Rivian didn’t simply add another e-bike to the market. Through their new ALSO spinoff, they applied automotive-grade engineering to reimagine what two-wheeled transportation could become when stripped of mechanical constraints. The TM-B e-bike represents a fundamental shift in how we think about pedal-powered vehicles, replacing century-old drivetrain conventions with a software-defined riding experience.

Designer: Rivian

What emerges is a platform for modular micromobility that prioritizes adaptability over specialization. The design philosophy centers on one radical premise: remove the mechanical connection between pedaling and propulsion, then rebuild the entire vehicle around what becomes possible.

Proportions Freed from Mechanical Constraint

Traditional bicycle design bows to the demands of mechanical drivetrains. Chains dictate frame geometry. Derailleurs determine clearances. Gear ratios constrain wheel sizing. The TM-B dismisses these limitations entirely.

The pedal-by-wire system, which Rivian calls DreamRide, severs the physical link between your legs and the wheels. When you pedal, you’re powering a generator. That energy charges the battery, which then drives a motor at the rear wheel. The implications for design freedom are profound.

Frame tubes can be sized for structural efficiency rather than mechanical routing. Standover height becomes a pure ergonomic decision. Wheel placement optimizes handling instead of accommodating chain length. The entire architecture flows from rider needs rather than mechanical requirements.

Full suspension with 120mm travel front and rear creates spatial generosity in how the bike absorbs terrain. Those gold-anodized stanchions aren’t just premium visual cues, they signal a riding experience tuned for urban chaos and trail exploration equally.

Modular Surfaces: One Frame, Multiple Identities

The top frame isn’t fixed structure but rather a design canvas that transforms the vehicle’s purpose in seconds. This modularity enables three distinct configurations without tools or complex adjustment procedures.

Swap in a solo seat configuration, and the TM-B becomes a personal urban runner with dual water bottle mounts. The proportions read athletic, lean, focused. Slide in the bench seat instead, and suddenly spatial relationships shift. The bike lengthens visually. Room for a passenger or substantial cargo alters how you perceive the vehicle’s stance and capability.

Mount the utility cargo rack, and form follows function most overtly. That 77-pound capacity reshapes what this platform enables: grocery runs, equipment transport, daily errands that traditionally demanded four wheels. The transformations require no tools. Seconds to swap. The design intelligence lies in creating attachment points that disappear when not in use while providing industrial-grade strength when loaded.

Each configuration tells a different spatial story while maintaining design coherence. The frame proportions accommodate all three personalities without compromise.

Material Reduction Through Digital Shifting

Eliminating the mechanical drivetrain removes visual and tactile complexity from the entire right side of the bike. This creates unprecedented surface cleanliness that most e-bikes can’t achieve because they still rely on traditional bicycle components.

No derailleur hanging vulnerably from the dropout. No cassette stack creating width at the rear wheel. No chain requiring guards, maintenance, or lubricant. The Gates carbon belt drive (on the pedal input side) delivers power silently and permanently to the generator, not to the wheel directly. It’s designed to outlast the bike itself with zero maintenance intervals.

This material reduction extends to the cockpit. Traditional bikes clutter the handlebars with shifter pods, brake levers, and sometimes throttle controls. The TM-B consolidates everything through a central touchscreen that floats between the grips. Gear selection happens through software, not mechanical clicking. Ten levels of pedal assist adjust seamlessly. Sport, Trail, All Purpose, and Conserve modes reshape the riding character without adding physical controls.

The visual result is clean surfaces throughout. The bike reads as intentionally minimal rather than stripped down, because the design removed complexity rather than hiding it.

Battery Architecture as Design Element

Most e-bikes conceal batteries within frame tubes, prioritizing invisibility over accessibility. The TM-B makes power storage a designed interaction.

Two removable battery options (538Wh and 808Wh) twist free without tools. The larger capacity delivers 100-mile range, extraordinary for a vehicle this size. But range becomes secondary to the design thinking behind making batteries user-facing rather than integrated.

USB-C charging at up to 240W means these packs double as portable power banks. The batteries become part of your broader electronic ecosystem rather than single-purpose components. Pull a battery, charge your laptop at a coffee shop, return it to the bike. The design acknowledges that modern urban life revolves around managing multiple devices, not just transportation.

An e-ink display on each battery provides status without requiring phone connectivity, giving you physical feedback and immediate information. This creates designed confidence where you know exactly how much range remains before needing to swap or charge.

Lighting Rituals: Biomotion Safety

Integrated lighting typically means front and rear LEDs that meet minimum legal requirements. The TM-B’s lighting philosophy comes from automotive safety research.

