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As of 11/24/2007
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2012-05-24 12:00:00^ Go Back to Blog Top How to Build an Electric MotorcycleI only work 3 miles from home but with gas prices getting out of control, I thought it would be great to have an electric motorcycle. I've always wanted an electric motorcycle and decided that doing an electric motorcycle conversion with an electric motorcycle motor would be a good EV project, keeping costs down, and be fun to ride.
This project took about 3 months of research and development (not counting waiting for parts to come in or help from a friend with the welding). All in all, it cost about $3000 to build an electric motorcycle with a high performance electric motorcycle motor. This may take a long time to pay off in gas savings, but if you add the fun of building and all of the environmental benefits, it was well worth the effort. With a top electric motorcycle motor speed of over 70 mph and 10 miles per charge, this electric motorcycle is perfect for me. The following instructable will not give you exact step by step instructions, but if you have some mechanical skills and welding ability you should be okay. A little knowledge of electric motorcycle motor maintenance wouldn't hurt, too. However, I just read the user's manual and learned as I went.
Every motorbike is different but the basic components can be the same. Below is a list of the parts I used and where I got them, but you will have to do some research to figure out what fits your bike and requirements. Check out the electric motorcycle photos at the bottom to see what I bought and the EVAlbum for other electric motorcycle conversions.
Frame: I looked at many different bike styles and decided on a 1984 Honda Interceptor for my electric motorcycle conversion for a few reasons:
1) I like the style of bike, not a total crotch rocket but not a hog either, with room for electric motorcycle batteries inside the frame.
2) The seller on Ebay was close to my house. And the bike didn't run, so it only cost $600 which is a perfect price for your first time electric motorcycle conversion . If you have an old bike or someone will donate one then that's great--but for the rest of us, try the local paper, junk yards, Craig's List or ebay motors.
Electric Motorcycle Motor:
After reading other electric motorcycle conversion specs (and knowing that I wanted to go faster than a moped), I chose a 72V electric motorcycle motor(D&D Motorsystems carries many options), because it's weight and dimensions where good for my frame.
Electric Motorcycle Batteries: I went with 6 Yellow Top Optima batteries from remybattery.com because they are sealed and have received great reviews. After making cardboard mock ups of the D23 model I realized that there was no way six full sized batteries would fit and still look good. I ended up getting the D51 model. Half the size and weight but also half the storage.
Electric Motorcycle Controller: You have to match your electric motorcycle controller to your voltage but the amperage is up to your budget. More amps = more power and more cost. It seems that there are only two real choices: Alltrax or Curtis. You'll have to decide for yourself, but I went with the 72V 450Amp Alltrax.(D&D Motor Systems carries these) Don't waste your time trying to build a potimeter on an old throttle--just buy a pre-made one and be done with it. I got the Magura 0-5K Twist grip throttle.
Electric Motorcycle Charger: You have to match your charger with your voltage but the speed of charge in Amps is also up to your budget. I went with a Zivan NG1 but I have recently switched to six individual 3amp Soneil chargers to help balance the batteries.
Electric Motorcycle DC/DC Converter: It's safest to run with a DC/DC converter and an extra 12V battery backup but motorcycles have limited space so I am only using the converter. I purchased a Sevcon 72V Input 13.5V output from evparts and it has working perfectly.
Electric Motorcycle Fuses: You'll want to get a fuse that matches your setup. I bought model ANN 400 w/ holder.(D&D Motor Systems carries these)
Electric Motorcycle Solenoid: This is a device that you hook up to your existing key ignition on 12Volts and it will close the loop so you get the full power to your controller. An excellent Solenoid is the Albright SW-180B-12.(D&D Motor Systems carries these)
Electric Motorcycle Battery cable and connectors- I bought about 10 feet of 2 GA wire from WAL-MART and cut it to length. Using Lugs, I soldered and used heat shrink tubing on each end. I highly recommend battery terminal covers for safety.
Electric Motorcycle Instruments I chose an E-meter(Link 10) w/ Prescaler add on for 72V use instead of a bunch of different meters. As an added feature I wired up the ignition switch to the neutral indicator to show me when the bike was on.
Electric Motorcycle Other parts
Wire - 12GA different colors and heat shrink tubing (large and small sizes)
Electrical tape
Wire connectors
Wire wrap
Tools
Basic shop tools are required such as a socket set, screw drivers,wire stripper, etc. Additionally a volt meter, metal grinder and crimper are used in this electric motorcycle conversion project.
