Several months ago in my regular email updates from (the wonderful) www.instructables.com I saw this post about how to build a 72-volt electric motorcycle. It was well-written, the product was flashy, it looked simple enough, and it gave the electrical engineering portion of my brain a big tickle.
About one month prior to this I finally paid off my car, got the title, and was fancying the idea of trading it in for a new and efficient car. But since I was just getting used to not paying car payments I wasn't terribly excited to chop away another hundred bucks or so from every paycheck again. Thinking about the motorcycle I wondered how much it would cost to make one myself and would it offset the cost of a more efficient vehicle.
Answer? Building a bike for $3500 or so? And not pay anything at the pump? Oh yeah it offsets the cost. So I started doing more research. I've been to the usual haunts: EVAlbum, Electric Cars Are for Girls, Uve's EV Calculator, and so on. They were all very helpful, and soon I was ready to find a donor bike.
My coworker Drew is a big motorcycle geek and was kind enough to make a call to Kissimmee Motorsports and find a good, cheap frame for me. Enter Aaron, who's in school for motorcycle engineering (or something). He had an old 1990 Yamaha FZR from his cousin in Minnesota that had a bad clutch (which he, unfortunately, broke himself). In parting it out he offered the frame (and wheels and electrical system, basically everything but the internal combustible engine parts) to me for $400. It wasn't in too bad of shape (some scratches, a bent mirror, but mostly cosmetic issues), and was exactly what I wanted.
I knew I wanted a sport bike because of a couple reasons: 1) it's aerodynamic, and usually light; 2) it's got fairings, which will protect the electric parts from weather; 3) it's flashy, and, if you're going to build an electric motorcycle you might as well make it a sight. The bike from Aaron fit the bill, and just today I got back from picking it up from his place and bringing it home.
So now I'm ready to begin. I promise most posts will not be this long, and I will try to be concise about the engineering decisions I've made. But for now I'll leave it with this: I plan for it to be 72V, go 70 mph, and go 20 miles at 65 mph. And cost around $3500 start to finish.
Let's see how close I come.
Here are more pictures.
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4 comments:
Paul,
Nice bike to convert. I saw you post on EVDL and could not find an email. You need to at least include a gmail email for everyone. Google mail is excellent. Anyway back to your bike. You said you were thinking of using individual chargers to keep the cost down. Well if you are going to use lead acid floodies then you have another option like I have done and it's cheap. I picked up an old Lester-Matic golf cart charger that was 36 volts and 30 amps. I converted it to 72 volts and 15 amps. Actually the voltage is higher but it has a 72 volt rating now and 15 amps. It is manual and uses a timer. Easy to convert from 36 to 72 volts and you can do it for about 150 bucks total. Nice strong charger and it will charge you pack quickly and well. One charger to do the lot. Not a bunch of single chargers. If one goes bad you have a problem as all the other batteries are now charged and one is not. Bad news for the pack and you may not even know it. Us a single charger, it is better for you pack.
Pete
Here is my running project.
inertext.homeunix.com/64Ghia
Here is my charger.
http://inertext.homeunix.com/lester
Search for 64 Ghia on EVDL. Dark Green Ghia is mine. Email me
Hey you need to head over to www.fzronline.com and fzrarchives.com and tell us your tale. There are plenty of fzr owners that would want to hear your tale. I have 3 fzr bikes now.
Paul,
It's been over year with no updates. What's going on.
Zoom
Hi, yeah, you're right. It has been a while. I have updated today, explaining my absence. I still want to do the bike, but some things need to change in my life for that to be able to happen, sadly.
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