Deliverables
D2.1 will describe the work carried out at the end of task 2.2, including the topology study carried out in task 2.1. The document will give detail of the properties of the designed converter, and the advantages of the selected topology in a specific application (batteries powered by high-voltage bus)
Preliminary AI AFD algortihm architetureD32 is a report describing the preliminary design of the architecture of the detector including the definition of the neural networks architecture and the proposed learning process Moreover this report will explain the complete test plan to produce the dataset
State of the Art of diamond power devices and convertersReport on state of the art of diamond power devices and their integration in power converters A focus will be done on different architectures of MOSFETs on Oxygen and Hydrogen surface terminated monocrystalline diamond diamond JFETs and MESFETs
Preliminary Design of the Diamond Power DeviceAn optimized preliminary design structure channel doping and thickness of the diamond power device FET obtained by simulation will be reported Test structures and optimized surface architecture for FETs will be reported Both designs will be transferred to Task 12 Task 14 for device fabrication
Data Management Plan (DMP)This proposal addresses a Thematic topic therefore optin and DMP is mandatory This document will collect all the information described in the DMP template such as DMP responsible Data summary FAIR data etc
Exploitation and Dissemination ReportThis deliverable will present the achievements of the consortium with respect to the objectives described in deliverable 6.1.
Arc Fault Detection State of the artD31 is a report and scientific papers on state of the art of arc fault detection principle based on neural network with a special focus on High Voltage Direct Current HVDC detection principle
Preliminary Diamond converter designPreliminary design of the of the diamond converter reporting preliminary results of T21 and T22 This deliverable will be further detailed in D22
Diamond Converters and Arc Fault Detection Technology RoadmapThis deliverable will be the result of task 4.2. In this deliverable, al the partners will try to collect all the advantage and potential shortcomings of diamond semiconductors and arc fault detection techniques. Furthermore, it will elaborate the identification of scientific and technical challenges preventing the successful deployment of such technologies.
Plan for Exploitation and Dissemination of ResultsThis deliverable will describe a detailed plan for the dissemination and exploitation of the results
Working diamond power transistors will be available for further packaging and transfer to WP2, to be implemented in the power converter and report on IV-T pulsed DC measurements and CV-f-T small signal AC measurements, benchmarking the achieved performances with diamond FETs from the first fabrication batch, versus other diamond and wide bandgap transistors. Batch 2
Functional prototype - DC/DC SiC ConverterA final DC/DC converter based on SiC semiconductor will be manufactured at the end of Task 2.4. After its commissioning on Task 2.6 a functional prototype will be available for demonstrations on SKLE facilities. A report will also describe the final design of the converters used as Test-Bench for semiconductors comparisons. Differences between each type and the solutions provided for each technology will be described on the document.
Functional prototype Diamond power Field Effect Transistors (batch 1)Working diamond power transistors will be available for further packaging and transfer to WP2, to be implemented in the power converter and report on IV-T pulsed DC measurements and CV-f-T small signal AC measurements, benchmarking the achieved performances with diamond FETs from the first fabrication batch, versus other diamond and wide bandgap transistors.
AFD prototype, algorithm and validation reportD3.4 is the specification of the electronic board designed to embed the neural network. It comprises the specification of the processor used (or FPGA, or dedicated chip, or…), the specification of the sensor, the specification of the input/output interface (used to acquire the signal from the reflectometer and to drive a circuit breaker). D3.4 also includes the schematics of the board and the software definition and files. Furthermore it will describe the design of the architecture of the detector, including the definition of the neural networks and the learning process and the detector performances. The evaluated performances are the detection rates: true positive, true negative false positive, false negative, the accuracy, the sensitivity, the detection time, the ability to locate the arc in the distribution and the possible improvements
SiC vs Diamond semiconductors resultsDeliverable D2.4 will describe the final result obtained during commissioning of converters (Task 2.6 and 2.8). A comparison will be made between the two technologies (SiC and Diamond), differentiating results from Batch 1 and Batch 2. A table of advantages/disadvantages will be made for each semiconductor. Furthermore, a final DC/DC converted based on Diamond (Batch 2) semiconductors Prototype will be available for demonstrations on SKLE Facilities
D3.2 is a database of electrical signal of an arc fault produced in a representative aircraft distribution network. The database is composed of both signals generated with the IRT’s arc model and real signals generated with the “small distribution lab”.
