Energy supply and distribution
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Transcript of Energy supply and distribution
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Energy supply and distribution
Lin ZhongELEC424, Fall 2010
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Outline
• Battery technologies– Battery properties– Fuel cell batteries– Smart battery interface
• Power distribution
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Brief recent history of batteries• Battery density increases about 10% annually
– 1950 Nickel Cadmium (NiCd) (banned in EU from 2006)– 1990 Nickel-metal Hydride (NiMH)– 1991 Lithium Ion (Li-ion)– 1999 Li-ion Polymer
• Most smartphones have battery capacity within 1500mAh, typically slightly more than 1000mAh (@3-5V)– Nokia 9500 communicator: 1300mAh (@3-5V) Li-ion Polymer, 172 grams– Dell Latitude D610: 4700mAh (@11V) Li-ion, 2300 grams
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Energy density
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Cell structures
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Battery properties I
1992 1992.5 1993 1993.5 1994 1994.5 19950
100200300400500600700800900
Energy densityMoore's Law
Year
Ener
gy d
ensi
ty (W
hr/L
)
Volumetric energy density for Li-Ion cells Powers, 1994
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Battery properties I (Contd.)
Starner, 2003 (IEEE Pervasive)
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Battery properties II
Casas & Casas, 2005 (Energizer batteries)
Voltage drop
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Battery properties III
Rate dependent
Rao et al 2003
Lithium-Ion battery
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Battery properties IV
Temperature dependent
Rao et al 2003
Lithium-Ion battery
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Battery properties V
Capacity loss (aging)
Rao et al 2003
Lithium-Ion battery
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Battery properties VI
Recovery effect
Martin, 199912
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Wireless charging
13The Latitude Z on wireless charging station, and wireless dock adapter on the right. (Credit: Erica Ogg/CNET)
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Wireless charging (Contd.)
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Palm Pre™ Touchstone™ Charging Dock
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Fuel cell for portable power• Proton exchange membrane
(PEMFC)• Direct methanol (DMFC)
• Low operating temperature (60-80 degree C)
Ellis, Spakovsky & Nelson, 2001
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Fuel cell system
Fuel cell system schematics
40-50% efficiency Ellis, Spakovsky & Nelson, 2001
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A hot case: 3-Watt Nokia 3120
Phone case temperature will be 40 deg C higher.
Every One Watt increases surface temperature by about 13 deg C
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Applications• Portable energy storage
(charger)
• Refillable fuel cell
$39---3300mAhfuelcellstore.com
Motorola: under development
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Hitachi prototypes (2005)
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Toshiba prototypes (2005)
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Medis (2008)
• Available through BestBuy
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Supercapacitors/Ultracapacitors
• Fast charging• More cycles
• High power density• Low energy density
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http://news.cnet.com/8301-11128_3-10363496-54.html
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Battery management• Accurate battery capacity monitoring
• TI BQ2023 – Coulomb (Charge) counting-based monitoring– Single-wire advanced battery monitor IC
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Battery gas (fuel) gauge
SDQ single-wire serial communications interface 24
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Smart battery interface
• Single wire– Embedded clock
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Smart battery interface (Contd.)
• Two-wire SMBus system– One wire for clock– TI BQ2040
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Windows Mobile battery API
• Battery is treated as a peripheral device– Battery driver
DWORD GetSystemPowerStatusEx2( PSYSTEM_POWER_STATUS_EX2 pSystemPowerStatusEx2, DWORD dwLen, BOOL fUpdate );
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Power distribution
Generation Source TransmissionData Center
Shelf/Rack System Line CardApplication Load;Processor, DSP, Memory Graphics
100% -5% -20% (Cooling)
-10% AC/DC-10% DC-DC
~55% - Electrical Pwr~30% - Processing Pwr
Evaldo Miranda & Laurence McGarry, Analog Devices
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Power distribution
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VR: voltage regulator
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Voltage regulator (DC-DC)
• Maintain a constant voltage output
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Property Linear regulator Switching regulator
Price Low for low power High for low power
Step-up? No Yes
Efficiency Low High
Output noise Low High
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Linear regulator
• Output voltage• Dropout• Output current limit• Input voltage range
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Linear regulator (Contd.)
• Efficiency
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Power waste ≈ (Vin-Vout) * Iload
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Regulator network
• A regulator achieves best efficiency over a narrow range of output current
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Decoupling capacitors
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VR
A B
Bypass capacitors
L=dI/dt
AC2DC
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Impact on power measurement
• Low-pass filtering effect
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Quming Zhou, Lin Zhong, and Kartik Mohanram, "Power signal processing: A new perspective for power analysis and optimization," in Proc. ACM/IEEE Int. Symp. Low Power Electronics and Design (ISLPED), August 2007.
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http://batteryuniversity.com/