This article is about two- or three-wheeled electric vehicles. For single-person, three- or four-wheeled mobility aid scooters, see Mobility scooter . For electric-powered bicycles, see Electric bicycle . For stand-up scooter with small gasoline engine or electric motor, see Motorized scooter
Electric motorcycles and scooters are plug-in electric vehicles with two or three wheels. Power is supplied by a rechargeable battery that drives one or more electric motors. Electric scooters are distinguished from motorcycles by having a step-through frame, instead of being straddled. Electric bicycles are similar vehicles, distinguished by retaining the ability to be propelled by the rider pedaling in addition to battery propulsion.
Electric scooters with the rider standing are known as e-scooters.
History
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Timeline 1895 Earliest known electric motorcycle patent. 1911 Popular Mechanics article introduces an electric motorcycle. 1919 Ransomes, Sims & Jefferies make an electric motorcycle prototype. 1936 Socovel electric motorcycle company founded. 1940 Norwegian motorcycle company “Tempo” produced the Tempo Electro Transportsykkel 1946 Marketeer company founded, based on an electric motorcycle made by Merle Williams. 1967 Karl Kordesch makes an hydrazine fuel cell motorcycle 1974 Mike Corbin's motorcycle Quick Silver sets electric motorcycle speed record of 165.387 mph (266.165 km/h) 1996 First mass-produced electric scooter, Peugeot Scoot'Elec, released 2011 Chip Yates sets Guinness record of fastest electric motorcycle with 316.899 km/h (196.912 mph) 2013 First FIM eRoad Racing World CupZero DS (motorcycle)
ZEV LRC (scooter)
Electric scooter on the field on Bagan Plain in Myanmar
KTM, electric off-road motorcycles
1895 to 1950
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Patent drawing for an "Electric Bicycle" (1895)The early history of electric motorcycles is somewhat unclear. On 19 September 1895, a patent application for an "electrical bicycle" was filed by Ogden Bolton Jr. of Canton Ohio.[1] On 8 November of the same year, another patent application for an "electric bicycle" was filed by Hosea W. Libbey of Boston.[2]
At the Stanley Cycle Show in 1896 in London, England, bicycle manufacturer Humber exhibited an electric tandem bicycle. Powered by a bank of storage batteries, the motor was placed in front of the rear wheel. Speed control was by a resistance placed across the handlebars. This electric bicycle was mainly intended for racetrack use.[3]
The October 1911 issue of Popular Mechanics mentioned the introduction of an electric motorcycle. It claimed to have a range of 120 km (75 miles) to 160 km (100 miles) per charge. The motorcycle had a three-speed controller, with speeds of 6, 24 and 56 km/h (4, 15 and 35 mph).[4]
In 1919, Ransomes, Sims & Jefferies made a prototype electric motorcycle in which the batteries were fitted under the seat of the sidecar. Even though the vehicle was registered for road use, it never went past the trial stage.[5]
In 1936, the Limelette brothers founded an electric motorcycle company called Socovel (Société pour l’étude et la Construction de Véhicules Electriques or Company for research and manufacture of electric vehicles) in Brussels. They continued production during the German occupation with their permission. Due to fuel rationing, they found some degree of success. But after the war, they switched to conventional models. The electric models remained available until 1948.[6][7][8]
During the World War II, compelled by fuel rationing in the United States, Merle Williams of Long Beach, California, invented a two-wheeled electric motorcycle that towed a single-wheeled trailer. Due to the popularity of the vehicle, Williams started making more such vehicles in his garage. In 1946, it led to the formation of the Marketeer Company (current-day ParCar Corp.).[9]
1950 to 1980
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In 1967, Karl Kordesch, working for Union Carbide, made a fuel cell/Nickel–cadmium battery hybrid electric motorcycle. It was later replaced with a hydrazine fuel cell, giving it a range of 200 mpg‑US (240 mpg‑imp; 0.012 L/km) and a top speed of 25 mph (40 km/h).[10][11]
In the same year, a prototype electric motorcycle called the Papoose, was built by the Indian Motorcycle Company under the direction of Floyd Clymer.[12]
In 1974, Auranthic Corp., a small manufacturer in California, produced a small motorcycle called the Charger. It had a 30 mph (48 km/h) top speed and a 80 km (50 miles) range on a full charge.[13]
In the early 1970s, Mike Corbin built a street-legal commuter electric motorcycle called the Corbin Electric. Later in 1974, Corbin, riding a motorcycle called the Quick Silver, set the electric motorcycle speed world record at 165.387 mph (266.165 km/h). The motorcycle used a 24 volt electric starter motor from a Douglas A-4B fighter plane.[14] In 1975, Corbin built a battery-powered prototype street motorcycle called the City Bike. This motorcycle used a battery manufactured by Yardney Electric.[15]
