to closest freight terminal. Add $70 for home residence delivery
This bike looks retro to the 50’s and may set you back in time. The big seat will hold an extra passenger and houses a large storage compartment underneath. 600 watts for the motor will take you around town in style at a great pace. Large tires bring great stability and cornering while offering a smooth ride. There is plenty of room for your legs on this machine. Available in black, red and silver.
Specifications:
Motor: 600w (Brushless)
Voltage: 48v
Batteries: (4) 12v / 20 amps
Length: 71”
Seat Height: 30”
Tire Size: 17” x 2.75”
Weight: 172 lbs
Passengers: 2
Front Brakes: Cable operated drum brake
Rear Brakes: Cable operated drum brake
Max Speed: 24 mph
Range: 20+ Miles
Charge Time: 8-10 Hours
Features:
Battery charger (110V)
Speedometer
Battery level indicator
Turn signals / Horn
Brake light / Tail light
Headlight w/high low beam
Side view mirrors
Steering key lock
Removable Battery
Under seat storage
Tool Kit
Kick stand & Service stand
Twist grip throttle
Rear passenger foot pegs
All scooters include free truck shipping to any of the continental 48 states. Shipping to Hawaii and Alaska is available for an additional charge.
For exact shipping price quote to Hawaii, Alaska or other locations outside the continental US please email us.
Electricity Cost Per Charge = 26 Cents
Electricity Cost Per Mile = 1.3 Cents
A common question is how much electricity does it take to charge the battery. To the right we have a charge rate graph. You can click on the graph to see a larger version. The chart shows how much power is being drawn from the 110VAC outlet during the charge cycle. Each dot represents 15 minutes of charge time. Charging occurs in two steps, these are known as bulk charge and float charge. The first step takes about 6.5 hours as you can see on the graph. This is where the majority of the charge occurs. At this point the charger steps down the power for the remaining 20% of the charge cycle.
Average power utilization can be calculated by adding all of the plot points and dividing that number by the number of plot points. In this case we take 83 and divide it by our 40 plot points for an average power draw of 2.075 amps. Watts equal voltage times amperage so we multiply 110 X 2.075 to get 228.25 watts. Our charge time is 9.5 hours so we multiply the average power draw of 228.25 times 9.5 to get 2.168 kilowatt hours.
In California, PG&E’s baseline rate per kilowatt is $.12 (as of August 2008). Multiply this rate (.12) times the total watt hours used (2.168) to charge the battery and we find that it costs about 26 cents to fully charge an exhausted battery. A fully charged battery has range of 20 miles with this model so
