Abstract
In this paper the modeling, fabrication and experimental characterization of a wideband band-pass filter operating in W-band (75–110GHz) is presented. This new high-performance waveguide filter can have several potential applications and will particularly be relevant in radio-astronomy receivers. The classical direct coupled cavity-based synthesis is first used. Then, an efficient full-wave analysis based on the mode matching technique is carried out, leading to a tenth order all-pole filter design. Two different prototypes were fabricated using an accurate electroforming machining technique. A good agreement between simulation and measurements is obtained with negligible frequency shift and 15dB return loss level. One should note the low level of insertion loss reported of about 0.4dB within the band-pass, which is a critical parameter for low-noise receivers.
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