- World
premiere for innovative new lightweight EV structure
- Developed through
Project LEVA research programme, rear structure is 37% lighter than on
Lotus Emira V6
- Will be integrated
into Lotus electric sports car architecture
- Versatile architecture
supports multiple layouts, wheelbase lengths, battery sizes and
configurations
- Technology on display
at Cenex LCV event on 22/23 September
(Hethel, UK –
21 September 2021) – Just
weeks after Lotus confirmed it will be launching a new family of EV performance
cars, it has given a world premiere to the innovative new lightweight chassis
technology that will underpin the electric sports car in the range.
The new structure has been developed through
Project LEVA (Lightweight Electric Vehicle Architecture), announced last
October by Lotus. Project LEVA is a research programme that’s accelerating the
development of all-new lightweight structures for next-generation battery
electric vehicles.
Today Lotus can reveal it’s this structure
developed through Project LEVA which will be integrated into the company’s new
architecture for electric sports cars. Thanks to the innovation of Lotus and
the Project LEVA partners, the rear structure is 37% lighter than it is on the
Lotus Emira V6. It means Lotus now has the ‘blueprint’ for the next generation
of electric sports cars, for future Lotus products and for the Lotus
Engineering consultancy to commercialise.
The Project LEVA lightweight chassis technology is
being shown at the Low Carbon Vehicle event staged by Cenex, the UK’s Low
Carbon and Fuel Cells Centre of Excellence, at Millbrook Proving Ground,
Bedfordshire, UK, on 22/23 September.
A new animation from Lotus reveals how the
technology will form part of the new electric sports car chassis, illustrating
the versatile nature of this all-new Lotus-developed vehicle architecture. It
is fully adaptable to provide a platform for a range of EVs with variable
layouts, wheelbase lengths, battery sizes and configurations.
As the animation shows, all three layouts feature a
common lightweight die-cast rear sub-frame with multiple interchangeable
components. This is the Project LEVA innovation, and it means a single vehicle
architecture can accommodate two different types of battery configurations:
|
VEHICLE LAYOUT |
WHEELBASE |
BATTERY SIZE / CONFIGURATION |
MAXIMUM BATTERY POWER |
EDU LAYOUT / MAX POWER |
|
Two-seater |
Minimum of 2,470mm |
8-module / chest |
66.4kWh |
Single / 350kW |
|
Two-seater |
More than 2,650mm |
12-module / chest |
99.6kWh |
Twin / 650kW |
|
2+2 |
More than 2,650mm |
8-module / slab |
66.4kWh |
Single / 350 kW or Twin /
650kW |
- ‘Chest’
layout, where the modules are stacked vertically behind the two seats. A chest
layout is a ‘mid-mounted power pack’, ideal for sports car / hypercar vehicle
types where a low overall ride height and low centre of gravity are required,
and as seen on the Lotus Evija pure electric hypercar.
- ‘Slab’
layout, where the modules are integrated horizontally under the cabin. This is
most suitable for vehicles where a higher ride height and a taller overall
profile is required. It is often referred to as a ‘skateboard power pack’
layout.
The innovative new subframe features cylindrical
battery cells for high energy density, with the option of a single or twin
electronic drive unit (EDU) to support. Cold cure, spot bonding and advanced
weld processes mean reduced environmental impact during assembly.
This unique degree of flexibility and modularity in
wheelbase and propulsion solutions will be the genesis for a wide variety of
electric vehicle applications. These could be for the eagerly anticipated Lotus
electric sports car – scheduled for launch in 2026 – as well as for third-party
clients through Lotus Engineering.
Funding for the project came in part from the
Advanced Route to Market Demonstrator programme (ARMD). Awarded by the UK
Government’s Department for Business, Energy and Industrial Strategy (BEIS),
the programme is delivered on behalf of the Advanced Propulsion Centre (APC) by
Cenex.
Richard Moore, Executive Director, Engineering,
Lotus Cars, commented: “Project LEVA and the electric sports car architecture
are perfect illustrations of the innovation which continues to be at the heart
of everything Lotus does. Today’s EVs are heavy in comparison to their ICE
equivalents, so the ARMD funding has helped Lotus to innovate earlier in the product
cycle and develop a new vehicle architecture that targets lightweight and
performance density from conception. Rather than developing a single vehicle,
it means Lotus now has the ‘blueprint’ for the next generation of electric
sports cars, for future Lotus products and for the Lotus Engineering
consultancy to commercialise.”
Project LEVA has been led by engineer Richard
Rackham, Head of Vehicle Concepts, Lotus. Richard is best known for his
revolutionary work on development of the extruded aluminium Lotus Elise
architecture 25 years ago. Richard commented: “Project LEVA is as revolutionary
now as the Elise architecture was in 1996. In true Lotus spirit, significant
weight savings have been achieved throughout, with a focus on ultimate
performance, efficiency and safety being engineered into the structure from the
outset – for example, by utilising the vehicle structure as the battery
enclosure, having an integrated EDU, eliminating bolt-on subframes and
optimising the multi-link suspension components.”
On Project LEVA, Lotus has collaborated with
supply chain partner Sarginsons Industries and leading academics from Brunel
University London to harness the full ‘light-weighting’ potential of the
vehicle architecture.
Today’s announcement is the latest in a series
detailing Lotus’ transition to an all-electric brand:
- January
2021: Lotus announced it had signed a Memorandum of Understanding with
Alpine, the performance car division of Groupe Renault, to study a number of
areas of cooperation, including the joint development of an EV sports car.
- April
2021: at the Driving Tomorrow global strategy conference, Lotus confirmed
the E-Eports vehicle architecture was one of four Lotus-developed chassis that
would underpin future models.
- August
2021: Lotus confirmed it would be launching a new electric sports car in
2026 – Type 135 - which is intended to be manufactured in the UK.
- Today:
Lotus gives a world premiere to the innovative new chassis technology that will
underpin that electric sports car.
The next stage of the project is for Lotus to
continue development of the all-electric vehicles which will be built on this
innovative and market leading new architecture.
Also on the Lotus stand at Cenex is the Lotus
Evija, the world’s first pure-electric British hypercar. The car, an
engineering prototype, will be ‘naked’ with several body panels removed to
allow visitors to see key components and systems.
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