Real-Time Hardware-in-the-Loop Simulation and Control of Totem Pole PFC Converter

被引：0

作者：

Amiri, Peyman ^{[1
]}

Gautam, Deepak ^{[2
]}

Botting, Chris ^{[2
]}

Eberle, Wilson ^{[1
]}

Wang, Liwei ^{[1
]}

机构：

[1] Univ British Columbia, Sch Engn, Kelowna, BC, Canada

[2] Delta Q Technol Corp, Burnaby, BC, Canada

来源：

2020 IEEE 21ST WORKSHOP ON CONTROL AND MODELING FOR POWER ELECTRONICS (COMPEL) | 2020年

基金：

加拿大自然科学与工程研究理事会;

关键词：

Real-Time; Hardware-in-the-Loop; Simulation; Control; AC-DC Power Conversion; Power Factor Correction; Totem Pole; DC CURRENT INJECTION; TRANSFORMERLESS; STRATEGY;

D O I：

10.1109/compel49091.2020.9265648

中图分类号：

TP [自动化技术、计算机技术];

学科分类号：

0812 ;

摘要：

High efficiency totem pole power factor correction (PFC) converters have attracted a significant attention in recent years. State of the art wide band gap (WBG) devices make continuous conduction mode (CCM) totem pole PFC feasible for medium to high power applications. However, higher costs and complex control are the main barriers to widespread industrial adoption of this topology. Control challenges including current spikes during zero crossings, DC component in AC mains current and AC voltage drop handling are investigated in this paper. Appropriate control measures are utilized to address these challenges. Additionally an accurate low cost DC current reduction method is proposed. The effectiveness of the proposed control is verified through real-time hardware-in-the-loop simulation of a 1450 W interleaved totem pole PFC converter.

引用

页码：766 / 772

页数：7

共 50 条

[31] Alternative Hardware-In-the-Loop (HIL) Setups for Real-Time Simulation and Testing of Microgrids
Kumar, Y. V. Pavan
Bhimasingu, Ravikumar
PROCEEDINGS OF THE FIRST IEEE INTERNATIONAL CONFERENCE ON POWER ELECTRONICS, INTELLIGENT CONTROL AND ENERGY SYSTEMS (ICPEICES 2016), 2016,
[32] FADYS, a complex handling simulation model for real-time Hardware-in-the-loop applications
Dragon, L
NUMERICAL ANALYSIS AND SIMULATION IN VEHICLE ENGINEERING, 1996, 1283 : 117 - 129
[33] Software-Based Hardware-in-the-Loop Real-Time Simulation of Distribution Systems
Ziaeinejad, Saleh
Mehrizi-Sani, Ali
2016 IEEE POWER AND ENERGY SOCIETY GENERAL MEETING (PESGM), 2016,
[34] The real-time clutter model for hardware-in-the-loop simulation of active radar seeker
Liang, ZH
Jiang, ZD
Zhu, J
SYSTEM SIMULATION AND SCIENTIFIC COMPUTING (SHANGHAI), VOLS I AND II, 2002, : 63 - 67
[35] A hardware-in-the-loop simulation environment for real-time systems development and architecture evaluation
Balashov, V. V.
Bakhmurov, A. G.
Chistolinov, M. V.
Smeliansky, R. L.
Volkanov, D. Yu.
Youshchenko, N. V.
DEPCOS - RELCOMEX 2008: PROCEEDINGS OF THE INTERNATIONAL CONFERENCE ON DEPENDABILITY OF COMPUTER SYSTEMS, 2008, : 80 - 86
[36] Simulink and VC-based Hardware-in-the-loop Real-time Simulation for EV
Chen, Hongxu
Tian, Guangyu
Xie, Haiming
Xi, Anjing
25TH WORLD BATTERY, HYBRID AND FUEL CELL ELECTRIC VEHICLE SYMPOSIUM AND EXHIBITION PROCEEDINGS, VOLS 1 & 2, 2010, : 212 - 215
[37] Design of Real-Time Hardware-in-the-Loop TV Guidance System Simulation Platform
Chen, Zhongyuan
Liu, Xiaoming
Chen, Wanchun
INTERNATIONAL JOURNAL OF AEROSPACE ENGINEERING, 2017, 2017
[38] Specification, implementation, and hardware-in-the-loop real-time simulation of an active distribution grid
Hooshyar, H.
Mahmood, F.
Vanfretti, L.
Baudette, M.
SUSTAINABLE ENERGY GRIDS & NETWORKS, 2015, 3 : 36 - 51
[39] Real-Time Hardware-in-the-Loop Simulation of Electrical Machine Systems Using FPGAs
Usenmez, S.
Dilan, R. A.
Dolen, M.
Koku, A. B.
2009 INTERNATIONAL CONFERENCE ON ELECTRICAL MACHINES AND SYSTEMS, VOLS 1-3, 2009, : 1649 - 1654
[40] Real-time Hardware-in-the-Loop Modeling for Microgrid Applications
Baccino, Francesco
Brissette, A.
Ishchenko, D.
Kondabathini, A.
Serra, Pietro
2017 6TH INTERNATIONAL CONFERENCE ON CLEAN ELECTRICAL POWER (ICCEP): RENEWABLE ENERGY IMPACT, 2017, : 152 - 157

← 1 2 3 4 5 →