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Interconnect for Dense Electronically Scanned Antenna Array Using High-Speed Vertical Connector.

Nooshin Valizade Shahmirzadi1, Natalia K Nikolova1, Chih-Hung Chen1

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Summary
This summary is machine-generated.

We evaluated a new high-speed vertical connector for dense antenna arrays used in microwave tissue imaging. This connector offers a cost-effective, reliable alternative to coaxial connectors, achieving comparable performance across the ultra-wideband frequency range.

Keywords:
antenna array feedsantenna arrayshigh-speed vertical connectorlarge-scale antenna arraysmicrowave imagingmicrowave interconnectsultra-wideband frequency range

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Area of Science:

  • Electrical Engineering
  • Microwave Engineering
  • Biomedical Engineering

Background:

  • Large-scale antenna arrays for microwave tissue imaging require high-performance interconnects.
  • Traditional coaxial connectors are unsuitable due to size, cost, and reliability issues in dense arrays.
  • High-speed digital board-to-board connectors offer potential advantages but require compatibility studies.

Purpose of the Study:

  • To design and evaluate a novel interconnect for densely packed electronically scanned antenna arrays.
  • To assess the performance of high-speed vertical connectors for microwave tissue imaging applications (3-8 GHz).
  • To compare the performance of these connectors with traditional sub-miniature coaxial connectors.

Main Methods:

  • Electromagnetic simulations were performed to design and analyze the interconnect.
  • Performance was evaluated through physical measurements.
  • The interconnect's transition from coplanar waveguide transmission lines to the vertical connector was a key focus.
  • Comparisons were made against commonly used sub-miniature coaxial connectors.

Main Results:

  • The designed interconnect using high-speed vertical connectors demonstrated low-reflection, low-loss, and low-crosstalk characteristics.
  • Performance was found to be comparable to expensive sub-miniature coaxial connectors.
  • The interconnect is suitable for the ultra-wideband (UWB) frequency range relevant to microwave imaging.

Conclusions:

  • High-speed vertical connectors are a viable and cost-effective alternative to coaxial connectors for dense antenna arrays in microwave imaging.
  • The developed interconnect design successfully addresses the challenges of high-density, high-frequency applications.
  • This technology enables more robust and affordable microwave tissue imaging systems.