Dominic Deslandes scite author profile

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.Index Terms-Hybrid integrated circuits, millimeter-wave filters, substrate integrated waveguide.

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Design Consideration and Performance Analysis of Substrate Integrated Waveguide Components

Deslandes

2002

239

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This paper presents a new design scheme and measurement results of circuit discontinuities on the basis ofthe recently proposed substrate integrated waveguide technology. Design considerations are discussed with respect to H-plane step, post resonator, 90°bend and 90°curvature, which are analyzed using an equivalent rectangular waveguide model. Results show a good agreement between design predictions and practical measurements. Loss properties of the discontinuities are also examined. It is demonstrated that the radiation loss of the new substrate integrated waveguide is smaller as compared to dielectric and conductor losses.

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Development of substrate integrated waveguide power dividers

Germain

Deslandes

161

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