New Power Semiconductor Devices of JCS “Proton-Electrotex” Production

New Power Semiconductor Devices of JCS “Proton-Electrotex” Production

Yury Loktaev
Alexander Stavtsev/ "Proton-Electrotex", Technical Director
Alexey Surma/"Proton-Electrotex",Head of Research and Development Center
Anatoly Chernikov/"Proton-Electrotex", Deputy Technical Director for New Technology

JSC "Proton-Electritex" is one of the leading Russian companies in terms of development and production of high-power semiconductor devices: diodes, thyristors, modules on their base, heat-sinks.
The released production covers practically all range of power semiconductor thyristors and diodes with voltage from 100 to 6500 V and with current from 100 to 3000 A. Thyristors and diodes are produced of disk and stud constructional type. Along with thyristors and diodes which are supposed to operate under industrial frequency our company also produces fast and pulse-frequency thyristors, fast-recovery diodes as well as diodes with soft characteristic of reverse recovery.
A wide nomenclature of modules is also prodused on the base of thyristor and diode elements in different circuit configurations in full press-pack construction with isolated basement. Modules are produced under voltage from 100 to 1250 A.
The main tendencies of new equipment development can be characterized as following.
LINK1
http://proton-electrotex.com/files/project_52/08_New_Power_Semiconductor_Devices_eng.pdf

Iluminação de emergência Indústria e Mineração KOLFF KC-2559 FP

 

MAIORES INFORMAÇOES SOBRE OS PRODUTOS KOLFF NO WEBSITE:
http://www.kolff.com.br

Design and development of a battery cell voltage monitoring system. Master’s Thesis Nick Prinsloo Department of Electrical Engineering Cape Peninsula University of Technology

Design and development of a battery cell voltage monitoring system.

Master’s Thesis
Nick Prinsloo
Department of Electrical Engineering
Cape Peninsula University of Technology

A Thesis for
The Department of Electrical Engineering in fulfilment of the requirements for the
Magister Technologiae degree in electrical engineering,
at the Cape Peninsula University of Technology.

Abstract
The purpose of this thesis was to design and develop a measurement system that would allow accurate measurement of individual cell voltages in a series cell stack. The system was initially proposed to be used in conjunction with an active cell balancer. This would allow for the efficient equalising of cells as well as provide detailed information on the cell stack and how the stack operates over time. Having a system that measures voltages accurately, with which the active cell balancer can be controlled would allow for peak cell lifetime and performance. Current battery management systems are large, complex and inefficient and a new way of battery management had to be investigated. To accurately measure individual cells in a series stack, the high common mode voltage must be negated. Different techniques that are currently used to create galvanic isolation were reviewed; circuits were designed and were simulated to find the most suitable design. The traditional methods used to create galvanic isolation did not provide adequate results. The methods were too inefficient and not accurate enough to be used. The methods that had the required accuracy were too complicated to connect in a useable system.
FULL THESIS
https://www.mediafire.com/?3ot760o3mv8mm9z

PRECISE ANALYSIS OF IRON LOSS DISTRIBUTION IN ELECTRIC MACHINES USING FINITE ELEMENT METHOD INCORPORATED WITH MODELING ACCURACY IMPROVED VECTOR HYSTERESIS MODEL DEPARTAMENT OF ELECTRICAL ENGINEERING GRADUATE SCHOOL CHUNGBUK NATIONAL UNIVERSITY

 

FULL PAPER LINK
https://www.mediafire.com/?8q0mdcopz6m0v0g

Reliability Improvement of H-Bridge Multi-level Inverter for Medium-Voltage and High-Power Induction Motor Drives Young-Min Park, Kwang-Hwan Lee, and Se-Hyun Lee

Power Electronics Building Blocks PEBB  Power Cell

Reliability Improvement of H-Bridge Multi-level Inverter for Medium-Voltage and High-Power Induction Motor Drives Young-Min Park, Kwang-Hwan Lee, and Se-Hyun Lee Abstract - This paper proposes the reliability improvement of H-Bridge Multi-level (HBM) inverter. This reliability can be implemented through modularization of power circuit, distribution of controller, duplication of controller and communication, and continuous operation method in case of power cell failure for driving medium-voltage & high-power induction motor. It is shown that the modularization and expansion characteristics of the HBM inverter are improved since the individual inverter modules operate more independently when using the proposed concept. Also the fault tolerance is increased by using power cell bypass. The proposed design and control methods are described in detail and the validity of the proposed system is verified experimentally in various industrial fields.
Paper number: TKPE-2014-19-2-1 Print ISSN: 1229-2214 Online ISSN: 2288-6281 ✝ Corresponding author: pym@hhi.co.kr, Power Conversion Research Department, Hyundai Heavy Industries Co., LTD. Tel: +82-31-289-5135 Fax: +82-31-289-5150 1 Power Conversion Research Department, Hyundai Heavy Industries Co., LTD. 2 Power Conversion Research Department, Hyundai Heavy Industries Co., LTD. Manuscript received Sep. 23, 2013; accepted Nov. 25, 2013 ─ 본 논문은 2013년 전력전자학술대회 우수추천논문임
LINK
http://www.koreascience.or.kr/search/articlepdf_ocean.jsp?url=http://ocean.kisti.re.kr/downfile/volume/kipe/JRJJC3/2014/v19n2/JRJJC3_2014_v19n2_99.pdf