Sanyo Eneloop Electric Bike: The Future?
The Sanyo Eneloop is $300 off for the summer!
The Sanyo Eneloop electric bike blasted on to the scene in early 2010 as a new breed of electric bike. It's considered a hybrid electric bike, or one that uses an automatic pedelec motor system. This type of electric bike is generally more efficient than a throttle-powered bike, and the Sanyo Eneloop can travel for 20-30 miles on a single charge due to its Lithium battery.
Not only does the Eneloop sport a lightweight battery and a smooth electric motor wheel, but it also has a sweet looking frame. The easy step-through frame has a comfortable, upright riding position, and it comes with fenders and an aluminum rear rack.
Since the Sanyo Eneloop electric bike debuted, it has been one of the most popular electric bikes on the market. It's also practically maintenance free, with an internal 3-speed hub, a rack and fenders, and front and rear lights that are wired into the battery.
After six months, the popularity of the Sanyo Eneloop drove it's price down to $1999, which is $300 less than the original retail price. At this price, the Sanyo Eneloop is a better deal than most other electric bikes at the same price, especially with all of the accessories included. If this is still too expensive, Sanyo has developed another version of the Eneloop without a rack and lights, and includes a sportier hybrid frame. The price on this stripped-down model is only $1699, making it one of the lowest priced Lithium electric bikes out there!
As one of the leading manufacturers of long-lasting Lithium batteries in the world, Sanyo has surprisingly created one of the best electric bikes ever made. At this price, it's foolish to look at any other electric bike.
The Sanyo Eneloop electric bike is available for purchase at NYCeWheels in New York.
Building an Electric-Powered Bike
This is all it takes to build an electric-powered bike
It's not rocket science to tell the difference between an electric-powered bike and a regular bicycle. For one, the guy riding the regular bike is working a lot harder to pedal, while the electric bike rider is smiling and cruising along. Of course, electric bikes are much quieter than gas-powered bikes, so at a glance, it's hard to tell if a bike is even electric at all! The average person, unless they have a background in electronics, probably isn't aware of how easy it is to convert a regular bicycle to an electric-powered bicycle. Believe it or not, there are only three primary components needed to have a fully-functional electric-powered bike. If you can change a flat tire, you can turn your bike into an electric bike. Let's get to it!
Electric Bike Motor
The muscle behind the electric bike is the motor. Ranging anywhere from 200 watts all the way up to 1000 watts, this is the large rotating device that helps the wheels to spin on their own. Modern electric bikes have the motors built into their wheels, like the Sanyo Eneloop electric bike or the eZee Torq electric bike. Older bikes used to have an external motor that powered the wheel using a chain, like a scooter. These older motors also used magnetic "brushes" which would wear out over time. Newer electric bike motors are "brushless," and have a much longer life expectancy.
An alternative to the brushless hub motor is the bottom bracket motor, featured on the IF Reach DC folding electric bike. This motor actually cycles through all of the gears, making it slightly more efficient than a hub motor. It also turns the pedals instead of the wheel, so the rider feels a little more in tune with the motor, rather than feeling pushed or pulled by an external force.
Most electric bikes don't need a bigger motor than 500 watts, especially for commuting. The US law sets the maximum speed at 20 mph for electric bikes, so any motor that is bigger is sort of pointless. Smaller motors tend to conserve battery life a bit better. How long should a battery last anyway? Well I'm glad you asked...
Electric Bike Battery
Over the years, there have been many different types of batteries for electric bikes. The most common battery in the last ten years is a Sealed Lead Acid (SLA) battery. This is the same battery used in a lawnmower, golf cart, or go kart. You've seen these at any local hardware store - they're heavy, black, rectangular batteries. On an electric bike, they don't go very far. Depending on the bike, they have about a ten mile range. Luckily, technology has improved in recent years, and there are now much lighter batteries that have a much better range.
The most recent chemical of choice for electric bikes is Lithium. A bike running on Lithium batteries can run for 20-30 miles on a single charge, and some bikes even have the ability to recharge the battery while riding. The BionX motor kit Lithium batteries even have protection circuitry built in, so it's almost impossible to damage them from extreme motor power. Lithium batteries tend to be more expensive than SLA battreries, but the life span is also two or three times as long. There is no better battery on the market today.
