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Miniaturization challenges for autonomously phased arrays in a CubeSat application

This paper described the miniaturization challenges in implementing an RDA architecture for a heavily resource-constrained CubeSat platform; by demonstrating this, a transition towards implementation on other highly mobile platforms can be accelerated. Addressing size, weight, and power in RDAs can...

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Main Authors:	Iwami, R T, Bao Jun Lei, Lim, T, Tonaki, W G, Chun, T F, Zamora, A, Longhi, J C, Watanabe, M K, Akagi, J M, Shiroma, W A
Format:	Conference Proceeding
Language:	English
Subjects:	Computer architecture Directive antennas Mobile communication Phased arrays Satellites Signal resolution
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creator	Iwami, R T Bao Jun Lei Lim, T Tonaki, W G Chun, T F Zamora, A Longhi, J C Watanabe, M K Akagi, J M Shiroma, W A
description	This paper described the miniaturization challenges in implementing an RDA architecture for a heavily resource-constrained CubeSat platform; by demonstrating this, a transition towards implementation on other highly mobile platforms can be accelerated. Addressing size, weight, and power in RDAs can be achieved through downsizing of circuitry through PCB design while reducing power consumption in each of the operating states, most importantly the prevalent static state.
doi_str_mv	10.1109/ICWITS.2010.5611925
format	conference_proceeding
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Computer architecture Directive antennas Mobile communication Phased arrays Satellites Signal resolution
title	Miniaturization challenges for autonomously phased arrays in a CubeSat application
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