eBike Helmet Buying Guide [2026]: Safety Standards, Types, and How to Choose

By the Editorial Staff @ ebiking.us | Last Updated: February 2, 2026

Meta Description: Complete eBike helmet buying guide for 2026. Learn about NTA-8776 certification, safety standards (CPSC, ASTM, Snell), helmet types, fit guide, and expert recommendations for electric bike riders.

By William E Pearl, eBike Enthusiast since 2012

Last Updated: February 2, 2026

Choosing the right helmet for your eBike is one of the most important safety decisions you'll make as an electric bike rider. Unlike traditional bicycles, eBikes can reach speeds of 20 to 28 mph with minimal effort, which means the consequences of a crash are more severe. This comprehensive guide will help you understand eBike-specific helmet standards, choose the right type of helmet for your riding style, ensure proper fit, and make an informed purchasing decision that could save your life.

Why eBike Riders Need Different Helmets

The Bicycle Helmet Safety Institute, a leading consumer-funded organization dedicated to helmet safety research, makes a critical point: "If you use a bicycle helmet for a powered vehicle traveling 20 mph (32 kph) or more, you are taking a greater risk than most unpowered bicyclists that the helmet will not be adequate for the type of crash you should expect."[1] This statement underscores a fundamental truth that many eBike riders overlook—regular bicycle helmets were designed and tested for lower-speed impacts.

eBikes present unique safety challenges compared to traditional bicycles. First, the higher average speeds mean greater impact forces in a crash. When you're cruising at 25 mph on a Class 3 eBike compared to 12-15 mph on a regular bike, the kinetic energy involved in a collision increases exponentially. Second, eBikes are significantly heavier than traditional bicycles, typically weighing 40-70 pounds compared to 20-30 pounds for a standard bike. This additional weight affects handling and increases the severity of impacts. Third, the ease of maintaining high speeds on eBikes means riders spend more time at velocities where crashes become more dangerous.

The Consumer Product Safety Commission (CPSC) released a report in 2023 estimating eBike injuries, noting that injuries are increasing with more eBike use.[1] Medical research supports these concerns. A study published in the journal Injury found that "E-bikers at Risk for Severe Traumatic Brain Injury and Skull Fractures" compared to traditional cyclists.[1] These findings have prompted helmet manufacturers and safety organizations to develop eBike-specific helmet standards that address the unique risks electric bike riders face.

Understanding eBike Helmet Safety Standards

The world of helmet certifications can be confusing, with multiple standards from different countries and organizations. Understanding these standards is essential for making an informed helmet purchase decision.

NTA 8776: The eBike-Specific Standard

The NTA 8776 standard, introduced in the Netherlands in 2016, represents the first safety standard created specifically for eBikes and speed pedelecs (electric bikes that can reach speeds up to 28 mph).[2] This Dutch standard has become the de facto eBike helmet certification in the global market, despite the absence of other eBike-specific standards.

The NTA 8776 standard differs from traditional bicycle helmet standards in several important ways. The test line on the front of the helmet is only 2.5mm lower than the CPSC bicycle helmet standard, but on the sides and rear, it extends much lower, providing significantly more coverage.[1] This additional coverage is crucial because eBike crashes at higher speeds are more likely to involve side and rear impacts. The flat anvil test drop height is just above the CPSC standard, making the two roughly equally stringent given that the Dutch standard uses the less severe European drop rig.[1]

However, the NTA 8776 standard has limitations. It does not test with the hemispheric anvil at all, which means it may not adequately protect against certain types of impacts.[1] Additionally, while NTA 8776 helmets provide more protection than standard bicycle helmets, they still offer substantially less protection than motorcycle helmets meeting the US DOT standard.[1]

Major helmet manufacturers now offer NTA 8776 certified models, including Abus, Agu, Giro, Lazer, Limar, Ozmo, and Polisport.[1] When shopping for an eBike helmet, look for the NTA 8776 certification label, which indicates the helmet has been tested specifically for the higher speeds and impact forces associated with electric bike riding.

CPSC: The US Mandatory Standard

The Consumer Product Safety Commission (CPSC) standard is the mandatory certification for all bicycle helmets sold in the United States. Established in 1999, this standard requires helmets to meet specific safety requirements including impact attenuation, retention system strength, positional stability, and proper labeling.[3]

The CPSC standard tests helmets by dropping them from a specified height onto flat and curbstone anvils, measuring the g-forces transmitted to a test headform. Helmets must limit peak acceleration to 300 g's and must not exceed 150 g's for more than 2 milliseconds.[3] The retention system (chin strap) must withstand significant force without breaking or stretching excessively, and the helmet must stay in position during impact.

