McLaren Applied: welcome to phase three of the electric car

Phase two, which recently finished, encompassed the rise of cars like the Jaguar I-Pace and Mercedes-Benz EQC. EVs came to public consciousness as legislators demanded cleaner cars and public confidence in the tech increased.

“People started embracing EVs and not going back,” says Lambert. “It was a breakthrough, but not a tipping point.”

Phase three, the rise of efficiency, has just begun. “The fast integration of EVs during lockdown took people by surprise,” says Lambert. “Suddenly they were quite common on the road, and in 2020 we started talking seriously about boosting their efficiency.

In this phase, believes Lambert, manufacturers will move from offering serviceable EVs often based on outgoing combustion cars to embracing efficiency in all forms (packaging, weight saving, battery development, aerodynamics and powertrain refinement).

This phase will include the widespread adoption of what Lambert sees as two must-haves of new-era EVs: an 800V electrical architecture and silicon-carbide inverters – both Applied specialist areas. Lambert calls the inverter “an unsung hero” in an electric powertrain that decides how much energy the car needs, controls the motor and can even improve NVH by smoothing power delivery.

In the brave new automotive world, the combination of 800V and silicon carbide will become a badge of performance, says Lambert, a bit like a GTI model today.

An 800V inverter can roughly halve a lesser powertrain’s efficiency losses, providing opportunities for cars to run smaller, less costly batteries and motors and to use less raw materials.

Phase four, a few years hence, will begin when car makers decide in detail how they will compete with one another on driving characteristics, rather than just a car’s size, shape and number of seats.

Lambert believes that precise motor control – naturally via 800V silicon-carbide inverters – will create differences in feel, uniquely matched to a car’s marque and model.

The much-admired Porsche Taycan is a pioneering example of what’s possible: Lambert says the car’s Porsche-typical feel is “because of the way it exerts control over its electric motors”. He foresees a rise in more imaginative driving modes in future models, plus advances in opportunities for individual drivers’ settings.

Above all, Lambert sees phase four as crucial if EVs are to match the appeal of ICE cars. “People must be able to continue enjoying their driving,” he says. “Progressive technology doesn’t have to be boring, and based on conversations we’re having with car makers, the next EV generation is likely to be better to drive than ever before.”