fpc2018 power electronics session 19 february 2018 · 2018-03-06 · fpc2018 power electronics...
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FPC2018 Power Electronics Session 19 February 2018
Dr Alastair McGibbonBusiness Development [email protected] 147 6390@4UK_Semis
Strategic partners
the Catapult will generate economic
growth by making the UK a global
leader in developing and
commercializing new applications for
compound semiconductors
Strategy
Innovation centre
Development kits:• Power Electronics • RF/microwave • Photonics
Challenge-led programmes
RF/microwavein digital economy
UK capacity
Mark
et a
ttra
ctiv
ene
ss
Photonics in thedigital economy
Power electronics in
transport
Sensors in health
Powerelectronics in
defense/security
Power electronics
in energy
Innovation centredesign studio• industry collaboration• access to expertise • supply chain relationships• access to design & simulation tools• reliability and failure analysis
RF/microwave laboratory• device characterisation• harsh environment analysis
photonics & sensors laboratory• advanced metrology• RF modulated photonics• dark room
power electronics laboratory• 100kV test & verification capability• access to 0.5MW of power• EMC screened
class 10K clean room advanced packaging lab• materials characterisation• precision engineering• die preparation & hybrid integration
Innovation centre
Development kits (evaluation modules)
Wafer£
Die ££
Device £££
System££££
Applications£££££
Dev-kit
Commission devices from UK fabs Provide dev-kits
What is an EvM in Power Electronics speak?
• Can be a simple demonstrator of a piece of IP – short and sharp• Can be an all-singing all dancing demonstrator or platform that brings
together research capability to demonstrate new integrated thinking.
• Can be funded in CR&D projects, commercially with industrial partners or through core funding.
Engagement
Powertrain efficiency
Long range extended
fuel cell
Full hybrid
Grand challenges addressable by CS
Automotive industrysector roadmap
• Develop sector roadmaps• Identify opportunities for CS• Develop supporting dev kits• Publish ‘state of the nation’• Investment seminars• Open days, hackathons, garaging
Strategic investments: span materials to systems & TRL1 to TRL9
Die
Device
System
Wafer
~5,000 system integration companies
TRL1 TRL2 TRL3 TRL4 TRL5 TRL6 TRL7 TRL8 TRL9
Pure research Applied research Prototyping Product
Institute for CS £80m
CS Centre £40m
£750m
£10m
Delivery
Delivery
Opportunity matrixHealthcare Digital economy Energy Transport Defence/security Space
POWERELECTRONICS
X-ray systemsMagnet controllersProton accelerators
Server farmsEnergy efficient computing
HV DC, smart gridTransmission and distributionHigh temp electronicsenergy storage
More electric aircraft, Electric cars, trains, metro, trams, marinePropulsion, energyrecuperation, actuation, hybridisation
Directed energy weaponsMarine drivesArmoured vehicle drivesAutonomous vehiclesDismounted Soldier
ConvertersPower managementThermalmanagementEnergy Storage
RF/MICROWAVE Wearable technology data comms
5GSmart cities
Smart grid commsIndustrial heating
Inter-vehicle commsIntra-vehicle commsAutomotive RADARtelematics
Phase array (AESA) RADAR,Electronic warfare (EW)Directed energy weaponsAntennae SystemsMissile guidanceSecure Comms
CommsImaging
PHOTONICS Curative photonicsLaser surgeryPhoto-dynamic therapyOCTOptogeneticsRetinal implants
Optical commsHead-up displaysOptical and computational interfacesPICs for 400GQT encryptionEUV systems
Energy efficient lightingLiFiPV solar powerColour controlPower over fibreLaser drilling
IR automotive imagingAnti-collision devicesLaser lightsAdd manufacturingHUD AR systemsMOST networksPV solar power
Hyper-spectral imagingThermal imagingHead up displays:QCL IRCMUAV systemsDirected energyRF over fibrePerimeter monitoring
High power to weight ratio photo-voltaicsLasersLIDARLaser commconstellationsHi-rel PICs
SENSORS ImagingBio-sensorsRadiotherapyPhotonic based gas sensors
IoT sensorsFace and gesture recognitionSPAD array ranging