Biomotion lighting highlights the rider’s body movement (head, arms, legs) rather than just illuminating the bike’s extremities. Studies show that drivers recognize moving human forms faster than static vehicle shapes, especially in peripheral vision. The lighting system transforms the rider into a more recognizable threat that drivers process earlier.

This isn’t decorative accent lighting but rather lighting as designed protective intervention. It borrows from decades of automotive human factors research and applies it to two-wheeled vulnerability.

Security Through Remote Architecture

Physical locks represent designed failure. Cable locks cut easily. U-locks require carrying bulk. Frame locks add weight. The TM-B makes theft functionally pointless through software architecture.

When you walk away, the bike automatically locks the battery, wheels, and frame. Not physically, but electronically. Attempt to ride a locked TM-B and nothing responds. The motor won’t engage. The battery won’t discharge. The entire vehicle becomes an expensive sculpture.

Remote bricking takes this further. Report a bike stolen, and ALSO can disable it remotely. The bike becomes worthless to a thief: not resellable, not rideable, not even useful for parts. Security becomes invisible, permanent, and comprehensive without adding physical bulk or weight.

Regenerative Braking as Range Extension

Hydraulic disc brakes handle primary stopping. But regenerative braking captures energy during deceleration and feeds it back to the battery.

The design outcome: up to 25% range extension from energy that typically dissipates as heat. It’s not dramatic enough to feel like engine braking in an EV car. It’s subtle, seamless, almost unnoticeable, which represents successful design integration rather than engineered compromise.

The system demonstrates how automotive EV thinking translates to micromobility. Every descent, every slow-down, every controlled deceleration becomes an opportunity to extend range without conscious rider input.

Manufactured Variants as Design Personas

Three trim levels don’t just offer different equipment but represent distinct design philosophies about what this platform should express.

The Launch Edition ($4,500, spring 2026) introduces the concept with unique blue, purple, and other launch finishes that communicate newness and differentiation. It’s ALSO announcing they’ve arrived with something visually distinct.

The Performance trim (same price, summer 2026) adds air suspension and higher output motor specs. Design shifts from introduction to capability. This version targets riders who prioritize dynamic range over value positioning.

The Base model (under $4,000, late 2026) strips back to essentials with 60-mile battery and simplified spec. The design message becomes accessibility: getting this platform’s core benefits to wider audiences without the premium finish work.

Each trim tells a clear story about who this bike serves and why. The pricing strategy keeps Performance and Launch identical, making the choice about timing and aesthetics rather than value hierarchy.

The Quad Evolution: Four-Wheeled Platform Thinking

ALSO’s roadmap extends beyond two wheels to pedal-assisted quads designed for cargo delivery.

The TM-Q vehicles represent the same core philosophy applied to different constraints. Remove mechanical drivetrain limitations. Build software-defined platforms. Enable modular transformation. Optimize for bike lane operation rather than automotive infrastructure.

The design thread connecting the TM-B and TM-Q products is platform thinking: creating foundational architecture that supports multiple form factors rather than designing discrete vehicles. It’s how automotive manufacturers approach product development, now applied to micromobility at urban scale.

Form as Manifestation of Vertically Integrated Engineering

The TM-B doesn’t source components from Shimano, Bosch, or other e-bike suppliers. Rivian developed the battery, motor, electronics, and software in-house. This vertical integration enables design decisions impossible with off-the-shelf components. Where most e-bikes still rely on partial automotive supplier components, Rivian’s approach is pure ground-up integration applying full automotive engineering rigor to two-wheeled transport.

The pedal-by-wire system exists because Rivian controlled the entire drivetrain stack. The security architecture works because they own the software. The battery packaging succeeds because they designed the cells and the enclosures simultaneously.

What you see in the TM-B’s form is the physical manifestation of engineering control. Proportion and surface decisions made possible only when every component answers to a single design vision rather than marketplace constraints.

Over-the-air updates will refine this bike’s behavior throughout its life. The riding characteristics you experience at delivery represent a starting point, not a fixed state. Software-defined vehicles evolve. The TM-B’s design accommodates continuous improvement rather than planned obsolescence. Service and repairs happen at Rivian’s automotive service centers, not traditional bike shops, treating the TM-B as an extension of their vehicle ecosystem.

Why This Matters for Design

The ALSO TM-B demonstrates what becomes possible when automotive engineering rigor meets micromobility scale. It’s not about making bikes more expensive or complex but about removing century-old mechanical constraints and rebuilding around what riders actually need.

Modular transformation without tools. Batteries as portable power rather than hidden components. Security through software instead of physical locks. Drivetrain without mechanical compromise. Lighting that makes riders more visible through human factors research rather than brighter bulbs.

