Bahaa Al-Juboori scite author profile

This paper presents a comprehensive study of a groove gap waveguide (also known as a waffle-iron) bandpass filter at Ka-band (26.5-40 GHz), fabricated using a high resolution polymer jetting (Polyjet) 3-D printing technology. The same filter was previously fabricated using brass CNC milling technology. The metalized Polyjet 3-D printed filter has lower loss, is lighter in weight and more costeffective, when compared to the solid metal case. The filter operates at a center frequency of 35.65 GHz, has a 500 MHz bandwidth (1.4% fractional bandwidth), and has a transmission zero below and above the passband. Without any design iterations, the measured S-parameters for the Polyjet 3-D printed filter are presented and compared with simulated results, showing excellent agreement. A comparison is then made between the measured results and that of its brass machined counterpart. The new Polyjet 3-D printed filter is 85% lighter than the conventional machined version. All these features prove the important potential of 3-D printing technology for millimeter-wave applications, which includes aerospace. INDEX TERMS Printing, bandpass filter, millimeter-wave band, gap waveguide, waffle-iron, Polyjet.

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A Dual-Broadband Dual-Polarized Fylfot-Shaped Antenna for Mobile Base Stations Using MIMO Over-Lapped Antenna Subarrays

Alieldin

Huang

Boyes

et al. 2018

IEEE Access

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Millimeter wave cross-coupled bandpass filter based on groove gap waveguide technology

Al-Juboori

Huang

Klugmann

et al. 2017

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Bahaa Al-Juboori

A Low-profile Miniaturized Second-Order Bandpass Frequency Selective Surface

Lightweight and Low-Loss 3-D Printed Millimeter-Wave Bandpass Filter Based on Gap-Waveguide

A Dual-Broadband Dual-Polarized Fylfot-Shaped Antenna for Mobile Base Stations Using MIMO Over-Lapped Antenna Subarrays

Millimeter wave cross-coupled bandpass filter based on groove gap waveguide technology

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