Suzuki Motor Announces 10-Year Future Technology Plan

Suzuki Motor Corporation announced the technology strategy it will develop in the next 10 years. In the next 10 years, Suzuki will make a technology move that minimizes energy consumption from production to recycling and will aim for a carbon neutral world while providing more enjoyable transportation to people all over the world. In this context, the Japan-based company will achieve sustainable goals in many areas, from lightweight platforms to efficient engine technologies as well as battery and battery technologies.

Compact and lightweight vehicles, which are Suzuki's area of ​​expertise, not only reduce carbon emissions during use, but also reduce the resources used and emissions during production. Thus, Suzuki contributes to protecting the world's resources and reducing carbon emissions.

Suzuki aims to offer electric vehicles with the highest energy efficiency to its customers, based on the renewable energy rate and usage conditions in each country and region. In this context, the company brings together “Sho-Sho-Kei-Tan-Bi” (Smaller, Less, Lighter, Shorter, Beautiful) components such as a small and efficient electrical unit and a small and lightweight battery, which minimizes energy consumption. will develop electric vehicles.

Suzuki has developed a high-efficiency engine codenamed Z2023E, aiming for an advanced combustion level in 12. This engine achieved an extremely high thermal efficiency of 40 percent compared to other internal combustion engines.

Suzuki will also develop and offer to its customers an affordable "SDV right" solution that creates added value for vehicles by minimizing energy consumption with the "Sho-Sho-Kei-Tan-Bi" production principle in the field of SDV. Thus, the company will facilitate software updates with wired and over-the-air (OTA) updates with the best compatibility.

In the future, Suzuki will achieve minimum energy consumption with a circular economy to save on resource use by designing easily detachable products with a recycling and reuse approach.