capacitive power transfer for contactless charging mitchell kline igor izyumin prof. bernhard boser...
TRANSCRIPT
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Capacitive Power Transfer for Contactless
Charging
Mitchell KlineIgor Izyumin
Prof. Bernhard BoserProf. Seth Sanders
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Why Wireless Power?
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The Powermat
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“…I started to wonder if the magnet on the iPhone case was safe in my pocket where I also keep my credit cards…
I was told that I should remove my iPhone from the case after charging because [it] was not intended for daily use. ” Thomas Scholle
1 star amazon review
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“you'll need to invest another $40 per device to get the full functionality as you see it advertised. Too pricey for me!”
J. Lincoln2star amazon review
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Wireless Power Technology
1. Inductive 2. Capacitive
Close-coupled wireless power transfer
Power Source Load
Power Source Load
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Capacitive Power Transfer System
Powertrain optimization
Alignment and load sensitivity
1 2
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Requirements
• 3.5 pF/cm2(¼ mm air gap) with ~50 cm2gives 150 pF
• Need >2.5 W (USB spec.)
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Prior Art
A. Hu. 2008.Soccer Playing
Robot13.9 nF217 kHz~40 W?44% efficient
E. Culurciello. 2008.Inter-chip power
transfer10 fF15 MHz~100 uW?~1% efficient?
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Optimization Approach
Given Pout and C, how do we maximize the efficiency?
or
What is the minimum required C to achieve a particular Pout and efficiency?
C
Pout
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Powertrain Architecture
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Efficiency Expression
Maximize Fixed
Minimize:Large switchSmall inductor
Minimize:Increase voltage
Does not consider switching losses => Eliminate with ZVS
out
St
P
Ri2
2
11
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Approximate ZVS Analysis
1arctan
2
2
D
S
s
t
V
V
v
i
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Approximate ZVS Analysis
Initial charge qt = Charge removed by
inductorSosssw VCq 2
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ZVS Condition
qt = Charge removed by inductor
From integration:
ZVS requires:
Refactored as:
cos1 tt
iq
swt qq
S
D
ossSD
out
V
V
CVV
P1
264.0
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Example Design
Pout = 4 W, VS = 35 V, and RonCoss = 44 ps
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Example Design
Choose η = 0.9, Q = 40• Minimum C is
147 pF• Optimum
VD/VS is 0.8• Optimum
switch size Coss = 13 pF
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Simulation Results
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Prototype Powertrain Circuit
12 uHQ = 42Coilcraft 1812LS
125 pF
NXP Schottky PMEG6002EJ
Siliconix Si1029X
8 pF
3.5 Ω
35 V 28 V
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Experimental Results
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Capacitive Power Transfer System
Powertrain optimization
Alignment and load sensitivity
1 2
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Automatic Frequency Tuning
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Automatic Frequency Tuning
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Automatic Duty Cycle Control
Light-load condition: not enough current in tank to get Zero Voltage
Switching (ZVS)
VS
½ LresidualIL2
Load½ Csw VS
2
IL
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Automatic Duty Cycle Control
SHUTDOWN
Supply Current
DC Output Voltage
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Capacitive Power Transfer System
IS
VL+ -Csw
Load
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With 6 by 10 cm2, we transfer 3.8 W at 83% efficiency over a 0.5 mm air gap.
0 1 2 3 40%
20%
40%
60%
80%
100%
Output Power [W]
Effi
cien
cy o
r D
uty
C
ycl
e
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Controller
H-Bridge & Inductors
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Buck Converter
Rectifier
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Conclusion
Power transfer over small capacitors is enabled by
1.Zero Voltage SwitchingEnable moderate voltage, high frequency operation
2.Automatic TuningRobust to changes in coupling capacitance
3.Duty cycle adjustment without RX feedbackPreserve efficiency at light loads
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Thank You!
This material is based upon work supported
by the Defense Advanced Research
Projects Agency (DARPA) under
Contract No. W31P4Q-10-1-0002
AcknowledgementsDr. Mei-Lin ChanDr. Simone GambiniProf. David HorsleyDr. MischaMegensJames PengRichard PrzybylaKun WangProf. Ming Wu