DC shipboard microgrids with constant power loads: A review of advanced nonlinear control strategies and stabilization techniques
In modern dc shipboard microgrid (SMG) systems, the propulsion motors and hotel loads are
always supplied through tightly regulated point of load converters, which behave as constant …
always supplied through tightly regulated point of load converters, which behave as constant …
[PDF][PDF] 基于电压分层控制的直流微电网及其储能扩容单元功率协调控制策略
郭慧, 汪飞, 顾永文, 李玉菲 - TRANSACTIONS OF …, 2022 - dgjsxb.ces-transaction.com
摘要由于直流微电网中的分布式发电具有随机性和波动性等特点, 储能单元的配合可较好地解决
这一问题. 但是, 现有基于直流母线电压信号的分层控制未充分考虑多储能单元的协调以及孤岛 …
这一问题. 但是, 现有基于直流母线电压信号的分层控制未充分考虑多储能单元的协调以及孤岛 …
Stability improvement of cascaded power conversion systems based on Hamiltonian energy control theory
S Pang, B Nahid-Mobarakeh… - IEEE Transactions …, 2020 - ieeexplore.ieee.org
It is well known that the interaction between cascaded individually designed power
conversion systems can cause instability. To overcome this issue, a Hamiltonian energy …
conversion systems can cause instability. To overcome this issue, a Hamiltonian energy …
Model Predictive Control-Based Voltage Oscillations Stabilizer for Point-of-Load converter With EMI Filter in DC Microgrids
Power to the ac loads in a dc microgrid is mostly provided by point-of-load (POL) converters
with integrated input LC filters. However, the interaction between the LC filter and POL …
with integrated input LC filters. However, the interaction between the LC filter and POL …
Local-stability analysis of cascaded control for a switching power converter
M Afkar, R Gavagsaz-Ghoachani… - Journal of Robotics …, 2024 - journal.umy.ac.id
Switching power converters are integral in various applications like transportation and
renewable energy. After their design, ensuring stable closed-loop poles is critical to maintain …
renewable energy. After their design, ensuring stable closed-loop poles is critical to maintain …
Hamiltonian Energy Control with Energy Management Strategy for Fuel Cell Hybrid Power System
This article introduces an adaptive Hamiltonian energy control strategy for the proposed
Fuel Cell (FC) hybrid power electronics architecture. The proposed controller with added …
Fuel Cell (FC) hybrid power electronics architecture. The proposed controller with added …
Higher Order Sliding Mode Observer Based Fast Composite Backstepping Control for HESS in DC Microgrids
B Wang, Z Li, H Fan, X Wan, L Xian… - IEEE Transactions on …, 2024 - ieeexplore.ieee.org
Hybrid energy storage system (HESS) is effective to compensate for fluctuation power in
renewables and fast fluctuation loads in DC microgrids. To regulate DC bus voltage, a …
renewables and fast fluctuation loads in DC microgrids. To regulate DC bus voltage, a …
Stability Criterion of DC-DC Converter with Different Loads Based on Mixed Potential Theory
Y Li, F Wang, Y Zhu, H Guo - IEEE Access, 2024 - ieeexplore.ieee.org
The dc systems consisting of power electronic converters always suffer from various stability
problems, and the mixed potential theory (MPT) has been widely applied to study these …
problems, and the mixed potential theory (MPT) has been widely applied to study these …
Sliding mode input current control of the synchronous DC-DC buck converter for electro-mechanical actuator emulation in more electric aircrafts
The main challenges of the input current control in synchronous DC-DC buck converters are
the nonlinear model of the system, changes of the operating point in a wide range, and the …
the nonlinear model of the system, changes of the operating point in a wide range, and the …
Hamiltonian energy control with built-in integral term for fuel cell hybrid power system
This paper introduces an adaptive Hamiltonian energy control strategy for the proposed fuel
cell hybrid power electronics architecture. The proposed controller with added integrator …
cell hybrid power electronics architecture. The proposed controller with added integrator …