Batteries 101
The battery is the source of energy for an electric bike or electric vehicle. It would be nice if it were like a little gas tank -- fill it up and use it. Unfortunately, batteries don't work that way. They are complex electrochemical systems and there is no such thing as an ideal battery. So, you have to make trade-offs to find a battery that's right for your needs.
The three most important characteristics of a battery are light weight, low cost, and high capacity. Alas, you only get to pick two out of the three. Or, put another way, high capacity and light weight are going to cost you and that's just the way it is.
When deciding on a battery for your Electric Mountain Drive or Mid-Drive, it's important to think carefully about what your needs are. How much are you going to pedal vs use the assist motor? What range do you expect? How important is battery weight to you? The following table is a good place to start.
Range vs Riding Style and Battery Type
30 to 60 miles,
50 to 95 km |
35 to 70 miles,
55 to 115 km |
50 to 105 miles,
85 to 170 km |
70 to 140 miles,
110 to 230 km |
85 to 175 miles,
140 to 285 km |
100 to 210 miles,
170 to 340 km |
13 to 28 miles,
21 to 45 km |
17 to 34 miles,
27 to 55 km |
25 to 50 miles,
40 to 80 km |
35 to 70 miles,
55 to 110 km |
42 to 85 miles,
65 to 135 km |
50 to 100 miles,
85 to 160 km |
6 to 11 miles,
10 to 18 km |
10 to 16 miles,
16 to 26 km |
15 to 20 miles,
24 to 32 km |
20 to 33 miles,
32 to 53 km |
25 to 38 miles,
40 to 60 km |
30 to 40 miles,
50 to 65 km |
Conservative is using assist to climb hills and only very occasionally to boost speed. Range assumes start and end points are at roughly the same elevation and that total climb distance is moderate. Figure you'll use about an amp-hour of battery for every 300 vertical ft (100m) of climb. Note that you must derate lead acid batteries in continuous heavy use, such as climbing. Don't count on getting more than half to three-fourths of rated capacity under these conditions.
Normal/Fast Cruise means either typical stop and go operation or steady cruising at around 20 to 25mph (32 to 40 km/h). Normal means assist used on all hills and for accelerating away from stops. Moderate use for increasing speeds. Fast Cruise means pedaling at a steady, relaxed pace equivalent to about 12 mph (20 km/h) on level ground and using the assist continuously to boost speed to between 20 and 25 mph (32 to 40 km/h).
Aggressive means near full power operation at all times. This consumes battery power very rapidly. It's like using the afterburners on a fighter plane. You'll go very fast, but not very far. Useful in emergencies or when you need to blend with fast auto traffic for a short distance. The EcoSpeed EMtnD and EMD can take this use without overheating, so you're free to run hard until the last electron dribbles out of the battery.
Note, each entry in the table has a high and low number. Expect higher numbers if you're lighter weight, more athletic, or have a very low drag bike. Expect lower numbers if you're heavy and /or less athletic or have a less efficient bike. Typical numbers for each riding style will be roughly in the middle of the range.
Did you notice how in the above table that two batteries with the same amp-hour rating (10Ah) have differing range numbers? If so, you might wonder what's going on here. What's going on is what we said before, batteries are more complex than little tanks for electricity. The next table will give you more food for thought in comparing batteries.
