Wei Zhang scite author profile

Wireless power transfer (WPT) is an emerging technology that can realize electric power transmission over certain distances without physical contact, offering significant benefits to modern automation systems, medical applications, consumer electronics, etc. This paper provides a comprehensive review of existing compensation topologies for the loosely coupled transformer. Compensation topologies are reviewed and evaluated based on their basic and advanced functions. Individual passive resonant networks used to achieve constant (load-independent) voltage or current output are analyzed and summarized. Popular WPT compensation topologies are given as application examples, which can be regarded as the combination of multiple blocks of resonant networks. Analyses of input zero phase angle (ZPA) and soft-switching are conducted as well. This paper also discusses the compensation requirements for achieving the maximum efficiency according to different WPT application areas.Index Terms-Wireless power transfer system, compensation topology, load-independent voltage & current output, zero input phase angle, soft switching, efficiency. , IEEE Transactions on Vehicular Technology 0018-9545 (c) 2015 IEEE. Personal use is permitted, but republication/redistribution requires IEEE permission. See http://www.ieee.org/publications_standards/publications/rights/index.html for more information. 3 1 2 0018-9545 (c)

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Graphene‐Based Actuator with Integrated‐Sensing Function

Chen

Weng

Zhou

et al. 2018

Adv Funct Materials

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Flexible actuators have important applications in artificial muscles, robotics, optical devices, and so on. However, most of the conventional actuators have only actuation function, lacking in real‐time sensing signal feedbacks. Here, to break the limitation and add functionality in conventional actuators, a graphene‐based actuator with integrated‐sensing function is reported, which avoids the dependence on image post‐processing for actuation detection and realizes real‐time measurement of the shape‐deformation amplitudes of the actuator. The actuator is able to show a large bending actuation (curvature of 1.1 cm−1) based on a dual‐mode actuation mechanism when it is driven by near infrared light. Meanwhile, the relative resistance change of the actuator is −17.5%. The sensing function is attributed to piezoresistivity and thermoresistivity of the reduced graphene oxide and paper composite. This actuator can be used as a strain sensor to monitor human motions. A smart gripper based on the actuators demonstrates perfect integration of the actuating and sensing functions, which can not only grasp and release an object, but also sense every actuation state of the actuator. The developed integrated‐sensing actuator is hopeful to open new application fields in soft robotics, artificial muscles, flexible wearable devices, and other integrated‐multifunctional devices.

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Diagnosing Rotating Machines With Weakly Supervised Data Using Deep Transfer Learning

Zhang

Ding

et al. 2020

IEEE Trans. Ind. Inf.

232

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An Improved ESPRIT-Like Algorithm for Coherent Signals DOA Estimation

et al. 2020

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Wei Zhang

Compensation Topologies of High-Power Wireless Power Transfer Systems

Graphene‐Based Actuator with Integrated‐Sensing Function

Diagnosing Rotating Machines With Weakly Supervised Data Using Deep Transfer Learning

An Improved ESPRIT-Like Algorithm for Coherent Signals DOA Estimation

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