While CPSC certification is mandatory and provides a baseline level of protection, it was designed for traditional bicycle speeds (typically under 20 mph) and may not provide adequate protection for eBike riders who regularly travel at higher speeds. A CPSC-certified helmet is better than no helmet, but eBike riders should consider helmets that meet additional, more stringent standards.

ASTM F1952: The Downhill Mountain Bike Standard

The ASTM F1952 standard was developed for downhill mountain biking, where riders regularly reach speeds comparable to or exceeding those of eBikes. This standard exceeds the normal CPSC/ASTM bicycle helmet standard and provides more stringent testing.[1]

Helmets certified to ASTM F1952 typically feature extended coverage at the back of the head and temples, similar to NTA 8776 helmets. They're tested at higher impact velocities and must meet more demanding performance criteria. For eBike riders, particularly those riding Class 3 eBikes or riding in challenging terrain, an ASTM F1952 certified helmet offers an excellent balance of protection and practicality.

Snell B-95: Premium Protection

The Snell Memorial Foundation, a non-profit organization dedicated to helmet safety research and testing, publishes the B-95 standard for bicycle helmets. Snell standards are voluntary and typically more stringent than government-mandated standards. The Snell B-95 standard is tougher than NTA 8776, requiring helmets to withstand higher impact forces.[1]

Snell-certified helmets undergo more rigorous testing than CPSC-certified helmets, including multiple impact tests and tests at different locations on the helmet. While Snell B-95 certified helmets are less common and typically more expensive, they represent some of the highest levels of protection available in bicycle-style helmets.

MIPS: Rotational Impact Protection

While not a certification standard per se, MIPS (Multi-directional Impact Protection System) is an important safety technology found in many modern helmets. MIPS addresses rotational forces that occur during angled impacts, which are common in real-world crashes.

The MIPS system consists of a low-friction layer inside the helmet that allows the helmet to rotate slightly relative to the head during an angled impact. This rotation absorbs some of the rotational energy that would otherwise be transmitted to the brain, potentially reducing the risk of traumatic brain injury. Research has shown that MIPS and similar rotational impact protection systems can reduce brain injury risk in certain types of crashes.

When choosing an eBike helmet, look for models that combine a strong certification standard (NTA 8776, ASTM F1952, or Snell B-95) with MIPS technology for comprehensive protection against both linear and rotational impacts.

Types of eBike Helmets

eBike helmets come in several distinct styles, each designed for different riding scenarios and preferences. Understanding these types will help you choose a helmet that matches your riding style and safety needs.

Urban Commuter Helmets

Urban commuter eBike helmets are designed for riders who use their eBikes primarily for transportation in city environments. These helmets typically feature:

Extended rear coverage to protect the back of the head, which is vulnerable in rear-end collisions or when falling backward. Many urban helmets extend coverage down to the base of the skull, providing protection that traditional bicycle helmets lack.

Integrated lights are increasingly common in urban eBike helmets. Rear-facing LED lights improve visibility to motorists, especially during dawn, dusk, and nighttime riding. Some models include front lights as well, providing 360-degree visibility.

Visors or face shields help protect against sun glare, rain, and debris. Some urban helmets include removable visors that can be adjusted or removed based on conditions.

Reflective elements such as reflective strips, logos, or entire reflective shells dramatically improve visibility in low-light conditions. When illuminated by vehicle headlights, these elements make riders visible from much greater distances.

Comfortable ventilation balanced with coverage. Urban helmets typically have fewer and smaller vents than sport helmets because commuters ride at steadier speeds and generate less heat, but adequate ventilation remains important for comfort.

Popular urban eBike helmet models meeting NTA 8776 standards include the Specialized Mode MIPS, Thousand Chapter MIPS, and Bern Hudson MIPS.

Sport/Performance Helmets

Sport and performance eBike helmets are designed for riders who use their eBikes for fitness, recreation, or aggressive riding. These helmets prioritize:

Maximum ventilation through large and numerous vents to keep riders cool during intense efforts. Performance helmets often feature internal channeling that directs airflow over the head for enhanced cooling.

Lightweight construction using advanced materials like in-mold polycarbonate shells and EPS foam liners. Weight savings of even a few ounces can improve comfort during long rides.

