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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
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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
Boost Circuit
66%
Control Core
33%
Control Strategy
19%
DC Chopper
33%
DC Power Supply
66%
Device Materials
33%
Dynamic Power
33%
Energy Loss
33%
Energy Reduction
33%
Fault Current
19%
Grid Voltage Sag
15%
Grid-connected Converter
33%
Grid-connected Inverter
33%
Grid-forming Converter
33%
High-frequency Voltage
33%
Impedance Voltage
33%
Inverter
33%
Low Voltage Ride-through
66%
Low-pass Filter
33%
LVRT Capability
33%
Main Circuit
33%
Matrix Laboratory (MATLAB)
50%
Maximum Power Point
16%
Maximum Power Point Tracking
66%
Perturbation Method
66%
Power Angle
16%
Power Decoupling
33%
Power Device
33%
Power Grid
19%
Power Supply
33%
Power Synchronization
26%
Rectifier
33%
Saving Time
16%
Simulation Model
16%
Small Step
16%
Small-signal Model
16%
Soft-switching Technology
33%
Synchronous Generator
19%
Thermoelectric Generation
66%
Transient Power
16%
Transient Stability
16%
Virtual Impedance
33%
Virtual Inertia
19%
Virtual Synchronous Generator
83%
Voltage Control
33%
Voltage Stabilizer
33%
Voltage-doubling Rectifier
33%
Voltage-to-frequency Converter
33%
Work Efficiency
16%
ZVS Soft-switching
33%
Engineering
Active Power
16%
Choppers (Circuits)
22%
Control Strategy
43%
Current-Voltage Characteristic
8%
Dynamic Performance
16%
Energy Dissipation
22%
Experimental Result
33%
Fault Condition
15%
Forming Technology
16%
Grid Voltage
36%
Grid-Forming Converter
33%
Low-Voltage Ride-through Capability
33%
Lowpass Filter
22%
Maximum Power Point
16%
Maximum Power Point Tracking
66%
Overcurrent
15%
Power Device
22%
Power Grid
44%
Power Supply
66%
Power Transient
33%
Reactive Power
16%
Renewable Energy Resources
11%
Sequence Voltage
11%
Signal Model
33%
Simulation Model
16%
Simulation Result
27%
Soft-Switching
22%
Stabilizer
22%
Step Length
16%
Step Size α
33%
Synchronous Generator
27%
Thermoelectrics
66%
Transients
16%
Virtual Synchronous Generator
100%
Voltage Sag
15%
Zero Voltage Switching
22%