Electric Bike Control
How does it work? Well you've attached a battery to a motor, so we're almost there. Now you need a way to control the whole contraption. Want this thing to move without pedaling? Just add a throttle. This is referred to as an "ebike," which is practically a moped. Ebikes are nice if you don't want to ride a bike, but they tend to drain batteries quickly. The most efficient electric bike utilizes pedal-assist, or pedelec, technology.
A pedelec bike works by measuring the rider's pedal power, and then spinning the motor at a corresponding speed, based on a preset on the handlebars. Plainly, if you select "MODE 3" you'll get 50% power from the motor, while if you select "MODE 4" you'll get 100% power. No throttles to worry about, it's all automatic. Pedelec bikes are also called Hybrid bikes because they are a "hybrid" of human power and motor power. The best part about pedelec bikes is that you feel like you're still riding a regular bike, just getting a gentle push as you go.
That's it! Just three components and you can turn a bike into a full-blown electric-powered bike! There are a bunch of different electric bike motor kits on the market, and each one has its advantages and disadvantages. Make sure you check out the motor, the battery, and control system before buying one, because you don't want to be stuck with something cheap!
buying an eBike – doing the research first
I (Joe) recently became interested in ebikes, have done some extensive research, and finally bought a commercial model on which I’ve put a few hundred miles in the last two weeks. I’ll provide a review of that bike shortly, but first wanted to collect some more general thoughts on ebikes which I’ve consolidated from my research, personal experience, and a good dose of engineering basics. I’m certain almost everything I discuss here has been stated better and more thoughtfully elsewhere, so please forgive my repetition and perhaps naive thoughts. I will say, I think I would have found this type of write-up helpful to me early-on, and hope this discussion may help other potential new ebike riders as well.
So, if you’re like me, the idea of an ebike is appealing. Gas prices are up, “green” transportation is in, and bike commuting has a number of distinct advantages over other forms. Personally, I’ve been a bike commuter for about 3 years now. My regular job is outside Santa Fe, NM, and I have a decent enough means to bike commute about 10 months out of the year, with snow and weather leaving a few weeks for the car. Of course, bike commuting entails other compromises, such as the difficulty in accommodating “business” clothes, “helmet” hair, inclement weather, and of course, safety. As experienced bike commuters known, there’s pretty good solutions to most of these issues, with equipment, planning, and setting realistic expectations all playing a role.
eBike, bicycle with electric assist motor
The appeal of an ebike to me is the ability to commute a bit farther, to eliminate the more difficult portions of my commute and arrive “sweat free”, to perhaps save a bit of time, and to allow farther in-day trips from my main work site to various other locales at my employer (which is spread over 43 square miles, I often need to travel to more remote sites where I work). As important, is what an ebike for me wasn’t. It’s not a replacement for a motorcycle. I didn’t want to travel long distances just punching a throttle. I wanted this to be mostly bike with the added benefit of power assist. Taking my bike on public transport, into my office via an elevator, parking with other bikes, etc. are all important.
So, how does this lengthy preamble relate to choosing an ebike? If you read the ebike forums, there’s a near-obsession with specific characteristics of these bikes such as top speed, weight, and perhaps most prominent, range and battery capacity. Naturally, everyone has a list of requirements and desires that they want their bike to meet. At the top of many lists are reliability, range, light weight, top speed, and of course, low cost and maintenance. This wish list quickly runs head-on into the reality of engineering and design. You quickly discover there’s no one perfect bike that does it all. Some of the better ebike retailers start with a very good list of questions to help determine a customers desires. Given this, they can direct you toward a particular system, design, or model.
I stated many of my desires above. Considering my criteria, it was clear that a pedal-assist application is the way to go. The engineering analysis of pedal assist is itself a fascinating topic. In order to appreciate the benefits of pedal-assist, and of ebikes more generally, I found it enormously helpful to discuss and understand some specific characteristics of the most important motor on the ebike. No, not the electric hub, but YOU. Your power output and contribution to propulsion, and understanding the highly non-linear nature of that power output, is actually the key to understanding why pedal-assist is such an attractive option. So, if you’ll forgive my diversion here, I’d like to discuss a few elements of human power output.
