the role of power electronics and drive systems in the modern all … · 2020. 2. 7. · the role...
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The role of power electronics and drive systems in the modern all-electric and digital society – from airplanes to datacenters
ETH Seminar, January 24th, 2020
Robert Pilawa-Podgurski
University of California, Berkeley
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Acknowledgment
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The Role of Power Electronics
3Credit: Tesla Motors
Credit: Samsung
Power Electronics
Credit: EWEA
Credit: Google
Credit: CAT
Credit: NASA/MIT/Aurora Flight Sciences
Credit: ABB
Credit: AES
Credit: Tesla
Credit: NASA
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The Goal of Power Electronics
4Credit: Tesla Motors
Credit: Samsung
Power Electronics
Credit: EWEA
Credit: Google
Credit: CAT
Credit: NASA/MIT/Aurora Flight Sciences
Credit: ABB
Credit: AES
Credit: Tesla
Credit: NASA
High Power Density High Efficiency
High Reliability Low Cost
High EfficiencyHigh Power Density
High Performance Power Converter and Drives
Integration of power electronics in systems for
overall performance improvements
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Integration of Power Electronics – Example 1
Embedded power electronics increases energy yield Diagnostics Safety shut-off
5R.C.N. Pilawa-Podgurski, D.J. Perreault “Sub-Module Integrated Distributed Maximum Power Point Tracking for Solar Photovoltaic Applications,” IEEE Transactions on Power Electronics, Vol. 28, No. 6, June 2013
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Integration of Power Electronics – Example 2
CPUs with Fully Integrated Voltage Regulators Each core runs at optimum
voltage Improved battery life (50%) Increased available power Increased product flexibility
6E.A Burton et al. “FIVR — Fully integrated voltage regulators on 4th generation Intel® Core™ SoCs”, APEC 2014
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Integration of Power Electronics – Future
Research progress requires cross-domain collaborations
7
Hall Thruster. NASA Thermophotovoltaic power generator [1]
Micro Fuel Cell, P. Kenis, UIUC
[1]W.R. Chan et al. “Toward high-energy-density, high-efficiency, and moderate-temperature chip-scale thermophotovoltaics,” Proceedings of the National Academy of Sciences, February 25, 2013.
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Powering the Digital Revolution
Power converters with zero cost and size, 100% efficiency, and infinite lifetime
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Datacenters
9
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Datacenters
10
If each conversion is 95% efficient, 23% of the power is dissipated (as heat) before reaching the load
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Digital Loads – A Demanding Application
Small form factor, slim solutions
Low weight
Very high efficiency Cost (data centers) Thermal limits (e.g.,
portable solutions)
Large voltage step-down ~1V final voltage
11
iPhone X
Apple AirPower (cancelled)
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The Tools of Power Electronics
12
Active devices Passive devicesCircuit topologies
Integration/Packaging
Control
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Conventional Path to High Power Density
13
Switching frequency
Size
Switching frequency
Pow
er L
oss
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Paths to increased switching frequency
Improved power semiconductor devices SiC, GaN, Si
Circuit techniques to limit impact of power transistor parasitics Soft-switching, resonant techniques
14
110 MHz resonant boost converter [1]
[1] ] R.C.N. Pilawa-Podgurski, A.D. Sagneri, J.M. Rivas, D.I. Anderson, and D.J. Perreault, “Very High Frequency Resonant Boost Converters,” IEEE Transactions on Power Electronics, Vol. 24, No 6, pp. 1654-1665, 2009.
Given the improvement in circuit techniques and power devices, why are current industrial power converters still
operating below 1 MHz?
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Challenge #1: Magnetic core losses
Inductor size reduction through frequency scaling limited by core loss At constant loss, the allowable flux density decreases with f
15Credit: Prof. David Perreault
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Opportunity: New core materials
16
Performance factor B0 f : power handling at constant loss density and volume
Commercial power magnetic materials
Low permeability, “RF” material
A.J. Hanson et al, “Measurements and Performance Factor Comparisons of Magnetic Materials at High Frequency,” IEEE Transactions on Power Electronics, Vol. 31, No. 11, pp. 7909-7925, November 2016.
