Triumph today signalled that their exciting TE-1 project, a collaboration between Williams Advanced Engineering, University of Warwick and Integral Powertrain, backed by the British Government investment via the UK Office for Zero Emission Vehicles, is one step closer to charging up British motorways.
Triumph recently completed Phase Three of the project with their development partners and were responsible for the production of the complete chassis and rolling stock.A Gates Carbon belt drive is utilised on the TE-1 prototype.The suspension and braking package look high end thanks to Ohlins, who made a unique prototype shock for the TE-1, and Brembo’s top notch M50 Monobloc’s grace the front end.
Triumph TE-1
Williams Advanced Engineering were responsible for the battery pack, vehicle control unit, DC-DC converter, integrated cooling, charge port, and styled carbon covers.
Integral Powertrain: Final prototype powertrain with scalable integrated inverter and combined motor with silicon carbide switching technology and integrated cooling.
Triumph TE-1
The motor is claimed to achieve peak and continuous power densities of 13 kW/kg and 9 kW/kg respectively which is 60% higher than new APC technology roadmap targets for 2025. All of this has been achieved using materials and processes compatible with volume automotive production and importantly using a length scalable motor platform. Integral claim the power unit will be capable of producing more than 500kW!
University of Warwick conducted the final pre-live trial simulation, with all results indicating that the project is on course to deliver the intended performance and durability outcomes
Key project achievements during this phase include test results that exceed current benchmarks and targets set by the UK Automotive Council for 2025, providing a platform with great potential for future development in electric motorcycle performance.
The overall objective of the TE-1 project has been focused on developing electric motorcycle capability, in order to provide an input into Triumph’s future electric motorcycle offering, driving innovation, capability, and new intellectual property, and enhancing the credibility and profile of British industry and design.
“The inverter concept, which is also scalable by tuning the number of Silicon-Carbide power stages for different diameter motors, has really delivered on performance. The TE-1 unit is capable of >500kW! “
With Phase Three signed off now the project moves into Phase Four which is a six-month extensive live testing programme both with rolling road testing and track testing.
This is a huge task that will involve countless man hours invested to achieve the best throttle calibration, powertrain mapping and output tuning, the development of different Rider Modes and assessing the range and battery life in various scenarios. They must also ensure the bike is tuned in a manner that it keeps its cool via thermal optimisation.
No internal combustion engine but still significant cooling systems are required
The handling and braking regeneration strategies, along with the tuning of the traction and wheelie control functionality will take place on the racetrack.
At the completion of the live testing phase, somewhere are the middle of this year, the prototype demonstrator will be updated with its final body panels and paint scheme, in preparation for active track demonstration, and media engagement.
At this time, the full results of the project including the final specifications and testing outcomes will be published, as well as insights and key facts on how the TE-1 delivers on the project targets for innovation and sets new standards for the motorcycle sector overall, including final battery and range performance.
Nick Bloor – Triumph CEO
“It has been truly exciting to see the progress made during phase 3 of Project Triumph TE1 with the final prototype motorcycle now going into real life testing. Everyone involved at Triumph are proud to have been part of this innovative British collaboration. Personally, I am thrilled with the results we have already achieved with our partners, and the exciting preview of the potential electric future to come. We look forward to continuing the ambitious and innovative work on the TE-1 demonstrator prototype through the live testing phase and sharing the outcome with Triumph fans across the world.”
Triumph TE-1
PROJECT TE-1 – PHASE 3 FINER DETAILS
The Triumph TE-1 team began phase 3 by successfully building an initial mule bike which incorporated the battery, inverter, motor, and chassis into one machine for the first time. Using this platform, all of the project partners worked collaboratively to optimise software integration across the complex systems, involving hundreds of hours of detailed testing to ensure the functionality of all the features and software aspects behave accurately and intuitively, as a customer would expect.
This was validated in real life simulation work carried out at WMG, involving detailed powertrain rig testing and simulations to assess safety critical items relating to motor function and vehicle control. Durability testing on the primary transmission has also been conducted to ensure a full understanding of the fundamental differences in electric motor load application for vehicle use cases, efficiency, and consequences to gear life.
Alongside this work, the Triumph-led design of the bespoke chassis has focused on delivering the phase 2 styling intent as closely as possible. Phase 3 of the project is now complete with the fully assembled TE-1 demonstrator prototype, the photographs of which are revealed for the first time today.
Triumph TE-1
Steve Sargent – Triumph’s Chief Product Officer
“During phase 3 we have focused on building the physical foundation of Triumph’s first electric prototype motorcycle. I am pleased with the outcome of Triumph and the TE-1 partners’ efforts in creating a demonstrator bike that is not only visually so desirable with clear Triumph DNA, but also packaged with an exhilarating and thrilling brand-new electric powertrain that has such potential for the future.
“I look forward to continuing the development of this demonstrator vehicle through phase 4 and using our knowledge and capabilities to bring all of the partners’ cutting-edge technology together into a final result which will guide Triumph’s electric strategy for the future.
“Our experience tells us that at this stage of a project there is no substitute to genuinely riding a bike when developing driveability, handling and character, and we have ambitious targets focused on delivering a riding experience that is new and exciting, but ultimately intuitive and familiar. I am really looking forward to my first opportunity to ride the completed prototype.”
Triumph TE-1
Williams Advanced Engineering (WAE)
Following completion of Phase 2 of the programme in March 2021, which delivered a fully bench tested battery, Williams Advanced Engineering have now concluded work on Phase 3 which contained some critical gateways for the project.
In addition to supporting a number of hardware and software solutions; specifically integrating Triumph’s motorcycle control software to work in harmony with WAE’s controller and battery management system, the team have enhanced the integration of the mechanical and electrical solutions; optimising battery layout to balance mass and positioning within the chassis.
The demonstrator bike is now undergoing final battery level validation and calibration to ensure the performance results meet best-in-class power and energy density targets and for the rider, ensuring there is no compromise in performance at low levels of charge.
Dyrr Ardash – Head of Strategic Partnerships – Williams Advanced Engineering
“Following an extended period of testing, we are thrilled to finally see the results of our work on a physical bike. By working with the team at Triumph, we have continued to push the boundaries of battery technology, keeping the rider in mind at all times. Because we have designed the battery from the ground-up, design has not been compromised and we have been able to push the boundaries of current technology, offering both performance and all important, range”.
Triumph TE-1
Integral Powertrain Ltd.’s e-Drive Division
Andrew Cross – Chief Technical Officer at Integral Powertrain Ltd.
“We are absolutely delighted to complete our part in this project and deliver what we set out to achieve which is a scalable, ultra-highly integrated motor and inverter, with no phase cables, busbars, or separate cooling circuits.
“For the TE-1 application, the motor achieves peak and continuous power densities of 13 kW/kg and 9 kW/kg respectively which is 60% higher than new APC technology roadmap targets for 2025. All of this has been achieved using materials and processes compatible with volume automotive production and importantly using a length scalable motor platform.
“The inverter concept, which is also scalable by tuning the number of Silicon-Carbide power stages for different diameter motors, has really delivered on performance. The TE-1 unit is capable of >500kW! This gives us the opportunity to optimise this platform for production.
“The integrated motor and inverter unit is now on the bike and is delivering on the target performance and cycle efficiency we engineered, modelled and simulated to achieve. We’re very much looking forward the feedback from bike-level testing and the benefits of our high efficiency on range.
“We’re really proud to have been a key part of this exciting project which has been a landmark for electric motorcycles and British industry.”
Triumph TE-1
WMG, University of Warwick
Truong Quang Dinh, Associate Professor of Energy System Management and Control at WMG, University of Warwick
“WMG have been working closely with Triumph to support the development of the motorcycle control unit via a comprehensive real-time evaluation process using two bespoke physical rigs.
“A 3D physical motorcycle model has been created and integrated with the first rig to allow the evaluation and refinement of the control unit under real-world driving scenarios, ensuring it behaves well before the integration into the initial prototype bike.
“The second rig has been utilised to support Triumph in evaluating the power and energy performance of the whole drivetrain as well as confirming its durability.
“We have also focused on control research and development at other levels, including advanced traction control and optimal brake blending strategies. The findings in energy system modelling, simulation and control, especially real-world case studies with electric motorcycles, gained through this TE-1 project have been utilised to develop teaching materials on energy systems, hybridisation and electrification technologies across education programmes at WMG.”
Jim Hooper, Principal Engineer of Electric Vehicle Projects at WMG, University of Warwick
“WMG have also been helping Triumph understand the opportunities and wider implications of electrification towards their business. This has included investigating the opportunities for electric two-wheeler charging networks, the need for domestic electric motorcycle recycling, the necessity to develop local battery supply chains and the direction that Triumph will need to take to ensure that they can design, develop, manufacture and distribute electric two-wheeled vehicles in the future.
“The findings from these studies are also providing direction to national and local governments, specifically around areas where policy intervention can support electric motorcycle adoption.In many studies undertaken by WMG, bespoke computer-based models developed at the university (such as the university’s own UniWarp software), have been instrumental in understanding the best possible direction or action required for different scenarios. This approach has enabled WMG to quantify the environmental impact of electric motorcycles and has defined methods by which this can be further improved through new vehicle features, vehicle system sizing or new external collaborations.”