Start the electric motorcycle conversion by removing all of those nasty internal combustion engine parts. Remove the gas tank and using your grinder or other cutting tool to cut out the bottom. This makes room for extra batteries or components. (Make sure all gas is out before cutting) Reference your owners manual often during any electric motorcycle conversions so that you don't cut any necessary wires, and try to sell some of the parts to help pay for this electric motorcycle conversion project.
Next, make cardboard mock ups of all of your batteries and electronic components to see how and where things are going to fit. Take a look at my electric motorcycle conversions pictures to see how I fit everything, believe me that taking the time to make accurate cardboard mock ups is well worth the effort.
Now for the hard part. You need a secure battery box and electric motorcycle motor mount for any electric motorcycle conversion. I had a friend weld it up for me and he did a fantastic job. From the photos you can see that he first strung up the electric motorcycle motor to allow for minor adjustment to be made before cutting the electric motorcycle motor mount plate. After that was cut he made a nice chain and sprocket enclosure with a door and welded them onto the frame.
Next he fabricated the battery rack and gave each battery a swing arm closure to give a tight fit yet still allow me to get them out easily. Half inch foam padding spacers are between each battery to help cushion the stack--but believe me, they aren't going anywhere. The last thing he did was weld in metal plates for mounting my electric motorcycle motor.
After you get your electric motorcycle motor mount and battery compartment all welded up, take some time to clean up the frame of your bike. I removed any rust spots and chipped paint that I could find. Then I used some metallic gray and black spray paint. This makes a world of difference and costs very little.
I made a fake gas cap and ran the power cord from the charger up the frame and out the top.
Now that you have all of the welding done and your electric motorcycle frame looks great, let's install the electrical components and start wiring it up your electric motorcycle conversion.
Wiring. This depends on the electric motorcycle components you buy. See the manufacturers wiring diagrams.
Double check all of your connections and tighten every bolt.
I wanted my electric motorcycle conversions bike to look as good as it rides, so I had all of the panels painted and custom graphics made up by worldsendimages.
Using a serial cable and laptop, tweak the electric motorcycle controller program for your riding preferences.
Lastly, I got the electric motorcycle conversion bike inspected and insured. (Be prepared for the dealership mechanics to swarm and hit you with a bunch of questions and jokes about failing the emissions test).
I know these weren't step by step building instructions, but that's because of the complexity of this electric motorcycle conversion project and variables in component use. My intention was to give you the motivation to build your own by seeing how I did it and make it easier by supplying the electric motorcycle parts list and a wiring diagram. MSD
Think about the names given to electric cars and electric motorcycles on the market today.
Most, if not all, are a play on the concept of all-electric, zero tailpipe emissions travel.
So when we heard about a team of engineers in Henderson, Nevada who were developing a new electric motorcycle called Brutus 2, we had to investigate.
Retro Styled, Classic Charm
Squint at the all-electric Brutus 2 and you’d be forgiven for thinking it was a classic Harley Davidson bobber or perhaps an Orange County Chopper. (build electric motorcycle)
Either that, or a working prop from a film set in a post-appocolyptic future, Mel Gibson optional.
Designed from the ground up to be the living embodiment of a sports cruiser, Brutus 2 is the first electric motorcycle we’ve seen that caters directly to fans of classic American motorcycles.
Brutus 2 is also the first real stealth electric motorcycle motor we’ve seen. Unless you look at it closely, it doesn't immediately appear electric.
In fact, park it up beside similar gas motorcycles, and we think you’d have a tough time telling it apart from the rest.
It Isn’t Just Tough By Name
But as many classic motorcycle fans will tell you, good looks and a tough name will only get a motorcycle so far.
In order to be considered a real motorcycle, it has to perform like one.
That’s no problem for Brutus 2, claims Chris Bell, the original designer and owner of Brutus Electric Motorcycles.
Although it hasn’t had any official range, orperformance tests, Bell claims the 535-pound motorcycle can spring from 0-60 mph in around 4.7 seconds, reach a top speed of over 100 mph, and travel over 100 miles per charge.
These impressive performance figures are apparently down to a five-speed clutchless transmission, a powerful D&D Motor Systems DC motor, and a liquid-cooled Zilla controller more commonly found in electric drag race cars like BlackCurrent III
There aren’t any details published on battery pack capacity, although Bell claims Brutus 2 should recharge its 144-volt lithium-ion battery pack in 3 hours from an available 110-volt wall outlet. Using some basic math, we think that translates to a battery capacity of between 4 and 5 kilowatt-hours. (build electric motorcycle)
Forbidden Fruit?