Aerodynamic shaping to reduce drag at higher speeds. While this matters less on eBikes than traditional road bikes, aerodynamic helmets can still improve efficiency and reduce wind noise.

Secure retention systems with micro-adjustable fit mechanisms that keep the helmet stable during aggressive riding. Many sport helmets use BOA dial systems or similar technologies for precise fit adjustment.

Goggle compatibility for riders who wear cycling-specific eyewear. Sport helmets are designed to accommodate sunglasses or clear glasses without creating pressure points.

Sport eBike helmets that meet enhanced standards include models from Giro, POC, and Smith Optics, many of which are certified to ASTM F1952 or include MIPS technology.

Mountain/Trail Helmets

Mountain eBike helmets are designed for off-road riding and provide the most comprehensive protection of any bicycle-style helmet. Key features include:

Extended coverage that protects more of the head, particularly the back, sides, and temples. Mountain bike helmets often resemble motorcycle helmets in coverage while maintaining the ventilation and weight characteristics of bicycle helmets.

Visor to deflect branches, mud, and debris while providing sun protection on trails. Mountain bike visors are typically larger and more robust than those on urban helmets.

ASTM F1952 certification is standard for mountain bike helmets, ensuring they meet the higher impact standards appropriate for aggressive riding.

Breakaway mounting systems for cameras and lights that detach during impacts rather than creating additional impact points.

Goggle compatibility with channels and retention systems designed to secure goggles for muddy or dusty conditions.

Leading mountain eBike helmets include the Bell Super Air R MIPS, POC Tectal Race MIPS, and Troy Lee Designs A3 MIPS, all of which provide excellent protection for aggressive eMTB riding.

Full-Face Helmets

For riders who want maximum protection, particularly those riding high-powered eBikes or riding in extreme conditions, full-face helmets provide motorcycle-level protection while remaining suitable for bicycle use.

Complete facial protection including a chin bar that protects the jaw and face in frontal impacts. Studies show that facial injuries are common in bicycle crashes, and full-face helmets virtually eliminate this risk.

DOT or ECE certification is common for full-face helmets, indicating they meet motorcycle helmet standards that far exceed bicycle helmet requirements.

Removable chin bars are available on some models, allowing the helmet to convert between full-face and open-face configurations based on riding conditions.

Enhanced ventilation systems to manage heat buildup, as full-face helmets can be significantly warmer than open-face designs.

Full-face helmets are particularly appropriate for Class 3 eBikes, high-powered eBikes capable of speeds over 28 mph, or any riding where maximum protection is desired. However, they're heavier, warmer, and more expensive than other helmet types, making them less practical for casual commuting.

The Bicycle Helmet Safety Institute notes that for powered scooters and similar vehicles, the CPSC recommends a motorcycle helmet meeting the DOT standard.[1] This recommendation logically extends to high-speed eBikes as well.

How to Choose the Right eBike Helmet

Selecting the right eBike helmet involves considering multiple factors beyond just safety certifications. The best helmet is one that fits properly, matches your riding style, and provides features you'll actually use.

Match the Helmet to Your eBike Class

The three-class eBike system used in most US states provides a useful framework for helmet selection:

Class 1 eBikes (pedal-assist up to 20 mph) can generally be ridden safely with high-quality CPSC-certified helmets, though NTA 8776 certified helmets provide additional protection. If you primarily ride on bike paths and at moderate speeds, a quality urban commuter helmet with CPSC certification and MIPS technology offers good protection.

Class 2 eBikes (throttle-assisted up to 20 mph) have similar speed profiles to Class 1 bikes, but the throttle capability means riders may spend more time at maximum speed. An NTA 8776 certified helmet is recommended for Class 2 eBike riders.

Class 3 eBikes (pedal-assist up to 28 mph) should definitely be paired with NTA 8776 certified helmets at minimum. Many states require helmets for Class 3 eBike riders, and some require helmets meeting specific standards.[4] Given the significantly higher speeds of Class 3 eBikes, consider ASTM F1952 certified helmets or even full-face helmets for maximum protection.

Consider Your Riding Environment

Your typical riding environment should heavily influence your helmet choice:

Urban commuting in traffic requires helmets with excellent visibility features including integrated lights, reflective elements, and bright colors. Extended rear coverage is particularly important for urban riding where rear-end collisions are a risk. Look for helmets with visors to manage sun glare and rain.