Electric Motorcycles and the future of motorcycling An informed discussion with three view-points
With the EU moving towards a mandate for the cessation on sales of petrol powered cars and motorcycles by 2035 there is little doubt that Australia will follow a similar course of action. Thus we thought it a good time for Trev to air his views on the current state of play and then invite two smart guys that are both heavily invested in, and very knowledgeable of the challenges and advantages that electric motorcycles have the potential to bring. Both have built and designed their own electric motorcycles and are Australian EV pioneers and can add much to the discussion.
Trev
“There is no doubt that unless truly monumental steps forward are made in relation to battery technology, touring Australia by motorcycle will become virtually impossible when legislation eventually ends the days of the internal combustion engine.
“Australia is the sixth largest country in the world and the world’s largest island with a land mass of 7.7 million square kilometres which equates to five per cent of the global land mass, yet has a population that is less than cities such as Tokyo, Delhi or Shanghai. Once away from the major cities, where 67 per cent of the Australian population live, the interior is one of the most sparsely populated areas on the globe. We are a long way from where these new emissions legislation rules are being made and with our wide open spaces these restrictions will affect us more greatly than most places on the planet.
“Currently you can cross Australia on the southern routes without having to go more than 200 km between fuel stops. You can ride most of the way up the eastern and western seaboards on even shorter ranges until you get north of the Tropic of Capricorn, and even then there are only a couple of stretches where ranges in excess of 250 kilometres are required. And of course with fuel it is a simple case of splash and dash and you are generally back up and running in under ten minutes. No planning required. I could set off tomorrow on virtually any conventional motorcycle and repeat my 16,000 kilometre in 15 day lap of Australia without a worry in the world and nothing but a credit card in my pocket. Notwithstanding the individual fiefdoms that Australia has now become with closed state borders of course, don’t get me started on that score!
Touring the remote parts of Australia is not going to be viable on an electric motorcycle any time soon
“On current technology and infrastructure if you can find a power-point in the bush, you might be twiddling your thumbs for ten hours or more in order to obtain a full charge from empty. Even a Perth to Melbourne run, a relatively short 3500 kilometre distance that is easily ridden in three days if not meticulously planned while riding something akin to a $50,000 Harley-Davidson LiveWire or similar EV motorcycle, would likely take longer than my 16,000 kilometre lap of the country. And that journey would be the antithesis to what my type of motorcycle touring is. Touring on two wheels for me is best enjoyed with the minimum planning possible and no real schedule to stick to. Otherwise it just feels like work and tedium. Motorcycles are about freedom and fun, not schedules. And motorcycle touring is not about waiting around for half your trip waiting for your motorcycle to charge. On current EV technology you would spend more of the trip waiting for your motorcycle to charge than you would spend riding…
The LiveWire has its drawbacks as Wayne recently found in his review. That said, I applaud H-D for investing in to this future and I think the first generation LiveWire might eventually become a sought after collectible.
“Modern combustion engined motorcycles achieve their best economy on the open highway, these days generally sipping around five-litres of juice per 100 kilometres. Conversely, open road touring is actually the worst case scenario in regards to range for battery powered motorcycles as there are no braking cycles to help recharge the batteries and the bikes are under a constant throttle load. Thus at the moment, and for the foreseeable future, battery powered vehicles are by far more practical in the urban environment than they are in rural or even outer urban areas. The current options when it comes to EV motorcycles rarely achieve ranges exceeding 120 kilometres during highway running at the national speed limit.
“Does this mean that for the foreseeable future the only real practical battery powered motorcycles will be scooters used in the city?
“Right now, to my mind, this is where the battery tech is getting good enough to be a truly viable practical alternative to a petrol powered two-wheeler.But there is also a significant price penalty to pay to go EV.
“Suzuki’s Address 110 sells for $3790 Ride Away, nudges 100 km/h and sips only two-litres per 100 kilometres. Thus it has a range approaching 250 kilometres from its 5.2-lite fuel tank, but let’s go worst case scenario and say the range is 200 kilometres.
Super Soco CPx
“One of the newest EV scooters on the market that is just about to launch in Australia is the Super Soco CPx.It has a range of up to 75 kilometres when a 75 kg rider averages 45 km/h, but in reality its true range is more like 60 kilometres. The price tag is more than twice that of the Suzuki but it’s fair to assume that the EV perhaps accelerates quicker, however its 90 km/h top speed is actually slower than the little Suzuki.Charge time is about 3.5 hours and while an extra battery can be added to the PCx for $2300 that doubles the range to over 120 kilometres, it also adds a couple of hours to that charge time.For less than the price of Super Soco PCx you could have a wonderful XMAX 300 Yamaha. A much larger, roomier and more comfortable scooter that will cruise comfortably at 110 km/h and also offer overtaking power good enough to crack 150 km/h while sipping a few litres per 100 kilometres.
“So essentially you currently pay double for the EV option if comparing models of similar performance.That also rings true in the world of full-size motorcycles with Harley’s new V-Twin Sportster 1250 S to retail for just over 25k, half the price of the EV LiveWire.
“There is no doubt that EV is coming but early adopters certainly pay a hefty price premium for the benefits, perceived or otherwise, of going without petrol.
“I would love to get my hands on BMW’s coming electric CE 04 scooter with its impressive power (42 hp) and torque (62 Nm), creature comforts and avant-garde looks but when it arrives early next year it will wear a price tag over 20k.Even this top of the range EV still only promises a range of 130 kilometres. Its top speed will be limited to 120 km/h but BMW are claiming an impressive 2.6-seconds for the 0-50 km/h traffic light dash which should make it a convenient weapon around town. Charging time from empty is over four hours but an optional, and no doubt expensive, quick-charging set-up can be purchased that reduces charge time significantly, taking the CE 04 from flat to full in well under two hours, and facilitating charge from 20 to 80 per cent full in only 45 minutes. That’s getting a lot more practical, and the fact that city dwellers will also be able to use the same existing EV charge points as the BMW electric cars will add further amenity. But, it’s still over 20-grand for a scooter. You can grab a GS for not much more, or an Africa Twin for even less…
I love the promise that the BMW CE 04 offers but for 20k you are getting into GS or Africa Twin money…
“Time will change this cost-benefit analysis as technology improves, or petrol starts multiplying in price, but right now EV motorcycles and scooters just don’t add up when it comes to cost, convenience or performance. They are a very niche product within an already niche market that is motorcycling in this country.
Honda Mobile Power Packs can be simply removed and replaced with already charged units
“Hot swappable battery technology, the likes of which some brands are already working together on, would be a real breakthrough in regards to the viability of electric motorcycles becoming truly practical in the short term. Being able to drop into a charge point and simply pull a battery out and replace with one already fully charged to get back on your way. This would enable refuel times comparable to petrol powered motorcycles.
“Essentially this could also help reduce the cost of entry as manufacturers could sell their electric scooters or motorcycles, then the buyer simply take up a battery lease program where they have constant access to batteries but without the up-front capital cost of purchasing their own battery. This option is starting to build steam and is referred to as ‘Battery as a Service’. Kymco have already rolled this out in Taiwan where they already have over 2000 swap stations with their system called ‘Ionex’.
Removeable battery packs will add great versatility to both personal consumers and fleet buyers
“From my scribblings here you would think I am against change, I am not. I look forward to something like the CE 04 becoming as affordable as an XMAX 300.I look forward to the improvements in battery technology that are coming which will really shake things up. I look forward to agile light-weight enduro, motocross and trials bikes that are whisper-quiet and offer comparable performance to that available from the current petrol powered options.
“That said, I think the chances of being able to tour Australia on an EV motorcycle without meticulous planning and constant range anxiety might not even happen within my life-time. But who knows, I have been running MCNews.com.au now for over 20 years, and may revisit this piece in a Throwback Thursday come 2040, or even earlier, and announce that I was wrong…
“I do take significant umbrage though at authorities and agencies enforcing this change and shoving it down my throat before it becomes truly affordable and viable in the real world. But this is where we will be as manufacturers respond to government pressures and stop making new internal combustion engine powered vehicles. Euro6 will essentially kill new petrol powered vehicles of all types stone dead.
Replaceable hot, swap and go battery packs that are able to be used across many brands are likely to prove the way forward when it comes to EV powered urban mobility solutions
“We also have groups lobbying government to not only waive stamp duty, import duties and luxury car taxes for electric vehicles, but also force property developers to install EV charging points in their parking bays and have taxpayers stump the bill to install charging points in public car parks. Thus EV early adopters effectively are seeking everyone to underwrite their eco warrior sanctimonious self gratification exercise, then they want the power for free too! Power that was probably made by burning coal in the first place anyway!