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Challenge #2: Power magnetic structures
At high currents and frequencies, skin and proximity effects become challenging Size and placement of
windings has large impact on performance
Litz wire challenging above a few MHz
17W.G. Hurley et al., “Optimizing the AC Resistance of Multilayer Transformer Windings with Arbitrary Current Waveforms”, TPELS 2000
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Opportunity : Novel magnetic structures
Planar magnetics offer manufacturing and performance benefits PCB integrated windings Repeatable, well-known manufacturing
18M. Ahmed et al., “Low Loss Integrated Inductor and Transformer Structure and Application in Regulated LLC Converter for 48V Bus Converter”, JESTPE 2019
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Unconventional Path to Higher Power Density -Component Choices
19
80 mJ of capacitive
energy storage
(after dc-derating)
4 mJ of inductive
energy storage
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Exploiting Capacitor Energy Density?
20
S1a S2a
S1b S2b
C1Vin
RloadCo
2-to-1 SC Converter
V in= 2Vo
VC1= Vo
Vo VC1= Vo Vo
State 1 State 2
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Fundamental Limitations of SC converters
21
Eloss = ½ C1DVC2
v
q
VC0
QC0
1
𝐶
∆q
EC,process
EC,store
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Might a Hybrid Approach Work?
22
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Resonant Switched-Capacitor Topologies
23
C3
Vin
ϕ1
ϕ2
ϕ1
ϕ2
C2
ϕ2
ϕ1
ϕ2
C1
ϕ2
ϕ1
ϕ2
Co Ro
Vo
ϕ2 ϕ1
C2 ϕ1
ϕ2
Co Ro
VoVinϕ2 ϕ1
C1 ϕ1
ϕ2
L2 L1
ϕ1 ϕ2 C1
C2
ϕ2 ϕ1
C3
VoVin
ϕ2 ϕ1
ϕ2 ϕ1 Co Ro
ϕ1 ϕ2
C5 L5
C4 L4
C3 L3
ϕ1 ϕ2 ϕ1 ϕ2 Vin
Co Ro
Vo
ϕ1 ϕ2
C2 L2
C1 L1
4:1 Dickson
4:1 Series-Parallel4:1 Doubler (Cascaded Resonant)
4:1 Ladder
Vin
ϕ1A Vo
C1 C2 C3
RoCo
ϕ2A ϕ3A ϕ4A
ϕ1B ϕ2B ϕ3B ϕ4B
4:1 FCML
Y. Lei, R.C.N. Pilawa-Podgurski "A General Method for Analyzing Resonant and Soft-charging Operation of Switched-Capacitor Converters", IEEE Transactions on Power Electronics, 2015
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GaN vs. Si & Hybrid SC vs Buck
[1] D. Reusch , S. Biswas, Y. Zhang, “System Optimization of a High Power Density Non-Isolated Intermediate Bus Converter for 48 V Server Applications” IEEE Transactions on Industry Applications, 2019
Resonant Doubler Topology
C1 Cmid C2 Cout
L1 L2
First stage Second stage
+
Vout _S1A S2A
S2BS1B
S3A S4A
S4BS3B
[1]
[1]EPC Buck
24
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More Optimized Design
25
[1]
[1]
Z. Ye, Y. Lei, R.C.N. Pilawa-Podgurski, “A 48-to-12 V Cascaded Resonant Switched-Capacitor Converter for Data Centers with 99% Peak Efficiency and 2500 W/in3 Power Density”, APEC 2019
APEC 2019: 900 W, 99.0%, 2500 W/in3
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Extending to Lower Voltages
12 V
26
48 V to 8 V 6 V 4 V
99.0% 98.5% 98.0% 97.0%
2500 W/in3 2250 W/in3 1675 W/in3 1150 W/in3
Peak system efficiency
Power density by box volume
Unpublished
Cascaded Resonant [1]
Multi-Resonant Doubler
[Ye, APEC 2020]
Two-stage cascaded
[Liu, APEC 2020]
12 V
[1] Z. Ye, Y. Lei, R.C.N. Pilawa-Podgurski, “A 48-to-12 V Cascaded Resonant Switched-Capacitor Converter for Data Centers with 99% Peak Efficiency and 2500 W/in3 Power Density”, APEC 2019
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Further Improvements - Integration
27
Packaging and integration PCB embedded components 3D integration Thermal management CMOS integration
Area where strong industry collaboration will be essential
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Powering the Electric Transportation Revolution
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Flight – Ultimate Frontier in Electrification
29
Flygskam!
