| Owner | Chris Simon | ||||||||
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| Location | Minneapolis, Minnesota United States map | ||||||||
| Web | WebPage | ||||||||
| Vehicle | 2001 Ford Focus The conversion began on March 29, 2008. I selected a car from the current Millennium since I plan to keep it a while and the Minnesota winters can be hard on vehicles. I began driving it as my daily commuter in March, 2009. Upgrade to Lithium batteries completed in August, 2012. | ||||||||
| Motor | Advanced DC FB1-4001A Series Wound DC 9 inch motor with auxiliary rear shaft | ||||||||
| Drivetrain | 5-speed manual transaxle with clutch and a lightened flywheel. | ||||||||
| Controller | Curtis 1231C-8601 Large heatsink mounted on the bottom with 12V fan to keep it cool. | ||||||||
| Batteries | 88 GBS 100 AH LiFeMnPO4, 3.20 Volt, Lithium Iron Phosphate Total weight of batteries is around 580 lbs, saving 500 lbs over the original lead-acid batteries! | ||||||||
| System Voltage | 141 Volts | ||||||||
| Charger | Elcon 144V 3 KWatt Power factor corrected switching charger that runs on 120VAC or 240 VAC. At 240 VAC it provides about 10 miles of range for every hour of charging. | ||||||||
| Heater | 1500 W solid state heater (more of a warmer, really) mounted in existing heater core area, driven off the pack voltage. This is Minnesota so I also have a preheater on a times thermostat to heat the car when plugged in. I also have automatic battery heaters that run on 110 VAC. | ||||||||
| DC/DC Converter | Meanwell HRP-600-12 The original Iota 55A power supply started developing problems after 6 years, so I bought the Meanwell power supply and it's been working for over a year. | ||||||||
| Instrumentation | 180V Voltmeter and a 500A Ammeter that measures battery current. Orion BMS continually monitors each cell and the total pack. I have a Android 5" tablet on the dash that displays current, voltage, SoC, etc. using the Torque App. | ||||||||
| Top Speed | 70 MPH (112 KPH) Fast enough for my daily commute, including freeway driving. | ||||||||
| Acceleration | A bit less acceleration than with the stock ICE. | ||||||||
| Range | 75 Miles (120 Kilometers) Lithium batteries provide a significant increase over the range with lead-acid batteries. My commute is 12 miles each way for a total of 24 miles per day. With enough range to run errands or go a second time without charging. | ||||||||
| Watt Hours/Mile | 300 Wh/Mile I get just under 300 WH/Mile for my commute which is half city and half freeway. This is the energy as measured FROM THE OUTLET. This improved dramatically with the switch to lithium batteries. | ||||||||
| EV Miles |
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| Seating Capacity | 2 in front, 3 in rear. (Batteries have been kept out of the passenger compartment.) | ||||||||
| Curb Weight | 3,300 Pounds (1,499 Kilograms) Original car weight was measured at 2,620 lbs, with 1,600 lbs. in front. After the conversion the front to rear balance is almost exactly 50-50. Added stronger springs in front and rear. | ||||||||
| Tires | Continental Conti-Contact Pro. | ||||||||
| Conversion Time | 8 months to get it on the road for initial testing. A few more months to finish it enough for daily driving. 4 months to switch over to Lithium batteries. | ||||||||
| Conversion Cost | About $12,000 spent on parts for the original conversion. About $12,000 for the Lithium battery pack upgrade with BMS. | ||||||||
| Getting the flywheel hub and transmission adapter designed and built was the most challenging and time consuming part of the project. I drove about 9,000 miles on lead-acid batteries and about 13,000 miles since the switch to Lithium. | |||||||||
2001 Ford Focus EV
Last Updated 01-27-2015
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