“As we approach the year 2030 the shift away from internal combustion engines will increasingly gather steam (did you tell how much I love steam power LOL) as we approach that real tipping point for the transition away from fossil fuel powered transportation. This month UK authorities announced a ban on the sale of new petrol powered motorcycles from 2035 and various other announcements have been, and will be made around the world that will sign the death warrant on motorcycling as we know it. But then we do have a new era of motorcycling to look forward to and I do that with an open, but realistic mind.
“Racing authorities are also heavily invested in preparing for change. We of course have MotoE already acting as a support class at selected rounds of the MotoGP World Championship and the FIM recently announced the creation of a new all-electric off-road championship. People are already joking that it will make for some good 15 minute races as even in racing EV ranges forces organisers to race distances that are a fraction of what petrol powered motorcycles race.
“Under changes that are actually coming into play now you will no longer have the ability to clear fault codes from your motorcycle, only an official dealer will have the power to clear fault codes. Want to dyno or tune your machine outside stock parameters? They are putting a stop to that now also. I understand that things are going to change, but we do need our own politicians to not blindly follow rules enforced by geographically small countries in their quest to be woke.
Trev’s 2017 Husqvarna TE250 – Pretty much two-stroke perfection right there
“I live on 100 acres and will do everything within my power to still be enjoying the visceral and emotional connection to motorcycle history that my 250 two-stroke Husky punches into my aural and olfactory senses even after the government tells me not to.I also have a supercharged V8 Ford that I might need to stockpile juice for in preparation for the days when the scenes presented in the first Mad Max movie become reality.
“Or if that ends up being too difficult, maybe I will have to settle for an old-school blown or quad-Weber fed push-rod V8 on an engine stand to start up and pay homage to as an object of worship over beers from time to time up the shed. Actually why wait, that sounds an awesome plan to put into action right now! Hold my beer!
Excuse me, I am having a moment…
“Of course we could have a huge breakthrough in biofuel or synthetic fuel technology that extends the life of internal combustion engines. As for the ecological argument I don’t think motorcycles burning fuel make much impact in the grand scheme of things. Of course making the power to charge EV vehicles largely comes from coal fired power stations anyway.. Speaking of which, China is still building those coal fired power stations at an ever increasing rate and are responsible for almost 30 per cent of global emissions. Preventing people breeding and polluting the planet with more humans is probably the biggest positive impact we can have in regards to the health of the planet but the self-righteous moralising greenies don’t talk too much about that…”
Right of reply
Now as Trev is obviously not all Greta Thunberg enlightened and stuff, we thought we might seek some opinions from a couple of people in the know, a couple of fellas that have their fingers in the currents of this EV stuff. And first cab off that electrified rank is Dennis Savic.
Dennis Savic
Dennis Savic is a homegrown visionary that has had the balls to design, manufacture and now market his own brand of electric motorcycles.
Like me, Dennis hails from Perth, but where I first headed east to join the Defence Force at the young age of 16 as that was the only way to earn an adult wage at such a young age that would enable me to spend all of said wage on fast motorcycles and cars. Dennis instead studied mechanical engineering and then gained an M.B.A. before assembling a team of young engineers to bring to reality his dream of producing his own motorcycles.
Dennis with an early prototype
Obviously we both share a passion for motorcycles but come from very different backgrounds and lived experiences. At 29, Dennis is also 20 years younger than me but funnily enough, despite his life being invested in the production of EV motorcycles, he also has some reservations as to their real-world capabilities and current limitations. God I love using the word ‘current’ as much as possible when talking EV motorcycles…
Over to you, Dennis
“Trevor, thank you for including us in the conversation. Despite the two wheeled EV industry and this business consuming 90 per cent of my waking life, I should probably preface my comments by admitting I’m also a petrol head. My favourite cars include the ’69 Mustang Fastback, and my dream car is the Mercedes 300SL. My favourite bikes include the Triumph Bonneville Bobber and the Indian FTR, and a tonne of custom builds. I still love working on petrol vehicles for fun, so I guess I’m sharing that I empathise with common EV challenges and understand range anxiety well. Now, there are two primary issues that I believe we’re talking about: the first is range capabilities, and the second is pricing. While they are related, they can – and should – be considered separately.
Range Capabilities
“I agree with you that touring isn’t for electric motorcycles, and won’t be for a long time. Unfortunately, it all comes down to dollars and cents. And this is as true for the majority of customers as it is for any business. I’ll talk about EV pricing in a moment, but before I do I think it’s important for riders to actually take inventory of how often they go for cross-country rides and how often they go for long rides with their mates on weekends.
“The answer to the latter is probably far more often than touring the country. So what’s the average range of a weekend ride – 400km? 200km? Whatever the case, if someone does this kind of ride more than once or twice a year, they would need to consider having a second petrol bike to go and do hill runs. This could be rented or owned, but either way, it makes the rare weekend ride a very expensive hobby.
“I don’t know what proportion of the riding population never rides more than 200 km on a single ride, but I would argue that it is large enough for us to have enough of a business case to supply the Australian market. Business cases are assessed with rudimentary maths. How many can one sell, at what price, and what is the cost to make, distribute, and operate the business? Which brings me to the pricing challenges EVs face.
Savic Motorcycles
Pricing
“Most EVs are highly priced. Governments can ban petrol vehicles to try and force the shift, but this doesn’t flick a switch and make the supply chain cheaper. What makes the supply chain cheaper is volume manufacturing, and that’s going to take time. It’s a chicken and egg scenario. We need volume to decrease costs, but we also need sales to increase volume, and people aren’t buying because, like you say, EVs are expensive, which comes back to the supply chain. Government bans in Europe will help increase the volume/demand part of the equation, which is great – a fun problem to solve.
“With respect to Savic Motorcycles’ advertised prices, time and again, investors and potential investors have been telling me that our $23,900 price point for the Savic Alpha is too low. I argue that it isn’t. Our first bike, the C-Series Alpha, sits in the same price bracket as other new premium ICE motorcycles. My mission was always to set the price point to be competitive with existing ICE motorcycles, and then work our asses off to develop and implement our business case. When we figured we could, we got started and we haven’t slowed down since. With the cost of battery cells continuously dropping, our margin targets have slowly grown and simultaneously enabled us to offer our customers more capacity.
Today’s EV Motorcycle Customers
“I cannot speak for the LiveWire riders in Australia, but I think most people will agree the $50k price tag is pretty hefty. What I can say is that we at Savic Motorcycle have sold out our first production run without a single test ride. Whether that’s due to our design, price, or our being Australian is hard to say – to be fair, it’s probably a mix of all three.
“I have personally spoken to most of our first customers because we’re an early-stage business. All of them understand the charging limitations, and almost all put their orders in with the intent of charging at home overnight. This indicates that they either have a second bike, or don’t do hill rides. But they want a sexy bike (if I say so myself) to get around town on – and to do the occasional longer ride.
“A couple of our customers are lifelong Harley riders. This absolutely shocked me. Why did they place an order for one of our bikes? The truth is, they loved the design above all else. The fact that it was electric and reasonably priced was just a bonus.
Savic Alpha
“Everything is in flux at the moment. Market segments, customer profiles, products. No one knows what is going to happen in 20 years. People can just speculate. A company like ours has an advantage because we’re small and nimble, and can pivot our product strategy at the drop of a hat without huge negative repercussions with excess inventory, or thousands of engineering hours spent in product development.
Savic Motorcycles
“So will eMotorcycle ranges change much in the next five years? Unlikely if you still want to have a bike that retails at some astronomical price. Will the price come down dramatically over the next five years? I don’t think the price will come down too much, but you will see many more entrants in the market due to the cost of manufacturing dropping. Will the big OEMs come to play soon? Maybe – but they’ll have to massively up their game if they want to produce a decent bike!
“I also know Chris Jones well and it’s been a long time since we’ve spoken. “Hi Chris!!”
Chris Jones
The next fella I thought of charging with a reply was my old mate Chris Jones. Another Western Australian!
Chris is a mad scientist that first specialised in plant biochemistry but then diversified into working with battery technology and electric motorcycles.
In fact, Chris, with the help of a couple of friends made his own electric motorcycle that his team raced in the eFXC Championship that first ran as a support class alongside Terry O’Neill’s Formula Xtreme Road Racing Championships in 2014.
Chris with Voltron at Queensland Raceway iin 2016
The next year Chris formed a company with Mike O’Hanlon called ‘Voltron Motorcycles Pty Ltd’ with the aim of developing a motorcycle and battery system that will eventually enable them to manufacture electric superbikes.The small matter of having to earn a living and pay bills has slowed their progress but the dream remains alive.
Chris has also been the National Secretary of the Australian Electric Vehicle Association for the past five years and was instrumental in the design, build and installation of The RAC Electric Highway that links Perth to the south-west coastal town of Augusta via a network of publicly available charging stations.
Chris (third from left) was a driving force behind the EV fast charging stations now installed in the south-west of the country in partnership with the RAC
Chris is also currently working with the WA Government with the aim of having DC fast-charging stations installed around the state.Knowing their Premier maybe he will also get Chris to put an electric fence around Western Australia to keep the plague-ridden eastern stater types out!
Clearly Chris is heavily invested in EV technology and is well and truly plugged into the scene and thus I thought his views on the subject might be interesting to hear.