Battery Specifications
7.5 lbs
3.4 kg |
about 375 Wh |
1000 Watts |
750 Watts |
7 |
-4 to 158 F
-20 to 70 C |
1 hour |
1000/2000 |
4 to 10 |
$0.03 |
10.5 lbs
4.8 kg |
about 575 Wh |
1500 Watts |
1000 Watts |
6 |
-4 to 158 F
-20 to 70 C |
1 hour |
1000/2000 |
4 to 10 |
$0.03 |
10.5 lbs
4.8 kg |
about 575 Wh |
1500 Watts |
1000 Watts |
5 |
-4 to 158 F
-20 to 70 C |
1 hour |
1000/2000 |
4 to 10 |
$0.03 |
15 lbs
6.8 kg |
about 750 Wh |
2000 Watts |
1500 Watts |
4 |
-4 to 158 F
-20 to 70 C |
1 hour |
1000/2000 |
4 to 10 |
$0.03 |
18 lbs
8.2 kg |
about 950 Wh |
2500 Watts |
1750 Watts |
3 |
-4 to 158 F
-20 to 70 C |
1 hour |
1000/2000 |
4 to 10 |
$0.03 |
21 lbs
9.6 kg |
about 1150 Wh |
3000 Watts |
2000 Watts |
2 |
-4 to 158 F
-20 to 70 C |
1 hour |
1000/2000 |
4 to 10 |
$0.03 |
21 lbs
9.6 kg |
about 1150 Wh |
3000 Watts |
2000 Watts |
1 |
-4 to 158 F
-20 to 70 C |
1 hour |
1000/2000 |
4 to 10 |
$0.03 |
(1) Weight exclusive of case, fuse, switch, and wiring.
(2) Useable Watt-hours is Amp-hours times nominal voltage times a derating factor. Battery Amp-hour ratings are commonly specified under ideal conditions and low discharge currents. These numbers correct for that. Note that this is what you can expect with a new battery. As batteries age useable capacity drops.
(3)The EcoSpeed digital motor controller can detect the ability of a battery to supply power and automatically adjust motor power to match. A larger battery will give more power up to programmed limits.
(4) All batteries lose ability to supply power as charge is withdrawn. Recommended continuous power can be withdrawn down to at least 80% discharged.
(5) Performance ranked from highest (1) to lowest (7). Performance is top speed and acceleration and is a function of useable battery voltage. Higher voltage, lower impedance batteries score higher.
(6) Sealed Lead acid (SLA) batteries can be operated at higher temperatures, but each 8 C (15 F) rise in temperature roughly halves battery life. SLA Capacity drops rapidly at low temperatures, lithium less so. Smaller batteries become unusable sooner as temperature drops.
(7) Assuming a large enough charger, the minimum recommended time to fully charge a 100% discharged battery. The standard charger EcoSpeed supplies will not charge at this high a rate.
(8) Cycle life rises rapidly as discharge depth decreases. Thousands of cycles are possible at very shallow discharge depths. Note that for a given usage, a larger battery will have shallower cycles. Also, note that lithium batteries may be safely left in partially discharged states whereas SLA cannot.
(9) Calendar life is an educated guess because of the many variables involved. Relative life is accurate.
(10) Estimated based on typical 80% depth of discharge and current prices. Note that your cost may be much worse if the battery's calendar life expires before you use up all of the cycles. Also, there are many ways to kill a battery. Our newest lithium iron phosphate batteries have an advantage in that respect because they use protective electronics. Also, the new EcoSpeed controller will intelligently protect your battery. Even shallower average discharge cycles may lower your cost
As the above table shows there are a lot of factors to consider when choosing batteries. New for 2010 is that we no longer carry lead-acid batteries. Not only are they heavy and low performing, the cost per useable amp-hour is about three times better for these advanced lithium batteries even though the up front cost is much greater. Low cost lithium iron phosphate batteries that are now becoming available have the potential to be better still.
Take a look at the relative performance column. Batteries at similar voltage levels can vary quite a lot in how much power you can actually extract. That's because all batteries have an internal resistance that causes voltage to drop proportional to current being supplied. A big voltage drop means a lower motor speed and less power. Also, the internal resistance increases as a battery is discharged which decreases the power they can supply.
Take a look at the weight of each battery. Until the arrival of lithium iron phosphate, it was impossible to get a very light lithium battery that could supply enough power for a high power bike motor. No more. The smallest lithium iron phosphate packs a serious punch and weighs less than 8 lbs.
It's perfectly fine to use batteries from other manufacturers with your EcoSpeed drive unit. With our new digital controller, our EMD and EMtnD systems can automatically adjust motor power to match your battery. That maximizes battery life. If you prefer one stop shopping, we can supply complete battery systems with everything you need, including cases, bike mounts, and chargers.
That's not for everyone though, so feel free to ask us if your favorite battery will work with our system.