In June 1975, the first Annual Alternative Vehicle Regatta was held at Mt. Washington, New Hampshire. The event was created and promoted by Charles McArthur, an environmentalist. On June 17, Corbin's motorcycle completed the 13 km (8 miles) uphill course in 26 minutes.[16]
1980s to 2000s
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In 1988, Ed Rannberg, who founded Eyeball Engineering, tested his electric drag motorcycle in Bonneville.[17] In 1992, the January issue of Cycle World carried an article about Ed Rannberg's bike called the KawaSHOCKI. It could complete 400 m (1⁄4 mile) in 11–12 seconds.[14]
In 1995, Electric Motorbike Inc. was founded by Scott Cronk and Rick Whisman in Santa Rosa, California. In 1996, EMB Lectra was built by Electric Motorbike Inc., which used a variable reluctance motor.[18] It had a top speed of about 45 mph (72 km/h) and a range of 55 km (35 miles). About a 100 of these were built.[19]
In 1996, the first mass-produced electric scooter, Peugeot Scoot'Elec, was released. It used Nickel-Cadmium batteries and a range of 40 km (25 miles).[20]
2000s
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On 26 August 2000, Killacycle established a drag racing record of completing a 402 m (1⁄4 mile) in 9.450 seconds on the Woodburn track in Oregon. Killacycle used lead acid batteries at a speed of 152.07 mph (244.73 km/h).[21] Later, Killacycle using A123 Systems Li-ion nano-phosphate cells set a new quarter mile record of 7.824 seconds breaking the 8 seconds barrier at 168 mph (270 km/h) in Phoenix, Arizona, at the All Harley Drag Racing Association (AHDRA) 2007, on 10 November 2007.[22]
In 2006, Vectrix introduced the first commercially available high performance electric scooter, the VX-1. Following insolvency and initial bankruptcy reorganization, the Gold Peak battery group purchased the company in 2009. Vectrix expanded product lines, offering the VX-2 and the three wheeled VX-3. But Vectrix ceased operations in January 2014 and filed for Chapter 7 bankruptcy liquidation, with its remaining assets auctioned off the following June.[23][24]
In February 2009, at the TED conference, Mission Motors, a San Francisco startup led by a former Tesla Motors engineer, unveiled the Mission One, an electric motorcycle capable of 240 km/h (150 mph). If achievable, this would make the Mission One the fastest production electric vehicle in the world.[25]
On April 4–5, 2009, Zero Motorcycles hosted the "24 Hours of Electricross" event in San Jose. It is considered the first all-electric off-road endurance race.[26]
On June 14, 2009, the first electric Time Trial Xtreme Grand Prix (TTXGP) all-electric street motorcycle race took place on the Isle of Man in which 13 machines took part. Rob Barber riding a motorcycle built by Team Agni won the race. He completed the 60.72 km (37.73 miles) course in 25 minutes 53.5 seconds, an average speed of 87.434 mph (140.711 km/h).[27]
In September 2009, product manager Jeremy Cleland of Mission Motors broke the AMA electric motorcycle land speed record during the BUB Motorcycle Speed Trials at the Bonneville Salt Flats in Utah, US riding the company's Mission One. The bike registered a speed of 150.059 mph (241.497 km/h).[28]
2010s
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In 2010, ElectroCat, made by Eva Håkansson, set the record time for an electric motorcycle to climb Pikes Peak. The motorcycle, ridden by John Scollon, completed the 19 km (12 miles) course in 16 minutes 55.849 seconds. ElectroCat uses batteries manufactured by A123 Systems.[29]
On June 26, 2011, Chip Yates broke ElectroCat's previous record at Pikes Peak. He completed the course in 12 minutes 50.094 seconds.[30] On 30 August 2011, Yates riding his prototype SWIGZ.COM electric superbike established the official Guinness record of the fastest electric motorcycle. The motorcycle clocked a speed of 316.899 km/h (196.912 mph) at Bonneville.[31]
In 2012, Paul Ernst Thede set an SCTA record run of 216.8 mph (348.9 km/h) at Bonnevile Salt Flats, Utah, US. This did not qualify as a Guinness World record as it wasn't timed by the FIM timing association.
In 2012 Electro Force cycles made their debut as a commuter cycle for commuters to ride to work or for enjoyment. These cycle were built by Jennifer Northern of Issaquah, Washington, US. She became the first woman to develop and manufacture an electric vehicle in the US. The maximum speed reached was 137 km/h (85 mph), while immediate speeds reached up to 97 km/h (60 mph) in 6 seconds, programmable with regenerative braking or on the throttle. Their range was up to 100 miles while maintaining 105 km/h (65 mph) in all weather and hills. It was the first of their kind built by a woman in the US.
