Watch Bjorn Nyland test range
#2
AudiWorld Senior Member
Synopsis now available. Bjorn says it is his second choice after Tesla. High praise indeed from a diehard Tesla fan.
Results:
90 km/h, 56 mph: 370 km, 230 mi, 225 Wh/km, 362 Wh/mi
120 km/h, 75 mph: 270 km, 168 mi, 308 Wh/km, 496 Wh/mi
20" wheels, but otherwise perfect conditions. Maybe a little more headwind than optimum. The 90 km/h test is Bjorn's simulation of EPA. If the EPA had rated e-tron at 230 miles, I would have been totally at peace with it.
BTW, enjoying my E1 immensely and the efficiency is more than fine. I have a light foot from 3 years of Cayenne PHEV driving and the 100% range predictions have remained above 230.
Results:
90 km/h, 56 mph: 370 km, 230 mi, 225 Wh/km, 362 Wh/mi
120 km/h, 75 mph: 270 km, 168 mi, 308 Wh/km, 496 Wh/mi
20" wheels, but otherwise perfect conditions. Maybe a little more headwind than optimum. The 90 km/h test is Bjorn's simulation of EPA. If the EPA had rated e-tron at 230 miles, I would have been totally at peace with it.
BTW, enjoying my E1 immensely and the efficiency is more than fine. I have a light foot from 3 years of Cayenne PHEV driving and the 100% range predictions have remained above 230.
#3
AudiWorld Senior Member
BTW, Bjorn blames some of the lack of efficiency on the use of permanent magnet motors that can't be shut off for coasting. Huh? I can find no evidence of the use of permanent magnet motors, only references to asynchronous motors requiring no use of rare earth magnets. I think he has it wrong. Yes or no?
#4
AudiWorld Member
Thread Starter
BTW, Bjorn blames some of the lack of efficiency on the use of permanent magnet motors that can't be shut off for coasting. Huh? I can find no evidence of the use of permanent magnet motors, only references to asynchronous motors requiring no use of rare earth magnets. I think he has it wrong. Yes or no?
#5
AudiWorld Senior Member
Yeah, I think he's misunderstanding both the e-trons drivetrain and the reason for the efficiency when compared to a Tesla drivetrain. The e-tron uses two induction motors. These have a wide power band but are not as efficient as a permanent magnet motor at a specified fixed load. The e-tron can theoretically shut down or reduce power to the rear motor but the front motor is only a little more efficient. Now compare that to the updated Tesla Model S/X design. Large AC motor in the rear for a wide power band and a permanent magnet motor in the front optimized for highway RPM. The rear motor can be completely shut down with almost no drag and power directed to the very efficient permanent magnet synchronous reluctance motor. Tesla also recently improved its power electronics by a few percent which also helps.
Just went for a joyride to the EA charger in town (the long way). What a wonderful drive this car is.
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