Title :
Thin frequency-selective lattices integrated in novel compact MIC, MMIC, and PCA architectures
Author :
Contopanagos, Harry ; Zhang, Lijun ; Alexopoulos, Nicolaos G.
Author_Institution :
Dept. of Electr. Eng., California Univ., Los Angeles, CA, USA
fDate :
11/1/1998 12:00:00 AM
Abstract :
We analyze and optimize the design of novel composite materials for ICs and printed circuit antenna (PCA) applications. We are using a variety of finite artificial lattices (FALs) carrying passive metalo-dielectric unit cells. We first examine and optimize these lattices as freestanding structures, regarding them as FSSs and space filters. We obtain several designs for appropriate metalo-dielectric unit cells, as well as stacking geometries for constructing thin laterally infinite artificial lattices. Further, we examine the action of the corresponding FAL within integrated architectures, emphasizing crosstalk suppression, circuit-coupling tailoring, and gain enhancement. We find very significant directive gain enhancements for compact packaged PCA applications. Finally, anomalous scaling of the resulting circuits and tunable designs are also presented
Keywords :
MMIC; composite materials; crosstalk; finite element analysis; frequency selective surfaces; integral equations; interference suppression; microstrip antennas; microwave integrated circuits; photonic band gap; FEM; FSS; MIC architectures; MMIC architectures; anomalous scaling; circuit-coupling tailoring; compact packaged PCA applications; composite materials; crosstalk suppression; directive gain enhancement; finite artificial lattices; integrated architectures; passive metalo-dielectric unit cells; photonic bandgap materials; printed circuit antenna; stacking geometries; thin frequency-selective lattices; tunable designs; Composite materials; Design optimization; Filters; Frequency; Geometry; Lattices; Microwave integrated circuits; Principal component analysis; Printed circuits; Stacking;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
