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Groupset

A groupset, also known as a gruppo, is a bicycle component manufacturer's integrated collection of parts that form the drivetrain and braking system, enabling gear shifting, power transmission from the pedals to the wheels, and stopping the bike.^[1] These components typically include the shifters and brake levers (often combined on the handlebars), front and rear derailleurs, crankset with chainrings, bottom bracket, cassette, chain, and brakes (typically hydraulic disc calipers in modern groupsets).^[1] Primarily associated with road bicycles, groupsets are engineered as compatible systems to ensure precise performance, with modern variants incorporating electronic shifting for faster and more reliable operation compared to traditional mechanical cable systems.^[2] The market for groupsets is dominated by three major manufacturers—Shimano, SRAM, and Campagnolo—which offer tiered hierarchies ranging from entry-level options for beginners to high-end professional-grade systems.^[2] Groupsets have evolved significantly since the mid-20th century, transitioning from basic friction shifters to today's 12- or 13-speed electronic setups— with 13-speed options introduced by SRAM and Campagnolo in 2024-2025 for expanded gear ranges—that reduce maintenance and enhance efficiency, though compatibility between brands remains limited to avoid cross-manufacturer mismatches.^[2]^[3] While road cycling represents the core application, similar integrated systems exist for mountain bikes, gravel, and cyclocross, adapting to rugged terrains with features like wider gear ranges and durable construction.^[4] Upgrading a groupset can dramatically improve a bike's ride quality, but selection depends on rider level, budget, and intended use, with electronic options increasingly standard in mid-to-high tiers as of 2025.^[3] Shimano, the largest producer, provides groupsets like Claris and Sora for recreational riders, progressing to Ultegra and Dura-Ace for elite competition, emphasizing lightweight materials such as carbon fiber and advanced ergonomics.^[3] SRAM focuses on innovative designs, including its wireless AXS electronic systems across lines like Apex, Rival, Force, and Red, often prioritizing hydraulic disc brakes for superior modulation.^[3] Campagnolo, renowned for Italian craftsmanship, caters to premium segments with mechanical and electronic offerings like Super Record and Ekar, favored in professional pelotons for their precision and heritage in components like 13-speed cassettes.^[3]

Overview

Definition

A groupset, also known as a gruppo, is the complete set of synchronized mechanical or electronic components that form the drivetrain and often the braking system of a bicycle.^[2] These components work together to enable gear shifting, power transmission, and braking, typically including shifters, front and rear derailleurs, crankset, bottom bracket, chain, cassette, and brake calipers with levers.^[1] The design ensures compatibility and optimized performance across the system, distinguishing it from individually selected parts.^[4] The term "groupset" derives from the Italian word gruppo, meaning "group," which refers to the coordinated collection of parts essential for bicycle operation.^[5] This terminology originated in Italian cycling culture, where manufacturer Campagnolo first used gruppo in 1953 to describe matched component sets, such as with their Gran Sport rear derailleur.^[6] Over time, the English adaptation "groupset" became standard in the global cycling industry to denote these integrated assemblies.^[7] Scope variations exist between full groupsets, which encompass both drivetrain and braking elements, and drivetrain-only kits that exclude brakes or other peripherals.^[8] For instance, Shimano's Dura-Ace series offers full groupsets that include hydraulic disc brakes alongside core drivetrain parts, while partial kits may omit items like the crankset, cassette, or chain for custom builds.^[9] These options allow flexibility based on rider needs and bike assembly.^[10] Groupsets integrate with the bicycle frame via standardized mounting points for derailleurs and the bottom bracket, and with wheels through the rear hub's freehub body for the cassette, requiring compatibility for seamless function.^[11] This integration forms the foundational interface between the groupset and the bike's structure, supporting overall ride efficiency without altering frame or wheel design.^[12]

Significance in Cycling

Groupsets play a pivotal role in bicycle performance by enabling seamless gear shifting across diverse terrains, allowing riders to adapt to climbs, sprints, and descents while maintaining efficient pedaling cadence. Precise indexing in modern groupsets ensures accurate gear engagement, minimizing chain slippage and power loss during shifts, which is essential for sustained speed and energy conservation. Additionally, advanced materials like low-friction coatings and stiff carbon cranksets optimize power transfer from the rider to the wheels, contributing to overall efficiency; for instance, high-quality mechanical drivetrains can achieve up to 98% energy transfer rates.^[2]^[1]^[13] The ergonomic design of groupsets, particularly the integration of shifting mechanisms into brake levers, facilitates single-handed control for both gear changes and braking, which enhances safety and reduces physical strain during extended rides. This setup allows riders to keep hands in optimal positions on the handlebars, minimizing wrist fatigue and enabling quick responses without repositioning, a feature refined in higher-tier models for improved comfort across varied hand placements.^[14]^[1] As modular systems, groupsets permit extensive customization to suit specific riding disciplines, such as installing wider-range cassettes for touring or compact chainrings for commuting, thereby tailoring the bike's capabilities to individual needs like racing demands or long-distance endurance. Upgrading to high-end components, often featuring lightweight carbon and titanium, can yield notable weight reductions; for example, premium groupsets weigh approximately 2.4 kg compared to 2.7 kg or more for mid-level equivalents, potentially contributing 0.3-0.5 kg toward weight reductions in the overall bike weight when combined with compatible parts.^[2]^[1]^[15] As of 2025, advancements like Campagnolo's Super Record 13-speed groupset provide even wider gear ranges for enhanced adaptability across terrains.^[16] Economically, groupsets represent a substantial portion of a bicycle's total cost, frequently accounting for 30-50% of the price in complete builds, as premium electronic systems can exceed $3,000 while influencing the bike's resale value and upgrade potential. This cost dominance underscores their status as a key investment for performance-oriented cyclists, with trickle-down technologies from top tiers making advanced features accessible in more affordable options.^[1]^[14]

