Title :
Single-substrate integration technique of planar circuits and waveguide filters
Author :
Deslandes, Dominic ; Wu, Ke
Author_Institution :
Dept. de Genie Electrique, Ecole Polytechnique de Montreal, Que., Canada
Abstract :
The integrated planar technique has been considered as a reliable candidate for low-cost mass production of millimeter-wave circuits and systems. This paper presents new concepts that allow for a complete integration of planar circuits and waveguide filters synthesized on a single substrate by means of metallized post (or via-hole) arrays. Analysis of the synthesized integrated waveguide and design criteria are presented for the post pitch and diameter. A filter design method derived from a synthesis technique using inductive post is presented. An experimental three-pole Chebyshev filter having 1-dB insertion loss and return loss better than 17 dB is demonstrated. Integrating such planar and nonplanar circuits on a substrate can significantly reduce size, weight, and cost, and greatly enhance manufacturing repeatability and reliability.
Keywords :
Chebyshev filters; finite element analysis; hybrid integrated circuits; millimetre wave filters; millimetre wave integrated circuits; waveguide filters; active microwave integrated circuits; design criteria; filter design method; full-wave finite element method; hybrid integrated circuits; insertion loss; integrated planar technique; low-cost mass production; manufacturing repeatability; metallized post arrays; millimeter-wave circuits; passive waveguide components; planar circuits; reliability; return loss; single-substrate integration technique; three-pole Chebyshev filter; waveguide filters; Chebyshev approximation; Design methodology; Filters; Insertion loss; Integrated circuit metallization; Integrated circuit reliability; Integrated circuit synthesis; Mass production; Millimeter wave circuits; Planar waveguides;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2002.807820
