice-like simulations; Verilog-A code; circuit level modeling methodology; circuit-level simulator; complex IC; diode; finite element method; high-voltage H-bridge; high-voltage MOSFET structure; majority carrier propagation; parasitic substrate current injection; substrate current coupling mechanisms; Current measurement; Finite element methods; Integrated circuit modeling; Layout; MOSFETs; Substrates; Integrated circuit; lumped modeling; methodology modeling; noise; parasitic coupling; power parasitic modeling; power semiconductor devices; smart power IC; substrate modeling;
Journal_Title :
Power Electronics, IEEE Transactions on
DOI :
10.1109/TPEL.2011.2119495
