Applied Sciences (Nov 2024)

Fully Metallic Additively Manufactured Monopulse Horn Array Antenna in Ka-Band

  • José Rico-Fernández,
  • Álvaro F. Vaquero,
  • Marcos R. Pino,
  • Manuel Arrebola

DOI
https://doi.org/10.3390/app142311065
Journal volume & issue
Vol. 14, no. 23
p. 11065

Abstract

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The Laser Powder-Bed Fusion Additive Manufacturing (LPBF AM) technique is evaluated for the manufacturing of fully metallic monolithic microwave components. To validate the manufacturing technique, a difference pattern array of 4 × 4 horn antennas is designed to operate at mm-Wave frequencies. The antenna is based on H-plane power dividers and a complex structure to obtain a difference radiation pattern by rotating twisted sections in two different orientations. The prototype is manufactured with a monolithic piece of aluminum alloy AlSi10Mg, providing a lightweight single structure that includes both radiating elements and a feeding network consisting of twisters and power dividers in a waveguide. The prototype was experimentally evaluated in an anechoic chamber and the near-field planar acquisition range, obtaining good agreement with full-wave simulations within an operational bandwidth from 34 to 36 GHz. The results demonstrate that the LPBF AM technique is a suitable candidate to produce challenging monolithic metal-only microwave components in the Ka-band, such as monopulse antennas.

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