Components

Shifters and Levers

Shifters and levers serve as the primary user-interface components in a bicycle groupset, enabling riders to control gear changes and braking through intuitive mechanical or electronic inputs. These devices translate rider commands into precise movements that adjust the drivetrain, typically via cable actuation or wireless signals, ensuring seamless transitions between gears for optimal pedaling efficiency across varied terrain. In road cycling, they are often integrated into ergonomic drop-bar designs, while mountain bike variants prioritize durability and quick access during off-road conditions. Design types of shifters and levers vary by bicycle discipline to balance functionality and rider control. For road bikes, integrated brake/shift levers, commonly known as Shimano Total Integration (STI) or dual control levers, combine braking and shifting into a single unit mounted on drop handlebars; the main lever pivots for braking, while smaller inner levers or buttons handle gear shifts, allowing operation without removing hands from the bars.^[17] In contrast, mountain bike trigger shifters feature thumb and index finger levers mounted on flat bars, with a primary trigger for downshifting and a thumb paddle for upshifting, designed for rapid, one-handed operation amid rough trails, with braking handled by adjacent but separate lever controls.^[18] Functionality centers on how shifters deliver commands to the drivetrain, primarily through cable pull in mechanical systems where lever movement tensions or releases cables to actuate derailleurs for gear changes. Many modern designs incorporate rapid-fire shifting, allowing multiple gears to be shifted in a single motion—for instance, downshifting up to three cogs at once via a multi-click mechanism—enhancing responsiveness during acceleration or descents.^[19] Electronic variants transmit signals wirelessly to motorized derailleurs, offering even greater precision, though mechanical cable-pull remains prevalent for its simplicity and reliability in non-powered setups. Ergonomics of shifters and levers prioritize rider comfort and control, with road STI designs featuring curved hoods for resting hands in the primary "hoods" position and extended drops for aggressive aerodynamics, enabling access to controls from multiple grip angles. Adjustability is key, including reach adjustments on brake levers to accommodate varying hand sizes and pivot angles for personalized fit, often via on-bar barrels or internal mechanisms. High-end models employ lightweight materials like carbon fiber to reduce overall weight—typically 200-300 grams per pair—minimizing fatigue without compromising durability.^[20]^[21]^[22] Within groupsets, shifters and levers function as the central control hub, integrating with the broader system to deliver indexed shifting precision across 10- to 12-speed configurations, where each lever click corresponds to exact cable pull ratios for accurate derailleur positioning. This evolution from basic friction shifters to indexed systems has refined their role, ensuring minimal chain rub and optimal gear alignment under load, while maintaining compatibility with derailleur actuation for cohesive performance.^[23]^[24]

Derailleurs and Crankset

The rear derailleur serves as the primary actuator for shifting the chain across the cassette cogs at the rear wheel, enabling riders to select appropriate gear ratios for varying terrain. Its core mechanism relies on a parallelogram linkage, consisting of two parallel arms connected by pivots, which translates linear cable pull into precise lateral movement of the derailleur body while keeping the jockey wheels aligned with the chain path.^[25] This design ensures the upper jockey wheel follows the curvature of the cassette, minimizing chain angle and optimizing power transfer. The cage, a U-shaped structure housing two idler pulleys (jockey wheels), guides the chain and incorporates a spring-loaded tension system that maintains consistent chain tautness on the lower run, preventing slippage or derailment during pedaling.^[26] Capacity ratings define the rear derailleur's ability to accommodate differences in chain length required for various gear combinations, typically measured in total teeth difference between the largest and smallest cogs or chainrings. For road applications, these ratings often range from 30 to 40 teeth, with short-cage models suited for tighter cassettes (e.g., 11-28T) and medium-cage variants handling wider ranges (e.g., up to 11-36T) while balancing shift speed and chain stability.^[27] Exceeding a derailleur's capacity can lead to poor shifting or chain drop, so selection must align with the overall drivetrain geometry. The front derailleur manages chain movement between the chainrings mounted on the crankset, providing shifts between larger ratios for speed and smaller ones for climbing. Mounting options include braze-on tabs welded directly to the frame for precise positioning or band-style clamps that encircle the seat tube, allowing adaptability across frame designs but potentially introducing flex if overtightened.^[28] Trim positions—intermediate settings activated by partial shifter inputs—adjust the cage's lateral placement to eliminate chain rub against the inner or outer plate, particularly in extreme crossovers like the largest chainring with the largest rear cog.^[29] Front derailleurs are engineered with specific shift ratios tailored to chainring configurations, where the cage's movement arc and cable actuation leverage differ between double (two chainrings) and triple (three chainrings) setups to ensure clean, reliable indexing. Double-specific derailleurs, common in road groupsets, feature a shallower pull ratio for the narrower gap between rings (e.g., 16-18 teeth difference), while triple models accommodate larger variances (up to 26 teeth) with deeper cage travel for the additional middle ring.^[28] Mismatching these ratios results in sluggish or incomplete shifts, underscoring the need for compatibility within the groupset ecosystem. The crankset forms the power input hub of the groupset, comprising two crank arms, a central spindle, and attached chainrings that interface directly with the chain. Chainring configurations vary by discipline, with road bikes favoring 2x setups: compact (typically 50/34 teeth) for versatile gearing on mixed terrain, offering easier low-end ratios than standard (53/39 teeth) arrangements optimized for flat, high-speed efforts.^[30] These setups influence overall gear inches, with compact providing broader range at the cost of slightly reduced top-end sprint capability. Spindle types determine how the crankset interfaces with the bottom bracket, affecting installation ease, stiffness, and bearing preload. Square taper spindles use a tapered square profile that wedges into the crank arms and bottom bracket cups, providing a simple, tool-free retention via friction but susceptible to loosening over time. Octalink, developed by Shimano, employs an eight-splined interface for enhanced torque transmission and reduced slippage compared to square taper, though it requires proprietary tools. Press-fit designs integrate a hollow or solid spindle pressed directly into the frame's bottom bracket shell, eliminating threads for lighter weight and better alignment but demanding precise tolerances to avoid creaking. Materials for cranksets prioritize a balance of durability and efficiency, with aluminum alloys offering cost-effective strength through forged or CNC-machined construction, while carbon fiber composites excel in stiffness-to-weight ratios—often achieving 20-30% greater rigidity per gram than aluminum—via unidirectional layups that tune flex for power efficiency without excess mass.^[31] Aluminum suits entry-level builds for its impact resistance, whereas carbon dominates high-end applications to minimize rotational inertia. Within the groupset, derailleurs integrate seamlessly with the crankset through mechanical actuation, where shifter inputs pull stainless-steel cables routed via housing to pivot the parallelogram linkages, aligning the chain precisely on the target chainring or cog with minimal overshift or hesitation. This cable-driven response relies on indexed ratchets in the shifters to deliver consistent pull ratios, ensuring the front derailleur's cage clears the chainrings by 1-3 mm and the rear maintains optimal jockey wheel positioning for chain retention. Compatibility with chain dimensions is essential, as mismatched widths can cause imprecise alignment or accelerated wear.^[28]