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Future projections
30
International Civil Aviation Authority, 2016 report
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2012 Tesla Model S85 – A Vehicle of Excess
31
362 HP, 3-phase, four-pole AC induction motor
85 kWh on-board battery, range of 426 km
249 km/h top speed, 0 to 97 km/h in 3.2 seconds
Price of around $70,000
Curb weight of 2,107 kg (BMW 5 series 1745 kg)
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Benefits of electrification (series hybrid)
Example of Benefits for 737-800 class aircraft: 32 dB reduced noise 60% reduced LTO NOx and CO2 emissions 33% reduced energy consumption
Specific power density (kW/kg) is key! Electric motor and power electronics identified as key bottlenecks [2]
32
NASA’s X-57 “Maxwell” will be a fully battery powered
research aircraft using distributed propulsion.
[1] NASA release “NASA Electric Research Plane Gets X Number, New Name” (June, 17 2016)[2] Jansen, Ralph H., et al. "Turboelectric Aircraft Drive Key Performance Parameters and Functional Requirements." (2015).
N3-X conceptual design
A320
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1 MW, PM Machine with Integrated Drive
33Work funded by NASA, in collaboration with Prof. Kiruba Haran at UIUC
High Frequency Coils
Stator Yoke
Bearings
Heat Sink
Carbon Fiber Retaining Ring
Titanium Shell
Permanent Magnet
End Plate
Development of 1 MW electric machine and drive, 13 kW/kg target (77 kg total) >96 % efficiency
Carbon-fiber construction, permanent magnet machine
12,000 rpm, 3 kHz fundamental frequency
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Standard motor drive approach
2-level PWM generation Increased motor losses due
to harmonics Large bus capacitance
required Cooling can be challenging
due to hot spots
34
Not suitable for ultra light-weight, low-inductance machine. We need to produce a more sinusoidal drive current.
Unfiltered Waveform FilteredWaveform
Filter 2-Level Inverter
[1] Liu, et al., “LCL Filter Design of a 50-kW 60-kHz SiC Inverter with Size and Thermal Considerations for Aerospace Applications,” IEEE TIE, 2017.
[1]
Requires large inductive filters (dv/dt limitations)
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Converter Requirements
35
HiQ Solar, NREL Best
Venture Award 2014
Wolfspeed/U. Ark/Toyota, R&D100 2014
Turbo-electric min. req. [1]
target
[1] Jansen, Ralph H., et al. "Turboelectric Aircraft Drive Key Performance Parameters and Functional Requirements." (2015).
PV invertersVehicle chargers
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Unconventional Approach
36
dv/dt
9-level Flying Capacitor Multi-Level Inverter [1]
[1] T. Meynard and H. Foch, “Multilevel conversion: high voltage choppers and voltage-source inverters,” IEEE PESC, 1992.
