terça-feira, 13 de abril de 2021
Next-generation high-efficiency shunt-type differential photovoltaic power conditioner for modularization--Young-Tae Jon----Joung-Hu Park-SCHOOL OF ELECTRICAL ENGINEERING SOONGSIL UNIVERSITY SEOUL KOREA
Young Tae Jon----Joung-Hu Park-SCHOOL OF ELECTRICAL ENGINEERING SOONGSIL UNIVERSITY SEOUL KOREA
PURPOSE
Development of new concept structure, control algorithm and hardware prototype of next
generation power conditioner for conversion of paradigm of PV power generation
- Design of a new, parallel, integrated, modular, differential power conversion system
architecture (shuffler, feedback, feed-forward structure)
- Development of a high-power topology capable of maintaining high efficiency at low capacity
while implementing the minimum power point tracking algorithm (Anti-MPPT algorithm) for
minimizing power capacity, which is an advantage of differential power conversion
- Increase efficiency and reduce size using GaN MOSFET or SiC / Schottky diode.
- Optimal design of multi-loop feedback controller with stable and fast dynamic characteristics
by applying Extra-Element Theorem to multi-module power converters
- Proposed theory and performance analysis verification through hardware
RESULTS
Development of Next Generation Parallel Type High Efficiency Differential Power Regulator for
Modularization of Photovoltaic Power Generation
- Improved reliability and scalability by developing it as a parallel-type instead of a
conventional serial type
- A multi-winding transformer-type forward and buck converter is proposed to combine
magnetizing elements to construct a high-efficiency differential power regulator circuit.
: The methodology for achieving the goals was studied as follows.
- Dynamic dynamics analysis, controller design and hardware fabrication of multiple module
including MPPT algorithm of differential power regulator in the world's first modular PV
system structure
- Applied the Extra Element Theorem, which was used for the analysis of the complex system
of electronics for the first time in the academic world, to the power module, the differential
power modulator, and the multi-module dynamic characteristics analysis.
- Developed P & O algorithm to specify anti-MPPT concept.
- Developed a differential power regulator circuit using various feedback, feed-forward and
shuffling topologies.
Expected
Contribution
- Advantages of modular photovoltaic power
Expected
Contribution
- Advantages of modular photovoltaic power generation system are cost reduction and efficiency
improvement through standardized mass production. Therefore, it is possible to utilize the basic
data of basic plan preparation corresponding to standardization of PV industry.
- Apply to the environment policy for activation of solar power supply business and low carbon
industrialization
- Independent photovoltaic technology for satellite power supply is essential for promoting the
independence of high-tech space technology currently being promoted nationally.
- Wattmeter system technology in the space industry requires high reliability and flexibility
(scalability). Therefore, it is possible to acquire proprietary technology by developing a modular
parallel solar PV system.
- In relation to other energy harvesting issues, solar energy harvesting technique is less likely
to succeed than other piezoelectric (vibration) harvesting and thermal harvesting materials.
- Using the results of this study, we are promoting the commercialization of the technology
through the industry that is currently conducting the photovoltaic project, thereby improving the
field feedback and practicality of the research result
- Technology Transfer and Patent Transfer
- Contributes to the academic development of the new and renewable fields through announcing
SCI (annual) thesis
domingo, 28 de março de 2021
Development of 3kW Hybrid ESS with Function of Emergency Power Supply-Authors 양석현(Seok-Hyun Yang) ; 김민재(Min-Jae Kim) ; 최세완(Se-Wan Choi) ; 조준석(Jun-Seok Cho)
Abstract
Development of 3kW Hybrid ESS with Function of Emergency Power Supply
Authors 양석현(Seok-Hyun Yang) ; 김민재(Min-Jae Kim) ; 최세완(Se-Wan Choi) ; 조준석(Jun-Seok Cho
This paper proposes a high-efficiency 3-kW hybrid ESS with emergency power supply. The proposed system enables efficient use of power from photovoltaic (PV) cells and energy storage system (ESS). The proposed system can operate as an uninterruptible power supply (UPS) when grid fault occurs, providing seamless transfer from grid-connected mode to stand-alone mode. The LLC converter for PV achieves ZVS turn-on of switches and ZCS turn-off of diodes, and the isolated bidirectional DC-DC converter for ESS achieves ZCS turn-off regardless of load condition, resulting in high efficiency. The efficiency and performance of the proposed hybrid ESS has been verified by a 3-kW prototype.
