Richard “Barney” Carlson Idaho National LaboratoryRichard “Barney” Carlson Idaho National...
Transcript of Richard “Barney” Carlson Idaho National LaboratoryRichard “Barney” Carlson Idaho National...
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INL’S TESTING & EVALUATION RESULTS:ORNL’S WIRELESS CHARGING SYSTEM FOR FOA-667
Richard “Barney” CarlsonIdaho National Laboratory
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INL Scope of Testing and EvaluationEvaluate the ORNL Wireless Charging System (FOA-667)
• Characterize the performance:– Charging Efficiency– EM-field– Power Quality
• Characterize impact from:– X and Y misalignment– Z gap (coil to coil gap)– Input voltage
• 208 vs. 220 vs. 240 V– Output voltage– Charge Power level– EM-field in and around all parts of the vehicle
2INL/MIS-16-37703
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Measurement equipment• Efficiency and Elec. Power Quality
– Hioki 3390 Power Meter• 0.15% accuracy• 4 channels
– Voltage– Current Probes
• Electro-magnetic field– Narda EHP-200a
• 9 kHz – 30 MHz
• Surface Temperature– FLIR SC640 infrared camera
connected to PC
• Custom LabVIEW host control and data acquisition 3
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Coil positioning system
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• Servo-motor driven positioning system for primary coil (ground assembly)
– Enables accurate coil misalignment• Move primary coil with respect
to vehicle coil• Vehicle is stationary
– Non-metallic vehicle ramps used to elevate vehicle to provide necessary space for the coil positioning system
X-axis
Y-axis
Z-axis
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Magnetic and Electric Field scan at rear bumper• 2-axis positioning device used to position Narda EM-field meter
– Precise positioning– Quasi-static scan of region
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X-axis
Z-axis
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Schematic of ORNL WPT system• Two AC inputs (120 VAC and 240 VAC)• One DC output (nominal 350 VDC)
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Power Factor Correction
DC to AC Inverter
Isolation Transformer
AC to DC
WP
T C
ontro
l Sys
tem
Coo
ling
Sys
tem
Ground side Coil
Vehicle side Coil
240 VAC120 VAC
Tuning Capacitors
120 VAC at 60 Hz240 VAC at 60 HzHigh Freq. AC (~25 kHz)DC voltage
CAN Communication
DC Out to ESS
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Schematic of ORNL WPT system• Two AC inputs (120 VAC and 240 VAC)• One DC output (nominal 350 VDC)
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Power Factor Correction
DC to AC Inverter
Isolation Transformer
AC to DC
WP
T C
ontro
l Sys
tem
Coo
ling
Sys
tem
Ground side Coil
Vehicle side Coil
240 VAC120 VAC
Tuning Capacitors
120 VAC at 60 Hz240 VAC at 60 HzHigh Freq. AC (~25 kHz)DC voltage
CAN Communication
DC Out to ESS
INL Power / Energy measurement locations
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Performance Results with Coils in Alignment (0,0)
Ground Clearance 152mmMagnetic Gap (Z) 160mmMax. Total System Efficiency 82.2%Max. End to End Efficiency 85.2%Max. DC to DC Efficiency 86.4%Max. Output Power 7.0 kWMagnetic field at rear bumper (coils aligned) 132 A/mElectric field at rear bumper (coils aligned) 105 V/mInput Current Total Harmonic Distortion (THD) 60%Input Power Factor 0.94Operating Frequency 24.5 kHz
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Total System Efficiency
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Maximum Output Power (watts)
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Magnetic and Electric Field Strength
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• Measured near rear bumper (510 mm from coil center)• Centered vertically between coils
• EM-field strength increases as coil gap increases• EM-field strength decrease w/ misalignment due to reduced power capability
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Surface Temperature during Testing• Temperature monitored through out testing• Maximum surface temperature through all phases of testing:
– Below 55 oC (safety surface touch limit)
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In-depth Testing at 152mm Ground Clearance
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Impact of Input Voltage on System Efficiency
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• Higher Input voltage results in:– Slightly Higher efficiency
when coils are aligned
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Impact of Input Voltage• Analyze Efficiency of sub-systems
– Front End Power Electronics (60 Hz to 25 kHz)– 25 kHz to Batt DC (Iso. Trans. + Caps + Coils + Rect.)
