2011 HyUNDAI sONAtA HybRId
But our engineers won't settle for second-best either. The new 2011 Sonata. Hybrid features state-of-the-art lithium-polymer batteries that are 25% lighter
2011 Hyundai Sonata 3539 - Hybrid Electric Vehicle Battery Test
2 sept. 2014 report documents battery testing performed for the 2011 Hyundai Sonata Hybrid. (VIN KMHEC4A47BA003539). Battery testing was performed by ...
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As with other hybrids the Hyundai Sonata Hybrid uses a conventional gasoline powered The high-voltage battery is recharged while the vehicle is.
2011 Owners Handbook & Warranty Information 2011 Owners
15 oct. 2010 100% within 2 Years/Unlimited Mileage 75% cost of battery charge to the ... For the 2011 model year
2011 Hyundai Sonata 4932 - Hybrid Electric Vehicle Battery Test
1 juil. 2013 report documents battery testing performed for the 2011 Hyundai Sonata Hybrid. HEV (VIN KMHEC4A43BA004932). Battery testing was performed by ...
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Emergency Response Guide. SONATA hybrid 1.1 Identifying a HYUNDAI SONATA HEV. 4. The SONATA HEV has a plastic cover with “Hybrid” clearly shown on it.
Hyundai Sonata Hybrid 2011
Hyundai is making its North American hybrid debut with the 2011 Sonata Hybrid. The polymer batteries it uses should last the life of the car.
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industry with the proper methods to handle the Hyundai SONATA Hybrid in an emergency situation. This The high-voltage battery is recharged while the.
Hyundai Sonata Hybrid 2011-2012
The car uses a lithium- polymer battery technology a first for any car. NiMH or. Lithium-ion is the preferred chemistry these days. Hyundai engineers designed
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VEHICLE AND BATTERY DESCRIPTIONS AND SPECIFICATIONSVehicle Details
Base Vehicle
2011Hyundai
Sonata Hybrid
VIN: KMHEC4A47BA003539
Electric Machine1
34 kW (peak), permanent magnet AC synchronous
Battery Description
Manufacturer: LG Chem
Type: Lithium Polymer
Pack Location: Behind rear seat
Battery Specifications
Number of Cells: 72
Nominal Cell Voltage: 3.75 V
Number of Modules: 9 (8
cells/ module)Nominal System Voltage: 270 V
Nominal Pack Capacity: 5.3 Ah
Cooling: Active/Cabin Air
Pack Weight: 96 lb BATTERY LABORATORY TEST RESULTS SUMMARY Vehicle Mileage and Testing DateVehicle Odometer: 5,730 mi
Date of Test: July 22, 2011
Static Capacity Test
Measured Average Capacity:
5.29 AhMeasured Average Energy Capacity: 1,394 Wh
HPPC Test
Peak Pulse Discharge Power @ 10 s2
: 49.2 kWPeak Pulse Discharge Power @ 1 s
2 : 74.9 kWPeak Pulse Charge Power @ 10 s
2 : 34.2 kWPeak Pulse Charge Power @ 1 s
2 : 52.1 kWMaximum Cell Charge Voltage: 4.3 V
Minimum Cell Discharge Voltage: 2.5 V
NOTES:
1. Electric machine refers to the electric traction motor.
2. Calculated value based on selected battery voltage limits and at 50% SOC. 2011 Hyundai Sonata Hybrid -
VIN 3539
Advanced Vehicle Testing - Beginning-of-Test Battery Testing ResultsVEHICLE TECHNOLOGIES PROGRAM
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Test Results Analysis
Test results for the beginning-of-testing (BOT) battery testing are provided herein. Battery test results include those from the Static Capacity Test and the Hybrid Pulse Power Characterization (HPPC) Test 1Static Capacity Test Results
Static capacity test results are summarized in the fact sheet on the previous page. The test was performed onJuly 22, 2011
with a vehicle odometer reading of 5,730 miles. The measured average C/1-rate capacity was 5.69 Ah compared with the manufacturer's rated capacity of 5.3Ah. The measured average energy capacity was
1,394 Wh. Figure 1 is a graph of battery voltage versus energy discharged.This graph illustrates the voltage
values during the constant-current discharge versus the cumulative energy discharged from the battery at a C/1 discharge rate.Figure
1: Voltage vs. Energy Discharged
1Static Capacity and Hybrid Pulse Power Characterization test procedures were performed in accordance with FreedomCAR
Battery Test Manual for Power-Assist Hybrid Vehicles, DOE/ID-11069, October 2003 procedures 3.2 and 3.3, respectively
VEHICLE TECHNOLOGIES PROGRAM
Page 3
HPPC Test Results
HPPC test results are summarized in the fact sheet on the first page. The peak pulse discharge power at 10 seconds is 49.2 kW and at one second into the pulse is 74.9 kW, both at 50% state of charge (SOC). The peak pulse charge power at 10 seconds is 34.2 kW and at one second into the pulse is 52.1 kW, both at 50% SOC. The maximum and minimum cell voltages used for this analysis were 4.3 V and 2.5 V, respectively.Figures 2 and
3 illustrate the battery's charge and discharge pulse resistance graphs which show internal resistance at various depths of discharge. Each curve represents the resistance at the end of the specified pulse interval.Figures
4 and 5 illustrate the battery's charge and discharge pulse power graphs which show the useable power at various depths of discharge. Each curve represents the pulse power at the end of the specified pulse interval at the cell voltage limits. Figure 6 is a plot of the battery's HPPC 10-second pulse power as a function of SOC. The graph shows the power values over the range of SOC as well as the DOE MinimumPower Assist HEV
battery target performance goals of 25 kW discharge power and 20 kW regenerative power. The battery meets the DOE power performance goals for the battery energy charge range of 390-1,160 Wh.
Figure 7 is a plot of the battery's useable energy as a function of power. The x-axis indicates a desired discharge or charge power level and the y-axis indicates the useable energy at that power. The dashed horizontal line shows the DOE Minimum Power Assist HEV energy performance goal of 300 Wh. The dashed vertical line shows the DOE Minimum Power Assist HEV power performance goal of 25 kW. The Hyundai Sonata Hybrid battery's useab le energy curve falls above and to the right of the intersection of the DOE energy and power performance goals. The maximum power that can be delivered while meeting the DOE energy performance goal is 33.5 kW at 300 Wh. The maximum energy that can be delivered while meeting the DOE power performance goal is 670 Wh at 25 kW. This indicates that at the time of testing, the Hyundai Sonata Hybrid battery performance was above the DOE performance goals. These tests were performed for DOE's Advanced Vehicle Te sting Activity (AVTA). The AVTA, part of DOE's Vehicle Technology Program, is conducted by the Idaho National Laboratory and Electric Transportation Engineering Corporation dba ECOtality North America.VEHICLE TECHNOLOGIES PROGRAM
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Figure
2: Charge Pulse Resistance vs. Energy Discharged
Figure
3: Discharge Pulse Resistance vs. Energy Discharged
VEHICLE TECHNOLOGIES PROGRAM
Page 5
Figure
4: Charge Pulse Power vs. Energy Discharged
Figure
5: Discharge Pulse Power vs. Energy Discharged
VEHICLE TECHNOLOGIES PROGRAM
Page 6
Figure
6: Peak Power Values with DOE Performance Goals
Figure
7: Useable Energy
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