Here’s the catch: while Brutus 2 is certainly an real electric motorcycle motor built for real motorcyclists, it hasn’t entered production yet.
According to Bell, that should happen some time this year, provided current deals being discussed with various parts and manufacturing companies are signed.
But right now, the all-electric beast is nothing more than an impressive prototype motorcycle awaiting production.
And that’s a real shame, because we think this is exactly the kind of electric motorcycle that needs to be built in order to help convince mainstream motorcyclists that electric powered motorcycles can be mean and green at the same time. (build electric motorcycle) MSD
Making the case for an electric car - higher up-front costs, but then much less expensive and environmentally damaging to operate - to someone switching from a gasoline-powered car is pretty straightforward.
But convincing someone to trade in their Harley for an electric motorcycle? That could be more challenging. There has to be an element of cool. And speed.
Which is what two Purdue University students and AllCell Technologies set out to produce – and appear to have delivered, with an electric motorcycle that packs 72 kilowatts of power and, according to early tests, can hit 120 mph and cover 120 miles on a charge, according to AllCell.
The company said the trick to creating this high-performance bike was in the 10.6 kilowatt-hour lithium battery that uses AllCell’s thermal management material.
The phase change material graphite composite (PCM-graphite) controls the impact if one cell has an internal short circuit, and the PCM material absorbs and distributes heat away from the battery, protecting the cells and maximizing battery life.
While some motorcyclists might enjoy being daredevils, with this motorcycle riders can let ‘er rip and concentrate on driving without worrying about unnecessary things like an overheating battery. Apart from the battery, electric vehicle experts Tesla Motors and Delphi Corporation also provided support for the project, AllCell said.
This team is not alone in the quest for the superior electric motorcycle motor. There seems to be quite a trend in motorcycle conversion to electric in garages, notably from a fellow Purdue student who we reported used solar power to power his, yes that’s right, Solar Cycle.
However, for those of us who aren’t that confident in our mechanical skills, there are a growing number of companies producing electric motorcycles with both coolness (largely because of their green-factor) and impressive power and speed. (electric motorcycle conversion)
The International Motorcycle Show starts in New York today, so the Jacob Javits Center will be awash in chrome-crusted cruisers weighing more than 600 pounds and packing car-size engines, and screaming superbikes with enough horsepower to fly a four-passenger airplane.
But some of the most intriguing machines at the show are small, light and nearly silent.
Electric motorcycles powered by lithium batteries are beginning to look like contenders in a bike market that is increasingly concerned about fuel efficiency, emissions and noise.
Electrics may attract customers who like the idea of two-wheel transport but are put off by the mechanical complexity of traditional motorcycles and the perceived difficulty in riding them. They may also have particular appeal to urban riders and commuters who can operate more easily within the bikes’ limited range.
I test-rode an electric sport motorcycle called the Zero S this and week and was surprised by how appealing it is even for someone who loves the chugging rhythm of a Ducati twin or the wail of an old Honda V4. The quiet whir of the electric motor and its impressive off-the-line acceleration made the Zero ideal for city riding, where hearing nearby traffic can be as important as seeing it.
While the motor puts out about 28 horsepower, it feels like much more, especially when accelerating from a standstill. I was able to leave menacing taxis far behind and the bike’s weight of less than 300 pounds gave it a light, athletic feel that made getting through midtown New York’s congestion enjoyable.
The Zero S has evolved since 2009, when I rode an early version. The new bike is faster, smoother and better-looking than its predecessor and has a tighter, well-finished feel. It’s ready for prime time.
As with electric cars, though, high prices could keep some customers away. The S and its on-road-off-road stable mate the DS start at $11,495. The higher-capacity battery that boosts range to 114 miles from about 76 miles with the standard battery also increases the price to $13,995. That amount would buy a Honda CBR1000RR, which is close to being a street-legal racing bike.
Of course riders interested in electric motorcycles are not cross-shopping superbikes. But the Zero’s price premium could hurt sales.
Still, the simple joy of riding the Zero could be as big a selling point as its potential fuel savings. In many ways its design and the way it rides are throwbacks to the minimalism and excitement of earlier motorcycles that drew so many people into riding decades ago.
While I tell people that my next new car will probably be electric, a battery-powered motorcycle, in some ways, would be a better fit.
Oakland California USA, Electric Motorsport Inc. has unveiled its two entries for the June/12th Isle of Man TTXGP. In the open class is a modified production electric motorcycle called the GPR-S. The Electric Motorsport GPR-S were the first Production Electricmotorcycles capable of attaining legal freeway speeds in the USA.
