Ricardo has unveiled its new electric vehicle motor in prototype form as part of a collaborative research and development project RapidSR - Rapid Design and Development of a Switched Reluctance Traction Motor.

Using a conventional distributed stator winding, the Ricardo synchronous reluctance electric machine makes use of low-cost materials and simple manufacturing processes.

"As the market for electric vehicles grows globally, there is an imperative to explore alternatives to permanent magnet traction motors which require the use of expensive and increasingly difficult to source rare earth elements," said Ricardo hybrid and electric vehicle systems managing director, Paul Rivera.

"The Ricardo prototype we have announced today demonstrates what can be achieved by using the latest electric machine design processes in the creation of a compact, lightweight, and rare earth element free concept."

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 Ricardo RapidSR next-generation electric vehicle motor prototype

  • New prototype 85kW synchronous reluctance drive designed primarily for electric vehicle traction applications
  • Avoids the use of expensive rare earth elements, provides uncompromised performance at significantly reduced cost


The new electric vehicle (EV) motor has been designed and built in prototype form by Ricardo as part of a collaborative research and development project, RapidSR (Rapid Design and Development of a Switched Reluctance Traction Motor). Using a conventional distributed stator winding, the Ricardo synchronous reluctance electric machine is a highly innovative design that makes use of low-cost materials, simple manufacturing processes and uncomplicated construction. It has a rotor made from cut steel laminations, which are used to direct and focus the flux across the air gap. By maximising this flux linkage between the stator and rotor, performance can be optimized within a tightly packaged, low weight and rare earth element free design.

“As the market for electric vehicles grows globally, there is an imperative to explore alternatives to permanent magnet traction motors which require the use of expensive and increasingly difficult to source rare earth elements,” commented Paul Rivera, MD of the Ricardo hybrid and electric vehicle systems business. “The Ricardo prototype that we have announced today demonstrates what can be achieved by using the latest electric machine design processes in the creation of a high performing, compact, lightweight, and rare earth element free concept.”

Ricardo RapidSR electric motor_CAD modelSince its launch in 2012, the RapidSR project has been researching the design of next-generation economic electric motors that avoid expensive and potentially difficult to source rare earth elements typically used in permanent magnets. By developing effective CAE led design processes as well as prototype designs, the team has created a framework for the future design and manufacture of electric vehicle motors that offer the performance, compact packaging and light weight required for EV applications, but at a significantly reduced cost compared to permanent magnet machines. Ricardo’s partners in this research include project leader Cobham Technical Services – which is developing its multi-physics CAE design software, Opera, as a part of the project – and Jaguar Land Rover. The research is being co-funded by the UK’s innovation agency, Innovate UK. 

“By bringing together state-of-the-art simulation technology with advanced electric machine design we have created a highly credible next generation EV motor concept that shows considerable promise,” added Dr Will Drury, Ricardo team leader for electric machines and power electronics. “The Ricardo prototype is now built and will be rigorously tested over the coming weeks in order to validate the extremely positive results that it has shown in simulation, as a concept that provides an exceptional balance of performance, compact package, light weight and low cost.”

Original source: http://www.ricardo.com/en-GB/News--Media/Press-releases/News-releases1/2015/Ricardo-develops-next-generation-electric-vehicle-motor-/