Recreational path riding at moderate speeds allows for lighter, more ventilated helmets. If you primarily ride on dedicated bike paths away from traffic, comfort and ventilation may take priority over visibility features.

Mountain biking and trail riding demands helmets with ASTM F1952 certification, extended coverage, and features like visors and goggle compatibility. The rough terrain and higher risk of crashes make maximum protection essential.

Mixed riding that includes various environments is best served by versatile urban helmets with good ventilation, visibility features, and NTA 8776 certification. These helmets balance protection, comfort, and features for diverse riding conditions.

Fit is Paramount

No amount of safety certification matters if your helmet doesn't fit properly. A poorly fitting helmet can shift during a crash, leaving parts of your head unprotected, or fail to stay on your head at all. Follow these steps to ensure proper fit:

Measure your head circumference by wrapping a soft measuring tape around your head about one inch above your eyebrows. This measurement determines your helmet size. Most adult helmets range from small (51-55 cm) to extra-large (61-65 cm).

Try before you buy whenever possible. Helmet shapes vary between manufacturers, and a helmet that fits one person perfectly may not fit another person with the same head circumference. The helmet should feel snug but not uncomfortably tight, with even pressure around your entire head.

Check the position by ensuring the helmet sits level on your head, not tilted back or forward. The front edge should be about one inch (two finger widths) above your eyebrows. If the helmet tilts back, it won't protect your forehead; if it tilts forward, it won't protect the back of your head.

Adjust the retention system using the dial or strap adjusters at the back of the helmet. The helmet should be snug enough that it doesn't move when you shake your head vigorously. Many modern helmets use BOA dial systems or similar technologies that allow precise micro-adjustments.

Adjust the chin strap so it's snug but comfortable when buckled. You should be able to fit one or two fingers between the strap and your chin. The strap should form a "V" shape just below your ears. When you open your mouth wide, you should feel the helmet pull down slightly on your head—this indicates the strap is properly adjusted.

Perform the shake test by shaking your head vigorously from side to side and nodding up and down. The helmet should stay firmly in place without shifting. If it moves, tighten the retention system and chin strap.

Check for pressure points by wearing the helmet for at least 10-15 minutes. It should feel comfortable without creating painful pressure points. Some discomfort is normal as you adjust to wearing a helmet, but sharp pain or numbness indicates poor fit.

Essential Features to Look For

Beyond certifications and fit, several features enhance helmet safety, comfort, and usability:

MIPS or similar rotational impact protection significantly reduces the risk of traumatic brain injury in angled impacts. Given the modest price premium (typically $20-40), MIPS is highly recommended for all eBike riders.

Integrated lights improve visibility to motorists, especially during dawn, dusk, and night riding. Rear-facing red LED lights are most important, as they're visible to following traffic. Some helmets include front white lights as well.

Reflective elements dramatically improve visibility when illuminated by vehicle headlights. Look for helmets with reflective strips, logos, or even entire reflective shells.

Adequate ventilation keeps you comfortable during rides. However, remember that more vents generally mean less protective material. Balance ventilation with coverage based on your riding style and climate.

Removable/washable padding allows you to keep your helmet fresh and hygienic. Helmet padding absorbs sweat and can become unpleasant over time. Removable padding can be washed or replaced.

Visor or face shield protects against sun, rain, and debris. Removable visors offer flexibility for different conditions.

Goggle compatibility if you wear cycling-specific eyewear. The helmet should accommodate glasses without creating pressure points.

Crash replacement programs offered by some manufacturers provide discounted or free helmet replacement after a crash. This encourages riders to replace helmets after impacts, which is critical for maintaining protection.

Top eBike Helmet Recommendations for 2026

Based on safety certifications, features, and expert reviews, here are top helmet recommendations for different eBike riding styles:

Best Overall eBike Helmet: Specialized Mode MIPS

The Specialized Mode helmet combines NTA 8776 certification with MIPS technology and a reasonable price point around $100-120. It features extended rear coverage, integrated rear light, reflective elements, and comfortable padding. The Mode is available in multiple colors and sizes, making it suitable for most urban eBike riders.

Best Budget eBike Helmet: Thousand Chapter MIPS

At around $85-95, the Thousand Chapter MIPS offers NTA 8776 certification, MIPS technology, and stylish design at an accessible price. It includes a magnetic rear light, vegan leather straps, and a distinctive aesthetic that appeals to urban riders. While it has fewer vents than sport helmets, it's ideal for commuting.