In 2012, Jim Higgins rode the street-legal Mission Motors' Mission R at the Sonoma Raceway quarter-mile drag strip and set a National Electric Drag Racing Association (NEDRA) street-legal electric motorcycle record for the SMC/A3 class with a time of 10.602 at 197.26 km/h (122.57 mph).[32]
On June 30, 2013, Carlin Dunne riding a Lightning Motorcycle-built electric bike beat conventional motorcycles at Pikes Peak. He clocked a 10 minutes 00.694 seconds at the 20.0 km (12.42 miles) course.[33][34]
In 2017, Scorpio Electric announced its scope of business includes manufacturing and assembly of electric motorcycles and scooters.[35] On November 20, 2018, VinFast from Vietnam introduced two electric scooter models in Hanoi, with 4 model: VinFast Klara A1 (Lithium-ion battery), VinFast Klara A2 (Lead–acid battery),[36] VinFast Ludo and VinFast Impes.[37]
2020s
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In 2020, Ola Electric Mobility, a division of Ola Cabs, planned to construct world's largest electric scooter factory near Bangalore, Karnataka, India.[38] The company aims to produce 10 million vehicles annually.[39]
In 2020, Odysse Electric, an Indian manufacturer of electric motorcycles and scooters became India's first on-sale sportsbike-inspired electric bike maker[40]
In 2020, Juan Ayala, an urban planning design professor at Rutgers University, invented smartphone app based rentable e-scooter systems.
In 2022, VinFast of VinGroup from Vietnam introduced 2 new models: VinFast Theon S and VinFast Feliz S.[41]
In 2023, Bobfleet introduce its next generation model: Model X gen2.[42]
Types
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Naming conventions Electric motorcycle Electric scooter Electric bicycle e-scooter Rider sits astride frame (Arc-Vector, pictured) Step-through frame with floor panel (Gogoro, pictured) Retains pedals; motor used to assist (Pedego, pictured) Standing deck (Lime-S, pictured)A two- (or sometimes three-) wheeled powered vehicle if ridden with rider astride is termed a motorcycle; if it has a step-through frame with rider seated with feet on a floor panel it is a motor scooter. A smaller vehicle, typically just a deck to stand on with two (or three) wheels and a handlebar on a vertical stem is also termed a scooter; such scooters if unpowered are termed kick scooters, and e-scooters if battery powered. E-scooters are made available for hire by several companies in a scooter-sharing system.
Power source
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Since electric motorcycles and scooters have relatively small frames, they typically have short ranges, restricted by the volume available for energy storage.[43]
Most electric motorcycles and scooters are powered by rechargeable lithium ion batteries, though some early models used nickel–metal hydride batteries.
Alternative types of batteries are available. Z Electric Vehicle pioneered use of a battery with lead electrodes and an electrolyte of a liquid low sodium silicate compound, a variation on the classic lead–acid battery invented in 1859 and still used for electrical power in internal-combustion-engine automobiles, that compares favorably with lithium batteries in size, weight, and energy capacity, at considerably less cost.[44][45]
EGen says its lithium-iron phosphate batteries are up to two-thirds lighter than lead-acid batteries and offer the best battery performance for electric vehicles.[46]
In 2017, the first vehicle in the US to use the new Lithium Titanium Oxide (LTO) battery non-flammable battery technology[47] was a scooter called The Expresso.[48] This technology allows a battery to charge in less than 10 minutes, and is capable of 25,000 charges, the equivalent of 70 years of daily charges.[49] The technology, created by Altairnano, is used in China, where over 10,000 urban buses run on these batteries.[50]
Charging
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All electric scooters and motorcycles provide for recharging by plugging into ordinary wall outlets, usually taking about eight hours to recharge (i.e., overnight). Some manufacturers have designed in, included, or offer as an accessory, the high-power CHAdeMO level 2 charger, which can charge the batteries up to 95% in an hour.[51]
Battery swapping
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The Fuel-Cell Battery-Swap Land Glider, designed by Todd Bank, at the Petersen Automotive Museum in Los Angeles, 2005Manufacturers like Zero Motorcycles and several recent entrants to the scooter market Nanu EV, Gogoro, and Unu have designed machines which allow quick battery swapping, to allow charging without the vehicle needing to be near a charge point, or, with a spare battery or an available battery network, to allow continued travel after a battery is drained.[52][51][53][54]
