Malte Eggers
Struktur-Wiss. Mitarbeiter_in
Einrichtung | Leistungselektronik |
---|---|
Sekretariat | E 2 |
Gebäude | E |
Raum | E 18 |
Sprechzeiten: Mittwoch 14-15 Uhr
Curriculum Vitae
- Seit August 2018
Wissenschaftlicher Mitarbeiter am Institut für Energie- u. Automatisierungstechnik,
FG Leistungselektronik der Technischen Universität Berlin
- 2016 - 2018
Master of Science Elektrotechnik, Technische Universität Berlin
Studienschwerpunkt: Automatisierungstechnik, Energietechnik
Abschlussarbeit: Experimental Investigation of Control Strategies for Grid Forming Converters
- 2012 - 2016
Bachelor of Science Elektrotechnik, Technische Universität Berlin
Studienschwerpunkt: Elektronik und Informationstechnik
Abschlussarbeit: Generation prediction and dynamic load scheduling in smart microgrids
- Weiteres
2015-2017: Austausch mit Shanghai Jiaotong University, Shanghai, China.
2017: Praktikum bei Hisense, Qingdao, China
Forschungsschwerpunkte
- Netzbildende Umrichterregelungen
- Umrichter in schwachen Netzen
- Regelung von Umrichtern während Netzfehlern und asymmetrien
Betreute Abschlussarbeiten
Publikationen
2022
Hassan,
Tayssir;
Eggers,
Malte;
Yang,
Huoming;
Teske,
Peter;
Dieckerhoff,
Sibylle
Constant DC power infeed grid forming with improved ability to ride-through unbalanced low-voltage faults
24th European Conference on Power Electronics and Applications (EPE'22 ECCE Europe),
Hanover, Germany
Herausgeber: IEEE
September 2022
Constant DC power infeed grid forming with improved ability to ride-through unbalanced low-voltage faults
24th European Conference on Power Electronics and Applications (EPE'22 ECCE Europe),
Hanover, Germany
Herausgeber: IEEE
September 2022
- ISBN
- 978-9-0758-1539-9
Yang,
Huoming;
Eggers,
Malte;
Teske,
Peter;
Dieckerhoff,
Sibylle
Comparative Stability Analysis and Improvement of Grid-Following Converters Using Novel Interpretation of Linear Time-Periodic Theory
10
Juli 2022
Herausgeber: IEEE
ISSN: 2168-6777
Comparative Stability Analysis and Improvement of Grid-Following Converters Using Novel Interpretation of Linear Time-Periodic Theory
10
Juli 2022
Herausgeber: IEEE
ISSN: 2168-6777
Teske,
Peter;
Eggers,
Malte;
Yang,
Huoming;
Dieckerhoff,
Sibylle
Power Hardware-in-the-Loop Testbench for Grid-Following and Grid-Forming Inverter Prototyping
2022 IEEE 13th International Symposium on Power Electronics for Distributed Generation Systems (PEDG),
Kiel, Germany
Herausgeber: IEEE
Juni 2022
Power Hardware-in-the-Loop Testbench for Grid-Following and Grid-Forming Inverter Prototyping
2022 IEEE 13th International Symposium on Power Electronics for Distributed Generation Systems (PEDG),
Kiel, Germany
Herausgeber: IEEE
Juni 2022
- ISBN
- 978-1-6654-6618-9
Eggers,
Malte;
Teske,
Peter;
Dieckerhoff,
Sibylle
Virtual-Impedance-Based Current-Limitation of Grid-Forming Converters for Balanced and Unbalanced Voltage Sags
2022 IEEE 13th International Symposium on Power Electronics for Distributed Generation Systems (PEDG),
Kiel, Germany
Herausgeber: IEEE
Juni 2022
Virtual-Impedance-Based Current-Limitation of Grid-Forming Converters for Balanced and Unbalanced Voltage Sags
2022 IEEE 13th International Symposium on Power Electronics for Distributed Generation Systems (PEDG),
Kiel, Germany
Herausgeber: IEEE
Juni 2022
- ISBN
- 978-1-6654-6618-9
2021
Eggers,
Malte;
Dieckerhoff,
Sibylle
Low-Inertia Grid-Forming Control with Large Phase Angle Jump Capability for Converters With Small Energy Storage
Seite 1-6
Cartagena, Colombia
Herausgeber: IEEE Xplore
November 2021
Low-Inertia Grid-Forming Control with Large Phase Angle Jump Capability for Converters With Small Energy Storage
Seite 1-6
Cartagena, Colombia
Herausgeber: IEEE Xplore
November 2021
- ISBN
- 978-1-6654-3635-9
Yang,
Huoming;
Eggers,
Malte;
Teske,
Peter;
Dieckerhoff,
Sibylle
Modeling and Stability Analysis of Converter-Dominated Grids with Dynamic Loads
2021 6th IEEE Workshop on the Electronic Grid (eGRID), Seite 1-7
Kiel, Deutschland
Herausgeber: IEEE Xplore
November 2021
Modeling and Stability Analysis of Converter-Dominated Grids with Dynamic Loads
2021 6th IEEE Workshop on the Electronic Grid (eGRID), Seite 1-7
Kiel, Deutschland
Herausgeber: IEEE Xplore
November 2021
- ISBN
- 978-1-6654-4979-3
Kaufmann-Bühler,
Marius;
Eggers,
Malte;
Just,
Hendrik;
Dieckmann,
R.