You and I consume energy just by living. A resting person weighing 150 pounds has a metabolic rate of about 70 Watts (W). Light activity such as walking and just doing your day to day thing without exertion bumps this up to about 100-125 W. That’s just how our bodies have evolved in our environment. As you start to exert yourself, you spend more energy. This relationship is highly nonlinear. A moderate workout, in which you get your heart rate up and sweat quite a bit, has a total power output of about 200 to 250 W. Tour de France riders with years of special training, nutrition, and conditioning can sustain power outputs of 400 to 500 W for hours on end. You and I, not so much. Over about 300 W, and we’ll tire pretty quickly. So, 100 W is literally “no sweat”, while that next 100 W isn’t nearly as easy. It’s this nonlinear relation between exertion and power output that makes a pedal-assist ebike so attractive.
The goal is to transmit efficient power into the bike. As a rider, you can contribute a nice, healthy 50-100 W (on top of your metabolic 70-90 W) for a very long time, and you won’t notice this as much exertion. These should be the “first Watts” that the bike sees. It just so happens, that pedaling a bike on level ground in no wind requires roughly 100 W to sustain a speed of roughly 25 km/hr. This is the level that most folks would see as “easy” without much exertion. Of course, add a headwind, or hills, or a higher speed, and things quickly turn against you. Further, starts and stops require quite a bit of extra energy, too. Nearly every rider knows this intuitively without the engineering degree, and this helps to explain why bikers don’t particularly like to stop if they can help it, safety be damned.
Now, let’s consider a throttle-only, no pedal ebike versus a pedal assist. If your goal is to get long range with much less exertion on your part, the numbers quickly tell the story of why pedal-assist is so attractive. Remember that 100W figure for sustained 25 km/hr on level ground? At the theoretical limit, a throttle-only vehicle would last about 3 hours with a typical 36V, 10 Amp-hr battery pack (360 W-Hr), whereas a pedal-assist wouldn’t be contributing at all, and would have infinite range, since the rider is providing that first 100 W. Now, this is all theoretical. In practice, hills, starts/stops, the efficiency of your bike and motor, etc. quickly degrade these numbers. More typically, that throttle-only bike with a 360 W-hr battery may have a range of 30-40 km in total. Conversely, a good pedal-assist system in practical use on level ground driven in a way so that you don’t exert can have a range on order 80-90 km or even more.
And it’s the deviations from this ideal ride where pedal assist becomes so appealing. Take hills, for example. The added power to crest that hill can be contributed by the battery, so you don’t have to exert. You’re not constantly climbing during your ride (well, for most rides that is), and the addition of power assist as the last Watts added is what provides that marvelous ability to extend range, open up a whole-new way of biking, and achieve the near-nirvana of long-range, reliability, ease, and (relatively) low cost for an ebike. (And BTW, some studies have shown that the more constant exertion of steady, light exercise may be as beneficial as other forms. Pedal assist hybrid on ebike indeed may be a have-your-cake and eat-it-too proposition when it comes to fitness.)
Ok, so the previous is basically an engineering discussion of ebike propulsion. How does it work in practice and how can you use this understanding to maximize your ebike experience? A couple of things are important right up front, namely, speed and acceleration. Most folks want more speed, its only natural. Unfortunately, things quickly turn against you as you go faster from an energy management standpoint. Top of the list is drag. Drag increases as the square of your speed. Given that most of your energy (on flat ground) goes to moving the air out of the way, this gets ugly quick. If you’re willing to go a little slower, you have the enormous payoff of greatly extending your range. From a practical standpoint, 30 km/hr or so (19 mph) feels about right to me as a nice compromise between speed and efficiency. Others will balance this differently. It just so happens that 32 km/hr is codified in US law as well. At first, I wanted that super-fast ebike that did it all. After spending some time on my current bike, I’ve come to the conclusion that a moderate speed really is best, not only for efficiency, but for safety as well.
Ditto acceleration. My ebike (Trek Valencia+ with the Bionx system) has a 27-speed drive-train which I thought was ridiculous at first, since I could easily keep this in the lowest gear, and just let the motor pull me away from stops. It turns out, this is really bad energy management practice. Hard acceleration is inefficient and sucks tons of precious amps from your battery (just look at the meter on a Bionx system). I’ve come to realize that those extra low gears on the Valencia are actually very useful. Now, I down-shift at stops most of the time, and take just a bit longer to get up to speed, with the Bionx system providing more of a gentle nudge than full-on zippiness. Of course, that zippiness is there is you want it, or when time or safety require. The payoff in backing away from jack-rabbit starts is greatly extended range.