In the mid-1990s, Personal Electric Transports-Hawaii (formerly Suntera, now P.E.T.) was making a 113 km/h (70 mph) capable 3-wheel enclosed-electric motorcycle called the Sunray – designed by noted solar EV pioneer Jonnathan Tennyson. The Sunray's battery cartridge was on rollers and slid out of the front of the vehicle so it could be swapped out for a freshly charged battery at a battery-swap station conveniently located along a highway or in a city. P.E.T. also had a streamlined 2-wheel seated motor scooter called Caballito – designed by Budd Steinhilbur, who was a well known designer of the Tucker 48 automobile. Budd's Caballitos were also adapted for battery-swapping at P.E.T.’s future battery-swap stations. In 2000, P.E.T. added light-electric motorcycle and scooter visionary Todd Bank to their team and P.E.T. secured major funding from the Los Angeles Department of Water and Power to design and prototype the first battery-swap station's for light-electric vehicles and NEV's. P.E.T. prototypes and designs are now on display at museums across America.[citation needed]
Battery swapping is popular in India, with Sun Mobility planning modular batteries. "A moped would require one, a rickshaw two and a car four."[55]
Hybrid
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Honda has developed an experimental internal combustion/electric hybrid scooter.[56] Yamaha has also developed a hybrid concept motorcycle called Gen-Ryu. It uses a 600cc engine and an additional electric motor.[57] Piaggio MP3 Hybrid uses a 125cc engine and an additional 2.4 kW motor.[58]
Fuel cell
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There are several experimental prototypes using fuel cell technology. ENV developed by Intelligent Energy is a hydrogen fuel cell prototype. The motorcycle has a range of 100 miles (160 km) and can reach a top speed of 50 mph (80 km/h).[59] Suzuki has also developed a concept hydrogen fuel cell scooter based on the Suzuki Burgman.[60] Yamaha has created a hydrogen fuel cell prototype called FC-AQEL, which is considered equivalent to a 125cc vehicle.[61] Honda has also developed a hydrogen fuel cell scooter which uses the Honda FC Stack.[56]
Electric vs. gasoline machines
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Performance
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Brandon Nozaki Miller on the first production electric motorcycle to break 161 km/h (100 mph), a 2012 Zero S ZF6 at Bonneville Salt Flats (2012)Electric and gasoline powered motorcycles and scooters of the same size and weight are roughly comparable in performance.[62] In August 2013 Road & Track evaluated a high-end electric motorcycle as faster and better handling than any conventionally powered bike.[63] Electric machines have better 0 to 60 acceleration, since they develop full torque immediately, and without a clutch the torque is instantly available.[64][65]
Range
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Electric motorcycles and scooters suffer considerable disadvantage in range, since batteries that fit in a motorcycle frame cannot store as much energy as a tank of gasoline. Anything over 130 miles (210 km) on a single charge is considered an exceptionally long range. Consequently, while electric machines excel for city dwellers traveling relatively short distances, on the open road riders experience inhibiting range anxiety.[66] Electric power also trades off range against speed; for instance according to the manufacturer the long-range ZEV LRC electric scooter can travel 225 km (140 mi) at 88 km/h (55 mph), but the range drops to about 129 km (80 mi) at 112 km/h (70 mph).[67]
Manufacturers are striving to increase range; as of 2022 a range of 259 km (161 mi) was reported. At the other end of the scale, much shorter ranges such as 64 km (40 mi) were available at very much lower cost.[68]
Maintenance
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Electric scooters and motorcycles need very little maintenance.[69] As Wired magazine's transportation editor Damon Lavrinc reported after an experiment of trying to go six months using nothing but a Zero electric motorcycle: "[w]ith only a battery, a motor, and a black box (i.e. the controller) to keep you moving, electric motorcycles are a breeze to maintain compared to a conventional motorcycle, what with all the lubricating and adjusting and tuning you have to do. You basically just worry about consumables: brake pads, tires, maybe a brake fluid flush. That’s about it."[70] Electric scooters and motorcycles equipped with regenerative braking typically have longer brake pad life because a significant portion of braking duty can be performed with the electric motor instead of the mechanical friction brakes.