In the Pro Class, the entry is the Electric Motorsport R144. This conversion is based on an R1 race chassis. This motorcycle utilizes a high performance electric motor designed and manufactured by D&D Motor Systems, Inc.
Electric Motorsport is a technology company that specializes in Light Electric Vehicles and electric propulsion systems. Electric Motorsport is proud to say they have supplied electric drive systems and components to many of the TTXGP teams that will be competing. Why does Electric Motorsport supply its competitors with hi-performance electric drive components? Electric motorsport Founder and CEO Todd Kollin says "its mainly to promote the technology and to have some one to race with, and besides we are in the parts business. Racing is just the fun part and its not much fun without competition."
Electric Motorsport Inc has always placed an emphasis on the Electric motorcycle as away of using renewable energy such as solar, wind, hydroelectric, and geothermal to propel ourselves from one location to the next. The company has sold 1000's of electric motorcycle conversion kits. Electric Motorsport even sells books on how to convert your old gas motorcycle to electric. These conversions are great if you have a old bike that does not run so well or has a blown engine. An electric conversion can bring the thing back to life but without having to deal with oil, gas, noise, fumes, warm ups,tune ups, gear boxes, clutches.
So Honda is getting into the electric motorcycle biz huh? Well, now we know what they plan to do with all the engineering talent suddenly available from their now defunct F1 & AMA efforts.
Motorcycle News (via our friends at AutoBlogGreen) says Honda is serious about building a workable Ebike and selling it to the likes of you and me by 2010. Sure, that sounds plausible. Honda has the engineering grunt and it pretty much has the whole motorcycle thing down, so it seems like a lead pipe cinch.
But is it?
Not exactly. Honda faces the same hurdles everyone else does: range and recharge times.
I spent some time with an outfit made electric scooters and motorcycles. It was a real geeky operation making scooters and souped-up jobs custom-built to customers' needs, desires and checkbooks. Once or twice a year someone with sacks of money would come in and say something along the lines of "Take my GSX-R and make it electric." We would, but we'd invariably face the same challenges everyone else building EVs faces: range and recharge times.
Yeah, we could build an electric GSX-R that would out haul Valentino Rossi - for about seven to 10 miles. Then you'd stop. And then you'd have to plug it in for six or eight or 10 hours. The bike was cool, but not very practical. You couldn't take the thing up some canyon road on your way out of town to Palm Springs for a three day weekend. These will be the same limitations that Honda will face, but in a couple of not so noticeable ways, electric motorcycles play to Honda's strengths.
For one, bikes are easy. They're small, light and easy to work on. You can fab up and try things on two or three test mules in an afternoon, and that's an order of magnitude or so harder with cars. For another, Honda is a bike company. Yeah, I know, tell that to Ayrton Senna and Alain Prost and Ron Dennis, but it started out primarily as a bike company (OK, go back far enough and it started out as a piston ring company, but still...) then morphed into a car company. What Honda learns from making an Ebike over the next two years can, hopefully, migrate to cars.
Honda confirms working with bikes is favorable on a number of levels.
"History shows that motorcycles remain strong in a difficult market environment and have always supported Honda in difficult times," says CEO Takeo Fukui. "People showed renewed interest in the value of motorcycles which consume less fuel for commuting purposes as well as for their easy-to-own/easy-to-use efficiency."
Good point, Takeo. That's another thing bikes got going for them: They're cheap.
Pound for pound and dollar for dollar motorcycles are the best bet for enthusiast fun. Not for me, of course, because I am comically and frighteningly uncoordinated and that's never a good thing on a motorcycle. But you get my point.
Think of what Honda is doing as a real world proof of concept scheme. Make an electric motorcycle. Make it work. Make it work better. Then import the technology into a car. Repeat the process.
What could go wrong?
Photo: Honda.
To power your motorcycle, you’re going to need a motor. But what type, what size, and where do you get it from!? This project used a Briggs & Stratton Etek. It’s a DC (Direct Current), brushed, pancake motor, rated at up to 48V and 150 amps continuous. I got it used, through Craigslist, from a college student who built those robots that battled each other. He was using this motor to swing a hammer, but it was too powerful, and he kept breaking hammer handles! So why this motor?
DC – Direct Current Direct current motors are very straight forward. They are easy to control the speed of. Also, batteries use direct current. By using a DC motor, there’s no intermediate step of converting DC battery power to AC power to run the motor.
