KLD Electric Vehicle
Transportation 2009

KLD Energy Technology asked d:e to assist in the design of a four-wheel-drive electric vehicle, to be based on an existing chassis. It is intended to be a semi-rugged electric sports car for the desert, with a carbon fiber body and KLD’s revolutionary electric motors.

KLD Electric Vehicle
Transportation 2009

KLD Energy Technology asked d:e to assist in the design of a four-wheel-drive electric vehicle, to be based on an existing chassis. It is intended to be a semi-rugged electric sports car for the desert, with a carbon fiber body and KLD’s revolutionary electric motors.

KLD Electric Scooter + Motor Housing
Transportation 2009

d:e created this scooter and motor housing design to demonstrate KLD’s innovative electric motor technology. KLD’s motors use thin-film composite magnets to create a transmission-less architecture that is significantly more efficient than regular electric motor systems. It uses 50% fewer parts and has virtually no lag. The motor is housed within the rear  hub of the scooter, allowing for a highly distinctive form.

KLD Electric Scooter + Motor Housing
Transportation 2009

d:e created this scooter and motor housing design to demonstrate KLD’s innovative electric motor technology. KLD’s motors use thin-film composite magnets to create a transmission-less architecture that is significantly more efficient than regular electric motor systems. It uses 50% fewer parts and has virtually no lag. The motor is housed within the rear  hub of the scooter, allowing for a highly distinctive form.

KLD Electric Scooter + Motor Housing
Transportation 2009

d:e created this scooter and motor housing design to demonstrate KLD’s innovative electric motor technology. KLD’s motors use thin-film composite magnets to create a transmission-less architecture that is significantly more efficient than regular electric motor systems. It uses 50% fewer parts and has virtually no lag. The motor is housed within the rear  hub of the scooter, allowing for a highly distinctive form.

KLD Electric Scooter + Motor Housing
Transportation 2009

d:e created this scooter and motor housing design to demonstrate KLD’s innovative electric motor technology. KLD’s motors use thin-film composite magnets to create a transmission-less architecture that is significantly more efficient than regular electric motor systems. It uses 50% fewer parts and has virtually no lag. The motor is housed within the rear  hub of the scooter, allowing for a highly distinctive form.