Fuel cost
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At between one and two cents per mile (depending on electric rates), electric machines enjoy an enormous fuel cost advantage. Three months and 2,800 km (1,700 mi) of commuting on an electric motorcycle cost Lavrinc less than $30 for electricity; on a BMW gasoline bike a single trip of 650 km (400 mi) cost nearly the same. In Australia, UBCO battery Electric Motorbike running cost is 88¢ per 100 km. In India, Ampere Electric Scooter's running cost is at Rs. 0.15 per km.[66][71] [72]
Refuel time
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Even with special equipment, charging a battery takes significantly longer than filling a gasoline tank. With the maximum number of accessory chargers, it takes over an hour to charge a Zero S ZF6.5's 6.5kWh battery to 95% capacity. This refuel time also increases with battery capacity; the Zero S ZF13.0 (which has a 13kWh battery) takes over 2 hours to charge to 95% capacity using the maximum number of accessory. This affects journeys longer than the single-charge range of a motorcycle.[73]
Noise
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Electric vehicles are far quieter than gasoline powered ones, so that they may approach a pedestrian who is not watching unnoticed.[74] Some are equipped to produce a warning sound as they travel and the UK is running trials to see if escooters with artificial noise are safer.[75] Popular Mechanics called the comparative quiet of electric motorcycles the greatest difference between them and their gasoline counterparts, and a safety bonus because the rider can hear danger approaching.[76] Whether a loud motorcycle is safer than a quiet one due to being more noticeable is a matter of dispute.[77][78] At high speed the whine of a typical electric motorcycle is said to sound "like a spaceship."[79][80]
On the other hand, electric vehicles do not add to noise pollution.
Sales and adoption
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China leads the world in electric scooter sales, comprising 9.4 million of the total 12 million sold worldwide in 2013. As of November 2020, the number of electric scooters in China had reached around 300 million, with annual sales of more than 30 million units.[81] There were only 31,338 electric scooter sales outside the Asia-Pacific region including Europe. The US market is comparatively small, with an estimated 2,000 sold in 2012.[82]
While steadily becoming more practical, high prices and a limited range suited best for commuting have been impediments to electric motorcycles and scooters increasing their market share.[83] In the US at least, cheaper motorcycles that can refuel in minutes at any gasoline station better suit weekend riders, the predominant users.[84] According to a market report published in 2013, the sales of electric motorcycles and scooters in expected to rise over 10-fold by 2018 in North America, to about 36,000 by 2018.[85]
In India, high costs and power grid problems have contributed to slow sales. In states like Tamil Nadu, where power supply of rationed electricity was reduced, a corresponding drop in sales has been observed by electric scooter manufacturers like Ampere and Hero Electric.[86]
Electric Scooter in Berlin . Designed for an app-based sharing system.
E-Scooters of scooter-sharing company Emmy in Munich (2019)
Government promotion and incentives
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India
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In January 2013, the Indian government announced a plan to provide subsidies for hybrid and electric vehicles. The plan will have subsidies up to ₹150,000 (approximately US$2,200) for cars and ₹50,000 for two wheeled vehciles. India aimed to have seven million electric vehicles on the road by 2020. But the scheme was launched in April 2019 using the name FAME, or Faster Adoption and Manufacturing of (Hybrid and) Electric vehicles.[87][88]
Indonesia
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The Indonesian government announced in March 2023 that it would allocate a total of Rp 7 trillion (US$455.88 million) to incentivize electric motorcycle sales through 2024. These funds will subsidize 800,000 new electric motorcycle sales and 200,000 conversions of existing internal combustion motorcycles to electric.[89] Each new electric motorcycle sale will receive a Rp 7 million subsidy.[90]
Taiwan
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The premier of the Republic of China (Taiwan) Liu Chao-shiuan said in 2008 that the government-financed Industrial Technology Research Institute (ITRI) will help domestic manufacturers mass-produce 100,000 electric motorcycles in four years.[91]
Senegal
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In March 2022, Tamir Faye, Director General of ANPEJ, signed an agreement for the creation of 50,000 jobs to provide opportunities for young people by using electric motorcycles to strengthen the transport industry.[92]
Motorsports
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Pikes Peak International Hill Climb (PPIHC)
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The Pikes Peak International Hill Climb began in 1916 and is the second oldest motor sports race in the United States. The PPIHC is a long-standing tradition in the Colorado Springs and Pikes Peak Regions. The race takes place on a 12.42-mile (19.99 km) course beginning at an elevation of 9,390 ft (2,860 m), containing 156 turns and ending at the 14,110 ft (4,300 m) summit of Pikes Peak. One of the main obstacles of the race is the increasingly thin air that slows reflexes, diminishes muscle strength and reduces the power of internal combustion engines by 30 percent as competitors advance up the peak. The electric motorcycle division has an advantage with the all-electric motorcycles because they do not experience power loss with increased elevation and thinner air.
