Canoo revealed its MPDV1/2 vehicles with higher storage space at a lower cost than most of its competitors priced starting at approximately $33,000. The storage space can hold 1270 pizza boxes.
As an integral part of Canoo’s business strategy, the functional design of the multi-purpose delivery vehicle is meant to service a wide range of customers. It was built specifically with the needs of small businesses and large last-mile delivery companies in mind. The design of the model paired with the best-in-class total cost of ownership (TCO) also makes it a great option for independent contractors, utilities, service technicians and many more.
Large customers, such as last-mile and package delivery fleets, retailers, major corporations and logistics companies, also have the option to co-develop a custom vehicle with Canoo to meet their specific requirements.
Best-in-Class Total Cost of Ownership & Cargo Volume
With this vehicle, Canoo plans to achieve best-in-class total cost of ownership through range and space efficiency, as well as durability and low maintenance costs. Leveraging the company’s proprietary platform is expected to reduce material and service costs, passing on considerable savings to customers.
Canoo’s proprietary electric vehicle platform is the flattest in the industry and has enabled potentially class-leading interior cargo volume on a small vehicle footprint. Interior volume is also maximized through Canoo’s signature driver-forward architecture, which was designed with safety in mind. Canoo estimates that its multi-purpose delivery vehicle customers can achieve between $50,000 to $80,000 improvement on return on capital over six to seven years, depending on the use case, as compared to other top selling delivery vehicles.
Productivity is our Passion
To maximize user functionality, the production vehicle plans to offer a bi-directional onboard charger in lieu of adding a separate DC-AC converter, which will transform the vehicle into a power plant for equipment and tools. A 125V or 240V AC output power plug can be incorporated into the vehicle so tools such as saws, drills and air compressors can be conveniently powered up at remote destinations. The vehicle also enables various workstations. For example, drivers who have to take notes per delivery or job will have the ability to place a laptop or other devices to the left of the driver’s seat.
The vehicle was designed from the inside out to be sensitive to the ergonomics and productivity of the people using it. Additional vehicle customization examples that focus on ergonomics and productivity gains include high roof height, storage lockers, roll-up style door, ramp slide outs and more.iii Both vehicle variants are designed to offer a low step in height of 17 inches, allowing easy and comfortable access to the vehicle. With the space efficiency afforded by Canoo’s multi-purpose delivery vehicle, fleets can accommodate higher storage capacities to meet the increasing demands of their customers.
The vehicle enables greater “up time,” or the actual hours of use, through a range of unique benefits, including:
- Greater cargo space with nearly 30% more parcel volume than other leading delivery vehicles in comparable segments.
- Range efficiency means more stops can be made on a single charge, helping to lower operating costs.
- Energy efficiency provides considerable savings in terms of operating expenses because the vehicle can go further per kilowatt of energy than the competition.
- Urban maneuverability enabled by Canoo’s steer-by-wire technology which eliminates hand-over-hand driving and increases range of motion and route options.
Anticipated Vehicle Specificationsiv
The multi-purpose delivery vehicle is a ground up electric design, meaning it was not retrofitted or designed based off of a gas- or diesel-powered model. This has enabled a more thoughtful, reliable and efficient EV design made specifically for people to use the vehicle as a workspace, such as plugging in their tools for a remote job.
The multi-purpose delivery vehicle will be built on Canoo’s proprietary EV platform which features a steel frame construction, transverse composite leaf springs, a double wishbone suspension system, variable ratio steer-by-wire and brake-by-wire. The vehicle will be fully connected with data reporting capabilities and will feature Level 2.5 autonomy and over-the-air software updates. The vehicle will also support cutting-edge software-as-a-service (SaaS) to help fleets improve their total cost of professional ownership (TCPO) by allowing them to manage their assets, route plan, run diagnostics and support drivers with safety, awareness and ergonomic information. Canoo’s industry leading steer-by-wire system will enable a smooth transition into self-driving capabilities once full autonomy becomes commercially available. Steer-by-wire also helps accelerate the internationalization plans for the vehicle, allowing for rapid deployment of a right-hand drive offering.
