Deep Insight

Lithium-sulphur batteries

Lithium-sulphur batteries suffer from short lifetimes from the polysulphide shuttle effect. Nick Flaherty reports on attempts to reduce this The most significant advantage that lithium-sulphur (LiS)

Deep Insight

Switching

Nick Flaherty examines how new technologies are boosting the performance of inverters and onboard chargers Switching is at the heart of the electrical systems for e-mobility platforms. The performance of the switching devices – the transistors – determines the

Deep Insight

EV dynamics

How a car moves in response to the forces acting on it is a fundamental determinant of safety, comfort, energy efficiency and driver engagement, and electrification of the powertrain profoundly affects that dynamic behaviour. This influence results from differences in the vehicle’s overall mass and its distribution, when compared with IC-engined vehicles, along with the speed and precision of response inherent in electrical machines.

Deep Insight

E-motor materials

The need for low weight and high performance in e-mobility motors is driving a demand for specialist metal alloys and insulating materials that are also thermally conductive. There is a strong focus as well on how they are sourced, particularly with regard to heavy rare earth (HRE) elements. Dysprosium and neodymium for example

Deep Insight

ZeroAvia hydrogen-electric aircraft

As detailed in the first issue of this publication (Winter 2018) through our discussions with Pipistrel about its Alpha Electro aircraft, it is just as feasible to develop (and certify) a two-to-four seater plane to run on battery power as it is with a roadcar. While serious optimisation of the battery and overall system weight must be undertaken to make small battery-electric planes flightworthy, it is empirically achievable.

Deep Insight

Wireless Charging

With agreement on an SAE standard for wireless charging systems set to herald their wider roll-out, Nick Flaherty reports on developments in the technology. The technology for wireless charging of e-mobility systems has reached a critical point. With the SAE J2954 standard now agreed for consumer EVs...

Deep Insight

NVH

Peter Donaldson reports on the tools and methods for optimising the acoustic environment in EVs. Of all the disciplines required for developing cars, psychoacoustics isn’t one that readily springs to mind. However, this science of the relationships between aural stimuli and the responses they produce in people informs the branch...

Deep Insight

Skateboard platforms

Against the backdrop of a boom in skateboard platforms for EV designs, Nick Flaherty looks at the approaches taken by some of their suppliers. Changing the wheelbase of a traditional car or truck design by 6 or 7 in creates a ripple effect whereby half the transmission shaft has to be redesigned, changing the centre of gravity and the requirements for the suspension. That means a whole new vehicle design is needed...

Deep Insight

Vehicle-to-grid charging

Although bidirectional charging for EVs remains a niche technology, writes Nick Flaherty, progress on its uptake is being made. Vehicle-to-grid (V2G) charging is an appealing technology, as it enables EV batteries to be used as part of the electricity grid to even out demand. For example, electric car owners could charge their...

Deep Insight

Battery Testing

Battery test systems are proving key to speeding up the development times for new batteries, as Nick Flaherty explains. At the heart of testing battery cells, modules and packs are the levels of voltage and current. Temperature and pressure are increasingly important conditions ...