Rivian took their EV platform thinking (vertical integration, software-defined experiences, continuous improvement through updates) and scaled it to two wheels. The result challenges what we accept as inevitable in bicycle design.

The TM-B isn’t trying to be a better traditional bike. It’s showing what happens when you throw out the script entirely and rebuild from first principles. That’s what makes it worth studying, regardless of whether you ever plan to buy one.

The post Design Philosophy: When Automotive Thinking Meets Micromobility first appeared on Yanko Design.

Continuing BMW Motorrad’s tradition of pushing the envelope in motorcycle innovation, the DE-02 electric concept is a compelling evolution in the brand’s forward-looking portfolio. Having previously explored BMW’s design-driven approach to mobility, often marked by a fusion of bold aesthetics and engineering excellence, the DE-02 further solidifies this trajectory. Developed in collaboration with the iconic custom workshop Deus Ex Machina, the DE-02 isn’t just another electric bike.

Built on a platform derived from BMW’s previous electric motocross prototype dubbed E-Parkour, the DE-02 is reimagined with Deus’s distinct aesthetic sensibility. Its minimalistic frame, stripped of unnecessary bulk, keeps the structure lightweight while maintaining rugged functionality. The frame is crafted from chromoly steel, chosen for its balance of strength and weight, while the carbon fiber body elements contribute further to reducing mass without sacrificing durability.

Designer: BMW Motorrad and Deus Ex Machina

A bold reinterpretation of the original CE 02, the DE-02 also draws inspiration from the creative universe of Deus Records, blending lifestyle culture with electric mobility. Departing from the usual utility-focused configurations, this version transforms the “eParkourer” concept into a fully functional DJ booth on two wheels. In place of a surf rack, the bike features a bespoke sound system equipped with four Marshall Middleton speakers and a centrally mounted turntable, inviting riders to mix music anywhere, right from urban alleys to remote mountainscapes. The design is elevated with a hand-stitched leather saddle embroidered with the Deus Records logo, seamlessly integrated with the speaker system and turntable setup.

Additional custom touches, such as a tailored license plate holder, modern LED lighting, shortened indicators, and streamlined mirrors, enhance its distinct character, making the DE-02 not just a motorcycle, but a mobile artistic statement. Powering the DE-02 is a 5.5-kWh battery connected to an air-cooled electric motor delivering 11 kW of continuous power, with peak performance reaching up to 20 kW. This output positions it in the 125cc category for licensing in many regions, making it accessible while offering enough torque for spirited off-road performance. Its chain-driven rear wheel and slim, motocross-style design suggest a focus on agility and maneuverability, ideal for both trail riding and urban environments.

The design places strong emphasis on minimalist, utilitarian styling. A narrow profile, slim tank, and integrated seat give it a purposeful silhouette. Elements like the custom CNC-machined triple clamps and a bespoke swingarm speak to the level of detail and craftsmanship applied. The visual design is further enhanced by a simple monochromatic palette and a high-mounted LED headlight that offers a nod to classic enduro aesthetics. Suspension duties are handled by high-performance components: a WP XACT USD fork up front and a WP shock at the rear. The DE-02 rolls on 19-inch Excel Takasago wheels paired with Pirelli Scorpion Rally tires, underscoring its off-road intentions. Braking is managed by a Beringer system that includes disc brakes at both ends, offering precise stopping power.

While the DE-02 is not intended for commercial production, its creation represents a fusion of engineering and artistry. For BMW Motorrad, it’s part of a broader strategy to explore electric propulsion in motorcycling, beyond commuter-focused scooters. It also highlights how the future of motorcycles may not just lie in performance specifications but also in the emotional and cultural identity that design can offer.

The post BMW DE-02 x Deus electric bike drops beats on the go with integrated turntable and Marshall speakers first appeared on Yanko Design.

Electric bikes are everywhere, but sticking out like a sore thumb is one way to get noticed. The MOD Easy Electric Cruiser Bike takes this to heart with a sidecar that blends retro style and modern utility. This bike channels the spirit of classic motorcycles while providing practical features that elevate the experience. It’s designed for those who want more than just a ride from A to B; it’s focused on savoring every moment.

Designer: MODBIKES

Overall Aesthetic

This bike has a rugged, vintage charm, with a matte green frame contrasted by black accents. The color scheme appeals to those who like a timeless, outdoorsy look. Large wheels with a sidecar add a distinctive touch, merging modern electric technology with the feel of classic motorcycles.