The two vehicle variants, multi-purpose delivery vehicle 1 (MPDV1) and multi-purpose delivery vehicle 2 (MPDV2), are expected to offer three battery sizes—80, 60 and 40 kilowatt-hours (kWh)—with the 80-kWh size featuring a DC Fast Charging time of 28 minutes from 20% to 80% charge.
MPDV1
Offering more capacity at an affordable price, the MPDV1’s superior range efficiency and urban mobility is enabled by a space efficient footprint. The vehicle is also designed to fit within many height restricted areas like parking garages.
Dimensions & Capacities |
||
Class |
1 |
|
Length, Width, Height |
14.4 feet, 6.4 feet, 6.2 feet |
|
Wheelbase |
9.4 feet |
|
Step in Height |
17 inches |
|
Track Front/Rear |
66.4 inches/ 65.6 inches |
|
Tire Size |
215/60R18 |
|
Ground Clearance |
7.3 inches |
|
Cargo Volume (rear of bulkhead) |
200 cubic feet |
|
Cargo Volume (cabin) |
30 cubic feet |
|
Total Cargo Volume |
230 cubic feet |
|
Payload |
80 kWh battery |
1540 |
60 kWh battery |
1760 |
|
40 kWh battery |
1980 pounds |
|
Curb Mass |
80 kWh battery |
4190 pounds |
60 kWh battery |
3970 pounds |
|
40 kWh battery |
3750 |
|
GVM |
5730 pounds |
Drive Unit |
|||
One Permanent Magnet Synchronous Electric Motor |
|||
Peak Motor Torque |
236 lb-ft |
||
Power of Electric Motor |
200 horsepower |
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Front Wheel Drive |
|||
Battery Pack & Charging Cells |
|||
Battery Capacity |
80/60/40 kWh |
||
Estimated WLTP Range |
80 kWh battery |
300 miles |
|
60 kWh battery |
250 miles |
||
40 kWh battery |
170 miles |
||
Estimated EPA Range |
80 kWh battery |
230 miles |
|
60 kWh battery |
190 miles |
||
40 kWh battery |
130 miles |
||
Liquid Cooling |
|||
Cylindrical Cells |
21/700 |
||
MPDV2
The MPDV2’s roof and step-in height enable individuals to easily walk in/out of the vehicle, and with nearly 6.5 feet of interior height throughout, it is tall enough to accommodate a standing position while inside, leading to greater usability and comfort for drivers.
Dimensions & Capacities |
||
Class |
1 |
|
Length, Width, Height |
17.1 feet, 7.2 feet, 8.4 feet |
|
Wheelbase |
9.4 feet |
|
Step in Height |
17 inches |
|
Track Front/Rear |
66.4 inches/ 65.6 inches |
|
Tire Size |
215/60R18 |
|
Ground Clearance |
7.3 inches |
|
Cargo Volume (rear of bulkhead) |
450 cubic feet |
|
Cargo Volume (cabin) |
50 cubic feet |
|
Total Volume |
500 cubic feet |
|
Payload |
80 kWh battery |
1320 |
60 kWh battery |
1540 |
|
40 kWh battery |
1760 |
|
Curb Mass |
80 kWh battery |
4410 |
60 kWh battery |
4190 |
|
40 kWh battery |
3970 pounds |
|
GVM |
5730 pounds |
Drive Unit |
||
One Permanent Magnet Synchronous Electric Motor |
||
Peak Motor Torque |
236 lb-ft |
|
Power of Electric Motor |
200 horsepower |
|
Front Wheel Drive |
||
Battery Pack & Charging |
||
Battery Capacity |
80/60/40 kWh |
|
Estimated WLTP Range |
80 kWh battery |
250 miles |
60 kWh battery |
190 miles |
|
40 kWh battery |
110 miles |
|
Estimated EPA Range |
80 kWh battery |
190 miles |
60 kWh battery |
140 miles |
|
40 kWh battery |
90 miles |
|
Liquid Cooling |
||
Cylindrical Cells |
21/700 |
MPDV3
Canoo is preparing to launch a third, larger variant that will be in the class 3 truck category, following the introduction of MPDV1 and MPDV2.