Gerhard F. Hamberger scite author profile

A novel mm-wave microstrip-fed patch antenna with broad bandwidth and wide angular coverage suitable for integration in planar arrays is designed, analyzed and verified by measurements. The antenna provides a bandwidth of 13.1% between 34.1 GHz and 38.9 GHz, which is achieved by a slotted multiple resonances microstrip patch and a matching circuit in microstrip technology. The antenna is built on RO3003 substrate with top and ground layers, which is low cost compared to other techniques. For simple integration with microstrip and frontend circuits, the feeding happens in the top layer with a microstrip coupling gap feed. The wide half power beamwidth is achieved by suitably designed parasitic patches for the first resonant mode. The second resonant mode has a wide half power beamwidth by default. The half power beamwidth is between 100°and 125°within the matched bandwidth, which is a very good value for a microstrip patch antenna radiating over a ground plane. The measured input impedance and radiation characteristic show very good agreement with simulation results.

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A Planar Dual-Polarized Microstrip 1-D-Beamforming Antenna Array for the 24-GHz Band

Hamberger

Trummer²,

Siart

et al. 2017

IEEE Trans. Antennas Propagat.

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A Mixed Circular/Linear Dual-Polarized Phased Array Concept for Automotive Radar—Planar Antenna Designs and System Evaluation at 78 GHz

Hamberger

Spath

Siart

et al. 2019

IEEE Trans. Antennas Propagat.

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A planar dual-polarized microstrip antenna array in series-parallel feed configuration

Hamberger

Trummer²,

Siart

et al. 2015

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Near-Field Techniques for Millimeter-Wave Antenna Array Calibration

Hamberger

Rowell

Derat

2019

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