The Lightning Motorcycle Super-bike electric motorcycle set the fastest overall time in the motorcycle division, beating all gasoline powered motorcycles in 2013.[33][34]
TT Zero
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TTXGP was conceived by Azhar Hussain. The first race was held on 30 June 2009 on the Isle of Man in which 13 teams took part.[27] The event was endorsed by the Fédération Internationale de Motocyclisme (FIM).[93] In May 2010, TTXGP started a world championship series.[93] It went on to organize several races in US, Europe and Australia.[94] In 2010, TT Zero replaced the TTXGP event in the Isle of Man TT race. Neither TTXGP nor Azhar Hussain were involved in the event. The event followed FIM rules.[93]
FIM eRoad Racing World Cup
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On 18 November 2010, Fédération Internationale de Motocyclisme (FIM) announced an ePower International Series for electric motorcycles, causing a split between TTXGP promoters and FIM.[95] FIM, unlike TTXGP, was unable to gather many teams of the series. In March 2011, TTXGP announced it would again collaborate with FIM.[96]
In 2013, TTXGP and FIM collaborated to organize the FIM eRoad Racing World Cup with races in US, Europe and a final race in Asia.[94]
Motocross
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In 2013, FIM announced an all-electric event, called E-MX, which was held in Belgium during Clean Week 2020 on 2 May.[97] MiniMoto SX Energy Crisiscross is a regular event where electric off-road motorcycles are allowed to compete against conventional motorcycles.[98]
eMotoRacing
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After the TTXGP concluded its 2013 race season, it pulled out of the US, and Arthur Kowitz, who had participated in the FIM eRoad Racing World Cup founded eMotoRacing to fill the void.[99] eMotoRacing kicked off its first season in 2014, running in conjunction with AHRMA which gave access to ten high-profile tracks around the US. In addition to its regular race season, eMotoRacing held its first annual "Varsity Challenge" on July 11–13, 2014,[100] at the New Jersey Motorsports Park, urging engineering teams from universities to race custom-built electric motorcycles. At the start of its third season in 2016, AHRMA announced it had adopted eMotoRacing's "eSuperSport" class as a permanent addition to their roadracing lineup.[101]
MotoE World Cup
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MotoE World Cup is set to start in 2019. The series is sanctioned by the FIM and will support MotoGP at five of the European circuits with future plans for the series to grow worldwide.[102] The series will be using a spec Energica EgoGP motorcycle with each of the seven MotoGP independent teams running two bikes while four Moto2 and Moto3 teams will run one bike for a total of 18 bikes competing.[103]
See also
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References
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Not sure you’re in the right place? We have lots of other guides.
This is the definitive guide to electric scooters. It is a starting point for all information about their history, different components, commuting, laws, safety, maintenance, and scooter sharing.
A typical adult scooter weighs under 30 lbs, has a 250-watt motor, a 250 watt-hour lithium-ion battery, has a top speed of 15 mph, a range of 10 miles, and costs around $500.
Some notable models are the Xiaomi Mi M365 , Dualtron, Wide Wheel, Zero 10X, Boosted Rev and Wolf Warrior 11.
Some popular brands of electric scooters for adults are: Boosted, Glion, GoTrax, Xiaomi, Swagtron, Zero, and Fluid FreeRide, Kaabo, and MiniMotors.
Adult electric scooters are the most common type of scooter available on the market. They differ from electric scooters intended for children because they have larger weight capacity, typically around 220 lbs (100 kg), more powerful motors, larger battery, larger deck, and a taller stem. Electric scooters intended for adults also tend to cost at least $300 whereas an electric scooter intended for children can typically be had for under $200.
Though most companies are making electric scooters for adults , some companies — notably Razor — are targeting the kids and young teen market .
Scooter sharing has increased the general public awareness of micromobility and driven the growth of the personal market. The explosion of the personal market has led to the import of hundreds of different models of electric scooters by a huge number of different brands.
Recently, there has been an enormous surge in interest for scooters — mainly driven by their notorious overnight introduction into cities by scooter sharing companies such as Lime and Bird .
Though the majority of scooters are intended to be ridden while standing on the deck, some scooters can be converted into seated electric scooters with optional accessories.
Electric kick scooters, like the Razor kick scooters of the 1990s, have two wheels, a platform called a deck , and handlebars for steering. They differ from the unmotorized kick scooters of the 90s due to the addition of a battery , electronics, larger (often air-filled ) tires , and an electric motor .
Note: Larger or taller teens should use an adult electric scooter because a kids scooter will likely be too small and underpowered.
A typical children’s electric scooter weighs around 20 lbs, has 150-watt motor, 100 watt-hour battery (either sealed lead acid or lithium-ion), a range of 3 miles, and costs around $200.
Some popular brands of electric scooters for kids are: Razor and Jetson.
It is worth noting that children’s electric scooters aren’t typically much more than toys and should be used as such. They shouldn’t be used for riding on public roads or ridden by adults.
Electric scooters intended for kids or teens are typically smaller, lighter, and less expensive than their adult counterparts. They are often made of less durable materials such as plastic, have weak motors, and may even contain low energy density lead-acid batteries.