Chain, Cassette, and Bottom Bracket

The chain serves as the primary power transmission medium in a bicycle groupset, linking the crankset to the cassette while wrapping around the derailleurs to facilitate gear changes. It consists of alternating inner and outer links, each formed by two parallel plates connected by hollow pins and featuring cylindrical rollers that engage the teeth of the chainrings and sprockets. This roller-and-plate design allows for smooth articulation and efficient force transfer, with the standard pitch measuring 1/2 inch (12.7 mm) from pin center to pin center across all multi-speed chains. Outer widths decrease with speed: approximately 7.1-7.3 mm for 6-8 speed, 6.6-6.8 mm for 9 speed, 6.2 mm for 10 speed, 5.4-5.5 mm for 11 speed, and 5.2-5.3 mm for 12 speed systems (values vary slightly by manufacturer). The 3/32 inch (2.38 mm) refers to the inner width for multi-speed chains up to 8-speed.^[32] Chain maintenance is critical for longevity and performance, as wear primarily occurs through pin and roller elongation, leading to a stretched pitch that can cause skipping and premature component damage. Wear indicators, such as dedicated tools like the Park Tool CC-3.2 or Shimano's TL-CN42, measure elongation by inserting a gauge between links; replacement is recommended at 0.5-0.75% stretch to maintain drivetrain efficiency. Lubrication reduces friction between plates, rollers, and pins, with wet lubes preferred for muddy conditions to displace contaminants and dry lubes for dusty environments to minimize attraction of grit; application every 100-200 miles or after wet rides prevents up to 50% more wear compared to unlubricated chains.^[33]^[34] The cassette comprises a cluster of individual sprockets mounted on the rear wheel's freehub body, which features splines that allow the cassette to drive the wheel during pedaling while freewheeling when coasting. These sprockets decrease in size from the largest (inboard) to the smallest (outboard), providing a range of gear ratios; for example, a wide-ratio 11-34T cassette offers versatility for varied terrain, spanning from low gears for climbing to high for speed. Tooth profiles incorporate ramps and cutouts, such as Shimano's Hyperglide design, which guide the chain laterally during shifts for reduced hesitation and noise, enhancing control under load.^[35]^[36]^[37] The bottom bracket provides the mounting interface for the crankset, housing bearings that enable low-friction rotation of the spindle while supporting pedaling forces. Common shell types include the threaded BSA standard (68 mm wide for road bikes with M68x1 threads), the press-fit BB30 (42 mm inner diameter, 68/73 mm width for direct 30 mm spindle insertion), and PF30 (46 mm inner diameter press-fit, accommodating plastic or metal cups with angular contact bearings). Bearing systems typically use sealed cartridge units, either threaded into the shell or pressed in, to minimize play and contamination; installation torque for preload is generally 35-50 Nm to ensure stability without binding.^[38]^[39]^[40] Together, the chain, cassette, and bottom bracket form the core closed-loop drivetrain, where the bottom bracket anchors the crank's output, the chain transfers torque to the cassette's selected sprocket, and precise alignment sustains efficient power delivery. Optimal chainline—measured as the distance from the frame's centerline to the chainring midline—centers this loop at 43.5 mm for standard road double cranksets, reducing oblique chain angles that can decrease pedaling efficiency by up to 2-3% and increase wear on components. This alignment ensures the chain runs straight across gears, interacting seamlessly with the derailleurs for minimal energy loss.^[41]^[42]^[43]

History and Development

Origins in Early Bicycles

In the late 19th century, the introduction of the safety bicycle marked a significant shift from earlier high-wheeled designs, featuring equal-sized wheels, a chain drive, and a diamond-shaped frame for greater stability. These early safety bicycles, popularized in the 1880s, were predominantly single-speed with fixed-gear systems, where the pedals were directly connected to the rear wheel via a simple chain and sprocket, lacking any mechanism for coasting or gear shifting. This rudimentary setup relied on basic components like fixed cranks and no derailleurs, limiting versatility on varied terrain and emphasizing direct-drive efficiency for urban and leisure riding. The transition to multi-gear systems began in the 1890s with the invention of the freewheel mechanism in 1898, which allowed riders to coast without pedaling, decoupling the pedals from the rear wheel and enabling the addition of multiple sprockets. Simple derailleurs also emerged during this period, with patents like Jean Loubeyre's 1895 Polyceler device introducing chain-shifting across sprockets for variable gearing. By the early 1900s, these innovations evolved into more practical designs, such as Paul de Vivie's 1905 two-speed rear derailleur, which used a parallelogram mechanism to guide the chain across rear cogs, providing racers like Lucien Petit-Breton with adaptable setups for road racing, including his Tour de France victories in 1907 and 1908 using geared bicycles outside official rules where applicable. These early systems, often limited to 2-3 speeds, represented the precursors to coordinated drivetrains, though components remained disparate and manually adjusted.^[44]^[45]^[46] Internal hub gears further advanced multi-speed capabilities in the interwar period, with Sturmey-Archer's 3-speed hub from 1904 gaining prominence by the 1930s as a reliable enclosed system for touring bikes, integrating shifting within the rear hub to protect against dirt and weather. Post-World War II, the bicycle industry saw consolidation toward standardized part sets, exemplified by Campagnolo's 1953 introduction of the "gruppo" concept with the Gran Sport rear derailleur, bundling compatible front and rear derailleurs, hubs, and shifters for racing bicycles to ensure precise synchronization. This marked the shift from ad-hoc assemblies to intentional groupsets, enhancing performance reliability.^[47]^[6] By the 1960s, initial synchronization expanded with the adoption of 5-speed freewheel systems on road and touring bikes, allowing wider gear ranges without complex external derailleurs, as seen in models from manufacturers like Raleigh and Schwinn. These developments laid the groundwork for modern groupsets by emphasizing component interoperability up to the mid-20th century.^[48]

