From ded9947d11c70609583b21a1eba35e2deac9e6ed Mon Sep 17 00:00:00 2001 From: jaseg Date: Fri, 8 Nov 2024 15:46:16 +0100 Subject: [PATCH] Related work WIP --- paper/paper.tex | 10 +++++----- 1 file changed, 5 insertions(+), 5 deletions(-) diff --git a/paper/paper.tex b/paper/paper.tex index 41f2ad9..9a1d30f 100644 --- a/paper/paper.tex +++ b/paper/paper.tex @@ -229,11 +229,11 @@ differential signal, with both driver outputs being loaded equally across the in \subsection{Inductive Wireless Power Transfer in Practice} -Inductive WPT has been proposed in a large number of scenarios, each of which comese with a set of -unique constraints. When WPT is used to charge an electric toothbrush, the implementation cost of the system is -critical, while efficiency and total power output are of little concern. Mechanically, in an electric toothbrush's -charging system, the position and spacing of the transmitter and receiver coils can easily be controlled down to -millimeter precision. +Inductive WPT has been proposed in a large number of scenarios\cite{zhangWirelessPowerTransfer2019}, each of which comes +with a set of unique constraints. When WPT is used to charge an electric toothbrush, the implementation cost of the +system is critical, while efficiency and total power output are of little concern. Mechanically, in an electric +toothbrush's charging system, the position and spacing of the transmitter and receiver coils can easily be controlled +down to millimeter precision. In contrast to this, wireless smartphone charging is a much more demanding application. Here, the total cost of the system is only secondary, but the receiver's form factor is critical, and total power output as well as efficiency