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Power Factor Correction
DC to AC Inverter
Isolation Transformer
AC to DC
WP
T C
ontro
l Sys
tem
Coo
ling
Sys
tem
Ground side Coil
Vehicle side Coil
240 VAC120 VAC
Tuning Capacitors
120 VAC at 60 Hz240 VAC at 60 HzHigh Freq. AC (~25 kHz)DC voltage
CAN Communication
DC Out to ESS
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Impact of Input Voltage
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• Input Power Electronics– PFC (60 Hz AC to DC)– Inverter (DC to 25 kHz AC)– 120V aux. loads
• cooling + controls
• Output High Freq. Components– Isolation transformer– Tuning capacitors– Ground coil to vehicle coil– Rectifier
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Impact of Input Voltage• Analyze Efficiency of Front End sub-systems
– PFC (60 Hz AC to DC)– Inverter (DC to 25 kHz AC)
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Power Factor Correction
DC to AC Inverter
Isolation Transformer
AC to DC
WP
T C
ontro
l Sys
tem
Coo
ling
Sys
tem
Ground side Coil
Vehicle side Coil
240 VAC120 VAC
Tuning Capacitors
120 VAC at 60 Hz240 VAC at 60 HzHigh Freq. AC (~25 kHz)DC voltage
CAN Communication
DC Out to ESS
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Impact of Input Voltage on Sub-systems
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• Power Factor Correction– 60Hz to DC link
• Inverter– DC Link to 25 kHz
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Further In-depth Testing at 152mm Ground Clearance across X, Y misalignment
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Total System Efficiency and End-to-End Efficiency
Max. = 82.2 % Max. = 85.2 %
Total System Efficiency (%) End-to-End Efficiency (%)
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EM-field near vehicle’s rear bumper
Coils Aligned= 136 A/mMax. = 482 A/m
Magnetic field (A/m) Electric Field (V/m)
Coils Aligned = 106 V/mMax. = 507 V/m
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Sub-system Efficiency
Max. = 86.4 % Max. = 95.4 %
DC to DC Efficiency (%) Inverter plus Aux. Load Efficiency (%)
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Output Power Capability
Max. = 6.6 kW
Output Power to ESS• Commanded output power– 6600 watts
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EM-field Scan in X, Z plane near rear bumper• Coils Aligned (0,0)• Full power: 6600 watts output• Input voltage: 240 V RMS• Output Voltage: 366 VDC
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X-axis
Z-axis
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Magnetic and Electric Field at 132mm coil gap• Bright color area is above ICNIRP 2010 levels (general public exposure)
• Magnetic field (A/m)– Large area near bumper at ankle height shows peak of 85.7 A/m
• Electric field (V/m)– All areas measured around rear bumper are below ICNIRP 2010
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Magnetic and Electric Field at 152mm coil gap• Bright color area is above ICNIRP 2010 levels (general public exposure)
• Magnetic field (A/m)– Large area near bumper at ankle height shows peak of 132 A/m
• Electric field (V/m)– Small area near bumper at ankle height shows peak of 105 V/m
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Magnetic and Electric Field at 172mm coil gap• Bright color area is above ICNIRP 2010 levels (general public exposure)
• Magnetic field (A/m)– Large area near bumper at ankle height shows peak of 153 A/m
• Electric field (V/m)– Small area near bumper at ankle height shows peak of 127 V/m
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Magnetic and Electric Field at 152mm coil gap• What is the additional Electric
field approximately 1.2m from the coil center?
• Approx. 60 V/m
• This is EM-field generated from the tuning capacitor enclosure between the GSU and the Primary coil
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Tuning Capacitor Enclosure
EM-Field near Tuning Capacitor Enclosureat 152mm ground clearance coil gap
Y-axisZ-axis
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EM-Field near Tuning Capacitor Enclosureat 152mm ground clearance coil gap
• Bright color area is above ICNIRP 2010 levels (general public exposure)
• Magnetic field (A/m)– Shows peak under the enclosure of 309 A/m
• Electric field (V/m)– Shows peak under the enclosure of 2,902 V/m
Y-axis (mm) Y-axis (mm)30
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Summary• Performance Summary at designed Z gap
– At 152 mm ground clearance (160 mm magnetic gap)– At 240VAC, coils aligned (0,0), 6.6 kW output, 366 VDC output
• Maximum Total Efficiency: 82.2% • Maximum End-to-End Efficiency: 85.2%• Magnetic field at rear bumper: 132 A/m• Electric field at rear bumper: 105 V/m• Power Factor: 0.94• Operation Frequency: 24.5 kHz
– Maximum Output Power achieved: 7.0 kW– Magnetic field near lower surface of Tuning Capacitor enclosure
• 309 A/m– Electric field near lower surface of Tuning Capacitor enclosure
• 2,902 V/m
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• Performance Impact (Efficiency and EM-field) from external factors– Highest Impacts
• Coil Gap– 8% efficiency decrease from 152 mm to 192 mm gap– Mag. field increased 67 A/m for 40mm change in gap– Elec. field increased 55 V/m for 40mm change in gap
• Misalignment– 16% efficiency decrease for 100mm misalignment– Mag. field increased 346 A/m for 100mm misalignment change– Elec. field increased 401 V/m for 100mm misalignment change
– Lesser Impacts• Output Voltage
– 3% efficiency decrease from 385 VDC to 285 VDC• Input Voltage
– 0.8% efficiency decrease from 240 VAC to 208 VAC• Output Power
– 1.6% efficiency decrease from 3.9 kW to 6.8 kW
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Summary Continued
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More Informationhttp://avt.inl.gov
This work is supported bythe U.S. Department of Energy’s
EERE Vehicle Technologies Program
Acknowledgement