# Title Funder Funding Start End Status
1 Study and assessment of technical and commercial feasibility of a new Silicon Carbide (SiC) Bipolar Junction Transistor (BJT) technology for High Voltage DC (HVDC) electricity transmission for offshore renewables Innovate UK
£123,850
July 31, 2014 Nov. 30, 2014 Closed
2 Design, build and testing of a 50 kVA SiC BJT inverter as a building block for high-power HVDC inverters EPSRC
£417,522
Aug. 31, 2014 May 30, 2016 Closed
3 Design, build and testing of a 50 kVA SiC BJT inverter as a building block for high-power HVDC inverters EPSRC
£104,080
Aug. 24, 2016 Nov. 24, 2016 Closed
4 Design, build and testing of a 50 kVA SiC BJT inverter as a building block for high-power HVDC inverters EPSRC
£1,043,805
Aug. 31, 2014 May 31, 2016 Closed
5 Design, build and testing of a 50 kVA SiC BJT inverter as a building block for high-power HVDC inverters EPSRC
£260,200
Aug. 24, 2016 Nov. 24, 2016 Closed
6 Design, build and testing of a 50 kVA SiC BJT inverter as a building block for high-power HVDC inverters Innovate UK
£688,750
Sept. 30, 2014 Sept. 29, 2016 Closed
7 Design, build and testing of a 50 kVA SiC BJT inverter as a building block for high-power HVDC inverters Innovate UK
£1,721,875
Sept. 30, 2014 Sept. 30, 2016 Closed
8 Study and assessment of technical and market potentials of a new Silicon Carbide (SiC) Inverter technology for High Voltage DC electricity transmission for offshore renewables Innovate UK
£20,384
Dec. 1, 2016 March 30, 2017 Closed
9 Reducing the levelised cost of energy (LCOE) in offshore wind through a disruptive silicon carbide converter technology, SiCtek Innovate UK
£331,760
Sept. 30, 2020 June 29, 2021 Closed
10 Feasibility Assessment of a New Ultra-High Voltage Silicon Carbide Power Electronics Converter Technology for Electricity Grids Innovate UK
£49,274
July 31, 2013 Nov. 30, 2013 Closed
11 Compact ultra-efficient low-cost silicon carbide inverter technology for electric vehicles Innovate UK
£137,278
April 30, 2020 April 29, 2021 Closed
12 Feasibility Assessment of a New Ultra-High Voltage Silicon Carbide Thyristor Technology for Multi-Megawatt Wind Turbines' Power Electronics Converters Innovate UK
£229,114
June 30, 2013 June 29, 2014 Closed
13 Feasibility Assessment of a New Ultra-High Voltage Silicon Carbide Thyristor Technology for Multi-Megawatt Wind Turbines' Power Electronics Converters Innovate UK
£572,785
June 30, 2013 June 30, 2014 Closed
14 Commercial SiC Power Electronics Innovate UK
£102,116
Nov. 1, 2011 July 30, 2012 Closed
15 Commercial SiC Power Electronics Innovate UK
£255,290
Nov. 1, 2011 July 31, 2012 Closed
16 Development of silicon carbide plasma etch processes for next generation power electronics EPSRC
£0
Sept. 30, 2020 Sept. 29, 2024 Active
17 Development of silicon carbide plasma etch processes for next generation power electronics EPSRC
£0
Sept. 30, 2020 Sept. 30, 2024 Active
18 TESiC-SuperJ - Trench Epitaxy for SiC Superjunctions: technology enabling low loss HVDC power electronics. EPSRC
£797,602
Sept. 30, 2021 Sept. 29, 2024 Active
19 TESiC-SuperJ - Trench Epitaxy for SiC Superjunctions: technology enabling low loss HVDC power electronics. EPSRC
£1,994,005
Sept. 30, 2021 Sept. 30, 2024 Active
20 Exploring market potentials and global collaboration opportunities for a disruptive silicon carbide converter technology, SiCtronic, for offshore wind Innovate UK
£41,278
Jan. 1, 2017 March 30, 2017 Closed
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