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On this page you will find all of the available ebikes with special discount pricing under our UC program.

Please note that you must be signed in in order to purchase an ebike using the special pricing. UC pricing will be marked in red.

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Explained

Watt-Hours vs Amp-Hours

What are Watt-Hours and Amp-Hours?

Amp-Hours (Ah)

Amp-hour is a measure of electric charge, and it indicates how much current (or amps) the battery can provide over one hour. In other words, amp-hours tell you the “quantity” of electricity that can flow through the battery.

Watt-Hours (Wh)

Watt-hour, on the other hand, is a measure of energy. It combines the amp-hour rating with the voltage of the battery, which gives a more accurate picture of the total energy stored in the battery. This metric is ultimately more useful for understanding the range because it factors in both the power level (voltage) and the amount of current (amp-hours) the battery can deliver.

Why Watt-Hours Matter More for Ebike Range

Imagine you’re comparing two ebikes. Both have 10Ah batteries, but one has a 36V battery, and the other has a 48V battery. Without watt-hours, these bikes might appear to have the same range. However, when you calculate the watt-hours:

10Ah x 36V = 360Wh

10Ah x 48V = 480Wh

In this example, the second bike has a higher watt-hour rating, which means it has more stored energy and, therefore, a longer potential range. Watt-hours provide a clearer, more accurate understanding of range potential because they take voltage into account.

Amp-hour is a measure of electric charge, and it indicates how much current (or amps) the battery can provide over one hour. In other words, amp-hours tell you the “quantity” of electricity that can flow through the battery.

Calculating Range with Watt-Hours

While various factors influence range, watt-hours give a practical starting point for estimating how far an ebike can travel on a full charge. Here’s a rough guide to help you conceptualize it:

Low-Power Ebikes (250W motor): Usually, these bikes will cover about 1 mile per 15-20Wh. So, a 500Wh battery could offer approximately 25 miles.

Mid-Power Ebikes (500W motor): They typically achieve 1 mile per 20-25Wh. For example, a 500Wh battery could cover about 20-25 miles.

High-Power Ebikes (750W motor or higher): These may get around 1 mile per 30Wh or more, meaning a 500Wh battery might only offer around 15-20 miles.

These calculations are averages and can vary based on conditions, but watt-hours give you a tangible sense of the battery’s potential.

Why All Amp-Hours Are Not Created Equal

Many riders new to ebikes focus on amp-hours because it’s a simpler metric to understand. However, as we’ve seen, amp-hours alone don’t provide the whole story. For example, a 15Ah battery could have a lower voltage (say, 36V) and thus fewer watt-hours than a 10Ah battery with a higher voltage (say, 48V). Relying solely on amp-hours can lead to overestimating a battery’s range if the voltage isn’t taken into account.

Always look for watt-hours first if you want a quick way to estimate potential range based on battery specs. Watt-hours measure actual energy capacity, which means they directly correlate to range in a way that amp-hours do not.

Other Factors Affecting Ebike Range

While watt-hours provide a solid basis for estimating range, real-world conditions also matter. Here’s what else impacts range:

Rider Weight: Heavier riders require more energy to maintain the same speed and can reduce the range.

Terrain: Hilly terrain consumes more energy than flat terrain. Constant uphills can quickly drain a battery.

Pedal Assistance Level: Higher pedal assist or throttle-only riding uses more power. Conversely, a lower assist level helps extend range.

Tire Pressure and Type: Under-inflated or wide, knobby tires can increase resistance, reducing range.

Wind and Weather: Windy conditions and cold temperatures also impact battery efficiency and range.

How to Extend Your Ebike’s Range

If you’re looking to get the most out of your battery, consider these tips:

Use Lower Assist Levels: Higher levels of pedal assistance drain the battery faster. Riding on eco-mode or a lower assist level can add significant miles.

Optimize Tire Pressure: Check tire pressure before rides and keep it in the optimal range for your specific tire type.

Plan Your Route: Avoiding steep hills or rough terrain can save energy. Planning a flatter route can give you a bit more distance.

Pedal More: Actively pedaling instead of relying entirely on the motor reduces battery strain and increases range.

Conclusion: Focusing on Watt-Hours for a Clearer Range Estimate

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