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Feng JI
PhD
,
Department of Electrical and Electronic Engineering
Email
Feng.JI
nottingham.edu
cn
h-index
8
Scopus Citations
2
h-index
Calculated based on number of publications stored in Pure and citations from Scopus
2020
2024
Research activity per year
Overview
Fingerprint
Network
Research output
(5)
Thesis
(1)
Fingerprint
Dive into the research topics where Feng JI is active. These topic labels come from the works of this person. Together they form a unique fingerprint.
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Keyphrases
Virtual Synchronous Generator
83%
DC Power Supply
66%
Maximum Power Point Tracking
66%
Boost Circuit
66%
Thermoelectric Generation
66%
Low Voltage Ride-through
66%
Perturbation Method
66%
Matrix Laboratory (MATLAB)
50%
Voltage-doubling Rectifier
33%
Voltage-to-frequency Converter
33%
Soft-switching Technology
33%
ZVS Soft-switching
33%
Main Circuit
33%
Control Core
33%
DC Chopper
33%
Device Materials
33%
Voltage Stabilizer
33%
LVRT Capability
33%
Impedance Voltage
33%
Virtual Impedance
33%
Rectifier
33%
High-frequency Voltage
33%
Low-pass Filter
33%
Energy Reduction
33%
Power Device
33%
Inverter
33%
Energy Loss
33%
Power Supply
33%
Dynamic Power
33%
Voltage Control
33%
Grid-connected Inverter
33%
Grid-connected Converter
33%
Power Decoupling
33%
Grid-forming Converter
33%
Power Synchronization
26%
Synchronous Generator
19%
Power Grid
19%
Virtual Inertia
19%
Fault Current
19%
Control Strategy
19%
Transient Power
16%
Power Angle
16%
Transient Stability
16%
Small Step
16%
Maximum Power Point
16%
Small-signal Model
16%
Saving Time
16%
Work Efficiency
16%
Simulation Model
16%
Grid Voltage Sag
15%
Engineering
Virtual Synchronous Generator
100%
Power Supply
66%
Thermoelectrics
66%
Maximum Power Point Tracking
66%
Power Grid
44%
Control Strategy
43%
Grid Voltage
36%
Low-Voltage Ride-through Capability
33%
Power Transient
33%
Step Size α
33%
Grid-Forming Converter
33%
Signal Model
33%
Experimental Result
33%
Simulation Result
27%
Synchronous Generator
27%
Choppers (Circuits)
22%
Soft-Switching
22%
Power Device
22%
Lowpass Filter
22%
Energy Dissipation
22%
Stabilizer
22%
Zero Voltage Switching
22%
Forming Technology
16%
Step Length
16%
Maximum Power Point
16%
Simulation Model
16%
Active Power
16%
Reactive Power
16%
Transients
16%
Dynamic Performance
16%
Voltage Sag
15%
Fault Condition
15%
Overcurrent
15%
Sequence Voltage
11%
Renewable Energy Resources
11%
Current-Voltage Characteristic
8%