Face Mount The Briggs motor has eight holes on the end (the “face”) of the motor to make it easy to mount to a piece of flat steel or aluminum. Some motors have a “foot” on the bottom of them for mounting, which wouldn’t have been as easy to use in this situation.
Permanent Magnet Permanent Magnet motors tend to be very compact. They create rotational energy (torque) by pushing two magnetic fields against each other. The one magnetic field is produced by current from the batteries (an electro-magnet). The other magnetic field is from mineral permanent magnets. These magnets are much more compact than a second electro-magnet would be, allowing for an overall powerful, yet small motor. The limiting factor in the design is the strength of the permanent magnetic field. Many permanent magnet motors spin equally well in either direction. Just swap the positive and negative battery cables for it to spin the other way. The permanent magnets are ALWAYS magnetic! So don’t drop a washer near one of the vent slots, or it will get sucked in and you have to take the whole thing apart to get it out! Since then, I made sure ALL washers are stainless steel (not only are they corrosion-resistant, but they are non-magnetic as well.) I chose this motor knowing that many other people had used the same one in their electric motorcycle designs. http://www.evalbum.com/mtrbr/BRIG Permanent magnet motors are generally designed to spin equally well in either direction. If the motor spins the opposite direction of what you intended, all you have to do is swap the two cables. On a large motorcycle, you could take advantage of this with a reversing contactor to have a reverse gear.
It’s not all about horsepower….
Electric motors are rated differently than gas engines are in terms of their power. A gas engine is rated in horsepower with the engine running at nearly maximum speed and fuel consumption (full-out!) An electric motor is rated at how much power is can put out continuously – for hours at a time. So, a horsepower rating between an engine and an electric motor is not apples to apples. More and more engines are also now being rated in Watts. A watt is a unit of power used. Most people understand watts, as in that a 100-watt light bulb uses more power than a 75-watt lightbulb. It puts out more power (as light and heat) but also costs more on your electric bill. In electric vehicle design, keep in mind that volts x amps = watts. Also, 1 Horsepower is roughly 746 watts. So, it’s pretty easy to do some simple math to figure out the power of our motor. By being connected to four 12V batteries in series, the system nominal voltage is 48V. The motor is rated at 150 amps continuous. 48 x 150 = 7,200 watts. Divide that by 746 (watts to horsepower) and you get about 9.6 horsepower. That doesn’t sound like a lot.
However, you can pull much higher amperage briefly through the motor – typically three or four times as much. My system amperage is limited by the fact that the motor controller maxes out at 300 amps. That still means we can get DOUBLE the power out of the motor compared to what you might think it can produce, just based on the numbers stamped on it. Combine that with increased efficiency (by completely losing the transmission) and the fact that you have FULL TORQUE right off the line (a gas engine has to rev up to several thousand RPM to get into it’s best power band) and even a compact electric motor has far better acceleration than you think it might. I later had my cycle tested on a dynometer at a large Harley-Davidson gathering. The cycle “officially” clocked-in as 12hp. But when the guy first went to ride the cycle up to the dyno, he almost threw himself off with how quick it accelerated!
Other Options
What other motors might you use in your electric motorcycle? Besides permanent magnet DC motors there are also Series-Wound and Brushless DC motors as well as some new AC motors. Series-wound motors are similar to permanent magnet DC motors. They are bulkier, but produce fantastic torque! You could use a series-wound drive motor out of a junked electric forklift. Do not use a pump motor. Those typically do not have a male driveshaft. Same goes for electric golf cart motors. They may otherwise sound like a good motor for a cycle, but unless you have a way to easily connect a standard sprocket to the motor, they will be a lot of tinkering to make work for your project. ( A friend of mine is currently working on designing a kit with a specialty part allowing anyone to build their own electric motorcycle using an off-the-shelf golf cart motor. Look for that in the future.) Brushless DC and AC motors are very similar. They require dedicated controllers designed specifically for them. If you go that route, buy your motor and controller as a matched set through a reputable dealer. in general, all these motors are air-cooled, so you don’t need a motorcycle with a radiator on it. For planning purposes, you want to know that your motor will FIT in the motorcycle before you buy it! Made sure to measure the space you have and the physical size of the motor before you buy. If the motor is not in front of you in person, don’t worry, most mainstream manufactured motors have diagrams that you can download, that include the physical dimensions. Besides the diagram showing physical dimensions, it also lists important information on torque, voltage, RPM, etc. That helps you plan out your cycle design as well. LINK TO ETEK DIAGRAM
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