Best Premium Urban Helmet: Bern Hudson MIPS

The Bern Hudson MIPS ($150-180) combines NTA 8776 certification with premium materials, excellent ventilation, and integrated Bluetooth speakers and microphone for taking calls while riding. It features a BOA fit system, removable visor, and multiple color options. The Hudson represents the high end of urban eBike helmets.

Best Mountain eBike Helmet: Bell Super Air R MIPS

For mountain eBike riders, the Bell Super Air R MIPS ($250-300) offers ASTM F1952 certification, extensive coverage, MIPS Spherical technology (an advanced rotational impact protection system), and excellent ventilation. It's designed specifically for aggressive trail riding and provides maximum protection for eMTB use.

Best Full-Face Helmet: Fox Racing Proframe RS MIPS

The Fox Racing Proframe RS MIPS ($400-450) provides full-face protection with ASTM F1952 certification and MIPS technology while remaining light enough for pedaling (around 750 grams). It features a removable chin bar, excellent ventilation, and is designed specifically for eMTB use. This helmet is ideal for riders who want maximum protection.

Best Value: Giro Fixture MIPS

For riders on a tight budget, the Giro Fixture MIPS ($50-60) offers CPSC certification and MIPS technology at an entry-level price. While it lacks NTA 8776 certification and eBike-specific features, it provides solid protection for casual Class 1 eBike riders and is far better than riding without a helmet.

Helmet Maintenance and Replacement

Proper helmet care and knowing when to replace your helmet are essential for maintaining protection.

Regular Maintenance

Clean your helmet regularly using mild soap and water. Avoid harsh chemicals that can degrade the helmet materials. Clean the shell, vents, and padding, and allow the helmet to air dry completely before storage.

Inspect for damage before each ride. Look for cracks in the shell, compressed foam, loose retention systems, or frayed straps. Any visible damage means the helmet should be replaced immediately.

Store properly in a cool, dry place away from direct sunlight and heat sources. UV radiation and heat can degrade helmet materials over time. Don't leave your helmet in a hot car or in direct sunlight for extended periods.

Protect from impacts even when not wearing it. Dropping your helmet on a hard surface can compromise its protective capabilities even if no damage is visible. Treat your helmet carefully.

When to Replace Your Helmet

After any crash where your head impacts something, replace your helmet immediately. Even if there's no visible damage, the foam liner may be compressed and unable to provide full protection in a subsequent impact. Many manufacturers offer crash replacement programs that provide discounted replacements.

Every 3-5 years even without crashes. Helmet materials degrade over time due to UV exposure, sweat, and general wear. Most manufacturers recommend replacement every 3-5 years regardless of visible condition.

When it no longer fits properly due to changes in your head size or shape, or if the retention system becomes loose or damaged.

If it's been in extreme heat such as being left in a hot car for extended periods. Heat can degrade the foam and adhesives that hold the helmet together.

When safety standards improve significantly. If you're riding a Class 3 eBike with an old CPSC-only helmet, upgrading to an NTA 8776 certified helmet provides meaningfully better protection.

Helmet Laws for eBikes

Helmet laws for eBikes vary significantly by state and even by local jurisdiction. Understanding the laws in your area is important for legal compliance, though wearing a helmet should be a personal safety choice regardless of legal requirements.

As of 2026, helmet laws for eBikes generally fall into several categories. Some states require helmets for all eBike riders regardless of age or eBike class. Other states require helmets only for Class 3 eBikes (28 mph maximum speed). Many states require helmets for riders under a certain age, typically 16 or 18, regardless of eBike class. Finally, some states have no eBike-specific helmet requirements at all.[4]

The Bicycle Helmet Safety Institute maintains a comprehensive list of eBike helmet laws by state, which is regularly updated as laws change.[4] Before riding in a new location, check local helmet laws to ensure compliance. Even in areas without helmet requirements, wearing a certified helmet is strongly recommended for all eBike riders.

Conclusion

Choosing the right eBike helmet is one of the most important safety decisions you'll make as an electric bike rider. The higher speeds and heavier weight of eBikes create crash scenarios that differ significantly from traditional bicycles, making eBike-specific helmets a wise investment.

Look for helmets certified to NTA 8776, ASTM F1952, or Snell B-95 standards, which provide protection appropriate for eBike speeds. Combine strong certification with MIPS technology for comprehensive protection against both linear and rotational impacts. Ensure proper fit by measuring your head, trying helmets before purchasing, and adjusting retention systems and straps correctly. Choose a helmet type and features that match your riding style and environment.