Key Innovations and Milestones

The introduction of indexed shifting in the 1980s marked a pivotal advancement in groupset precision, transforming gear changes from friction-based approximations to reliable, click-stop mechanisms. Shimano's Positron system, launched in 1975 but refined through the decade, featured a rear derailleur with built-in positioning for consistent chain alignment across gears, significantly reducing the effort and skill required for accurate shifts compared to earlier friction systems.^[49] This mechanical indexing was further evolved with the Shimano Index System (SIS) in 1984 for the Dura-Ace 7400 series, which integrated precise cable pull ratios between shifters and derailleurs, enabling quick and dependable performance under racing conditions.^[50] These innovations laid the groundwork for modern drivetrains by minimizing misalignment and rider fatigue, allowing focus on pedaling efficiency rather than manual adjustments. The 1990s and 2000s saw rapid escalation in gear speeds, driven by narrower chain profiles and optimized sprocket spacing to expand usable ratios without increasing overall drivetrain width. Shimano pioneered 8-speed systems in the early 1990s with the Dura-Ace 7400 series, followed by the 9-speed Dura-Ace 7700 launch in 1996, which incorporated hollow crank arms and refined STI (Shimano Total Integration) shifters for seamless front-and-rear coordination.^[50] By the mid-2000s, 10-speed configurations emerged, such as Shimano's Dura-Ace 7800 in 2004, featuring slimmer chains that reduced weight while maintaining durability. The progression continued into 11-speed setups in the late 2000s, with SRAM's Red groupset debuting in 2009, emphasizing hyper-glide tooth profiles for smoother cross-chaining. These developments culminated in the 2010s with 12-speed cassettes, like SRAM's Eagle series in 2016 and Shimano's 12-speed road options in 2021, enabling expansive gear ranges—such as 10-52-tooth cassettes for mountain applications—that accommodated varied terrain with finer progression steps.^[51] Material innovations paralleled these functional leaps, enhancing strength-to-weight ratios and corrosion resistance across components. In the 1980s, aluminum alloys supplanted steel in derailleurs, as seen in Shimano's Tourney and Dura-Ace lines, which used extruded aluminum bodies to cut mass by up to 20% while preserving rigidity for high-torque shifts.^[52] The 2000s brought widespread adoption of carbon fiber in cranksets, with Shimano integrating unidirectional carbon arms in Dura-Ace models around 2008, reducing rotational weight and vibration for improved power transfer during sustained efforts.^[53] Entering the 2020s, titanium nitride coatings on chains, as offered by YBN for 11- and 12-speed systems, provided superior wear resistance and reduced friction, extending chain life in demanding conditions like gravel or wet roads.^[54] Key milestones underscored this evolution toward integrated, electronic precision. The 1996 Shimano Dura-Ace 7700 rollout established 9-speed as the professional standard, achieving a 500g weight savings across the groupset through aluminum and early composite elements.^[50] SRAM's Red eTap wireless system debuted in 2015, eliminating cables for cleaner setups and button-activated shifts via battery-powered derailleurs, a breakthrough later refined in 2019 with the 12-speed AXS platform.^[55] By 2025, 13-speed groupsets were commercialized, including SRAM's Force and Rival XPLR AXS 1x13 for gravel in June 2025 and Campagnolo's Super Record Wireless 13-speed for road and all-road, offering tighter gear spacing and broader ranges. In 2025, SRAM expanded its AXS ecosystem with 13-speed options in Force and Rival XPLR for gravel, while Campagnolo introduced a 13-speed Super Record Wireless groupset, further advancing gear range and precision.^[56]^[57]

Types and Technologies

Mechanical Groupsets

Mechanical groupsets represent the traditional cable-actuated drivetrain systems used in bicycles, relying on physical cables to transmit shifting and braking forces from the levers to the derailleurs and calipers. These systems utilize a Bowden cable mechanism, where an inner wire slides within an outer housing to pull or release components with precision.^[58] The core of the actuation involves specialized cable housing designed for minimal compression and elongation during force application. Shifter housing typically measures 4 mm or 5 mm in outer diameter, featuring internal longitudinal steel wires or polymer liners to ensure smooth, low-friction movement of the 1.1–1.2 mm diameter inner cable. Ferrules, or end caps, secure the housing at frame entry points and shifter interfaces, preventing fraying and maintaining alignment. Pulley systems within the rear derailleur guide the chain and tension the cable, amplifying the lever's input to shift across cassette cogs efficiently. Adjustments for derailleur alignment and cable tension are made via barrel tuners, threaded adjusters located on the shifter or frame, allowing riders to fine-tune indexing without disassembly.^[58] One primary advantage of mechanical groupsets lies in their inherent simplicity, as they require no batteries or electronics, enabling straightforward operation and consistent performance in diverse conditions, including wet environments where electronic systems might face charging issues. This design facilitates ease of field repairs using basic tools, such as replacing stretched cables on the roadside, a common necessity given the periodic need for inner wire substitution every 1,000–2,000 km depending on usage. Additionally, their lower cost makes them accessible; entry-level kits like Shimano Claris typically range from $200 to $500, offering reliable performance without the premium pricing of advanced alternatives.^[59]^[60]^[3] Mechanical groupsets dominate mid-range road and mountain bikes, as well as touring setups, where durability and serviceability are prioritized over cutting-edge precision. Common configurations include 2x10-speed systems for balanced climbing and speed on road bikes, or 1x11-speed setups for simplified shifting and reduced weight in mountain biking and gravel applications, providing versatile gear ranges for varied terrain.^[3]^[61] Despite these strengths, mechanical systems introduce higher friction in the cable housing and derailleur springs compared to direct servo actuation, resulting in minor power losses in overall drivetrain efficiency, primarily from chain friction, with additional drag from cables and chain tension. This friction demands more hand force for shifting, particularly under load, and necessitates regular maintenance like cable lubrication to prevent sluggish performance.^[59]^[62]

Electronic Groupsets

Electronic groupsets represent a significant advancement in bicycle drivetrain technology, utilizing battery-powered electronics to control shifting operations. These systems incorporate servo motors within the front and rear derailleurs to drive precise movements, eliminating the need for mechanical cables and enabling consistent gear changes regardless of rider input force or cable condition. Communication between shifters and derailleurs occurs via wired electrical connections or wireless signals; for example, systems like SRAM AXS employ proprietary radio frequency (RF) protocols for fully wireless operation, while others support ANT+ for integration with cycling computers and sensors. Battery-powered designs provide reliable power, with life expectancies varying by system—Shimano Di2's central battery delivers approximately 1,000 kilometers per charge under normal use, and SRAM AXS components offer around 60 hours of ride time. As of 2025, electronic groupsets have advanced to 13-speed configurations in some lines, offering wider gear ranges for diverse terrains.^[63]^[64]^[65]^[66]^[3] Key advantages of electronic groupsets include enhanced shifting performance and rider customization options. Shifts occur in under 0.2 seconds, significantly faster than mechanical systems, allowing for seamless multi-gear changes during high-intensity efforts. Features like semi-automatic shifting—such as Shimano's Synchronized Shift, which coordinates front and rear derailleurs based on cadence and terrain—reduce decision-making under load. Riders can further personalize setups via mobile apps, adjusting shift speeds, button functions, and algorithms to optimize for specific cadences or riding styles, often integrating with power meters for real-time performance data.^[67]^[68]^[63] In professional applications, electronic groupsets have become integral to high-end racing since the 2010s, powering bicycles in events like the Tour de France where marginal gains in shifting reliability and speed are critical. Their ability to interface with power meters and telemetry systems supports data-driven strategies, enabling teams to fine-tune performance during races. However, these systems present challenges, including costs starting above $2,000 for mid-to-high-tier configurations, susceptibility to damage from water ingress or impacts despite IPX-rated protections, and the ongoing need for charging, which requires accessible infrastructure to avoid mid-ride failures.^[69]^[60]^[63]