Publications
Author(s):
M. Couret , A. Castelan, D. Eon , E. Sarraute , N. Rouger
Published in:
2023
Publisher:
Hasselt Diamond Workshop 2023 SBDD XXVII
Author(s):
Marine Couret, Nicolas C. Rouger, Khaled Driche, Juliette Letellier, Anne Castelan, Julien Pernot
Published in:
MRS Spring 2022 - Symposium EQ01, 2022
Publisher:
MRS Spring 2022 - Symposium EQ01 - Ultra-Wide Bandgap Materials and Devices
Author(s):
Marine Couret , Anne Castelan , Juliette Letellier , Khaled Driche , Julien Pernot , Nicolas C. Rouger
Published in:
Workshop - SBDD XXVI, 2022
Publisher:
Workshop - SBDD XXVI
Author(s):
Nicolas C. Rouger
Published in:
2023
Publisher:
33rd International Conference on Diamond and Carbon Materials ICDCM 2023
Author(s):
Damien Michez, Marine Couret, Juliette Letellier, Khaled Driche, Julien Pernot, Nicolas C. Rouger
Published in:
Hasselt Diamond Workshop 2023 - SBDD XXVII, 2023
Publisher:
Hasselt Diamond Workshop 2023 - SBDD XXVII
Author(s):
Martin Kah, Damien Michez, Nicolas C. Rouger, Juliette Letellier, Khaled Driche, Marine Couret, Anne Castelan, Julien Pernot
Published in:
Symposium de génie Electrique (SGE 2023), 2023
Publisher:
ScienceConf
Author(s):
Nicolas C. Rouger
Published in:
MRS Spring 2022 - Symposium EQ01, 2022
Publisher:
MRS Spring 2022 - Symposium EQ01 - Ultra-Wide Bandgap Materials and Devices
Author(s):
Cédric Masante, Nicolas Rouger, Julien Pernot
Published in:
Journal of Physics D: Applied Physics, Issue 54/23, 2021, Page(s) 233002, ISSN 0022-3727
Publisher:
Institute of Physics Publishing
DOI:
10.1088/1361-6463/abe8fe
Author(s):
Marine Couret , Damien Michez, Juliette Letellier, Anne Castelan, Julien Pernot, Nicolas C. Rouger
Published in:
Diamond and Related Materials, Issue Volume 135, May 2023, 109827, 2023, ISSN 0925-9635
Publisher:
Elsevier BV
DOI:
10.1016/j.diamond.2023.109827
Author(s):
A. Chabert, M.C. Bakkay, P. Schweitzer, S. Weber and J. Andrea
Published in:
Electric Power Systems Research, 2022, ISSN 0378-7796
Publisher:
Elsevier BV
DOI:
10.13140/rg.2.2.31060.48004
Author(s):
Marine Couret, Anne Castelan, Nazareno Donato, Florin Udrea, Julien Pernot, Nicolas Rouger
Published in:
Diamond and Related Materials, Issue Volume 124, April 2022, 108936, 2022, ISSN 0925-9635
Publisher:
Elsevier BV
DOI:
10.1016/j.diamond.2022.108936
Author(s):
Alexis Chabert, Patrick Schweitzer, Serge Weber, Jonathan Andrea
Published in:
IEEE Transactions on Aerospace and Electronic Systems, 2021, Page(s) 1-1, ISSN 0018-9251
Publisher:
Institute of Electrical and Electronics Engineers
DOI:
10.1109/taes.2021.3118962
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