Its combination of old-school styling and modern tech creates a distinct character. It offers the feel of nostalgia while embracing electric power for effortless rides. The mix of color choices, vintage cues, and functional elements results in a bike that’s visually striking and practical for daily use.

Frame and Geometry

Inspired by cruiser motorcycles, the frame features a thick, curved top tube that adds to its sturdy build. Constructed from high-performance 6061 aluminum, the frame delivers durability, though at the cost of some added weight. The branding is subtle, giving the bike character without overpowering its aesthetic.

The frame’s geometry focuses on stability and comfort, with the curved top tube supporting a relaxed, upright riding position—ideal for managing the sidecar and ensuring a controlled yet comfortable ride. This upright position makes navigating urban environments more enjoyable, as it reduces strain on the rider’s back and shoulders, making it suitable for short commutes and longer adventures.

Sidecar Integration

The sidecar sets this bike apart. It is constructed from durable materials and has a sleek shape and low positioning for stability. It accommodates up to 150 lbs of cargo, including groceries, pets, or children, making it versatile for various uses. The aerodynamic design adds visual appeal, enhancing the bike’s functionality for everyday adventures.

It features a removable padded seat with a seatbelt for secure and comfortable passenger seating. With three quick-release pins, the sidecar can be easily attached or detached, allowing for flexible use depending on your needs. The thoughtful integration ensures comfort for passengers, making routine errands more enjoyable.

Seating and Handlebar

The Selle Royal faux leather saddle features premium gel padding for added comfort and is styled to match the bike’s vintage aesthetic. Its brown color contrasts with the black frame, lending warmth to the overall look. The adjustable aluminum handlebars ensure an ergonomic, upright riding posture, providing stability and ease.

Together, these components make for a comfortable ride—perfect for a leisurely weekend trip or navigating the city streets in style. The saddle’s ample cushioning helps absorb road bumps, while the wide handlebars provide excellent control, especially when accounting for the extra load of the sidecar.

This combination means that even with extended rides, riders stay comfortable and avoid fatigue. Whether riding solo or with the sidecar, the seating and handlebar setup ensures consistent comfort throughout the journey.

Lighting and Accessories

A wide beam LED headlight, with clear and amber lenses, sits prominently at the front, enhancing visibility while reinforcing the retro Cafe Racer look. The bike also includes a rear cargo rack, boosting its practicality by offering space for additional gear.

The headlight is a crucial safety feature, especially at night or in low-light conditions. The rear rack adds practicality, allowing riders to carry essentials like backpacks or groceries.

Reflective accents throughout the bike enhance visibility, adding another layer of safety for nighttime or early morning rides. Accessories like the snap-on rack, adjustable stem, and premium bell maintain the vintage appeal while ensuring the bike remains functional for daily use.

Wheels and Tires

Multi-terrain Kenda Flame 24” x 3.00” tires add to the bike’s versatility, providing excellent stability and shock absorption. They are perfect for various terrains, from city streets to rougher paths, which works well with the added sidecar. The width of these tires ensures the bike remains balanced, even with an additional load.

These robust tires make it easy to switch between different surfaces without compromising comfort or control—a smooth urban commute or a bumpy backroad adventure. The deep tread also provides extra grip, particularly useful when riding in wet conditions or over uneven ground.

The thick tires are key to handling the additional weight of the sidecar, providing a sense of security for the rider. They create a stable foundation crucial for managing passengers and cargo, offering peace of mind on any terrain, from smooth pavement to rough trails.

Electric Components

The bike features a MOD DRIVE 750W geared hub motor (peak 1000W), providing much-needed power for longer rides or carrying extra weight in the sidecar. This electric assist makes steep climbs and extended distances manageable, keeping the ride enjoyable regardless of conditions.

With throttle and torque-assist modes, you can enjoy a classic ride without physical strain, ensuring comfort and convenience. The MOD Samsung Powerpack 48V 15Ah battery is thoughtfully integrated into the frame, maintaining the bike’s clean lines while providing easy access for charging.

The five customizable power modes—Fit, Eco, Cargo, Sport, and Turbo—allow riders to adjust the level of assistance based on terrain, load, or personal preference. This flexibility ensures that the bike remains versatile enough to handle a variety of situations, from relaxed cruises to more demanding rides.

The post This Electric Cruiser Bike with a Sidecar Will Make You the Coolest Rider on the Road first appeared on Yanko Design.

Audi has partnered with the Italian brand Fantic to launch a limited edition electric mountain bike (eMTB), combining the best of automotive engineering and e-bike technology. This collaboration reflects Audi’s deep-rooted motorsport heritage and Fantic’s 50-year legacy in motorcycle excellence, offering a robust option for trail enthusiasts and urban riders alike.