• Works well at high level-count (lower dv/dt)
• High effective switching frequency at output
• Energy dense capacitors process power
• Lower device stress allows lower voltage devices
Summary of benefits
Key Benefit [16] 2-Level FCML
Switch Stress 𝑉𝑖𝑛 (𝑁 − 1) 𝑉𝑖𝑛 (𝑁 − 1)
Vsw Ripple Amplitude 𝑉𝑖𝑛 (𝑁 − 1) 𝑉𝑖𝑛 (𝑁 − 1)
Vsw Ripple Frequency 𝑓𝑠𝑤 𝑓𝑠𝑤 × (𝑁 − 1)
Output Inductance 𝐿2 𝑙𝑒𝑣𝑒𝑙 𝐿2 𝑙𝑒𝑣𝑒𝑙 (𝑁 − 1)2
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Practical Challenges
Gate driving, level shifting
Control complexity
Signal integrity
High voltage, high current commutation loops for high speed switching
Thermal management
37
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Interleaved inverter module (ILM)
38
Use double-sided design to handle 1 kV creepage and clearance at altitude
Inductance is proportional to cross-sectional area
Electrically thin design for Gen 2
Gen 1 double-sided design
LoopArea
Lpar ≈ 8 nH
N. Pallo, T. Modeer, R.C.N. Pilawa-Podgurski,” Electrically thin approach to switching cell design for flying capacitor multilevel converters”, WiPDA 2017
Lpar ≈ 2.7 nH
“Electrically thin” design using blind and buried vias further reduces loop inductance.
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Hardware development
39
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Gen 2 Performance
40
HiQ Solar, NREL Best
Venture Award 2014
Wolfspeed/U. Ark/Toyota, R&D100 2014
Turbo-electricmin. req. [1]
target
[1] Jansen, Ralph H., et al. "Turboelectric Aircraft Drive Key Performance Parameters and Functional Requirements." (2015).
Gen 2 results
PV invertersVehicle chargers
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Thermal Challenges
As with most power converters, maximum output power is limited by thermal considerations
41
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Additively Manufactured Thermal Mgmt.
Distributed, per-device micro-heatsinks Each GaN/heatsink interface individually
tensioned
42
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Gen 3 Performance
43
HiQ Solar, NREL Best
Venture Award 2014
Wolfspeed/U. Ark/Toyota, R&D100 2014
Turbo-electricmin. req. [1]
target
[1] Jansen, Ralph H., et al. "Turboelectric Aircraft Drive Key Performance Parameters and Functional Requirements." (2015).
Gen 2 results
PV invertersVehicle chargers
Gen 3 results
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Packaging and Thermal Opportunities
Jet-impingement [1]
44
Microchannel [3] 10-80 kW/m2-K
20 kW/m2-K
[1] T. Wei et al., “High-Efficiency Polymer-Based Direct Multi-Jet Impingement Cooling Solution for High-Power Devices," IEEE TPE, 2019.[2] A. Fan, et al., “An innovative passive cooling method for high performance light-emitting diodes,” IEEE SEMI-THERM, 2012.[3] Jung, K.W., et al., “Embedded cooling with 3D manifold for vehicle power electronics application: Single-phase ... performance,” IJHMT, 2019.[4] Birbarah, et al., “Water immersion cooling of high power density electronics,” IJHMT, 2020.
1-50 kW/m2-K
60 kW/m2-K
Wicking, Two-Phase [2]
Immersion [4]
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Most Recent US Target
Advanced Research Project Agency for Energy (ARPA-E) Aviation-Class Synergistically
Cooled Electric-Motors with Integrated Drives (ASCEND)
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Challenge is System Integration
46H. Dai et al., “Development of High-Frequency WBG Power Modules with Reverse-Voltage-Blocking Capability for an Integrated Motor Drive Using a Current-Source Inverter”
Thermal, Electrical, Mechanical co-design is essential
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Electric Drive Challenges
Circuit topology is important, but far from the most challenging Thermal management
Additive manufacturing opens up possibilities
High voltage packaging Even the best power semiconductor is limited by packaging
Signal integrity Differential, optical, layout, etc.
Reliability and redundancy Component and system level
Control complexity
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Concluding Thoughts
Future innovations in power electronics and drives will likely require strong cross-discipline collaborations Materials, devices, packaging, thermal, sensing, control
Moving from power converters, to power conversion systems Managing complexity will be essential
Approaches that leverage integration and digital approaches will scale well Integration -> Number of components is not limiting factor Control complexity can be managed with improved computing
Industry/Foundry collaborations will likely be essential to remain relevant. A concern for the field in general
ETH is well positioned to remain at the forefront of power electronics and drives, with strong collaborators and industry ties 48
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Acknowledgments
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