Can SiC MOSFETs improve the dynamics of grid-connected voltage source inverters?
2021 IEEE 12th International Symposium on Power Electronics for Distributed Generation Systems (PEDG), Seite 1-7
Chicago, IL, USA
Herausgeber: IEEE Xplore
Juli 2021
Can SiC MOSFETs improve the dynamics of grid-connected voltage source inverters?
2021 IEEE 12th International Symposium on Power Electronics for Distributed Generation Systems (PEDG), Seite 1-7
Chicago, IL, USA
Herausgeber: IEEE Xplore
Juli 2021
- ISBN
- 978-1-6654-0465-5
2020
Just,
Hendrik;
Yang,
Huoming;
Eggers,
Malte;
Kaufmann-Bühler,
Marius;
Dieckerhoff,
Sibylle
Assessing Power Factor Distortion and Transient Current Response of Grid Converters During Fault Ride-Through with Extended PLL Models
In IEEE, Editor
November 2020
Assessing Power Factor Distortion and Transient Current Response of Grid Converters During Fault Ride-Through with Extended PLL Models
In IEEE, Editor
November 2020
Yang,
Huoming;
Just,
Hendrik;
Eggers,
Malte;
Dieckerhoff,
Sibylle
Modeling and Stability Analysis of Grid-Following Voltage-Source Converters Utilizing Individual Channel Design Method
Herausgeber: IEEE, Aalborg, Denmark
November 2020
Modeling and Stability Analysis of Grid-Following Voltage-Source Converters Utilizing Individual Channel Design Method
Herausgeber: IEEE, Aalborg, Denmark
November 2020
Just,
Hendrik;
Yang,
Huoming;
Eggers,
Malte;
Teske,
Peter;
Dieckerhoff,
Sibylle
Multi-Fidelity Model-based PLL Design for Enhanced Dynamics and Transient Stability during Fault Ride-Through
In IEEE, Editor
November 2020
Multi-Fidelity Model-based PLL Design for Enhanced Dynamics and Transient Stability during Fault Ride-Through
In IEEE, Editor
November 2020
Eggers,
Malte;
Yang,
Huoming;
Just,
Hendrik;
Dieckerhoff,
Sibylle
Virtual-Impdance-Based Droop Control for Grid-Forming Inverters with Fast Response to Unbalanced Grid Faults
In IEEE, Editor
September 2020
Virtual-Impdance-Based Droop Control for Grid-Forming Inverters with Fast Response to Unbalanced Grid Faults
In IEEE, Editor
September 2020
Yang,
Huoming;
Eggers,
Malte;
Just,
Hendrik;
Teske,
Peter;
Dieckerhoff,
Sibylle
Linear Time-Periodic Theory Based Harmonic Resonance Analysis of Converter Dominated Power System
IEEE Journal of Emerging and Selected Topics in Power Electronics (Early Access)
2020
ISSN: 2168-6777
Linear Time-Periodic Theory Based Harmonic Resonance Analysis of Converter Dominated Power System
IEEE Journal of Emerging and Selected Topics in Power Electronics (Early Access)
2020
ISSN: 2168-6777
Yang,
Huoming;
Just,
Hendrik;
Eggers,
Malte;
Dieckerhoff,
Sibylle
Linear Time-Periodic Theory Based Modeling and Stability Analysis of Voltage Source Converters
Herausgeber: IEEE
2020
Linear Time-Periodic Theory Based Modeling and Stability Analysis of Voltage Source Converters
Herausgeber: IEEE
2020
Yang,
Huoming;
Just,
Hendrik;
Eggers,
Malte;
Dieckerhoff,
Sibylle
Wirtinger Calculus Based Modeling and Analysis of VSG-Dominated Grids
In IEEE, Editor
2020
Wirtinger Calculus Based Modeling and Analysis of VSG-Dominated Grids
In IEEE, Editor
2020
2019
Eggers,
Malte;
Yang,
Huoming;
Just,
Hendrik;
Dieckerhoff,
Sibylle;
Yin,
Hang
Multi-objective Parameter Optimization of Multiple VSG and Droop Controlled Inverters for Grid-connected and Islanded Operation
In IEEE, Editor
Herausgeber: IEEE Explore
Juni 2019
Multi-objective Parameter Optimization of Multiple VSG and Droop Controlled Inverters for Grid-connected and Islanded Operation
In IEEE, Editor
Herausgeber: IEEE Explore
Juni 2019
- ISBN
- 978-1-7281-1842-0
Just,
Hendrik;
Gentejohann,
Marius;
Eggers,
Malte;
Dieckerhoff,
Sibylle
Analysis and Control of DC-link Oscillations of Voltage Source Inverters during Unbalanced Grid Faults
In IEEE, Editor
Herausgeber: IEEE
2019
Analysis and Control of DC-link Oscillations of Voltage Source Inverters during Unbalanced Grid Faults
In IEEE, Editor
Herausgeber: IEEE
2019
- ISBN
- 978-9-0758-1531-3