Microstrip-Fed 3D-Printed H-Sectorial Horn Phased Array

A 3D-printed phased array consisting of four H-Sectorial horn antennas of 200 g weight with an ultra-wideband rectangular-waveguide-to-microstrip-line transition operating over the whole LMDS and K bands (24.25–29.5 GHz) is presented. The transition is based on exciting three overlapped transversal patches that radiate into the waveguide. The transition provides very low insertion losses, ranging from 0.30 dB to 0.67 dB over the whole band of operation (23.5–30.4 GHz). The measured fractional bandwidth of the phased array including the transition was 20.8% (24.75–30.3 GHz). The antenna was measured for six different scanning angles corresponding to six different progressive phases α, ranging from 0° to 140° at the central frequency band of operation of 26.5 GHz. The maximum gain was found in the broadside direction α = 0°, with 15.2 dB and efficiency η = 78.5%, while the minimum was found for α = 140°, with 13.7 dB and η = 91.2%.

[1]  D. Filipović,et al.  Performance of SLA and DMLS 3D Printed Ka-Band Resonators with Integrated Coaxial Launchers , 2022, European Microwave Conference.

[2]  Jordi Romeu Robert,et al.  Ultra-Wideband Narrow Wall Waveguide-to-Microstrip Transition Using Overlapped Patches , 2022, Italian National Conference on Sensors.

[3]  J. Romeu,et al.  Three-Dimensional Beamsteering Low-Complexity Reconfigurable Multilevel Antenna , 2020, IEEE Antennas and Wireless Propagation Letters.

[4]  Gauri Salunkhe,et al.  Designing of Cost Effective Resin 3D Printer using UV LED , 2020, 2020 International Conference on Convergence to Digital World - Quo Vadis (ICCDW).

[5]  Nobuyoshi Kikuma,et al.  Bandwidth Extension of Planar Microstrip-to-Waveguide Transition by Controlling Transmission Modes Through Via-Hole Positioning in Millimeter-Wave Band , 2019, IEEE Access.

[6]  Vincenzo Stornelli,et al.  FDM 3D Printing of high performance composite materials , 2019, 2019 II Workshop on Metrology for Industry 4.0 and IoT (MetroInd4.0&IoT).

[7]  Junhong Wang,et al.  3-D Printed High-Gain Wideband Waveguide Fed Horn Antenna Arrays for Millimeter-Wave Applications , 2019, IEEE Transactions on Antennas and Propagation.

[8]  Pratik S Kamble,et al.  Recent Developments in 3D Printing Technologies: Review , 2018, 2018 Second International Conference on Intelligent Computing and Control Systems (ICICCS).

[9]  Nobuyoshi Kikuma,et al.  Millimeter-Wave Topside Waveguide-to-Microstrip Transition in Multilayer Substrate , 2018, IEEE Microwave and Wireless Components Letters.

[10]  Gabriel M. Rebeiz,et al.  A 28 GHz transceiver chip for 5G beamforming data links in SiGe BiCMOS , 2017, 2017 IEEE Bipolar/BiCMOS Circuits and Technology Meeting (BCTM).

[11]  Ming-Jong Tsai,et al.  A study of a material jetting based color 3d printing system by using multiple piezoelectric heads , 2017, 2017 International Conference on Machine Learning and Cybernetics (ICMLC).

[12]  Rashaunda Henderson,et al.  Ka band 3D printed horn antennas , 2017, 2017 Texas Symposium on Wireless and Microwave Circuits and Systems (WMCS).

[13]  Yong-xin Guo,et al.  W-Band Large-Scale High-Gain Planar Integrated Antenna Array , 2014, IEEE Transactions on Antennas and Propagation.

[14]  Jurgen Hasch,et al.  Compact Topside Millimeter-Wave Waveguide-to-Microstrip Transitions , 2013, IEEE Microwave and Wireless Components Letters.

[15]  A. Stelzer,et al.  A Vertical Transition Between Rectangular Waveguide and Coupled Microstrip Lines , 2012, IEEE Microwave and Wireless Components Letters.

[16]  Nobuyoshi Kikuma,et al.  Narrow-Wall-Connected Microstrip-to-Waveguide Transition Using V-Shaped Patch Element in Millimeter-Wave Band , 2010, IEICE Trans. Commun..

[17]  S. Shtrikman,et al.  A study of microstrip array antennas with the feed network , 1989 .

[18]  D. Schaubert,et al.  Scan blindness in infinite phased arrays of printed dipoles , 1984 .

[19]  Effrina Yanti Hamid,et al.  Wideband Dual-Polarized 3D Printed Quad-Ridged Horn Antenna , 2022, IEEE Access.

[20]  C. Saavedra,et al.  3D Printed Linearly Polarized X-Band Conical Horn Antenna and Lens , 2022, IEEE Open Journal of Antennas and Propagation.

[21]  J. Franke,et al.  Impact of Surface Roughness on 3D Printed SLS Horn Antennas , 2018 .

[22]  Duixian Liu,et al.  Advanced millimeter-wave technologies : antennas, packaging and circuits , 2009 .