The concept of the vehicle is equipped with a variety of stylish and technical updates, ideally suitable for winter expeditions.
Inspired by the feeling of delight, which goes hand in hand with winter research, Nissan presented his vision of eco-friendly adventures, showing its innovative fully electric concept van E-NV200 performed by Winter Camper. Winter camper E-NV200 WINTER CAMPER, created with the surrounding environment, combines the sharp feelings from driving an electric car with the spirit of wildlife.
This adventure concept of a camper, equipped with a variety of individual characteristics, is designed to overcome off-road. Custom Nissan Camper Technology Luxury Kit Kit is the first package for adventure surroundings in the environment. Available for owners of the standard E-NV200 van and passenger van E-NV200 Evalia for surcharge, this kit offers a complete set of accessories that provide maximum comfort and versatility for independent life in the wild. The onboard power supply unit 220 V can be charged with the help of solar-mounted solar panels, and the built-in functional kitchen, refrigerator, folding beds and double-glazed windows make life on the open road comfortable.
Winter camper E-NV200, optimized for work in difficult off-road conditions, was subjected to a number of improvements to overcome difficult places. Off-road premium tires and increased ground clearance provide optimal clutch with expensive and road clearance in dirt or snow, and double spotlights with a brightness of 5400 lumen are installed on a reinforced steel beam in the front of the car, providing maximum visibility when it is most necessary for the driver.
E-NV200 Evalia, created on the E-NV200 Winter Camper, uses intelligent and efficient Nissan technology with an electric drive. A proven power unit provides an optimal combination of power and a range, providing an instant torque and acceleration, as well as a number of energy-saving technologies, including B-mode and ECO mode for improved recovery braking and more efficient power consumption, respectively.