Remember that the best helmet is the one you'll actually wear. If a helmet is uncomfortable or doesn't fit your style, you're less likely to wear it consistently. Find a helmet that balances safety, comfort, and aesthetics so you'll wear it on every ride.

Your head is irreplaceable, and traumatic brain injuries can have lifelong consequences. Investing in a quality eBike helmet and wearing it on every ride is one of the simplest and most effective ways to protect yourself while enjoying the freedom and fun of electric bike riding.

Frequently Asked Questions

Do I really need an eBike-specific helmet, or will a regular bike helmet work?

While a regular CPSC-certified bike helmet is better than no helmet, eBike-specific helmets certified to NTA 8776 or ASTM F1952 provide significantly better protection for the higher speeds of eBikes. The Bicycle Helmet Safety Institute states that using a bicycle helmet for powered vehicles traveling 20 mph or more means "you are taking a greater risk than most unpowered bicyclists that the helmet will not be adequate."[1] For Class 3 eBikes or aggressive riding, eBike-specific helmets are strongly recommended.

What does NTA 8776 certification mean?

NTA 8776 is a Dutch safety standard introduced in 2016 specifically for eBikes and speed pedelecs. It requires more extensive coverage on the sides and rear of the head and tests at higher impact velocities than standard bicycle helmet certifications. NTA 8776 has become the de facto eBike helmet standard globally.[2]

How much should I spend on an eBike helmet?

Quality eBike helmets with NTA 8776 certification and MIPS technology typically range from $85-180 for urban models, $150-300 for mountain bike helmets, and $300-500 for full-face helmets. Given that your helmet protects your brain—your most valuable asset—this is not an area to cut corners. However, a $100 helmet that fits properly provides better protection than a $300 helmet that doesn't fit well.

Is MIPS worth the extra cost?

Yes. MIPS (Multi-directional Impact Protection System) reduces rotational forces during angled impacts, which are common in real-world crashes. The technology adds typically $20-40 to helmet cost, a modest premium for significantly enhanced protection against traumatic brain injury. Most experts recommend MIPS for all cyclists, especially eBike riders.

How do I know if my helmet fits properly?

A properly fitting helmet sits level on your head about one inch above your eyebrows, feels snug without painful pressure points, and doesn't move when you shake your head vigorously. The chin strap should be snug with room for one or two fingers, and form a "V" just below your ears. When you open your mouth wide, you should feel the helmet pull down slightly.

Do I need to replace my helmet after dropping it?

If you drop your helmet from a significant height (more than a few feet) onto a hard surface, inspect it carefully for cracks or damage. If there's any visible damage, replace it immediately. Even without visible damage, a significant impact can compress the foam liner and reduce protection. When in doubt, contact the manufacturer for guidance or replace the helmet.

Are more expensive helmets safer than budget helmets?

Not necessarily. All helmets sold in the US must meet CPSC safety standards regardless of price. More expensive helmets typically offer better ventilation, lighter weight, more features (like integrated lights), and more advanced technologies (like MIPS), but a properly fitting $60 CPSC-certified helmet provides the same baseline protection as a $300 helmet. The key is choosing a helmet with appropriate certifications (NTA 8776 for eBikes) that fits properly.

Can I wear a motorcycle helmet on my eBike?

Yes, and for high-speed eBikes, motorcycle helmets provide the most protection. The CPSC recommends motorcycle helmets meeting DOT standards for powered scooters, which reach similar speeds to Class 3 eBikes.[1] However, motorcycle helmets are heavier, warmer, and less practical for pedaling. They're most appropriate for high-powered eBikes or riders who prioritize maximum protection above all else.

References

1. Bicycle Helmet Safety Institute. "Helmets for ebikes and other light powered vehicles." September 26, 2025. https://helmets.org/ebike.htm

2. Bern Helmets. "E-Bike Helmet Guide | NTA-8776 Certified Safety by Bern." https://bernhelmets.com/pages/e-bike-helmet-guide

3. 6D Helmets. "Certification Standards – 6D Helmets." https://www.6dhelmets.com/pages/certification-standards

4. Bicycle Helmet Safety Institute. "Helmet laws for electric bikes." https://helmets.org/ebikelaws.htm

Sources

[1] NHTSA [2] CPSC [3] PeopleForBikes [4] League of American Bicyclists

Sources

[1] NHTSA [2] CPSC [3] PeopleForBikes [4] League of American Bicyclists