Manufacturers and Market

Leading Brands

Shimano, a Japanese company founded in 1921 by Shozaburo Shimano, has established itself as the dominant force in the bicycle groupset market through a focus on accessible innovation and a broad product range catering to enthusiasts and professionals alike.^[49] The company offers a tiered hierarchy of road groupsets, starting with mid-range options like Tiagra for entry-level performance and ascending to the professional-grade Dura-Ace, which emphasizes lightweight materials and precise shifting for elite racing.^[11] As of 2025, Shimano commands approximately 70% of the global market share for mid-to-high-end bicycle groupsets, particularly in drivetrains, underscoring its widespread adoption across road, mountain, and gravel disciplines.^[70] SRAM, founded in 1987 in Chicago, Illinois, by Stanley R. Day, emerged as a challenger to established players by prioritizing user-friendly designs and cross-compatibility between mountain bike and road applications.^[71] The brand's product lines, such as the road-oriented Force series for versatile performance and the high-end XX1 for mountain biking, incorporate innovations like clutch derailleurs that reduce chain slap and improve retention on rough terrain.^[72] SRAM's emphasis on electronic shifting via its AXS wireless system has helped it capture a significant portion of the market, particularly in North America and among gravel riders, though it trails Shimano in overall dominance.^[70] Campagnolo, an Italian manufacturer established in 1933 by Tullio Campagnolo in Vicenza, maintains a reputation for premium craftsmanship and heritage-driven engineering targeted at high-end road cycling.^[6] Its flagship Super Record groupset represents the pinnacle of luxury, featuring carbon fiber components and electronic shifting for superior ergonomics and weight savings, appealing to riders seeking exclusivity over mass-market affordability.^[73] In 2025, Campagnolo returned to WorldTour sponsorship with a four-year deal for the Cofidis team, equipping bikes with Super Record wireless groupsets.^[74] The brand holds a niche position in the premium segment, with prestige in Europe among professional pelotons and collectors, but focuses on exclusivity rather than broad volume. Niche manufacturers like Miche, founded in 1919 in Italy, and SunRace, a Taiwanese brand specializing in cost-effective components, provide budget-friendly alternatives for recreational and entry-level riders.^[75]^[76] Miche offers groupset elements such as derailleurs and chains with a nod to traditional Italian quality, while SunRace excels in cassettes and freewheels compatible with major systems, filling gaps in the affordable segment without challenging the market leaders' innovation pace.^[3]

Compatibility and Standards

Compatibility in bicycle groupsets primarily revolves around ensuring that components such as shifters, derailleurs, chains, cassettes, and bottom brackets work seamlessly together to prevent issues like poor shifting, chain slippage, or mechanical failure. A key factor is the matching of speed ratings, which determine the number of gears (e.g., 11-speed or 12-speed systems) and require corresponding chain widths and cog spacings for precise indexing. For instance, 11-speed chains typically measure around 5.5 to 5.62 mm in outer width to fit the narrower spacing of 11-speed cassettes, while 12-speed chains are slightly narrower at about 5.3 mm to accommodate even tighter ratios. Mismatching speeds can lead to imprecise shifting or accelerated wear, as the chain may not align properly with the cogs.^[32]^[77] Shifter pull ratios, which define how much cable (or electronic signal) movement corresponds to derailleur actuation, are critical for rear and front derailleurs. Shimano's road groupsets employ a 2:1 pull ratio, meaning 1 mm of cable pull results in 2 mm of derailleur movement, enabling precise gear changes across multiple speeds. SRAM's road mechanical systems also adhere to this 2:1 ratio for compatibility with Shimano components, while their mountain bike (MTB) systems often use a 1:1 ratio, which can cause chain slippage or incomplete shifts if paired with road derailleurs. Campagnolo uses a distinct ratio of approximately 1.5:1, further limiting direct interchangeability without adapters. Incompatible ratios risk imprecise indexing, where the chain fails to seat correctly on cogs, potentially leading to dropped chains during rides.^[27]^[78] Interface standards govern physical connections between groupset components and the bicycle frame or wheels. Bottom bracket interfaces, for example, vary by shell type and spindle diameter; SRAM's DUB (Durable Unifying Bottom bracket) standard uses a 28.99 mm spindle to balance stiffness and weight, compatible with threaded BSA, press-fit BB30, and other shells but requiring specific cups for optimal fit. Freehub body standards differ by brand: Shimano's HG (Hyperglide) spline pattern (9 splines) accommodates 8- to 11-speed cassettes from Shimano and SRAM, whereas Campagnolo's 8-spline body is incompatible with HG, necessitating a dedicated freehub for its cassettes. Chain width standards, aligned with speed ratings, ensure the chain engages properly with the cassette and chainrings; for 11-speed systems, an outer width of about 5.5-5.62 mm is standard to prevent rubbing or skipping. These standards promote reliability but can limit upgrades if the frame or wheel lacks the matching interface.^[39]^[79]^[32] Mixing components within the same brand is generally safe for mechanical groupsets, as long as speeds and pull ratios match—for example, pairing a Shimano Ultegra shifter with a 105 derailleur in an 11-speed setup yields reliable performance. Cross-brand mixing, however, introduces risks; SRAM shifters can work with Shimano derailleurs in road applications due to shared 2:1 ratios, but MTB components often require adapters like the Jtek Shiftmate to bridge 1:1 and 2:1 differences. Electronic groupsets exhibit greater ecosystem lock-in: Shimano Di2 components are incompatible with SRAM eTap AXS without proprietary wiring or software, as each brand uses distinct protocols for shifting signals and battery integration. Chains and cassettes are more interchangeable across brands if speeds align, such as using a SRAM 11-speed chain on a Shimano cassette, though optimal performance favors matched sets to minimize wear.^[80]^[81]^[2] Regulatory standards from organizations like the Union Cycliste Internationale (UCI) and the International Organization for Standardization (ISO) ensure safety and fairness in competitive cycling. The UCI planned a trial for a maximum gear ratio of 54x11 (equivalent to 10.46 meters of development per crank revolution) in professional road races starting August 2025, aiming to reduce excessive speeds and injury risks while allowing standard chainring-cog combinations. However, as of October 2025, this was suspended by the Belgian Competition Authority following a legal challenge from SRAM, and it remains unenforced pending resolution. This replaces older restrictions and, if implemented, would apply uniformly to groupsets from all manufacturers, prohibiting oversized cogs like SRAM's 10-tooth option in certain setups. ISO 4210 series standards, including ISO 4210-6 for derailleurs and ISO 606 for chains, specify performance and safety requirements such as tensile strength and shifting accuracy, influencing groupset design to meet minimum durability thresholds for road and track use. These regulations promote equitable competition by standardizing key parameters without stifling innovation in compatible interfaces.^[82]^[83]^[84]

