Title :
A generic VHDL-AMS behavioral model physically accounting for typical analog non-linear output behavior
Author :
Sabet, Kamal K. ; Riad, T.
Abstract :
This paper presents a VHDL-AMS behavioral model for a typical non-linear behavior commonly observed at the output of amplifier analog circuits. Based on a circuit-inspired modeling approach, the model offers a parameter-controlled nonlinear output while preserving its electrical properties including DC operating point and dynamic output impedance. Connected in a common push-pull topology, hypothetical MOS-like devices were assumed where their behavior was abstracted to directly relate with the model parameters and consequently with the non-linear conduct of the output. The model operation is carefully studied and tested to demonstrate its potential usage as a flexible interfacial candidate for accurate design and verification purposes.
Keywords :
amplifiers; circuit analysis computing; circuit simulation; hardware description languages; amplifier analog circuits; analog nonlinear output behavior; circuit-inspired modeling; generic VHDL-AMS behavioral model; mixed-signal verification methodologies; parameter-controlled nonlinear output; Analog circuits; Circuit simulation; Circuit topology; Computational modeling; Gain; Graphics; Impedance; Operational amplifiers; System performance; Voltage;
Conference_Titel :
Behavioral Modeling and Simulation Workshop, 2007. BMAS 2007. IEEE International
Conference_Location :
San Jose, CA
Print_ISBN :
978-1-4244-1567-0
DOI :
10.1109/BMAS.2007.4437534
