Research on Tuning Control Technology for Wireless Power Transfer Systems for Concrete Embedded Sensors

Abstract: Concrete embedded sensors play a very important role in structural health monitoring. However, the time of endurance of sensors remains a performance bottleneck and sensors need to be charged without damaging the structure as well. Wireless power transfer (WPT) technology is a promising approach to solving this problem. However, the electromagnetic characteristics of concrete medium can cause WPT systems to be untuned and can reduce the energy transmission efficiency of the system. In this paper, the induced m… Show more

“…Considering all these facts [19][20][21][22][23][24][25][26][27][28], this paper presents a detailed theoretical analysis and experimental verification of the dead-time effect on a WPT system in an inverter.…”

“…If the dead-time is too short or too long, it can lead to increased power losses. A short dead-time may cause shoot-through current and increase switching losses, while a long dead-time can result in decreased power transfer efficiency due to extended periods of no power transfer [21,22].…”

Dead-Time Effect in Inverters on Wireless Power Transfer

“…Considering all these facts [19][20][21][22][23][24][25][26][27][28], this paper presents a detailed theoretical analysis and experimental verification of the dead-time effect on a WPT system in an inverter.…”

“…If the dead-time is too short or too long, it can lead to increased power losses. A short dead-time may cause shoot-through current and increase switching losses, while a long dead-time can result in decreased power transfer efficiency due to extended periods of no power transfer [21,22].…”

Dead-Time Effect in Inverters on Wireless Power Transfer