| 1.
Circuit Techniques for High Efficiency Piezoelectric Energy Harves..
[1382]
|
| 2.
Theoretical and Experimental Study of the Vibration Dynamics of a ..
[1347]
|
| 3.
Best voltage bias-flipping strategy towards maximum piezoelectric ..
[1190]
|
| 4.
Maximum power, optimal load, and impedance analysis of piezoelectr..
[1123]
|
| 5.
Decomposition and Synthesis of High-Order Compensated Inductive Po..
[1026]
|
| 6.
Harmonic modeling of vibration energy harvesting systems using ext..
[971]
|
| 7.
AlN MEMS filters with extremely high bandwidth widening capability
[934]
|
| 8.
Phase-Separation-Induced PVDF/Graphene Coating on Fabrics toward F..
[906]
|
| 9.
Series Synchronized Triple Bias-flip (S-S3BF) Interface Circuit fo..
[899]
|
| 10.
Editorial: Miniaturized Bioenergy and Energy Harvesting Systems
[894]
|
| 11.
Dielectric loss against piezoelectric power harvesting
[890]
|
| 12.
Synchronized Triple Bias-Flip Interface Circuit for Piezoelectric ..
[869]
|
| 13.
A Comparative Study on the Mechatronic and Electronic Self-Powered..
[846]
|
| 14.
A mechanical solution of self-powered SSHI interface for piezoelec..
[829]
|
| 15.
A string-suspended and driven rotor for efficient ultra-low freque..
[816]
|
| 16.
Phase-Variable Control of Parallel Synchronized Triple Bias-Flips ..
[796]
|
| 17.
Synergy of Wind Energy Harvesting and Synchronized Switch Harvesti..
[793]
|
| 18.
基于LCC-S补偿网络的无线充电系统小信号模型
[786]
|
| 19.
A mechatronic power boosting design for piezoelectric generators
[784]
|
| 20.
A Bidirectional Energy Conversion Circuit Toward Multifunctional P..
[782]
|
| 21.
Piezoelectric energy harvesting enhancement by using a bidirection..
[779]
|
| 22.
Boosting the efficiency of a footstep piezoelectric-stack energy h..
[775]
|
| 23.
Unified modeling, analysis and comparison of piezoelectric vibrati..
[760]
|
| 24.
Optimization of cantilevered piezoelectric energy harvester with s..
[742]
|
| 25.
An Improvement on Extended Impedance Method towards Efficient Stea..
[741]
|
| 26.
Frequency Up-Conversion for Vibration Energy Harvesting: A Review
[736]
|
| 27.
使用双参数可调同步开关功率调理电路提升压电俘能器发电效能,拓展发电..
[735]
|
| 28.
一种基于云平台的无源物联网一体化系统
[731]
|
| 29.
Synchronized bias-flip interface circuits for piezoelectric energy..
[730]
|
| 30.
Parallel Synchronized Septuple Bias-Flip Circuit for Piezoelectric..
[727]
|
| 31.
Energy Harvesting from Horizontal and Vertical Backpack Movements ..
[727]
|
| 32.
Time-sharing orbit jump and energy harvesting in nonlinear piezoel..
[720]
|
| 33.
A self-sensing synchronous electric charge extraction (SECE) solut..
[717]
|
| 34.
Impedance Analysis of Piezoelectric Energy Harvesting System Using..
[713]
|
| 35.
Modeling of partially covered piezoelectric energy harvester conne..
[713]
|
| 36.
A Vibration-Powered Bluetooth Wireless Sensor Node with Running PF..
[711]
|
| 37.
On the Circuit Solutions towards Broadband and High-Capability Pie..
[705]
|
| 38.
Improvement of the equivalent impedance model for electromagnetic ..
[700]
|
| 39.
On the counteractive effect of dielectric loss in piezoelectric en..
[699]
|
| 40.
Enhancement of Galloping-based Wind Energy Harvesting by Synchroni..
[698]
|
| 41.
Generalized modeling and analysis of piezoelectric vibration energ..
[697]
|
| 42.
ViPSN: A Vibration-Powered IoT Platform
[695]
|
| 43.
Equivalent impedance analysis and compensation of full-wave bridge..
[693]
|
| 44.
Modelling of a cantilevered energy harvester with partial piezoele..
[688]
|
| 45.
A Switched-Mode Self-Sensing Solution for Piezoelectric Synchronou..
[688]
|
| 46.
Live Demo of A Vibration-Powered Bluetooth Sensor with Running PFC..
[682]
|
| 47.
Implementation of synchronized triple bias-flip interface circuit ..
[680]
|
| 48.
A bidirectional energy conversion circuit for piezoelectric energy..
[678]
|
| 49.
A Fully ZVS Dual-Active-Bridge Based Three-Port Converter with Hig..
[678]
|
| 50.
Design of Class-E Power Amplifier With Nonlinear Components by Usi..
[676]
|
| 51.