If you have a need for a scooter with a seat, then you might consider an electric bicycle instead. Electric bicycles are typically easier to ride, faster, and more comfortable for longer distances. You can’t fold them up for easier carrying — but neither can you fold a seated electric scooter.
A hallmark of the modern e-scooter is its ability to fold — making it both portable for carrying and convenient for storing. This is the main advantage of folding electric scooters, compared to electric bicycles. When a seat is added to an electric scooter, this typically eliminates its folding ability and, in our eyes, reduces many of the advantages of folding e-scooters.
Seated electric scooters are primarily for adults and made to make longer rides more comfortable. Most electric scooters do not come with a seat, but many have optional seat attachments that are sold as separate accessories.
Breakdown (of All of the Parts) of an Electric Scooter
Electric scooters have a handful of different parts, but the major ones are: batteries, brakes, controller, deck, handlebars, lights, motor, stem, suspension, and tires.
Batteries are rated in watt-hours, abbreviated Wh, which is a measure of their capacity. Battery capacity is one of the important factors that determine electric scooter range. A typical budget scooter will have a capacity of around 250 watt-hours while monster scooters can have capacities of almost 3,000 watt-hours.
Most electric scooters will have a battery pack comprised of lithium-ion battery cells, though some electric scooters for kids and other inexpensive scooters actually have lead-acid batteries .
Batteries are the “gas tank” of an electric scooter. They store the energy that is consumed by the electric motor and other accessories, including lights.
Electric scooter battery packs are made up of many individual cells that are assembled together.
Many scooters will have a combination of both electronic and mechanical braking systems. For safety reasons, we recommend scooters that have at least two braking systems in case one fails.
Typically mechanical braking systems will offer much stronger braking than electronic systems. However, electronic systems benefit from not requiring any periodic adjustments or maintenance.
Electronic braking systems rely on using the motor itself for braking and include strictly electronic and regenerative braking systems.
Mechanical brake systems are those that rely on a physical mechanism to slow the scooter down and are: disc, drum, and foot brakes.
Like those on a car or bicycle, brakes are what slow the electric scooter down. Electric scooter brakes can be broken down into two categories: mechanical and electronic.
A quality braking system, such as the disc brake picture above, is essential for staying safe and in control while riding an electric scooter.
Controllers are one of the most under-appreciated parts of the electric scooter because they quietly do their job most of the time. They can be a huge source of headache (or make the scooter unsafe) when things go wrong. On some poorly designed scooters controllers are known to fail or malfunction.
Controllers are rated based on the voltage and current they are able to regulate. Scooters with more powerful motors will have controllers with higher max voltage and higher max current ratings.
The speed controller is an electronic component buried deep inside of the scooter that controls the flow of current from the battery to the motor. They typically look like rectangular metal cans with many wires coming out of them. The metal enclosure serves as a heat sync. The controller receives inputs from the accelerator and (electronic) brake controls and translates that into a current that is sent to the motor.
The typical scooter deck size is 14″ by 5″ inches and gives a few inches of ground clearance.
Most decks have some type of textured finish that provides better grip between your shoes and the scooter. Some scooters, like the Rev pictured above, have a sloped deck that gives you more space to place your feet.
The electric scooter deck — like that of a skateboard — is the thing you stand on. Some electric kick scooters have the battery pack built into the deck.
The deck is the platform you stand on while riding. Many are rubberized to provide better traction.
Unfortunately, its not just the low-end scooters that suffer from poor stem folding mechanisms. The high-end Dualtron scooters are notorious for this issue, despite their otherwise immense quality.
Nearly every scooter has a folding mechanism built into the stem to allow easy carrying and storage. In our e-scooter reviews , we often spend a lot of time focusing on this unsuspecting part. Yet, this is for good reason. The folding mechanism can be difficult work or worse it can be loose or unstable. When you apply force to the handlebars, you’ll notice the whole stem rocking back and fourth — a condition we call stem wobble. This is one of the huge downsides to folding electric scooters.
The stem or neck of the electric scooter is the long tube that is connected to the front wheel and extends up to the handlebars.
The stem is the folding metal tube that connects that handlebars to the front wheels. On some electric scooters the folding mechanism is a source of frustration due to instability.
An average electric scooter, like the Mi M365 will have a 250 watt motor; an intermediate scooter like the Horizon will have a 500 watt motor; extreme performance scooters, like the Wolf Warrior will have dual 1200 watt motors.
Electric motors are rated based on their power consumption which is express in units of watts. More powerful motors will have greater wattage.
Electric scooters have brushless direct current (BLDC) electric motors that are built into the hub of wheels. All electric kick scooters have at least one motor while more powerful ones will have two.
Adult electric scooters have hub motors built into one or both wheels. The powerhouse Wide Wheel pictured above has dual 500-watt motors.
