jaseg/nice-coils
1
0
Fork 0
Code Issues Pull requests Projects Releases Packages Wiki Activity Actions

Update bibliography

Browse source
This commit is contained in:
jaseg 2024-12-11 14:09:14 +01:00
parent 56f96463d8
commit a4faa49955
1 changed files with 18 additions and 0 deletions
Download patch file Download diff file Expand all files Collapse all files

18
paper/paper.bib
View file

@ -5242,6 +5242,24 @@
file = {/home/jaseg/Sync/Research/Zotero/Zhang et al_2019_Wireless Power Transfer—An Overview.pdf;/home/jaseg/Zotero/storage/MHMC3VK4/8357386.html}
}
@article{zhangWirelessSensorPower2024,
title = {Wireless {{Sensor Power Supply}} for {{Rotating Shaft Using DC-Side Diode Array With Stable Output}}},
author = {Zhang, Zeheng and Cheng, Hao and Li, Zheng and Chen, Fuao and Chen, Yang and He, Zhengyou and Mai, Ruikun},
date = {2024-12},
journaltitle = {IEEE Transactions on Power Electronics},
volume = {39},
number = {12},
pages = {15414--15419},
issn = {1941-0107},
doi = {10.1109/TPEL.2024.3439718},
url = {https://ieeexplore.ieee.org/document/10629183/?arnumber=10629183},
urldate = {2024-12-11},
abstract = {24 × 7 health monitoring of rotating shaft is very important for the safe operation of automotive axles. Wireless sensor power supply technology is one of the promising power supply means for monitoring systems. Since the radius of many rotation shafts is large up to 1 m, segmented coils are adopted to reduce the magnetic interference and power loss compared to single receiver coils, but this will lead to output voltage fluctuation causing the monitoring system failures. This letter proposes a fluctuation suppression method by a dc-side diode array and parameter optimization. Using multiple reverse parallel diode groups to connect the dc side of multiple receivers and the load, the diodes will be conducted when corresponding coils are activated, while those without induced voltage will not be conducted. In this way, the mutual inductance fluctuation as per different rotation angles can be greatly reduced. In addition, a detuned system has been designed, rendering the output gain insensitive to variations in mutual inductance, thereby enhancing the output stability. A prototype was built to verify the theoretical analysis. The experimental results indicate that the output voltage fluctuation is only 5.0\%. The proposed method can achieve significant output stability without complex control and dedicated coil design.},
eventtitle = {{{IEEE Transactions}} on {{Power Electronics}}},
keywords = {Coils,Diode array,Diodes,Fluctuations,Inductance,Power supplies,Receivers,Rectifiers,Shafts,stable output,Transmitters,Wireless sensor networks,wireless sensor power supply (WSPS)},
file = {/home/jaseg/Sync/Research/Zotero/2024_Zhang et al_Wireless Sensor Power Supply for Rotating Shaft Using DC-Side Diode Array With.pdf;/home/jaseg/Zotero/storage/BK6YYH4R/10629183.html}
}
@online{zhaoDesignOptimizationLitzWire2023,
title = {Design and {{Optimization}} of {{Litz-Wire Planar Spiral Coil}} for {{Inductive Power Transfer Application}}},
author = {Zhao, Weihao and Peng, Yingzhou and Zhan, Shen and Wang, Huai},