Microwave Power Beaming using Ka-band Radar Tethered Aerostat Program

Autor/innen

  • Travis D Haugstad Western Technical College
  • Landon Rudy Western Technical College
  • Nicholas Watson Western Technical College
  • Brian LePlante Western Technical College

DOI:

https://doi.org/10.17307/wsc.v1i1.176

Schlagworte:

Microwave, Electrical Engineering

Abstract

With electronic devices becoming smaller and more portable, they are being utilized more in science and everyday life.  There must be a way to power these devices without long cables, large batteries, or other power supplies. Mobile phones and CubeSats are examples of technologies that could take advantage of wireless low-energy transfer for powering or charging devices. Our platform, containing our receiving circuitry was suspended from a tethered aerostat. The platform was designed to receive the wireless signal emitted from a microwave transmitter, analyze the strength of the signal via a programmable microcontroller, and transmit the data back to our logging station on ground level. In order to receive the transmitted power in a usable state, a rectifier and multiple antennas had to be designed and built to test for reception and efficiency. The antennas designed included the Yagi-Uda and fractal-patch antennas

Literaturhinweise

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Veröffentlicht

2017-01-17

Zitationsvorschlag

Haugstad, T. D., Rudy, L., Watson, N., & LePlante, B. (2017). Microwave Power Beaming using Ka-band Radar Tethered Aerostat Program. Proceedings of the Wisconsin Space Conference, 1(1). https://doi.org/10.17307/wsc.v1i1.176

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Rubrik

Team Projects