Title :
Applications of the Multi-Interval Chebyshev Collocation Method in RF Circuit Simulation
Author :
Yang, Baolin ; Zhu, Yu ; Bouaricha, Ali ; Phillips, Joel
Author_Institution :
Gemini Design Technol. Inc., Fremont
fDate :
3/1/2008 12:00:00 AM
Abstract :
In this paper, we discuss the multi-interval Chebyshev (MIC) method for analog and radio-frequency (RF) circuit simulations. The method has been applied in a wide variety of circuit analyses including periodic steady-state, time-varying small signal, and cyclostationary noise analyses for both driven and autonomous circuits. In contrast to traditional analog/RF circuit simulations using either low-order time-domain integration methods or harmonic balance methods, we show that the MIC method can efficiently achieve high accuracy on strongly nonlinear circuits possessing waveforms with rapid transitions. In addition, it has the same flexibility in simulating frequency-dependent components as the harmonic balance methods but can use similar preconditioning strategies and matrix-implicit Krylov-subspace solvers as time-domain techniques, leading to good convergence on nonlinear problems.
Keywords :
Chebyshev approximation; circuit simulation; radiofrequency integrated circuits; time-domain analysis; RF circuit simulation; analog circuit simulations; autonomous circuits; cyclostationary noise analyses; frequency-dependent components; harmonic balance methods; low-order time-domain integration methods; multiinterval Chebyshev collocation method; radio-frequency circuit simulations; Chebyshev approximation; Circuit analysis; Circuit noise; Circuit simulation; Microwave integrated circuits; Nonlinear circuits; Radio frequency; Signal analysis; Steady-state; Time domain analysis; Circuit simulation; distributed elements; noise; radio-frequency (RF);
Journal_Title :
Computer-Aided Design of Integrated Circuits and Systems, IEEE Transactions on
DOI :
10.1109/TCAD.2008.915546