I rode the Critical Mass ride this Friday in San Francisco on the ebike, including some substantial distance to/from the event (yes, I mentioned my job was in New Mexico; I’m spending the year in the Bay Area on another assignment). I got about 50 miles out of the Trek/Bionx system, and had a grand time. Trek worked with Bionx and changed a number of factors in the Bionx system, some of which I think are not well-understood by the ebike crowd, including a change in battery voltage and capacity.
So, I’ve written a tome as a first post. Please forgive this. My goal was to pass along some of the things I learned in my research leading up to my first ebike kit purchase. More experienced folks here will no-doubt correct errors or offer additional points, which I look forward to.
Joe M.
3 features set the Sanyo Eneloop Electric Bike apart
The new Sanyo Eneloop electric bike is one of the most advanced electric bikes available today. The Sanyo Eneloop electric bike has the look and feel of a regular bike combined with intelligent pedal assistance. This means you have an electric bike that looks cool, has excellent battery life, and the smoothest motor assistance out there.
There are 3 features that take the new Sanyo Eneloop electric bike from ordinary to extraordinary:
1. Intelligent pedal assistance
Having intelligent pedal assistance means that the Sanyo Eneloop electric bike wont jolt you with motor power when you start up. It makes the motor power feel smooth and natural, as if turning it on made you a really strong rider all of a sudden. Intelligent pedal assistance puts you in control of the Sanyo Eneloop electric bike, not the motor.
2. Regenerative braking
Unlike most electric bikes, which can only dissipate the battery as you ride, the new Sanyo eneloop electric bike can actually recharge the battery as you pedal. Because it's front hub motor also doubles as a dynamo generator, the Sanyo Eneloop electric bike can recharge its battery when the brakes are applied going down hill. This feature greatly extends the range of you can travel with motor assistance, up to 40 miles!
3. Ultra light design
The Sanyo Eneloop electric bike is one of the lightest bikes on the market, thanks to the latest in motor and battery technology. Sanyo, which has been manufacturing rechargeable batteries for years, equipped their first electric bike with a lithium ion battery weighing a mere 3.4 pounds! Compare that with older technology batteries that can weight up to 10 pounds or more.
The new Sanyo Eneloop electric bike represents a new generation of hybrid electric bikes. These bikes, which combine human and electric motor power can go further than electric bikes could ever before, and because they look and feel like a regular bike, they are much more fun to ride. For an unmatched electric bicycle check out the new Sanyo Eneloop electric bicycle.
Other articles you might enjoy:
A Sanyo Eneloop Electric Bike Review
An In-Depth Review of The Sanyo Eneloop Electric Bike
eBike
The ebike is a specific electric bike manufactured by EV Global motors. The ebike is a name brand for an electric bike that is very popular. Though the ebike is a 5 year old design, it still is one of the best performing ebikes.
Since there is some confusion about the ebike, or e-bike, or electric bike, etc., it is important to clarify some of that.
An e-bike is a short term used for an electric bike. There are a number of different manufacturers and many different models of e-bikes or electric bikes. If you are specifically looking for an ebike or eBike from EV Global Motors give the folks at NYCeWheels a ring. They stock the eBike SX and the new Enviro - both using the Heinzmann motors.
If you are looking for ebike reviews, or ebike parts than you can look through our resources page to find appropriate links for these.
In terms of the eBike (the company that makes electric bikes), these German made electric bicycles are well designed and well made. The powerful ebike electric bikes are popular because they offer powerful, reliable and efficient transportation.
There is a 36 volt eBike SX which is a high performance machine that many electric bike fans consider one of the finest electric bicycles made.
Today, the term "ebike"; or "e-bike" is more commonly used as a short-hand for an electric bike. It is a good idea to make sure you understand this so you are not confused.
If you are specifically looking for an eBike model, rather than a different make or model of electric bike than you will want to clarify that with the retailer.
The better retailers will obviously know the difference between an "eBike" (manufacturer) and an "e-bike" or "ebike" a generic term used to define electric bikes, so finding a reputable and knowledgeable retailer is always your best bet to ensure you are getting the right ebike.
