z-logo
open-access-imgOpen Access
The design of auto-tuning capacitive power transfer for rotary applications using phased-locked-loop
Author(s) -
N. Nabila,
Shakir Saat,
Yusmarnita Yusop,
Mohd Sa'ari Mohamad Isa,
Amat Amir Basari
Publication year - 2019
Publication title -
international journal of power electronics and drive systems (ijpeds)
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.322
H-Index - 21
ISSN - 2088-8694
DOI - 10.11591/ijpeds.v10.i1.pp307-318
Subject(s) - wireless power transfer , maximum power transfer theorem , power (physics) , computer science , inverter , electrical engineering , converters , electrical efficiency , capacitive sensing , electronic engineering , engineering , physics , voltage , electromagnetic coil , quantum mechanics
Wireless power transfer (WPT), through the transmission of contactless energy, is not only being used for charging batteries in smartphones, but it is also being increasingly used in the field of industrial applications. The capacitive based approach is utilized in this paper because of its ability to transmit power in a metal surrounding environment where the inductive-based approach failed to perform. This work focuses on the coupling study of a rotary CPT application where the power supply is stationary while the load rotates and therefore allows the load to rotate 360 o free rotation. The Class E MOSFET power inverter is used here due to its ability to achieve high efficiency compared to other class of converters at high frequency. The prototype of the CPT for rotary application has also been successfully developed with disk plate thickness of 1mm-2mm. Overall, the developed CPT system for rotary application is able to deliver 5.5Watt with 83.33% efficiency. To enhance the power efficiency and ZVS conditions, a self-tuning circuit using phased-locked-loop has been proposed in this paper. The efficiency of the developed system with self-tuning circuit is increased to 97.%.

The content you want is available to Zendy users.

Already have an account? Click here to sign in.
Having issues? You can contact us here