In-wheel EV motors: Should we be reinventing the wheel?
Published
Prior dives head first into the burgeoning world of in-wheel electric motors
A company about to put 39kg electric motors into wheels has concluded, thanks to a study by Lotus Engineering, that unsprung mass – the weight that lives at the road end of your suspension – doesn’t matter a bit.
This will be a surprise those of us who remember reports emerging frequently from down the corridor at Lotus Cars, celebrating every time they developed a new wheel that shaved 200 grams from each unsprung corner of an Elise.
Back then it mattered – but now it doesn’t? Hmm...My understanding, gained from the number of automotive engineers who have told me during the past three decades, is that reducing unsprung mass is an excellent thing to do because it’s easier to control the movement of a light wheel than it is a heavy one.
Not only is a vehicle’s body less deflected by it, but the wheel also returns to the road more quickly. Plus it has a lower rotational inertia, so the car accelerates and decelerates faster, too.
I thought that so long as the components are strong enough, there was no real downside to making the wheel/brake/hub combination lighter. And quite a lot of downsides to them being heavier.
And I have my own experiences: the revelation in agility when I first fitted lighter rims to my mountain bike; trying a Porsche Cayman with iron brake discs and then the lighter PCCB carbon-ceramics, with which it steered and rode much more easily; and the noticeable thump from the rear wheel of the still-excellent Maeving RM1 electric motorbike, which has a wheel-mounted motor.
It’s true that a heavier body is less easily deflected than a lighter one, and Protean is developing motors for vehicles weighing up to 5.2 tonnes, not Caterhams. But even so, either back then, or now, or both, somebody has been over- or under-egging this unsprung mass thing.