Designer: Audi + Fantic

The eMTB is inspired by Audi’s Dakar Rally-winning RS Q e-tron, incorporating its high-performance DNA into a bike designed for extreme environments. The frame, made from lightweight aluminum, ensures agility and responsiveness, making it suitable for the most challenging terrains. It features a sleek design that’s functional and also visually appealing, echoing the aesthetics of Audi’s pioneering racing models.

Powering the Audi eMTB is the Brose S-MAG motor, known for its seamless, natural pedaling feel and robust output of 250 watts continuous and 565 watts peak power. This motor, complemented by a 720-watt-hour Fantic Integra battery, provides substantial range, theoretically allowing riders up to six hours of riding time at moderate power usage. This combination is ideal for long, adventurous rides where efficiency and reliability are paramount.

There are four levels of electrical assistance—Eco, Tour, Sport, and Boost—each tailored to different riding conditions and preferences. Eco mode is calibrated to deliver maximum efficiency and range, offering substantial electrical assistance for extended rides. Tour mode provides a significant boost and is suitable for varied terrains. Sport mode adds powerful assistance tailored for dynamic cycling, and Boost mode, the most powerful setting, delivers maximum electrical assistance ideal for tackling steep climbs. The level of assistance and the bike’s speed can reach up to 20 mph, with an estimated battery range between 12 and 90 miles, depending on the terrain, rider weight, and chosen level of assist.

The bike’s performance is further enhanced by its class-leading Öhlins suspension system, featuring a TTX22m.2 coil rear shock and RXF38 m.2 fork. This setup mirrors World Cup downhill bike specifications, ensuring smooth handling and effective shock absorption on rough trails. The inclusion of high-end Braking 4 piston hydraulic disc brakes guarantees that riders can manage high speeds safely and comfortably.

Fantic XEF 1.9 Factory enduro e-bike vs. World Cup downhill spec cross-country bikes

When comparing World Cup downhill spec cross-country bikes with the Fantic XEF 1.9 Factory enduro e-bike, several similarities stand out:

• Advanced Suspension: Both types of bikes use high-performance suspension to handle rough terrains. While XC bikes now commonly feature up to 120mm of travel, the Fantic XEF 1.9 goes further with a 190mm RockShox ZEB fork for even tougher trails.
• Power Assist: Unlike traditional XC bikes, the Fantic XEF 1.9 includes a motor. This Brose S-MAG motor offers powerful assistance, similar to what might be useful on tougher XC courses, helping with challenging climbs.
• Stable Geometry: Both XC and the Fantic XEF 1.9 are designed for stability. The XEF 1.9 uses downhill bike features like a slack head angle to enhance control on descents, a trend that’s growing in XC designs.
• Dropper Posts: Dropper posts are becoming increasingly common in XC racing for better control on descents. They are a standard feature on the Fantic XEF 1.9 and enhance maneuverability.

• Tough Tires: Both bike styles sport robust tires suitable for diverse trail conditions, ensuring grip and durability on rough tracks.

These features make the Fantic XEF 1.9 well-suited for enduro and similar to modern XC bikes that are built to tackle increasingly technical courses.

Beyond these technical specifications, the Audi eMTB is versatile and designed to cater to the needs of expert bikers navigating black trails as well as those seeking an exhilarating ride on local paths. It is classified as a Class 1 e-bike, which means it assists up to 20 mph and is permissible on a variety of bike trails, ensuring compliance with most local regulations.

Key Components Contributing to Cost:

• Motor—Brose S-MAG: This motor offers 250 watts of continuous power and peaks at 565 watts, with 90Nm of torque. It is known for its robust performance and natural pedaling feel.
• Battery—Fantic Integra 720Wh: This high-capacity battery provides up to 6 hours of ride time at moderate power usage, enhancing both aesthetics and balance.
• Suspension System – Öhlins Components: Features the Öhlins TTX22m.2 coil rear shock and Öhlins RXF38 m.2 fork, crucial for smooth rides on rough terrain and renowned for superior performance and comfort.

Audi and Fantic’s new electric mountain bike combines tough components and sleek design with advanced technology and user-friendliness. Priced at $9,795 and available this summer, it sets a new standard in the rapidly expanding e-mobility market. Designed for biking enthusiasts and professionals seeking top-notch gear to boost their rides, this bike showcases the culmination of Audi’s innovation and Fantic’s expert craftsmanship in e-bike design. With all things considered, I’d venture to say the price tag is justified—now, if only Audi would throw in a bottle holder!

The post Is Audi’s $10,000 Electric Mountain Bike Worth the Price Tag? first appeared on Yanko Design.