SystemmonitoringOil and gas sensingNuclear sensors
Aero-engine monitoringAutonomous vehicle sensingLIDARTraffic monitoring
ScanningRemote sensingNuclear sensorsSWIR & MWIR imagingQT navigation
Geographic imagingEnvironmentalsensingEarth live
RF/microwavein digital economy
UK capacity
Mark
et a
ttra
ctiv
ene
ss
Photonics in thedigital economy
Power electronics in
transport
Sensors in health
Powerelectronics in
defense/security
Power electronics
in energy
Stream Description
PE 50kW converter (from PEUK white paper)
RF 77GHz (mm wave) solid state power amplifier (SSPA) + integrated antenna
PE High frequency, ultra-compact 50W converter (from PEUK white paper)
PE 5MW, 15kV inverter for transformer-less T&D (from PEUK white paper)
RF 100V, 100W, 6-30GHz compact solid state power amplifiers for space & defence
RF 0.1-100mW, PAE: >60%, 0.8-5Ghz power amp for IoT
RF 4G LTE and 5G base station power amplifiers (0.8-5GHz), software defined filters, active antennae, integrated switches
RF THz power amplifiers for security and medical applications
Ph Low cost data centre links 10-100M, >1TB/s
Ph Miniaturised medium power, tunable lasers (butterfly case) with improved efficiency and reduced cost
RF Direct RF-Digital and Digital-RF Conversion: 10GHz DAC/ADC (eliminates IF stages, providing digital reconfiguration)
RF 1-2W linear (40W peak) SSPA for 5G and sat-comms
RF High-performance passives: high-temp capacitors, low TCR resistors, metamaterials
PE Power train converter (50-60% size reduction, 10-20% weight reduction)
RF W Band transponder for satellite communications
RF Q, V and W band transceivers for satellite communications
RF Miniaturised Q, V and W band transceivers for cube-sat communications
PE 2kW inverter using GaN HEMTS and ambient cooling
Ph Space qualified Photonic Transceivers (400Gb/s) using space qualified assembly processes
Collaborative R&D Activity – getting involved now
UK:• Emerging & Enabling Technologies• Open Competitions• APC Competitions• IDP Programme
Europe:• H2020
AESIN Organisation & Work Streams
AESIN Steering Board
Connected Corridor
More Electric Powertrain
ADAS & AVAutomotive
Security
ChairmanAlan Banks
Network DirectorPaul Jarvie
Workstreams
Software
Vice ChairmanAndrew Ashby
Research Advisory BoardKevin Vincent
More Electric Powertrain Work Stream
Organisation
ChairmanWill Drury (RICARDO)
Co-ChairTim Jameson (RICARDO)
SUB GROUP THEMES / MEMBERS
AESIN DirectorPaul Jarvie
ARCHITECTURE INTEGRATION ROADMAP COMPONENTS CROSS SECTOR
Web link: www.apcuk.co.uk/technology-roadmaps/
CSAC Ramp-up in Power electronics
• Ramping up to 50 people by the end of the year
• From end Q2 • Modelling & Simulation capability in place• Parametric test and measurement
• From end Q3• Building development module capability – direct and/or
subcontracted
Power electronics update
• Strategically• Delivery Partner for the PowerelectronicsUK Roadmap• Delivery Partner for the APC Power Roadmap
• Short term• Developing projects and proposal now
• Stand-alone projects• Projects that underpin the roadmaps – enabling technologies or
demonstrators/evaluation platforms
• Medium Term• Develop cohorts and projects around strategic areas
PowerelectronicsUK Call to action – building blocks
• Optimisation and integration of passives into power electronic systems
• Improved magnetic and dielectric materials or design for next generation CS systems
• Improved gate, control and current sensing within power semiconductor systems
• Improved models for accurate simulation – including design and multi-physics modelling
• Techniques to predict device and component reliability and life-time performance
• Improved thermal, voltage and EMI design, performance and management
• Innovative packaging techniques, including 3D integration and new materials
• Improved short-circuit system design and fail-safe performance
• Novel systems/ test-beds to accelerate the pull-through of new PE technologies
Dr Alastair McGibbonBusiness Development [email protected] 147 6390@4UK_Semis
Thank you