JAGUAR LAND ROVER PRINTED ELECTRONICS POWERS NEXT-GENERATION IN-CAR PERSONALIZATION
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JAGUAR LAND ROVER PRINTED ELECTRONICS POWERS NEXT-GENERATION IN-CAR PERSONALIZATION

Date: 05 Nov 2019 Author Type: Press Release
Author: Jaguar South Africa
Source: Jaguar South Africa
  • World-first Jaguar Land Rover research uses structural electronics for car cabins
  • Lightweight Electronics in Simplified Architecture (LESA) will allow curved screens on dashboards and drivers to customize color-changing body panels
  • Award-winning LESA technology builds on existing printable electronics technology used in flexible wearables and OLED TVs
  • System trial cut weight by up to 60% by removing traditional ECU and printing circuit directly onto the part
Pretoria, 5 November 2019 – Jaguar Land Rover’s pioneering structural electronics research could allow dashboards to be replaced by curved screens and let drivers customize interiors thanks to color-changing body panels.

In a world-first, Jaguar Land Rover is developing the Lightweight Electronics in Simplified Architecture (LESA) research technology – used in flexible wearables and curved OLED TVs – for car interiors. It has the potential to radically change cabins of the future and would offer customers greater ability to customize their cars to suit their needs.

With LESA technology, Jaguar Land Rover will be able to manufacture body panel displays to show information only when needed to help designers achieve streamlined and buttonless designs for future cars. Such designs may include, customizable interior ambient lighting systems, body controls, wraparound button-less dashboards and advanced fabric/leather heated steering wheels.

The innovative printed electronics system will also reduce the weight of in-car electronics by up to 60% as wiring, sensors, and computing is contained within all non-metal materials, removing the need for extra packaging space for control units.

Features using the award-winning LESA technology would be created using a faster, simpler and more automated process, be more flexible in usage and offer technological advancements – such as making digital displays appear on surfaces like wood without the need for a screen. It also makes adding solar panels to the vehicle possible without adding extra system weight to car. The renewable power generated from the sun could then be used to recharge the battery.

The system uses computer-animated drawings (CAD) to virtually “unfold” apart into its 2D structure. The required electronic circuit, ordinarily wired into a traditional ECU, is then printed onto the flat surface, and components are mounted, before the CAD is folded back into its original 3D. The part is then manufactured with the electronics printed into the structure.

Jaguar Land Rover has successfully trialed LESA technology on an overhead control panel prototype, achieving a weight reduction of 60% and minimizing the part size from 50mm to 3.5mm. The research was awarded an Institution of Engineering and Technology (IET) Innovation Award with judges praising it as “the future of electronics in the car”.

The light-weighting benefits are a step towards Jaguar Land Rover’s vision for Destination Zero; an ambition to make societies safer and healthier, and the environment cleaner delivered through relentless innovation. By removing weight from the vehicle, future Jaguar and Land Rover models will benefit from increased electric range or improved fuel efficiency, helping to further the company’s goal of a zero-emissions future.

Ashutosh Tomar, Jaguar Land Rover Electrical Research Technical Manager, said: “Healthcare, aerospace, consumer technology, and military industries are already harnessing the benefits of structural electronics and our research is leading the way in the automotive sector by bringing it into the cabin for the first time.

“We believe LESA represents the future of vehicle electronics and will enable us to design and manufacture innovative, flexible and customizable cabins for our customers while also reducing weight and cost during production helping us reach Destination Zero.”
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