Chassis

Turing Electronics provides chassis range from 500kg payload to 3000kg payload chassis, with drive by wire kit and control interface CAN 2.0.

TE-W1: 500KG Payload

TE-W1 is a modular and universal small-scale autonomous driving wire-controlled chassis that can provide autonomous driving product developers with a stable, reliable platform. Developers can quickly deploy autonomous driving systems with different configurations, allowing developers to focus more on autonomous driving system development and overall product application development, as such significantly reducing development costs and development lead time.The chassis opens the control interface for autonomous driving system and can be equipped with sensors,Lidar, high-precision integrated navigation and positioning RTK-GNSS, camera, millimeter-wave ultrasonic radar etc., making it easier for customers to apply it to various autonomous driving scenarios.

TE-W2: 750KG Payload

The design adopts a skateboard platform concept with a separated upper and lower body structure and advanced configurations. It is specifically developed for low to medium-speed autonomous vehicle applications. The platform can accommodate various upper body modules, making it adaptable for scenarios such as autonomous delivery, urban logistics, new retail, and autonomous special vehicle platforms.

TE-W3: 1000KG Payload

The design adopts a skateboard platform concept with a separated upper and lower body structure, driven by four hub motors and featuring front and rear wheel steering. With advanced configurations, it is specifically developed for low to medium-speed autonomous vehicle applications. The platform can accommodate various upper body modules, making it adaptable for multiple scenarios such as campus autonomous logistics, factory logistics, photovoltaic cleaning, and more.

TE-W7: 1000KG Payload

The design adopts a skateboard platform concept with a separated upper and lower body structure. It features advanced configurations and is specifically developed for low to medium-speed autonomous vehicle applications. The platform can accommodate various upper body modules, making it adaptable for multiple scenarios such as campus and urban delivery, autonomous logistics, factory logistics, and urban-rural sanitation.

Application Scenarios