Take it away Doctor Jones!
“Not long after man walked out of the jungle, he developed an unhealthy obsession with burning stuff. Unsatisfied with burning half the vegetation on planet Earth, he discovered an even more energy dense fuel beneath his feet. Coal and oil allowed him to burn stuff with so much heat, for so long, he could literally throw 80 per cent of the energy away and still push a machine down the road. Mankind has since built almost 4 billion such machines, and 1.4 billion are in active service today. Roughly 400 million of these are motorcycles. Evolution baby!
“But this 250-year bonfire has resulted in two very serious problems. One, the poisonous smoke from these internal combustion machines is literally killing us. Acute respiratory disease caused by automobile pollution kills at least 8.7 million people every year worldwide. Air quality is so poor in many Asian cities the recommendation is to stay indoors and wear a mask. The other problem – arguably the more chronic one – is that the trillions of tons of carbon dioxide released after burning all these fossil fuels has been trapping heat in our atmosphere; raising the temperature by about 1.2°C already. If nothing changes, we’re set to pass 5°C by 2050. We are already bearing witness to the impacts – floods, heatwaves, sea level rise, devastating bushfires and of course, the inevitable extermination of large swaths of living beings.
“So if you’re wondering why administrations around the world are keen to halt the production of internal combustion engines, by force if they must, it might be because they have a duty of care to prevent pain and suffering of their citizens. People rightly expect their leaders to respond to such global existential challenges, even if they are of our own stupid doing. But these same administrations are also acutely aware of how hopelessly dependent we are on the automobile. Food, medicines, building materials, textiles and telecommunications; you name it – motorized and wheeled transport makes it happen. Fortunately, we have an alternative technology to the internal combustion engine, and given our collective reluctance to assume responsibility for our profligate ways, the electric vehicle is arguably the least-worst option to replace it.
“In looking at the two most pressing problems – air pollution and global warming, electric vehicles are an obvious solution to the former, and as the electricity grid continues to get cleaner, also a useful tool in addressing the latter. So which vehicle is most commonly seen battling the streets of our most congested cities? The humble motorcycle. If ever there was a prime candidate for electrification, this is it.
“The 2035 phase-out is actually quite conservative – we’ll hit that target well beforehand. 2035 is a long way off, given the huge advanced we’ve already seen in EVs in the last decade. The vehicles will both get better and cheaper, and motorcycles will be in that graduating class. The ultimate commuter would be an electric motorcycle with about 40 kW of peak power and about 15 kWh worth of battery. This would give it over 150 km of quiet, emission-free city range. Longer rides will necessitate a bigger battery, and more regular DC fast chargers for rapid refills along the way.
“So when can we expect to see an electric motorcycle capable of steering me from Perth to Phillip Island in under 4 days? Well, probably when two things happen: Firstly, when DC fast chargers can be found at every roadhouse across the Nullarbor, and secondly, when batteries allow over 20 kWh to be conveniently stored on the bike. On the first point, DC chargers are being rolled out around the country, and the east-west route will certainly be completed well before 2024 if I have any say in it. The second point is actually a matter of budget more than technology – sufficiently energy dense batteries already permit a 230 kg bike to house a 100 kg battery, capable of 200 km at highway speeds. The issue is mostly cost and right now, a $50,000 bike capable of the same metrics as a $12,000 ICE bike is a hard sell.
Thyron Van Vuuren did get down to some good times on the Voltron bike made by Chris, but in regards to EV motorcycles even the races have to be short due to range issues – Image Tony Castley
“Cost is a funny thing when discussing motorcycles, as we’ve all spent way more than we ought to on bikes that deliver immense joy. Still, we harbor no regrets. Take Honda’s 2021 CBR1000RR-R SP machine; it’s the ultimate track weapon with 214 hp and checking in at 201 kg. At a mere $50,000, it’s not exactly cheap. But other than 70 years of Honda engineering prowess, our home-built electric race bike, Voltron Evo stacks up surprisingly well. 214 kg, 230 hp and a similar build budget, a competitive lap time wasn’t that far off. It was worth every cent in that regard…
“However right now, our collective desire to own machines capable of roadtrips our grandparents could never dream of is taking its toll on the planet we call home. We owe it to the next generation to stop burning coal and oil. It’s that simple. Extinguishing the epic, self-inflicted house fire we started 200 years ago really ought to take precedence over our desire to circumnavigate the country in under a fortnight. We need fewer vehicles, and all of them should be electric. Electric motorcycles and scooters are the perfect solution for urban travel, while longer range machines are on their way.”
Well there you have it, three opinions with three different viewpoints. Feel free to add your considered opinion using the comments section below. Or if you have a well detailed piece that will further enlighten our readers feel free to get in touch with us with a view to consideration for publication.
Motorcycle Test by Wayne Vickers – Images by Colin Rosewarne
Apparently, some stories just write themselves. On this one, I set out to give LiveWire a real world test, with the goal being to address what I see as the two biggest concerns that most riders have about electric bikes. Namely: range anxiety and the worry about what might happen if you get caught short and end up with a flat battery. As it turns out, I ticked those off on day one…we’ll get back to that in a bit.
At 50k the LiveWire is certainly a premium proposition
The Harley-Davidson LiveWire. Bit of a head scratcher really. Bought to you by the company that’s synonymous with a loud, bad boy image, it stood out on the showroom floor like a.. Well, like a silent, squarish looking matt black, grey and alloy electric bike amongst a bunch of chromed up cruisers. Of all the mainstream manufacturers, I don’t think anyone thought that Harley would be one of the first to market with an EV motorcycle. The marketing department must be going nuts trying to figure out how to fit this very square peg into the brand matrix… (actually turns out that the LiveWire brand is set to be separated from Harley – so that answers that).
The LiveWire and following models are to become their own LiveWire branded vehicles to separate them from the larger Harley-Davidson portfolio
If you haven’t read or heard about it, here it is in a nutshell: Harley’s first electric bike. That motor puts out 105 hp and 116 Nm and as we have all heard plenty of times about electric motors, all of that torque is available right off the bottom. Range is claimed to be 235 kilometres for urban usage with a minimum claimed range of 158 kilometres. It packs serious Showa suspension at both ends and Brembo monoblocs up front – and even though it’s pushing 250 odd kilos, it’ll silently chalk up 100 km/h in close enough to three-seconds dead. So it’s certainly fast enough… Full charge takes around 11-hours on a standard 240v plug, but apparently will get to 80 per cent in 40-minutes on a fast charging station.
Harley-Davidson LiveWire
After a quick walk around of the bike in the showroom, taking me through the basics including the startup process and ride modes I was let loose to tear up the streets. Quietly.
Setting off with close enough to full charge (97 per cent to be exact), I was told that I was likely to get 130 kilometres on the open road or 170 kilometres of urban riding, which is notably less than the claimed range incidentally… Worth noting that the range is higher for urban riding than highway use. It’s the opposite to combustion engines as the electric bike uses regenerative braking to recharge the battery on the go, which is more active around town. So with that knowIedge in mind, I set off on the 110 kilometre journey home.
LiveWire
Turns out, it rides fairly well. The riding position is described by Harley as sporty. And maybe compared to other bikes in their line-up it might be, but for non-harley riders… it’s really not… it’s actually perfectly comfortable and upright. Of the four modes (road, sport, rain and eco), I left it pretty much in Road mode. Other than a couple of minutes in sport mode to see if it felt much different I figured I’d get used to what most riders would probably run for the most part. The difference between road and sport was noticeable but not dramatic, with Sport having a slightly sharper throttle response and a decent step up in the regenerative braking effect, meaning less need for using the actual brakes. So much so that the bike flicks the brake light on when decelerating under regen. That’s clever.
Wayne enjoyed riding the LiveWire around town
Around town it’s fairly pleasant. Very easy to ride. Tips in ok, rides not at all unlike a conventional bike. And there’s no denying that straight line performance is very solid. Probably more described as ‘deceptive’ than any other word I can think of right now. Because there are no dips in power, or gears to snick through, acceleration is ludicrously linear. The power curve isn’t a curve at all. It’s a line. That translates to acceleration on tap, whenever you want it. But it’s not brutal or harsh or any of that. The throttle is beautifully soft and direct. Yes, it’s weird not to have a soundtrack, I personally think it does take away part of the experience – and I was more wary of that amongst traffic as I normally rely on a bit of exhaust note to help inform drivers that I’m there. So you’d just have to keep that in mind and ride even more defensively.
Another little aside – the traction control really doesn’t work on wet grass…as in, at all. As I found out while positioning it for some pics, once traction was lost (unintentionally fwiw) it very quickly accelerated the rear beyond where I expected it to and it threw mud positively bloody everywhere. You can probably see the aftermath of that in some of the pics. Which then got me wondering if the traction control worked from standstill at all… Ummm, not really is the answer. A little impromptu burnout got very smokey, very quickly. Now I’m not normally a burnout kinda guy, but it turns out that electric motors are really, really, stupidly good at burnouts. So that’s a thing. Makes sense when you think about it. No gears to worry about, just twist, smoke and giggle. Tyre bill might get a bit expensive though.
