通过控制死区时间段主动消除基于 SiC 的双主动桥的直流偏置电流

IF 1.7 4区 工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC IET Power Electronics Pub Date : 2024-08-08 DOI:10.1049/pel2.12753
Ganesan Perumal, Kamalesh Hatua, Manju Rajagopal
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引用次数: 0

摘要

双有源桥(DAB)是一种隔离式直流-直流转换器,在电力电子应用中日益受到广泛关注。高频(HF)变压器是 DAB 不可分割的一部分,容易饱和。基于碳化硅(SiC)的 DAB 通常是高效功率转换的首选,要求变压器具有极低的直流电阻。这大大加剧了直流偏置问题。直流偏置电流一般是由于有源器件的静态和瞬态开关不匹配而产生的,最终导致变压器饱和。本文提出了一种有源方法,可在不影响转换器电压利用率的情况下精确控制器件的死区时间(8-100 ns)。这种方法不需要复杂的直流偏移电流测量技术。栅极驱动器侧基于现场可编程门阵列(FPGA)的控制平台可执行所提出的算法。所提出的控制方法在一个 5 kW 基于碳化硅的转换器中进行了实验验证。在必要的实验结果支持下,对控制实现方法进行了讨论。
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Active elimination of DC bias current of a SiC based dual active bridge by controlling the dead time period

Dual active bridge (DAB) is an isolated DC-DC converter gaining wider attention in power electronics applications. The high frequency (HF) transformer is an integral part of the DAB which is prone to saturation. Silicon carbide (SiC) based DAB are generally preferred for highly efficient power conversions, calling for an extremely low DC resistance of the transformer. This aggravates the DC bias issue significantly. The DC bias current generally flows due to the mismatch in static and transient switching of active devices, leading to eventual saturation of the transformer. This paper proposes an active method to precisely control the dead time of the devices (8–100 ns) without sacrificing the voltage utilization of the converter. This method does not require a sophisticated DC offset current measurement technique. The field programmable gate array (FPGA) based control platform on the gate driver side executes the proposed algorithm. The proposed control is experimentally verified in a 5 kW SiC based converter. The control implementation methodology is discussed with the support of necessary experimental results.

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来源期刊
IET Power Electronics
IET Power Electronics ENGINEERING, ELECTRICAL & ELECTRONIC-
CiteScore
5.50
自引率
10.00%
发文量
195
审稿时长
5.1 months
期刊介绍: IET Power Electronics aims to attract original research papers, short communications, review articles and power electronics related educational studies. The scope covers applications and technologies in the field of power electronics with special focus on cost-effective, efficient, power dense, environmental friendly and robust solutions, which includes: Applications: Electric drives/generators, renewable energy, industrial and consumable applications (including lighting, welding, heating, sub-sea applications, drilling and others), medical and military apparatus, utility applications, transport and space application, energy harvesting, telecommunications, energy storage management systems, home appliances. Technologies: Circuits: all type of converter topologies for low and high power applications including but not limited to: inverter, rectifier, dc/dc converter, power supplies, UPS, ac/ac converter, resonant converter, high frequency converter, hybrid converter, multilevel converter, power factor correction circuits and other advanced topologies. Components and Materials: switching devices and their control, inductors, sensors, transformers, capacitors, resistors, thermal management, filters, fuses and protection elements and other novel low-cost efficient components/materials. Control: techniques for controlling, analysing, modelling and/or simulation of power electronics circuits and complete power electronics systems. Design/Manufacturing/Testing: new multi-domain modelling, assembling and packaging technologies, advanced testing techniques. Environmental Impact: Electromagnetic Interference (EMI) reduction techniques, Electromagnetic Compatibility (EMC), limiting acoustic noise and vibration, recycling techniques, use of non-rare material. Education: teaching methods, programme and course design, use of technology in power electronics teaching, virtual laboratory and e-learning and fields within the scope of interest. Special Issues. Current Call for papers: Harmonic Mitigation Techniques and Grid Robustness in Power Electronic-Based Power Systems - https://digital-library.theiet.org/files/IET_PEL_CFP_HMTGRPEPS.pdf
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