References

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Road bike groupsets explained | Cycling Weekly
Aug 22, 2024 · A road bike groupset includes any parts involved in braking, changing gear or running the drivetrain. This includes the shifters, brake levers, front and rear ...Shimano groupset hierarchy · SRAM groupset hierarchy
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Road bike groupsets explained: SRAM, Shimano and ... - BikeRadar
May 16, 2025 · A road bike groupset is the collection of components that make you stop and go – in other words, the drivetrain, shifters and brakes.
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Road bike groupsets 2025: All the options from Shimano, SRAM ...
Jul 21, 2025 · We'll run through all the road bike groupset options available from the big three brands: Shimano, SRAM and Campagnolo, as well as some more leftfield choices.
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Road bike groupset guide: Everything you need to know - Canyon
Apr 6, 2025 · A road bike groupset includes brakes and drivetrain components. In essence, the groupset both moves and stops your bike.
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What's a gruppo or groupset in cycling? - Bike Noob
Oct 20, 2016 · Gruppo is an Italian word, which just means “group”, but it's become an actual word for groupset in cycling. When you purchase a groupset ...
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The history of Campagnolo
### Summary of Campagnolo's Introduction of Groupsets in the 1950s
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Groupset Definition & Meaning - YourDictionary
Groupset definition: (cycling) A complete set of matching bicycle drive control components, including brake calipers, cranks, chainrings, bottom bracket, ...Missing: etymology | Show results with:etymology<|control11|><|separator|>
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Shimano Groupset Levels Explained: MTB, Road, and Gravel - Evo
Apr 16, 2025 · Shimano's higher-end groupsets are lighter, more durable, and use premium materials, while lower-tier groupsets focus on affordability and ...
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https://bikemartsg.com/shimano-dura-ace-r9270-di2-hydraulic-disc-brake-12-speed-groupset
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https://labicicletta.com/products/shimano-dura-ace-r9200-groupset
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Shimano road bike groupsets: know your Tiagra from your Dura-Ace ...
Sep 27, 2024 · We'll cover all the current groupsets down to Tiagra in detail in this guide, as well as the previous generation of Dura-Ace, Ultegra and 105.
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https://icancycling.com/blogs/articles/a-complete-guide-to-road-bike-groupset
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Mechanical vs Electronic Groupsets: A comparison for cyclists
May 31, 2025 · Efficiency Rate: Mechanical groupsets, particularly higher-end models, offer an efficiency rate close to 98 percent.
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Road bike groupsets 2025 explained and compared - Cyclist
Oct 1, 2025 · The groupset is the collection of fundamental mechanical components on a bike that comprises the drivetrain and brakes.
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https://icancycling.com/blogs/articles/beginners-guide-a-complete-breakdown-of-mainstream-road-bike-groupset-levels
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DUAL CONTROL LEVER | SHIMANO BIKE COMPONENT
DCL stands for DUAL CONTROL LEVER. It has brake and shifting functions in the system and enables easy operation.
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https://bike.shimano.com/en-SG/technologies/details/dual-control-lever.html
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RAPIDFIRE PLUS | SHIMANO BIKE COMPONENT
RAPIDFIRE PLUS shifters from DEORE to XTR all feature 2WAY-RELEASE, which means release shifts by pull of the index finger or push of the thumb.Missing: cable | Show results with:cable
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Basic Tips for Drop Bar Brake Lever Positioning - Road Bike Rider
1. Check the handlebar angle first ... If drop handlebars are at the wrong angle it can cause lever positioning mistakes. The “drops” of the handlebars (the flat, ...
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XTR Explained - Intuitive Ergonomics - shimano bike
Carrying over the familiar shape of a traditional shifter, it features four-way multi-axis adjustability where the shift paddles can be placed where you want ...
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Shimano Dura Ace 7970 Di2 weights - Weight Weenies
Apr 27, 2010 · Dura Ace pedals PD-7810 278 grams. Di2 STI levers ST-7970 260 grams. Front hub HB-7900 126 grams. Front quick release skewer 60 grams. Rear hub ...
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Shimano Indexed Shifting Explained
Shimano indexed shifting means a derailleur moves incrementally with each shifter click, ensuring consistent and accurate gear shifts.
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Cycle Gear Shifter: Best Options for Smooth Riding in 2025 - Accio
Rating 5.0 (180) · Free 14-day returns8 days ago · Demand for 10-12 speed groupsets now dominates mid-to-high-end markets, while 7-9 speed units remain popular for entry-level models.
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What Every Cyclist Should Know About Their Drivetrain - Bicycling
May 15, 2025 · A rear derailleur's parallelogram consists of two parallel plates that connect the B-knuckle (the rear or upper knuckle, which also includes the ...<|separator|>
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How A Rear Derailleur Works - Park Tool
Jul 29, 2017 · Rear derailleurs use a cage fitted with two pulleys. The lower pulley pulls backwards to give tension to the lower section of chain.Missing: capacity | Show results with:capacity
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Complete guide to rear derailleurs: everything you need to know
Sep 9, 2024 · The total capacity of an SS (short cage) Shimano derailleur is 35t, and 39t for a GS (medium cage) derailleur. As such, in this circumstance, ...
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Front derailleurs explained from types and mounts to compatibility
Jul 23, 2024 · There's a little up and down adjustment to a braze-on derailleur's position by sliding it on its mount, so that it can be fine-tuned if, for ...
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Modern Shimano Front Derailleur Adjustment Guide
Pressing the small inner shift lever once, moves the front derailleur just slightly inward to the HIGH TRIM position. This position is for riding the large ...3. Check The Front... · 6. Fine Tune Cable Tension... · 7. Adjust Front Derailleur...<|separator|>
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What is a compact crank? - BikeRadar
Aug 19, 2014 · While 'standard' cranks come with a 53-tooth large chainring and a 39-tooth small ring, compact cranks usually feature 50- and 34-tooth rings.Missing: definition | Show results with:definition
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https://www.bikeradar.com/features/what-is-a-compact-crank
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Bicycle chain lubricants - explained | Bike Gremlin US