This was meant to be a little smoky but a lot of smoke happened very quickly!
Suspension, chassis and brakes are all ok. Steering is fairly slow and heavy and the suspension seemed overly firm as well – borderline harsh. And while there wasn’t anything specific I can point to – as a whole it didn’t really seem to come together for me. Bumps and surface changes are all felt more than they should be. The more I rode it the more it seemed at odds with what the bike is and is not. It’s not a sports bike. Doesn’t handle like one, nor have the range to make it to your favourite twisties and back… but more on that in a bit. So I dunno why it needs to be that firm.
The other call out worth mentioning here is that I felt it was a little resistant to tip in past say… 30 degrees? Not really noticeable around town, but when you actually wanted to get up it, it didn’t feel in its element. To the point where it felt like instead of being comfortable on its side, it was often wanting to sit up even on a constant throttle. I wonder if that’s something to do with gyroscopic forces of the electric motor spinning away? Not sure. But it didn’t feel like a natural corner carver.
Cornering is not its natural forte
One little ‘not so clever’ design element I came across was the indicator switches. Minor I know. While the left indicator is in the standard position on the left cluster the right indicator is on the right cluster… so you often have to adjust the position of your throttle hand in order to put the right hand indicator on. And almost every time I used the indicator I found it impacting the throttle. Considering this bike has no clutch, so your left hand is doing nothing most of the time anyway, I don’t understand why you’d do this. Keep your throttle hand free to focus on the throttle please.
I was told at the dealer to keep an eye on the speed on the dash, as it can be easy to lose track of what speed you’re doing. I didn’t find it to be much of an issue in traffic, but certainly without a prominent engine noise to subconsciously use as a reference, there was a couple of times I crept past what I thought I was doing out on the highway. Cruise control took care of that while I got used to it.
Harley-Davidson LiveWire
Another thing to note – I found the charger and key fob, both stored under the seat would rattle a bit on bumps and corrugations (which were felt pretty badly). I’d throw a cloth or something in there to stop it from moving about, but it probably should have some foam or something from the factory.
Once out of town, I noticed at about the half way to home mark that the projected range had dropped from 170 kilometres to about 90. No drama, only about 60 km to go, should be fine Wayno. It’s supposed to get 130…
Then once the battery dipped below the 25 per cent mark the expected range started taking a nose dive and doubt started creeping in. It was at about the 30 km from home mark, well after I’d passed the last quick charging point in Geelong, that I started to sweat on the range. I buttoned right off. Back to 80 km/h. It seemed to help. For a bit. Then I backed off further.
Shit.
I’m not going to make it.
Roughly six kilometres out from home I hit zero charge on the dash. But it kept going. A glimmer of hope! They’ve engineered a bit of extra into this like a reserve I thought. But that joy was short lived. About four kilometres to go it started cutting power even below the 40 km/h I was then sitting on. Low battery warnings had been flashing on the dash for a while now, but they were joined by a little turtle icon. I was officially in limp mode. At eight kilometres per hour. Wonder how long that’ll get me?
Turns out that Wayne didn’t have much charge in him either…
Turns out only about another kilometre. Then I was off the bike pushing with the slightest smidgen of assistance. Incidentally, it turns out my ‘pushing a motorbike speed’ is five kilometres per hour. I was within three kilometres of home. Then the hill came. I just wanted to get to the top of the hill. I think I can I think I ca.. And then everything shut down.
Computer says no…
Various colourful words were used.
I was proper cooked. That last two-and-a-half-kays pushing 250 kegs took a while. My wife was lovely enough to come down and help with the last kilometre. After she laughed and took some pics of my sweaty, red melon.
So, no. It won’t get you the claimed minimum distance. I got just under 108 kilometres on 97 per cent charge.
But that was only the start of the fun.
Once home, I pulled out the charger, plugged it in, whacked it in the top of the ‘tank’, to beginning the recharge. Giddy up. Or so I thought. I went back an hour later to check and it showed no change with the dash still blank.
Bugger.
Help me Google-wan-kenobi, you’re my only hope. Google dutifully informed me that the little light on the charger was supposed be pulsing when it’s charging. Mine was lit up solid. Hmm.. Further googling told me that there’s a secondary 12v battery that runs the low voltage electrics and manages the cooling system while the ‘main’ battery charges. And if that 12v one goes flat, the whole thing won’t accept charge.
Eh?
So a fully flat battery will leave you stranded and unable to charge via the normal plug. Who signed off on that as an acceptable system design?
Phone calls to the dealer – who were terrific for what it’s worth – confirmed that the secondary 12v battery would be the issue. It would require a lithium specific charger to be plugged into the secondary battery. But even that might not work as it might have gone into a safety shutdown mode. Running it fully flat might have even cooked the battery altogether… Brilliant.
The battery itself was easy enough to locate and get onto a charger. But no, it wasn’t playing along. Ergh. The workshop boys mentioned that they’d try to jimmy another battery onto it to trick it into accepting charge. So I got to work with my best bush mechanic skills. Paralleled another spare 12v battery I had in the shed and the dash came on! And then went off. Not enough juice.
So I charged up that spare (third) battery and put it back on as parallel and tried again. Still no joy. The dash would light up, but it wasn’t tripping the cooling system on, which it needed to do, to allow the main battery to charge. ‘I wonder what would happen if I put the charger on that third parallel battery while it’s all connected up’ says I, slightly concerned about the fact that lithium batteries can do funny things like trip into runaway heat cycles, catch on fire and burn a hole in your concrete floor. Oh well. In for a penny, in for a pound. Let’s give it a go. Hooked it all up, which looked like the nastiest hodge podge you’ve ever seen, and lo and behold.. The cooling system finally kicked into gear after a few minutes of false starts and a few jiggles of the main plug and toggling of switches.
We were in business. It was charging. I had a battery charger connected to a spare 12v battery, connected to the onboard 12v battery so that the low power system could run the cooling – which would then allow the main charger to charge the main battery. Simples!
Wayne had to get creative in order for the LiveWire to start charging
What a nightmare.
The lesson here would be – either don’t let it run fully flat if you have one… or – if you’re trying to replace a system where, when you run out of juice you just put more in and turn the key, then you need to make the new system just as easy. Especially when ‘just putting more in’ can take 11 hours.
Takes a bit longer than tipping some fuel into a tank…
Now I don’t doubt that electric bikes will be part of our future. I suspect they’ll probably be the saviour of dirt bike riding actually, with the absence of noise allowing dirt bike parks near built up areas. The Livewire is ok, in and of itself. It goes well enough. But range continues to be a serious road block and it turns out that you won’t always get the claimed minimum. It quite literally falls short.
One ride into Torquay for lunch and back on sport mode (36 km return, less than 40 mins riding in total), sucked 40 per cent of the juice which equated to a five-hour recharge to full.
Harley-Davidson LiveWire
So! Who’s it for? Well. I’d be hesitant to plan any weekend rides longer than 100 kilometres based on what I’ve seen, so that’s somewhat limiting. Sure, long trips can be done if you plan them out according to charging stations and are willing to wait at least 40 minutes once you get access to that quick charger. But are the charging stations where we actually want to ride? Well no.. they mostly aren’t. Not yet. Not for me anyway.
So that leaves it to folks living in town (which should also extend that safe minimum range a little further), who might be commuting less than 60 km to work and then home where they can whack it on charge overnight. Those who might like a quick little run over to a mates house, or to pop down to their favourite cafe for a coffee and some smashed avo. And those people have to be willing to drop 50 big ones on a bike with said limitations. If that’s you, and you’re an early adopter type person – definitely check it out. Certainly the performance of the motor shows the potential of things to come.
For me personally, I’d need the range to be at least double what it currently is. I can’t even get to my office from home (110 km), let alone there and back…
Harley-Davidson LiveWire
Harley-Davidson LiveWire
Why I like it
On road performance is more than adequate, it goes bloody well
Incredibly linear power delivery is remarkable
Nice enough manners around town, easy to ride.
Turns out it makes a pretty mad burnout machine if that’s your thing!
I’d like it even more if…
Being able to charge the system when flat might be a nice touch… At the very least, if it’s a known limitation, put an easily accessible charge plug for the secondary 12v battery.
Range is a show stopper. Literally. <110kms from full for me on a mix of urban and highway!
Steering and suspension unnecessarily firm – would benefit from being more accommodating
Harley-Davidson LiveWire
Harley-Davidson LiveWire Specifications
SPECIFICATIONS
EV SPECIFIC CONTENT: MOTOR
Torque
86 ft-lb
RPM max
15,000
Type
Internal Permanent Magnet Synchronous Motor with Water Jacket cooling
All LED, low beam, high beam and signature position lamp
Lights (as per country regulation), Tail/Stop
LED with light pipe tail
Lights (as per country regulation), Front Signal Lights
LED
Lights (as per country regulation), Indicator Lamps
High beam, turn signals, ABS, traction control, EV fault
Lights, Rear Turn Signals
LED, Amber
Gauges
4.3” WQVGA 480×272 TFT Color Display with Ambient Light Sensor, 9 warning lights, Real Time Clock and Integrated Bluetooth Connectivity to a Smartphone to provide infotainment features including turn-by-turn navigation, telephone, music, and voice recogni
While the likes of Ducati and MV Agusta are releasing news of E-Bike partnerships and products more akin to bicycles, a few hours further north the Germans are readying to release a new EV motorcycle platform in the first-quarter of 2022 when the new BMW CE 04 arrives to spearhead BMW’s electromobility strategy for the urban environment. The new EV scooter will be priced from $20,350 +ORC.