Controllable orbit jumps in bistable energy harvesters by using a ..
[676]
|
| 52.
一种基于TinyML的低成本云边分离智能家居系统
[673]
|
| 53.
DESIGN OF A CLASS-E INVERTER FOR PIEZOELECTRIC ULTRASOUND GENERATI..
[672]
|
| 54.
Revisit of synchronized electric charge extraction (SECE) in piezo..
[672]
|
| 55.
Analysis and Design of Capacitive Power Transfer Systems Based on ..
[672]
|
| 56.
Improvement on impedance model of electromagnetic energy harvestin..
[669]
|
| 57.
An Efficient Steady-State Simulation of Class-E Resonant Inverter ..
[657]
|
| 58.
An Induced Voltage Source Model for Capacitive Power Transfer
[657]
|
| 59.
Impedance Modeling of Electromagnetic Energy Harvesting System Usi..
[656]
|
| 60.
Synchronized Triple Bias-Flip Circuit for Piezoelectric Energy Har..
[647]
|
| 61.
A dual-effect solution for broadband piezoelectric energy harvesti..
[633]
|
| 62.
Uniform and Simplified Small-Signal Model for Inductive Power Tran..
[633]
|
| 63.
Phase-Shift Modulated Interleaved LLC Converter With Ultrawide Out..
[626]
|
| 64.
A tapered beam piezoelectric energy harvester shunted to P-SSHI in..
[613]
|
| 65.
Reduced-order model for inductive power transfer systems
[613]
|
| 66.
New insight into piezoelectric energy harvesting with mechanical a..
[610]
|
| 67.
Power Solutions of A Vibration-Powered Sensor Node
[598]
|
| 68.
一种带能量管理功能的小型无源物联网实用开发板
[586]
|
| 69.
Exploring the magnetic plucking motion towards a transient-motion-..
[584]
|
| 70.
Theoretical Study of a Two-Degree-of-Freedom Piezoelectric Energy ..
[576]
|
| 71.
Simulation of Switched-mode Power Conversion Circuits with Extende..
[576]
|
| 72.
A Wind-Driven Poly(tetrafluoroethylene) Electret and Polylactide P..
[563]
|
| 73.
Overview of Voltage Regulator Modules in 48 V Bus-Based Data Cente..
[556]
|
| 74.
A Three-Port Energy Router for Grid-Tied PV Generation Systems Wit..
[555]
|
| 75.
Acoustic-elastic metamaterials and phononic crystals for energy ha..
[554]
|
| 76.
Series Synchronized Triple Bias-Flip Circuit: Maximizing the Usage..
[553]
|
| 77.
可重构振动供能物联网节点
[551]
|
| 78.
IntelliSense silk fibroin ionotronic batteries for wildfire detect..
[550]
|
| 79.
Current Zero-Crossing Prediction Based Critical Conduction Mode Co..
[549]
|
| 80.
A twist piezoelectric beam for multi-directional energy harvesting
[545]
|
| 81.
A Multi-step Charge Extractions and Voltage Bias-flip (MCEBF) Inte..
[543]
|
| 82.
A Switched-Mode Time-Sharing Solution for Piezoelectric Energy Har..
[541]
|
| 83.
Three-Port Power Electronic Interface with Decoupled Voltage Regul..
[541]
|
| 84.
Synchronized switch piezoelectric energy harvesting using rotating..
[540]
|
| 85.
A Load-Independent Fission-Type Inductive Power Transfer System fo..
[531]
|
| 86.
Synchronous Switch Current Reversion (SSCR) Technique for Motor Br..
[531]
|
| 87.
Mode Switching Based Parameter Identification for 2TX-1RX Wireless..
[526]
|
| 88.
An Integrated Piezoelectric Energy Harvesting Interface Circuit Wi..
[523]
|
| 89.
A piezoelectric smart backing ring for high-performance power gene..
[522]
|
| 90.
A switched-mode piezoelectric interface circuit for dynamics sensi..
[520]
|
| 91.
Resonant Frequency Tracking Scheme for LLC Converter Based on Larg..
[518]
|
| 92.
On the use of metasurface for Vortex-Induced vibration suppression..
[517]
|
| 93.
Improved theoretical analysis and design guidelines of a two-degre..
[516]
|
| 94.
A Self-Powered Synchronous Switch Energy Extraction Circuit for El..
[514]
|
| 95.
Deep-Learning Assisted Finite Element Model of a Galloping Piezoel..
[505]
|
| 96.
Reconfigurable and Modular Wireless Charger Based on Dual-Band Des..
[505]
|
| 97.
High-Order Compensated Capacitive Power Transfer Systems With Misa..
[500]
|
| 98.
A Three-transistor Energy Management Circuit for Energy-harvesting..
[500]
|
| 99.
瞬态运动能量收集器及瞬态运动供能物联网传感节点设备
[498]
|
| 100.
电压同步多次翻转压电动能收集电路
[497]
|