Mar 30, 2017 · One chain link consists of one pair of inner and one pair of outer plates. In the picture 3, that is marked as “2 x PITCH”. As the pins wear, ...Missing: indicators | Show results with:indicators
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Bicycle chain construction and standards - YouTube
May 27, 2021 · Construction, and dimension standards for single speed, and multi-speed bicycle chains (6, 7, 8, 9, 10, 11, and 12 speeds) Table of ...Missing: link plate pitch lubrication indicators<|separator|>
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[PDF] genuine parts catalogue - Shimano
SHIMANO chain wear indicator allows you to check the chain wear accurately, easily and quickly. The design of the TL-CN42 chain wear indicator prevents roller.<|separator|>
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Bike cassettes explained: how they work, gearing, materials and more
In this guide, we'll talk you through what a cassette is and how to tell the 'speed' of your cassette, explain the typical range of a cassette for all ...
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DEORE HYPERGLIDE+ CASSETTE 12s - shimano bike
3–6 day delivery Free 30-day returnsUsing SHIMANO's new MICRO SPLINE freehub body and HYPERGLIDE+ tooth profile, the 10-51T cassette delivers advanced shifting performance.
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HG CASSETTE 8s - shimano bike
3–6 day delivery Free 30-day returnsThe distinctively designed HYPERGLIDE cassette incorporate specially positioned shift ramps and tooth profiles for improved chain control during shifting.Missing: freehub | Show results with:freehub
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Bottom Bracket Standards and Terminology | Park Tool
Sep 18, 2019 · There are two basic bottom bracket systems in use: “threaded” bottom brackets and “press fit” bottom brackets. 2. English Threaded Shells.Missing: torque | Show results with:torque
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The complete guide to bottom bracket standards - BikeRadar
Oct 29, 2025 · This comprehensive guide tells you everything you need to know about bottom bracket standards, with a breakdown of all the bottom bracket ...Missing: torque | Show results with:torque
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BB30 Bottom Bracket: Enjoy the Benefits Without the Downside
Recommended torque is in the range of 35 Nm to 45 Nm. Turning the bearing cup with the wrench to the point where no more movement possible will give you a ...
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All About Bicycle Chainline - Sheldon Brown
The worse the chainline, the worse the mechanical efficiency of the drive train, though research has shown the loss to be minor, at least with modern, flexible ...
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Chainline Concepts | Park Tool
Aug 7, 2015 · This means it will work best when the middle of the crankset is 47.5 mm from the middle to the bike center line. The other aspect of chainline ...Front Chainring Position And... · Chainline Of Rear Cogs · Rear Cogs To Front...
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https://365cycles.com/products/shimano-tiagra-fc-4700-crankset-165-mm-double-10-speed-ckst2858-bicycle-crankset
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HISTORY: EARLY BICYCLE HUBS & GEARS
The freewheel was introduced in 1898 and revolutionised cycling. Coaster hub brakes and two speed hubs followed soon after.
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When were bicycle gears invented? | BikeRadar
Dec 14, 2012 · In 1895 Frenchman Jean Loubeyre patented a device for derailing the chain from one sprocket to another. He called it the Polyceler (multispeed).
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Derailleurs from the 1900s - Disraeli Gears
Charles Boizot and Louis-Francisque Prével d'Arlay introduced the idea of using a pulley based derailleur to move sideways and shift the chain across a multiple ...
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Sturmey-Archer Heritage :: Introduction
The rich history of Sturmey-Archer began in Nottingham England in 1902 with the invention of the world's first 3-speed internal gear hub for bicycles.
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Five speed freewheels; then and now. - Cycling UK Forum
Aug 5, 2020 · In the early 1960s the big freewheel brands included Maillard, Regina, and Cyclo. By the late 1960s Japanese manufacturers had become a ...Missing: history | Show results with:history
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Company History｜SHIMANO Corporate Site
Positron is in the market. It is equipped with the Positron system which has indexed shifting mechanism. 1976. The DURA-ACE 10 series are in the market. 1978.
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100 PRODUCTS HISTORY - DURA-ACE - Shimano
DURA-ACE is the pinnacle of the latest digital technologies and system engineering. The birth of this components series that has continued to open up a new ...
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Shimano Dura-Ace Past and Present - Bespoke Cycling | Blog
Jun 8, 2017 · Dura-Ace 7700 came in 1996 and introduced 9-speed and redesigned STI levers. Hollowtech cranks with Octalink bottom brackets marked a move ...
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100 PRODUCTS HISTORY - TOURNEY - Shimano
TY20 incorporated SIS, which was developed for DURA-ACE, successfully lowering the bar to the use of indexed shifting systems for all riders. Shimano put ...
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Past and Future of Carbon Fiber - Slowtwitch News
Oct 25, 2018 · Carbon made its way to bicycle frames in the 1980s, and quickly spread to almost every component and subcomponent – front forks, rims, handlebars, seat posts, ...
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https://tipartstitanium.com/collections/ybn-chain
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SRAM Red eTap ushers in wireless shifting era - BikeRadar
Aug 26, 2015 · SRAM has debuted the eTap system in its top-end Red form only, although Force eTap and eTap with hydraulic brakes seem likely in the future.Missing: 2012 | Show results with:2012
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Unreleased SRAM Red XPLR AXS breaks cover at Unbound with ...
Jun 3, 2024 · A new 13-speed SRAM Red XPLR AXS groupset has been spotted at the 2024 Unbound gravel race. When SRAM recently launched its flagship Red AXS ...
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Patent Patrol: Next Shimano Di2 Could Be 13-speed, Fully Wireless ...
May 14, 2024 · The next Shimano Di2 may be 13-speed, fully wireless with removable batteries, and potentially include electric brakes and suspension.
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Bicycle shifter, brake cable, and housing standards | Bike Gremlin US
Aug 27, 2019 · Shifter housing is constructed to compress and elongate as little as possible with shifter cable tension change (while shifting up and down).
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Road Electronic VS Mechanical Groupsets | Shimano Cycling World
Jun 15, 2021 · The main advantage of mechanical groupsets is that battery is not required, therefore the riders never have to worry about keeping them charged.<|separator|>
