
READ ME File For 'Data for Meshed High-Impedance Matching Network-Free Rectenna Optimized for Additive Manufacturing'

Dataset DOI: 10.5258/SOTON/D1632

ReadMe Author: Mahmoud Wagih, University of Southampton 

This dataset supports the publication:
AUTHORS: M. Wagih; A. S. Weddell; S. Beeby
TITLE: "Meshed High-Impedance Matching Network-Free Rectenna Optimized for Additive Manufacturing"
JOURNAL: IEEE Open Journal of Antennas and Propagation
PAPER DOI: 10.1109/OJAP.2020.3038001


This dataset contains:

HighZ_Dispenser_<>.dxf					antenna layout files for printing
EfficiencyGain_Patterns.csv				simulated radiation efficiency and gain, angular radiation patterns
PCE_Freq_50Trans.csv					50%-transparent Rectenna PCE for varying frequency
PCE_Freq_70Trans.csv					70%-transparent Rectenna PCE for varying frequency
PCE_Freq_NTA.csv						Non-transparent Rectenna PCE for varying frequency
PCE_LoadSweep.csv						Rectenna simulated and measured PCE for varying loads
PCE_S_50Trans.csv						50%-transparent rectenna for varying plane waves
PCE_S_70Trans.csv						70%-transparent rectenna for varying plane waves
PCE_S_NTA.csv							Non-transparent rectenna for varying plane waves
ReZ_Matching_PCE_VaryingP.csv			Simulated PCE and PCE limit for varying Re{Z_antenna}
Zin_Meas_VaryingMeash.csv				Measured antenna input impedance for varying mesh densities
Zin_SimMeas_500MHz_3GHz.csv				Simulated and measured antenna input impedance from 0.5 to 3.0 GHz

Date of data collection: March 2020 - November. 2020

Information about geographic location of data collection:  Southampton, U.K.

Licence: CC-BY

Related projects:
EU EnABLES Project
EPSRC Smart Cities Platform Grant

Date that the file was created: November 2020