BMW CE 04
The CE 04 is a production ready model that has its origins in the BMW Motorrad Concept Link originally showcased in 2017 followed by the Definition CE 04 prototype first unveiled in 2020.
BMW CE 04
The newest member of BMW’s zero emission fleet features electric drive, modern futuristic design and innovative connectivity solutions.
BMW CE 04
A maximum output of 31 kW (42 hp) propels the CE 04 from 0 to 50 km/h in 2.6-seconds. A reduced output version will be available in some markets where the L3e-A1 vehicle class attracts reduced licencing requirements.Both versions will be suitable for highway use with a maximum speed of 120 km/h.
BMW CE 04
The new BMW CE 04 has a battery cell capacity of 60.6 Ah (8.9 kWh), providing a range of 130 kilometres (reduced output version: 100 km).
BMW CE 04
The new BMW CE 04 has a permanent magnet electric motor mounted in the frame between the battery and the rear wheel, as used in a similar form in BMW cars such as the 225xe Active Tourer.
BMW CE 04
The lithium-ion battery is charged using the integrated charging device either at a regular household socket, a wallbox or a public charging station. When the battery is completely flat, charging time ideally lasts 4 hours and 20 minutes. With the quick charger available as an optional extra with an output of up to 6.9 kW (2.3 kW is the standard level), charging time is reduced to just 1 hour and 40 minutes when the battery is completely flat. If the battery level is only 20 per cent and the battery is charged to 80 per cent, the charging time is reduced to just 45 minutes with the optional quick charger. Depending on the market, the standard charging cable with a charging capacity of 2.3 kW comes as standard with the BMW CE 04.
In the same way as with BMW automobiles, BMW Charging solutions are also available for the BMW CE 04 for charging at home, on the road and at work.
A traction control system is available on the new BMW CE 04 and is comparable to the Automatic Stability Control in BMW motorcycles with combustion engines. ASC limits engine torque in relation to rear wheel slip. Dynamic Traction Control (DTC), available as an optional extra, provides even greater riding safety. DTC enables even more safe acceleration, especially in banking position.
BMW CE 04
The new BMW CE 04 features the three riding modes “ECO”, “Rain” and “Road” as standard. The additional “Dynamic” riding mode is also available as an ex works option, enabling the scooter to accelerate at an even swifter pace. Different braking energy regeneration levels are present dependent on the riding mode that is selected.
The main frame is a tubular steel construction. The front wheel is controlled by a telescopic fork with a slider tube diameter of 35 mm. Rear wheel control consists of a single-sided swing arm. At the rear, suspension and damping are performed by a directly controlled, fully covered spring strut. The new BMW CE 04 is fitted with generously sized tyres, with 120/70 R15 67H at the front and 160/60 R15 56H at the rear.
BMW CE 04
At the front, a twin disc brake ensures secure deceleration, supported by a single-disc system at the rear. In addition, BMW Motorrad ABS ensures a high level of active safety. ABS Pro, available as an optional extra, goes even further: By means of a banking sensor, ABS Pro also controls braking on bends, thereby offering the greatest possible safety.
BMW CE 04
The new BMW CE 04 comes fitted as standard with a 10.25-inch TFT colour screen with integrated map navigation and connectivity. The screen makes it possible to display a navigation map within the instrument cluster.
As you would expect LED lighting is employed across the machine and an adaptive turning light Headlight Pro will be available as an ex works option.
BMW CE 04
The modern surface finish is in a striking Light White, complemented by matt black sections in the front and side areas as well as the “floating” seat. The rims feature a disc-wheel look. The new BMW CE 04 in Avantgarde Style (ex works option) appears in Magellan Grey metallic is supplemented with a black/orange seat, an orange wind deflector and various graphics.
BMW CE 04
BMW CE 04: $20,350* Standard specification
Liquid-cooled permanent magnet electric motor
30 kW (42 hp) output
62 Nm torque
8.9 kWh air-cooled lithium ion high voltage battery
Comfort Package (Heated Grips and Backrest Comfort Seat)
Seat Heating
Tyre Pressure Control
Centre Stand
LED indicators
LED headlight and taillight
10.25-inch TFT display
Ventilated mobile phone charging compartment
USB-C charging port
Front and side storage compartments
Light White paint
Options
Backrest Comfort Seat II: No cost option (note: recommended for riders above 190cm tall)
Windshield High: $140
Anti-theft alarm system: $375
30A Quick Charger: $1,330
BMW CE 04 Avantgarde: $20,690*
Includes all standard specification from the CE 04 and adds the following:
Windshield High
Magellan Grey Metallic paint
Options
Backrest Comfort Seat II: No cost option (note: recommended for riders above 190cm tall)
Anti-theft alarm system: $375
30A Quick Charger: $1,330
*Recommended Retail Pricing is shown and includes GST, but excludes on-road costs. Customers are advised to contact their nearest BMW Motorrad dealer for all pricing enquiries.
EMoS is launching a new Wyld chopper style e-Moped this week to coincide with World Electric Vehicle Day.
EMoS Wyld
EMoS have received Australian full volume compliance approval for its chopper styled bike they refer to as an e-Moped and have given the model name Wyld.
This new single seater combines the last or first mile urban mobility with the appeal of motorcycle related styling.
EMoS Wyld
By the look of those square shouldered tyres it might not be the most nimble urban commuter but the vehicles classification will allow it to be ridden with a normal car drivers license in QLD, SA, NT and WA.
The speed is limited to 50 km/h to satisfy the legislation requirements that permit car licence holders to ride the vehicle.
CEO and co-founder Harry Proskefallas
“Our philosophy has been from the start to be “different”, we want people to turn their heads for our vehicles, we want them to be excited about the form and the function and to make a statement for electric vehicles and that is the same for the WYLD which was “Born to be WYLD”.
EMoS Wyld
EMos Wyld Specifications
Motor 60V 2000W / 60V 1500W
Battery Removeable; 60V12Ah, 20Ah, 30Ah
Range 60-80km
Max Speed 50 km/h
Load Capacity 200 kg
Rims 12-inch
Brakes Discs
Suspension Rear Twin Shock
Suspension Front Forks
Weight 74 kg without battery
Price – $2999 with base motor and battery
EMoS Wyld
Who is EMos?
EMoS is the recently rebranded company formerly know as e-Motion Concepts Pty Ltd. EMoS claim to be the premier Australian light electric vehicle provider, with the largest portfolio of electric road registerable for urban transport of people and goods, ranging from the 3 wheeled Personal Mobility Device (PMD) iLARK to the cargo carrying three wheelers CT-KARGO and the CT-KUBE. The Wyld is another first of its kind in Australia for EMoS and continues and complements our “out of the box” thinking increasing electric vehicle portfolio, with another three exciting vehicles in the pipeline.
Yamaha’s YDX Torc e-mountain bike has a quick, nimble XC feel and a powerful battery/motor combo that will leave you feeling like a hero. Photos by Mark Tuttle.
As motorcyclists, we probably know Yamaha best as a manufacturer of two-wheeled vehicles powered by the good old ICE (internal combustion engine), but the tuning fork company was also a pioneer in the development of another form of two-wheeled transportation: electric-assist bicycles, or e-bikes. It created its first prototype e-bike in 1989, and has sold more than 2.5 million electric bicycles since then. As one of the few manufacturers of the electric drive motors themselves, Yamaha also supplies other bicycle makers with powertrains (including Giant, the world’s largest bicycle manufacturer – read our review of its Liv Thrive e-bike here), with 4.5 million and counting Yamaha-built drive units sold worldwide so far.
While the rest of the world (mainly Asia and Europe) have been riding the e-bike wave for a while now, Americans are only just recently figuring out how much fun they are, and in 2018 Yamaha began selling e-bikes in the States. Today it offers five e-bike models, one of which is the hardtail mountain bike dubbed the YDX Torc.
The Torc has five power assist settings, ranging from the barely-there ECO+ to “holy cow, I’m a superhero” EXPW.
Jenny’s Gear Helmet: Liv Infinita SX MIPS Jersey: Marmot Gloves: Fly Racing Shorts: Troy Lee Designs Shoes: Five Ten Knee Armor: G-Force
As e-MTBs go, the Torc bears more resemblance to a standard mountain bike than some other competitors. It has a Yamaha designed and built aluminum frame with a low stand-over height, the 500Wh battery clipped onto the bottom tube rather than fully integrated, and it rolls on 27.5-inch wheels with rather standard 2.25-inch-wide tires (as opposed to the fat 2.6-inchers found on many competitors’ e-MTBs). In fact, as a 20-plus-year mountain biker my first impression upon hitting the trails on the Torc was how much it felt like a regular bicycle. With its 120mm Rock Shox Recon RL fork and XC-style geometry it felt quick and nimble, especially on smooth, tight single-track, where I could flick it through transitions before powering out with as much electronic assist as I wanted.
