Operation of Rigid-Flex 3-D Printed Microwave Antennas for UWB Radar Under Thermal and Vibration Stress Conditions

• Published in: 2023 IEEE MTT-S Latin America Microwave Conference (LAMC) pp. 129 - 132
• Main Authors: Rodriguez-Morales, F., Occhiogrosso, V., Scarbrough, B., Arnold, E., Gjokaj, V., Albrecht, J., Papapolymerou, J., Chahal, P.
• Format: Conference Proceeding
• Language: English
• Published: IEEE 06.12.2023
• Subjects: Additively manufactured antennas; Antenna measurements; Microwave antennas; Radar antennas; Receiving antennas; rigid-flex; Temperature measurement; Ultra wideband antennas; ultra-wideband radar; Vibrations
• DOI: 10.1109/LAMC59011.2023.10375538

We present the application of novel additively manufactured hybrid rigid-flex Vivaldi antennas as transmit and receive elements for an ultra-wideband (UWB) frequency modulated continuous wave (FM-CW) radar. This paper focuses on a series of measurements performed at Ku-band (12-18 GHz) to assess the effectiveness of these 3- D printed antennas within the radar loop, under thermal and vibration stresses. First, we verified the antennas' satisfactory operation down to -32 °C and inferred that thermal cycling would have minimal effect on the impulse response of the radar system. Next, we investigated the effects and bounds of vibration stress that could be sustained by these antennas and offer recommendations to support even higher vibration levels in future design iterations. Additionally, we present a succinct overview of the antenna design and the experimental setup used to perform these measurements.