I looked carefully at Erik's post presenting his scooter conversion experience. He chose well in terms of selecting a motor for power and a sufficient number and size of batteries to provide him with adequate range. The main drawback to his design is that the speed of the scooter is directly linked to the speed of the hub motor. If a car were designed in the same way, it would forced to run in one gear at all times. This is extraordinarily ineffecient and would require an enormous gas tank to enable the car to go any reasonable distance. Hence the reason Erik requires this massive battery pack. To alleviate this problem, automobile manufactures designed the transmission. Using the transmission, the engine operates at its peak power and efficiency over a greater range while keeping the vehicle in motion. It also enables the vehicle to take advantage of inertia to keep the vehicle moving instead of entirely relying on the motor or engine for power. So a car traveling in 5th gear can travel at 60mph at 2500rpm (cruising speed) but has very little power, for example, whereas in 1st gear at 2500rpm, the car is limited to speeds as low as 10-15mph but has great power. Such a device has been designed for a light electric vehicle. Behold: the Nuvinci continuous variable planetary transmission (
http://www.fallbrooktech.com/09_LEV_Kit.asp)! Adding to the Nuvinci's benefits is an automatic shift actuator that can be programmed from a PC to electronically shift at the peak performance of the motor. When the motor needs more power, as when climbing a hill, the Nuvinci will shift accordingly based on tables that are loaded into the shift actuator's firmware. Here is a link to the datasheet:
http://www.fallbrooktech.com/docs/DevKit_Datasheet.pdf and the User's Manual:
http://www.fallbrooktech.com/docs/DevKit_Manual.pdfSo consider the diminutive moped: it is engineered to use a motor, so it has the space designed into the frame to accommodate an electric motor like the HPM5000B. Since everything else is getting tossed, there will be plenty of room for a sizeable battery, and a second one could also be stashed under the seat. The Nuvinci CVP hub is installed in the center of the rear wheel (note how the rear wheel on the moped is a standard spoked wheel, unlike the wheel on a scooter). Connect the motor to the Nuvinci hub using a toothed drive belt (cleaner that way) and you now have a very efficient drive train for an electric bike!
Now I realize that there is plenty of custom installation and configuration work that would have to take place in order to make this moped run properly, but the simple truth is this: with a CVP transmission in the drive train, it is now no longer necessary to cart massive battery packs in order to improve the efficiency, power and range of your electric bicycle or moped. Read the white paper and see for yourself!
http://www.fallbrooktech.com/docs/LEV_CVT_WhitepaperRev10.pdf