The Torc is equipped with Yamaha’s new PW-X motor, which is rated at 250W of nominal power (500W max) and 80Nm (59 lb-ft) of torque, assisting up to a cadence of 120 rpm. As a Class 1 e-bike, the motor provides assist up to a maximum of 20 mph. Yamaha says the battery and motor together account for 13.4 pounds of the Torc’s 46.7-pound total, which supports my seat-of-the-pants assessment; subtracting the battery/motor weight puts the Torc solidly in regular MTB territory weight-wise. There are five levels of assist (plus off): ECO+, ECO, STD, HIGH and EXPW, controlled by two large buttons on the left grip that are easy to use even with full-fingered MTB gloves on. A small LCD indicates the selected mode, battery life remaining, real-time motor assist and switchable info like speed, tripmeter and cadence. Components are quality Shimano SLX, including the 180mm front and rear hydraulic disc brakes.
LCD is on the small side and can be tough to read in direct sunlight, but you’ll probably be too focused on the trail ahead to worry about it.Power assist settings are controlled with two large buttons that are easy to use with gloves on. Remote fork lockout switch sits just below.
The Torc uses a proprietary speed sensor that’s integrated into the rear hub, rather than the conventional magnet system used by competitors, for instantaneous response and a seamless feel from the motor. I spent most of my time in ECO or STD modes, as I ride for the workout as much as for the fun, and while it’s very clear the motor is helping I never experienced any annoying surging that might interfere with a technical climb. That said, as a hardtail the Torc is prone to bouncing around a bit over rocky terrain, and I derived the most enjoyment out of it when flying along smooth, flowing single-track and whipping through transitions, the edges of the fairly aggressive Maxxis Ardent tires biting confidently into the dirt. The fork has a remote lockout at the left grip to increase efficiency on pavement, for example when cruising around town or, if you’re lucky enough to live close to some trails, when pedaling to the trailhead.
After spending more than a month with the Torc, my impression is that it will appeal to those new to mountain biking, but also to those who have experience on regular MTBs, especially hardtails, and who are ready to dip a toe into the wonderful world of e-bikes. And with the Yamaha name backing it up – along with a 3-year warranty on the frame, motor and battery – buyers can rest assured they’ve got a ride that will go the distance.
Hammering smooth, flowy single-track is where the Torc shines.
Yamaha YDX Torc Specs
Base Price: $3,499 Website:yamahabicycles.com Motor: Yamaha PW-X Battery: Yamaha 500Wh, 36V lithium-ion Sensors: Triple Sensor System with integrated speed sensor in rear hub Display: LCD with LED power assist level indicator, remote control Charger: 4-hour charger
Components
Handlebar: Alloy 20mm riser, 31.8 x 730mm Stem: Yamaha Alloy, 31.8 x 60mm Seatpost: Alloy Saddle: Yamaha Plus Cro-Mo Rails
Frame: Yamaha Hydroformed aluminum Fork: Rock Shox Recon RL, 120mm travel, remote lockout Wheels: Yamaha Hubs: TA front/Shimano rear Tires: Maxxis Ardent 27.5 x 2.25 Colors: Quicksliver/Team Yamaha Blue, Flat Black
Warranty
Frame: 3 years Electrical Equipment: 3 years
Unlike most competitors, Yamaha engineers its e-bikes as a complete package (rather than competitors which must purchase a motor and battery, then design the frame around them).
The Thrive E+ EX Pro is part of Giant’s Liv brand, the only major industry brand to cater specifically to women. An identically-equipped men’s version of this bike called the Fastroad E+ EX Pro is also available. Photo by Mark Tuttle.
Electric-assist bicycles, or e-bikes, are hot right now. They’re like regular bicycles, but more fun: a small electric motor kicks in when you pedal, providing an extra boost to your efforts. They’re also a natural crossover point between bicycles and motorcycles, which is why we’re starting to see some familiar names — Yamaha, BMW, KTM and Kawasaki, for starters — eyeing the market, eager to take advantage of explosive e-bike growth in the face of stagnant motorcycle sales.
From the other direction, bicycle manufacturers are already ahead of the game, with nearly every major player offering its own lineup of e-bikes. This includes Giant, the world’s largest bicycle manufacturer, which built its first e-bike way back in 1999 and has been perfecting the technology ever since. Giant is no stranger to our side of the two-wheeled life — it’s partnered with well-known riders like four-time 500cc Grand Prix World Champion Eddie Lawson and motocross champion and multiple-time X-Game gold medalist Travis Pastrana as brand ambassadors — and, for the first time ever, it’s exhibiting its e-bike lineup at all of the 2019-2020 Progressive International Motorcycle Shows. It’s a smart move on Giant’s part, and a fortuitous one for us.
Given e-bikes’ crossover appeal and potential to bridge the gap for beginning motorcycle riders — it’s easier to handle an electric-assist bicycle than a 400-plus-pound motorcycle — we figured the time is right to do our first Road Test Review of an e-bike. We chose the new-for-2020 Thrive E+ EX Pro, built by Giant and sold under its Liv brand (which happens to be the industry’s only major brand dedicated to female riders); a men’s version called the Fastroad E+ EX Pro is also available. This sleek machine is bicycling’s version of something like a Ducati Multistrada or BMW S 1000 XR: it’s fast — as a Class 3 e-bike its motor provides assistance up to 28 mph — it rolls on road-oriented but ready-for-anything tires, and it has built-in front and rear fenders to control rain splash and pebbles, a headlight and taillight and a rear luggage rack that’s ready to accept optional panniers. For someone looking for a first experience on (semi) powered two wheels, or who’s looking to replace a car trip or three, the Thrive and Fastroad are game changers.
The Thrive E+ EX Pro comes with nearly everything you need to crush a commute or replace errands in your car: a headlight, taillight, front and rear fenders and a rear luggage rack. Photo by Mark Tuttle.
The appeal of an e-bike over a standard bicycle lies chiefly in the way it opens up opportunities — you’ll get less tired, which means you can ride farther and are not a sweaty mess when you get to where you’re going, and it’s impossible to overstate how much fun it is to ride. When people ask me what it feels like, I say that it’s like a normal bicycle, but with an invisible hand gently pushing you along. Or a monstrous and perpetual tailwind that doesn’t blow dust into your eyes and never surprises you with a gusty crosswind.
The Tech
The Thrive E+ EX Pro looks like a regular, modern bicycle at first glance, and cyclists amongst our readership will recognize its quality components: Shimano Tiagra shifters, GRX RX400 rear derailleur and BR-MT200 hydraulically-actuated disc brakes, and Kenda Kwick Seven.5 tires with reflective taping on the sidewalls that gives a cool “Tron” effect and increases nighttime visibility. The frame and fork are Giant’s ALUXX SL aluminum, designed specifically for female body geometry. (The Fastroad E+ EX Pro is identically equipped, but with a men’s frame.)
Providing the electric boost is a Yamaha-powered Giant SyncDrive Pro motor that generates an impressive 59 lb-ft of torque, with a 375Wh EnergyPak lithium-ion battery cleverly integrated into the downtube so as to be nearly invisible. The battery can be charged either on or off the bike via the included 6A Smart Charger, which can achieve 80% charge in just 1.4 hours and doubles as a battery maintainer for storage.
The SyncDrive Pro electric motor is a large part of what sets the Thrive apart from lesser competitors. It’s not only smooth, quiet and powerful, but Giant’s proprietary PedalPlus software gives it a fluid, intuitive feeling that won’t intrude on your pedaling experience. Plus, it’s built by a name we know we can trust: Yamaha. Photo by Mark Tuttle.
The SyncDrive Pro is Giant’s most powerful and sophisticated motor, with tunable support ratios (how much assistance the motor is giving you in each mode) up to a maximum of 170 rpm — in human, not ICE terms, that’s fast, more than two pedal revolutions per second. The brain behind this is Giant’s PedalPlus 6-sensor Smart Assist technology — think of it like the IMUs in our motorcycles that use input from various sensors to provide optimal ABS, traction control, throttle response, wheelie control, etc. The PedalPlus uses six measurements: torque (pedaling input), bike speed, pedal cadence, slope (i.e. pitch; how steep of a hill you’re climbing), acceleration/deceleration and lastly, the internal rotation and operation of the motor itself, to deliver smooth, optimum power. Response is instantaneous and fluid, a noticeable improvement even from the PowerPlus 4-equipped Giant e-mountain bike I borrowed for a Woman Rider story in 2018. It feels like riding a regular bike, but with more “oomph” and all of the grins.