Unfortunately, many electric scooters have sorrowfully weak lights. This is why we nearly always recommend additional lighting for safely riding at night.
Swag and deck lighting are good for increasing visibility and cool factor of your scooter, but no substitute for powerful headlight and taillights.
Nearly every electric scooter comes with at least one LED headlight and a brake-activated tail light. Additionally, many scooters are also including multi-colored LEDs that wrap around or shine from under the deck. We like to call this type of lighting swag lighting.
Good scooter lighting is important for seeing and staying visible at night. Unfortunately, many of the scooters we test have lackluster built-in lighting.
The most portable electric scooters will have folding handlebars that greatly reduce their width and get the scooter down to a very transportable and storable size.
The handlebars are your main connection with the scooter. They are fitted with all the controls, including the accelerator, brakes, speed/settings display, and power buttons.
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Many electric scooters have no suspension, while high performance ones, like the Zero 8X pictured above feature a beefy coil-over-hydraulic suspension.
The suspension of the electric scooter, like that on motor vehicle or bicycle, helps to improve ride quality and dampin bumps in the road.
There are three main types of suspension systems that are typically found on electric scooters: spring, hydraulic or air piston, and rubber suspension. Scooters with the best suspension will have some combination of spring and piston — a combination called coil-over-hydraulic or coil-over-air.
Many scooters forgo suspension in favor of large pneumatic tires that provide damping effects. Large pneumatic tires can offer be a better form of suspension that cheap spring suspensions.
Tires given you traction to accelerate or brake in an emergency. Airless tires, like those pictured above, do not perform as well as pneumatic tires.
Tires are your connection to the road and influence ride quality, traction, range, and braking performance of your electric kick scooter.
Tires come in basically two types: pneumatic (airfilled) and airless. There are a few varieties of airless tires and these include: honeycomb, polymer-filled, and solid.
We always recommend pneumatic tires because they give better ride quality (with or without suspension) and their supple rubber performs much better in adverse road conditions.
For deeper dive into scooter tires, read our technical guide.
Purchasing an electric scooter can be a formidable challenge — there are an overwhelming number of choices, a quality electric scooter is easily $500 and can cost upwards of $2,000.
Throwing a wrench into the matters are numerous dubious “review” sites and reviewers that have never touched a scooter in their life.
We have personally tested and developed unbiased written and video reviews for electric scooters at all price ranges, so that you can find the one that best fits your needs.
Commuting by electric scooter is all part of the new trend in micromobility that solves the so-called last mile problem. The last mile problem refers to the last leg of a trip — whether it be walking from bus station to your office or exiting a freeway in a car to go to a specific destination.
Paradoxically, the leg of a trip tends to be the slowest and most difficult despite being the shortest. This is because public transit systems and roadways are all optimized for connecting big population centers separated by larger distances. Think about it — multilane highways connect major cities separate by tens or hundreds of miles. At average freeway speeds, you can go 60 miles in an hour or about a mile a minute.
However, once you’ve exited the freeway, your last mile or so could take 15 minutes or more!
This is where electric scooters, bike sharing, electric skateboards, etc — all forms of micro-mobility — come into play. They make traveling the last mile of your trip faster, easier, and more environmentally friendly.
If you have to commute just a few miles to work or have to walk from a bus stop or transit center, then an electric scooter is the perfect option for you.
Compared to bicycles, electric scooters are more portable, less prone to theft, and require less physical effort than a bicycle.
They allow you to get to your destination at speeds around 15 mph with no physical effort. You can arrive at your destination more quickly, fold up the scooter, and carry it inside. Because they require less physical effort than powering a bicycle, you won’t be as sweaty as you would if you were to ride a bike (and can get there faster on many scooters).
Electric scooters also have some disadvantages which might make bicycles a better option in some cases. These are: ability to bring inside, stability and cost.
If you aren’t physically able or not allowed to bring your electric scooter inside then a bicycle may be better. Locking an electric scooter up on the street for a prolonged period of time is not optimal — they seem to be more prone to theft, vandalism and are more difficult to lock due to lack of locking points.
Bicycles, due to their geometry and larger tires, are more stable and better on rough roads. Adult scooters have relatively small tires that do not roll over bumps easily. They also have a more upright steering angle which makes them inherently less stable and more prone to wobbles that have sent many a scooter rider down.
Finally, adult electric scooters are more expensive than a quality entry-level bicycle. An entry-level bicycle will run you around $300 and be much more durable. Crashing on a bicycle is unlikely to harm most whereas many scooters, particularly budget ones, can be rendered completely inoperable after a crash.
Contact us to discuss your requirements of China electric motorcycles wholesale manufacturer. Our experienced sales team can help you identify the options that best suit your needs.