Ebike Industry Updates

Young adults aged 25-34 were found to have the highest rate of ownership of e-bikes as well as the highest rate of participation in bike share programs. They also had a lower rate of conventional bike ownership.

Regular bike ownership skewed toward those who were male, young, highly educated and affluent. No surprise there.

The study found that factors such as being foreign-born, paying rent (rather than a mortgage) and living in an apartment reduced the likelihood of owning a bike, whether conventional or electric.

By the time the application window closed on June 23, the city had received nearly 9000 applications.

Depending on your view, that is either good or bad news, possibly both. The overwhelming response shows just how keen people are to add an e-bike to their transportation options, which is certainly good. The bad news is that only 700 rebate vouchers are available in this first round.

Income-qualified Atlanta residents (those who demonstrate they meet the threshold to qualify as low income) can receive a rebate certificate good for $1,000 off a regular e-bike or $2,000 off a cargo e-bike. Residents who exceed the income threshold can receive a rebate of up to $500 for an e-bike or $1,000 for a cargo e-bike.

The first round of rebates should be distributed to recipients by the end of July. Recipients will have six weeks to purchase their e-bike from a qualified Atlanta retailer.

And now, for everyone who needs some help going 20 mph, the Bianchi E-Oltre adds the Mahle X30 hub motor to yield one of the lightest e-bikes on the market—just 11kg (24.2 lbs.)—light enough to rival Trek’s Domane+ SLR. It wasn’t that many years ago that a racing bike weighed 24 lbs.

The Mahle X30 hub in the E-Oltre produces 250W and 45Nm of torque. It’s unlikely that another e-bike could put this hub to use as well as the E-Oltre; 45Nm of torque will see this e-bike accelerate like other e-bikes with much bigger motors while still retaining the feel of a regular road bike. This may be as close as some of us come to keeping the cake we are eating.

The Mahle X30 hub draws its power from a 250Wh internal battery that Bianchi says can offer as much as 90km (56 mi.) range on a single charge. It seems unlikely that such a small battery has ever accounted for so much range. Mahle makes a range-extending battery that is estimated to add another 55km (34 mi.).

Bianchi offers the E-Oltre in seven different sizes to give riders an optimal fit. They also make it in three different versions. One is equipped with Shimano’s 105 group and goes for around $5,500. There’s one with Shimano’s Ultegra Di2 electronic shifting that runs close to $7,000, while the top-of-the-line version with Shimano’s Dura-Ace Di2 goes for close to $11,000.

Automatic shifting is a software update that improves upon what Pinion already offered with the MGU. Previously, Pinion offered a mode called Pre.Select that would change gears while the rider was coasting. I would compare the rider’s speed compared to a preset target cadence and then select the gear most appropriate to that cadence. Now Pinion has added two more shift modes, Auto.Shift and Auto.Shift.Pro.

With Auto.Shift the MGU automatically shifts—even under a full pedaling load. Pinion is careful to note that the automatic shifting isn’t predictive, but instead is reactive. The system monitors a number of inputs, according to Pinion, and while they don’t detail those inputs, it’s easy to connect the dots and conclude that some of those inputs would be cadence, speed and the amount of torque the rider is exerting on the pedals.

Because cadence is to some degree a matter of personal preference and riding style, Pinion allows a rider to define their preferred cadence range so that the MGU doesn’t shift at cadences above or below the rider’s preferred range. They can do this dynamically while riding with the TE-1 E-Trigger.

Pinion also offers Auto.Shift.Pro which allows riders to override the gear that the Pinion MGU has selected by using the E-Trigger. Pinion says this allows a rider to derive all the assistance of an automatic transmission without losing the dynamic edge that comes with shifting manually.

These numbers reflect the size of the worldwide market, rather than one region. According to their analysis, they peg the current worldwide market at $160 billion dollars. By 2030, they predict the market will grow by $180 billion to $340 billion. That will grow another $180 billion in just five years to a total of $520 billion.

According to McKinsey, the biggest drivers will be regulation and consumer behavior. Regulation will figure as a driver because of how governments will prioritize forms of transportation that help them meet their climate targets. Subsidies and investment in micromobility infrastructure will help spur consumer behavior.

Currently, five European countries account for a whopping 50 percent of the market, some $29 billion in sales. Germany leads, with France coming in second and the U.K. third.

E-bikes the biggest segment of the European micromobility market, they say; e-bikes account for 40 percent of the total market. They project that e-bike sales will grow by 13 percent annually through 2035.

California Assembly Bill 1774 amends Section 24016 of the Motor Vehicle Code with two new provisions aimed at curbing e-bikes that can exceed 28 mph.

In item (d) the bill states: “A person shall not tamper with or modify an electric bicycle […] so as to change the speed capability of the bicycle, unless the bicycle continues to meet the definition of an electric bicycle […] and the person appropriately replaces the label indicating the classification required[…].”

Item [e] adds: “A person shall not sell a product or device that can modify the speed capability of an electric bicycle such that it no longer meets the definition of an electric bicycle[…].”

Assembly Bill 2259, which was introduced by State Assembly Member Tasha Boerner of Carlsbad, creates a comprehensive, online training manual for e-bike riders. The idea is that it is for e-bikes what the driver’s education manual is for drivers.

It is designed to work with another bill, AB 2234, known as the San Diego Electric Bicycle Safety Pilot Program. The manual created by AB 2259 will serve as the curriculum for AB 2234.

If the measures pass, they would require children aged 12 and up to take the safety class in order to ride a Class 1 or 2 e-bike. You must be at least 16 years old to ride a Class 3 e-bike.

Assembly member Boerner’s office released a statement in support of the bills:

The 36V EP5 motor produces 250W and 60Nm of torque—no word on max power output yet—and can be configured for use in Class 3 e-bikes with a top-assist speed of 28 mph. It reportedly weighs 3kg (6.6 lbs.).

The 36V E5100 motor produces 250W and a more modest 50Nm of torque. It is designed for use in Class 1 and Class 2 e-bikes with a maximum-assist speed of 20 mph. The motor reportedly weighs 2.4kg (5.3 lbs.).

The motors can be powered by one of three of Shimano’s internal batteries: 418Wh, 504Wh or 630Wh. On the low end, an e-bike with the EP5 motor may see a range of 23km (14.3 mi.) with the 418Wh battery (in Boost mode), while at the high end the 630Wh battery may power the EP5 for as much as 92km (57.2 mi.) (Eco mode).

The E5100 motor may cover as much as 57km (35.4 mi.) with the 41Wh battery (in Boost). With the 630Wh battery, Shimano estimates the E5100 motor may offer an impressive 260km (162 mi.) (Eco mode).