Scaling-function based multiresolution time domain analysis for planar printed millimetre-wave integrated circuits
作者: Q. Cao , Y. Chen
关键词: Finite-difference time-domain method 、 Algorithm 、 Function (mathematics) 、 Mathematics 、 Time domain 、 Boundary (topology) 、 Microstrip 、 Planar 、 Electronic engineering 、 Perfectly matched layer 、 Integrated circuit
摘要: The paper applies a scaling-function based multiresolution time domain (MRTD) scheme, in conjunction with an anisotropic perfectly matched layer (APML) for open and PEC-shielded boundary truncations, to analyse various planar millimetre-wave integrated circuits (MICs). Although adding complexity deriving update equations extracting MIC characteristics compared the conventional finite difference (FDTD) method, MRTD scheme does provide systematic, constructive, flexible tool analysis of practical printed structures. In particular, it is shown that very efficient requires only about 15% computational space 25% or less needed FDTD techniques all structures investigated this research.
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