sábado, 20 de março de 2021
Transient Calorimetric Measurement of Ferrite Core Losses Papamanolis, P.; Guillod, T.; Krismer, F.; Kolar, J. W.-Proceedings of the 35th IEEE Applied Power Electronics Conference and Exposition (APEC 2020)
LINK VIDEO: https://video.ethz.ch/play/presentations_2020/a0300b98-7210-4181-a5b2-2bd6fa4eaaf2.html Transient Calorimetric Measurement of Ferrite Core Losses Papamanolis, P.; Guillod, T.; Krismer, F.; Kolar, J. W. 21.03.2020 Proceedings of the 35th IEEE Applied Power Electronics Conference and Exposition (APEC 2020)
Abstract—An accurate and fast transient calorimetric
ferrite core-loss measurement method is proposed in
this paper. In contrast to electrical measurements, the
accuracy of the calorimetric approach is independent
of the magnetic excitation and operating frequency.
However, an accurate value of the thermal capacitance
of the Core Under Test (CUT) is required, which can be
achieved, e.g., by measuring the specific heat capacity
of the measured core material using a Differential
Scanning Calorimeter (DSC) or by using the CUT as a DC
electric conductor and measuring its thermal response
for known Joule heating. The proposed method is tested
experimentally and compared successfully to a state-ofthe-
art electrical loss measurement method on MnZn
ferrite cores.
domingo, 7 de março de 2021
INVESTIGATION OF BRIDGELESS SINGLE-PHASE SOLUTIONS FOR AC-DC POWER FACTOR CORRECTED CONVERTERS by Muntasir Ul Alam. -THE UNIVERSITY OF BRITISH COLUMBIA
INVESTIGATION OF BRIDGELESS SINGLE-PHASE SOLUTIONS FOR AC-DC POWER FACTOR CORRECTED CONVERTERS
by
Md. Muntasir Ul Alam
M.E.Sc., Western University, 2010
B.Sc., Islamic University of Technology, 2006
A THESIS SUBMITTED IN PARTIAL FULFILLMENT OF
THE REQUIREMENTS FOR THE DEGREE OF
DOCTOR OF PHILOSOPHY
in
The College of Graduate Studies
(Electrical Engineering)
THE UNIVERSITY OF BRITISH COLUMBIA
(Okanagan)
July 2017
domingo, 28 de fevereiro de 2021
High Efficiency GaN FET based Flexible Electrical Power System for Cube-Satellites using Pulse Frequency Modulation by Ashish Sanjay Shrivastav
High Efficiency GaN FET based Flexible Electrical Power System for Cube-Satellites using Pulse Frequency Modulation by Ashish Sanjay Shrivastav
A thesis submitted to the Graduate Faculty of
North Carolina State University
in partial fulfillment of the
requirements for the Degree of
Master of Science
Electrical Engineering
Raleigh, North Carolina
2016
ABSTRACT
CubeSats, miniature satellites, are playing an increasingly larger role in space exploration,
technology demonstrations, scientific research and educational investigations. These miniature
satellites provide a low-cost platform for various missions, including planetary space exploration;
Earth observation; fundamental Earth and space science; and technology demonstrations such
as cutting-edge laser communications, energy storage, in-space propulsion and autonomous
movement capabilities. They also allow educators an inexpensive means to engage students in
all phases of satellite development, operation and exploitation through real-world, hands-on
research and development experience. There has been a rising emergence of researchers, universities and professional institutions constituting towards the development and launching of
these CubeSats.
CubeSat is a generic term for a miniature satellite which is designed using commercial offthe-shelf components for development of its electronics framework [1] which capcitates anyone
to build a satellite. A CubeSat has a volume of 1 liter, which translates into a cube having a
10 cm edge. A typical CubeSat weighs approximately 1 kilogram. The most remarkable feature
of such satellites is the simplified development cycle; the use of off-the-shelf hardware and easy
access to software resources has led to rapid rise in the number of the CubeSats deployed. They
provide an economic approach for academia to contribute towards space research. CubeSats are
highly modular and can be used to form larger satellites. The electrical system of a CubeSat
is driven by the EPS, the powerhouse of the CubeSat. It is responsible for powering the various components of the CubeSat which includes the control unit, servo mechanisms, scientific
equipment and communication modules.
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