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Electronic versus mechanical shifting: The pros and cons - Velo
Jan 20, 2021 · Speak to any bike mechanic and they'll tell you the biggest benefit to electronic drivetrains is that there's no mechanical cable or housing to ...
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Mountain bike groupsets: everything you need to know - BikeRadar
Apr 18, 2025 · Generally, with mountain bike groups, the more you spend, the lighter they get. Often the performance of the groupset plateaus at the second ...
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Effects of Frictional Loss on Bicycle Chain Drive Efficiency
Aug 9, 2025 · Drive train frictional losses are proportional to the PO and have been suggested to be ~2.4% [8, 52] . Sensitivity can be determined as the ...Missing: groupset | Show results with:groupset
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Electronic groupsets: everything you need to know about Di2, AXS ...
Jun 22, 2023 · Depending on the system, when you actuate the shifter, it will send an electrical signal down the wire or communicate wirelessly to the relevant ...Missing: alignment | Show results with:alignment
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Shimano Di2 vs SRAM AXS: Which is the right electronic groupset ...
Nov 9, 2023 · Shimano's Di2 battery is claimed to last about 1,000km between charges, depending on usage. When your Di2 battery does start to go flat, you ...Missing: EPS | Show results with:EPS
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Shimano Di2 Deep Dive
Shimano Di2 battery life is also best-in-class, with a single charge of the main power source delivering approximately 1,000 kilometers of worry-free riding.
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https://rydecruz.com/blogs/pedal-press/shimano-105-di2-review-i-rode-2-000-miles-to-test-if-its-worth-the-upgrade
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Synchronized Shifting - the complete guide - BetterShifting
In this guide I'll first explain what Synchronized Shift is exactly, then walk you through the requirements, and finally, set it up using both the mobile app ...Synchronized Shifting... · Set Up (full) Synchronized... · Synchro Shift With Fd-6870...
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Ten years of innovation - how Shimano's Di2 groupset conquered ...
A series of modular satellite shifters can now be harmoniously integrated into the groupset to customise exactly how, or where you select gears: sprint shifter ...<|separator|>
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Japan Fund Company Spotlight: Shimano, Inc. | Hennessy Funds
Shimano designs, manufactures, and distributes sporting goods, with 80% of income from bicycle parts, holding over 70% of the global market share.
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Bicycle Components Market Size, Share & Growth 2032
Sep 11, 2025 · Shimano, SRAM, and Campagnolo dominate drivetrain and braking systems, with Shimano controlling over 60% market share in specific drivetrain ...
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History | SRAM
On February 6, 2019, SRAM released three new wireless electronic groupsets. This release included one road groupset, RED eTap AXS, and two mountain bike ...
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Rear Derailleurs - SRAM
Free delivery over $50 30-day returnsXX1 Eagle Rear Derailleur. New. XX1 Eagle Rear Derailleur. RD-XX-1-B2. $355 · XX1 Eagle AXS Derailleur. New. XX1 Eagle AXS Derailleur. RD-XX-1E-A1. $830 · X01 ...
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Shimano Defends Market Share, Blocks SRAM's Expansion - Fideres
Mar 12, 2025 · Shimano and SRAM dominate the worldwide electronic groupset market, with Campagnolo, an Italian company, being a distant third. For example, ...Background · Relevant Market · Damages
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Campagnolo Super Record 13 is exciting – but that's thanks to its ...
Jun 5, 2025 · It's the first 2x 13-speed option from one of the 'Big Three' groupset manufacturers and the lightest electronic disc brake groupset available.<|separator|>
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Why are there only 2 major manufacturers (Shimano and Sram) in ...
Dec 26, 2017 · Shimano and SRAM dominate the bicycle component market. There are a few niche players including Campagnolo and SunRace that account for 5.5% of ...What are other companies that produce bike gear (beyond Sram ...What are some examples of high-end road bike manufacturers?More results from www.quora.com
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Miche Bike Components since 1919 | Miche
For over a century, Miche has been designing, developing and manufacturing high-performance components for road, track, mountain bike and e-bike cycling.Missing: SunRace | Show results with:SunRace
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SunRace bike parts
We offer good quality bike parts with a comprehensive product range that includes gears, cassettes, cranks, chains, and more.Products · Contact · MTB · GravelMissing: niche Miche
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Bicycle drive chain standard dimensions - Bike Gremlin US
Feb 22, 2018 · Multi speed chains from 9 to 12 speeds have inner width of 11/128″ (2.18 mm). “Exotic” standard for freight bicycles is 5/32″ (4 mm). 3 ...TL/DR · Bicycle driving chain pitch · Chain inner width · Chain outer width
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Tech FAQ: Chain width explained, compatibility queries answered
Chains for 11-speed systems are around 5.4mm wide on the outside, vs. around 5.9mm wide for 10-speed ones, so that's 0.25mm narrower from the center of the cog ...
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Compatibility [04] Rear derailleurs - Bike Gremlin US
May 18, 2016 · First, less popular family of SRAM RDs are the ones compatible with Shimano 2:1 standard. Rear shift ratio of 1.7 means they will work with ...
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A guide to freehub body and cassette compatibility - Velo
Aug 1, 2022 · Shimano 10, 11, and some 12-speed (if the smallest sprocket is 11T or greater) mountain bike cassettes are also a direct fit.
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Mixing road groupsets: what works together and what doesn't - Velo
Dec 28, 2017 · Buyers are free to use a SRAM chain and cassette with their Shimano groupset, and vice versa, just as a SRAM chain can be paired with a Shimano ...
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Shiftmate Compatibility Charts and Choices - Jtek Engineering
Jtek Shiftmate compatibility tables – make Shimano work with Campagnolo and SRAM. Shiftmate 1 For mixing wheel sets or Campagnolo & SRAM shifters.
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UCI statement on its recent decisions regarding changes to ...
Jun 20, 2025 · The maximum gear ratio allowed in this context will be 54 x 11, i.e. 10.46 metres per crank revolution.Missing: ISO groupset
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[PDF] Clarification Guide of the UCI Technical Regulation
Wheels used in the road, track and cyclo-cross disciplines must meet the impact test requirements as specified in the standard ISO 4210-2:2023 ...