Just like a motorcycle, the Thrive E+ EX Pro sports a backlit LCD instrument called RideControl EVO that displays battery charge, ride mode and speed, and switchable odometer, tripmeter, range to “empty” and cadence. It’s controlled by switchgear on the left grip, where two large arrow buttons run you through ride modes: Eco, Basic, Active, Sport and Power, plus an Auto mode that automatically selects the ideal mode using the six PedalPlus sensors, and Off. The display can be dimmed for night riding and the head/taillights turned off, and there is even a “walk mode” that propels the bike alongside you while walk — useful for pushing it up ramps or into the bed of a truck should the need arise.
The RideControl EVO display shows battery level, speed, ride mode and switchable tripmeter, odometer, cadence and range. Notice I still had 45 miles to go with nearly three-quarters remaining on the battery. Photo by Mark Tuttle.The display is controlled by left switchgear; the two arrows move you through the ride modes, and the power button is also located on this switch. The bike will turn off automatically after sitting still for a while to conserve the battery. Photo by Mark Tuttle.
Also, just like a motorcycle, the display isn’t just for riding data anymore. RideControl EVO allows the rider to connect an ANT+/Bluetooth heart rate monitor, and the system will automatically adjust pedal support to reach and maintain a desired heart rate. It also connects to your phone via Bluetooth and Giant’s RideControl app, enabling turn-by-turn on-screen directions via bike-friendly routes; allows you to tune and customize pedal support settings for each mode; and displays incoming messages, calls and emails. Lastly, the app ties into the heart rate monitor function for tracking and maximizing fitness goals and viewing post-ride stats.
The Thrive’s riding position is comfortably upright and neutral, and doesn’t place a lot of weight on the rider’s hands. Photo by Mark Tuttle.
The Ride
Fitness is a happy byproduct of e-biking for me; I wanted to test the Thrive E+ EX Pro primarily as a commuter and errand-runner. I live in a city with numerous bike lanes and paths, and since the majority of my in-town car (or motorcycle) trips are less than five miles I was able to replace nearly all of my driving with e-biking.
Giant loaned me a set of removable panniers ($79) that snapped easily onto/off the Thrive’s rack, and each side easily held a large bag of groceries or my gym bag. The panniers have a semi-rigid structure that holds its shape and makes it easy to load/unload, and each side has a special hook-and-loop strap to hold a spare EnergyPak battery. I also used the Thrive to commute to work, leaving our 2020 Suzuki Katana tester looking rather forlorn in my garage. Commuting by e-bike obviously takes a bit longer than using a car or motorcycle, but the fresh air felt quite nice, and I quickly learned to find the balance with the bike’s power modes that gave me just a bit of exercise without walking into the office feeling sweaty.
The water-resistant Giant panniers were large enough to easily swallow bags of groceries and my gym bag. Photo by the author.
The vast majority of my riding time was spent in Eco mode (the lowest), which in stock configuration delivers 100% of your pedal input (doubles your power), and I found it to be more than enough for cruising around mostly-flat Camarillo. When approaching a hill, I’d downshift a gear or two and bump it into the next-higher mode, grinning as the invisible hand pressed against my back to help me up the incline. Only when climbing the long, steep hill to my driveway would I use the third mode, and even then only if I was tired. In the highest two, it almost would’ve felt too easy! The SyncDrive Pro’s instantaneous power delivery meant I could launch from traffic lights with enough speed to keep up with the car next to me until we were both through the intersection, and it was nice knowing that power was there if I needed it.
Given my size, riding style and terrain, I was able to get a lot from the Thrive’s battery in terms of range. Giant claims a maximum range of about 68 miles, which is a lot of 5-mile trips for me! The nice thing about an e-bike (as opposed to an e-motorcycle) is that, as long as you can carry the charger with you (which I did, in the Thrive’s panniers), charging it is just a matter of pulling the battery, taking it inside with you and plugging it in. Alternatively, you can leave the battery installed and plug into the bike itself, as long as it’s close enough to an outlet. It’s also possible to carry extra batteries, as noted above, or to upgrade with an EnergyPak Plus to extend your range.
The Thrive is equipped with a headlight and taillight, greatly increasing visibility. In fact, in my city it is technically illegal to ride in on-street bike lanes without lights. Photo by Mark Tuttle.
Everything else about the Thrive was top-notch. Shifting action through the 10 Shimano gears was smooth and positive, and the hydraulic disc brakes provided strong stopping power with just one finger on each lever without a hint of grabbiness. Fit and finish overall is outstanding, down to the satin paint finish and the smooth frame welds. It cruises at speed with stability, the wide Kenda tires helping to absorb some of the bumps transmitted through the stiff aluminum frame, and the occasional dirt or gravel road is no problem. The frame geometry and flat handlebar put me in a neutral riding position that gave me a commanding view and allowed for easy weight transfer back and forth during longer rides. The installation of an aftermarket rearview mirror into the end of the left grip was all I needed to make the Thrive E+ EX Pro a darn-near perfect urban warrior.
I added a bar-end mirror ($15 at my local bike shop) for increased situational awareness on the road, but otherwise the Thrive is commute-ready right off the showroom floor. Photo by the author.
Don’t worry, I’m not giving up motorcycles, but I have to admit that thanks to my two weeks with the Thrive I might be developing an alternate two-wheeled addiction. It’s fun, it’s good for me (and the environment), it reduces traffic congestion, it’s a great way to crosstrain as a motorcyclist and it’s another way to enjoy two wheels. Consider me an e-bike believer.
2020 Liv Thrive E+ EX Pro/Giant Fastroad E+ EX Pro Specs
Base Price: $3,500 Website:liv-cycling.com/us/ and giant-bicycles.com/us/ Motor: SyncDrive Pro (built by Yamaha) Battery: EnergyPak 375, 36V lithium-ion Sensors: PedalPlus 6 Display: RideControl EVO, remote button Charger: EnergyPak 6A Fast Charger
Components
Handlebar: Giant Connect XC Riser 31.8 x 640mm Stem: Giant Contact Seatpost: Giant D-Shape, aluminum Saddle: Liv Sport
An e-bike built by Giant under its Liv women-oriented brand. This model, the Thrive E+ EX Pro, comes with a head light, taillight, front and rear fenders and a rear luggage rack. Photo by Mark Tuttle.
It’s official: e-bikes (bicycles with a small electric motor that kicks in to assist the pedaling action) are a thing, and they’re here to stay. According to the most recent (2017) study from market research firm NPD Group, the U.S. bicycle market is a $5.9 billion/year industry, and e-bikes represent $77.1 million of that, up 91% over the previous year. Sales grew more than eightfold since 2014, and seem to be showing no signs of slowing. Contrast that with the stagnation we’ve been seeing in the motorcycle industry recently…we’ll revisit that in a moment.
E-bikes appeal for a variety of reasons: they make pedaling easier, which means you can ride farther and arrive less sweaty. They open up a whole new world to those who aren’t already well-conditioned riders and, most importantly, they’re fun. But what does all of this mean to those of us more accustomed to turning a key and twisting a throttle?
Well, e-bikes are an obvious and natural crossover point between our motorized world and the human-powered world of bicycles. In 2018, we posted a story on our womanrider.com site that made a case for riding a bicycle as a way to cross-train and improve the skills we need as motorcyclists — balance and leg strength — and increase our fitness at the same time.
Back then we reached out to Giant, the world’s largest bicycle manufacturer, which happens to have its North American headquarters just 15 minutes away in Newbury Park, California, to borrow one of its e-bikes for the story. Now here we are, nearly two years later, and Giant has taken the…ahem, giant…step of exhibiting its line of e-bikes at all of the 2019-2020 Progressive International Motorcycle Shows. It’s a smart move for them and a fortuitous one for us. It’s no secret that the motorcycle industry’s future survival depends upon new riders, an infusion of fresh blood — and the rapidly growing e-bike market might be exactly what the doctor ordered.
Let’s consider from a prospective new rider’s perspective: we’re curious about motorcycles and all they entail — fun, exhilaration, new friends and social circles, perhaps consideration for a reduced environmental impact and being #onelesscar — but we’re not sure we’re ready to jump headfirst into that world. Motorcycles are powerful and require special licensing and a whole new wardrobe of protective apparel. There’s the insurance to buy and you gotta have space to park it safely out of the elements and away from prying eyes.
But you already know how to ride a bicycle. In fact, there’s one in your garage right now. Your city painted designated bike lanes a few years back, and when you think about it, your daily commute to work is only eight miles. That sounds like a lot…until you consider the possibility of an e-bike.
We’re not pulling all of this out of thin air; according to the AAA, more than 50% of all car trips are shorter than 10 miles, and the average is 5.95 miles. And a March 2018 survey of nearly 1,800 e-bike owners found that 94% of non-cyclists rode daily or weekly after buying an e-bike. Among those who already owned a bicycle, the number riding daily or weekly jumped from 54% to 91%. In addition, survey respondents reported that they’d replaced 46% of their vehicle commutes and 30% of vehicle errands with the e-bike; 28% bought one to replace a car entirely.
The way we see it, getting people out of their cars and accustomed to going places on two wheels — especially if those wheels are powered somehow — is a logical way to bridge the gap to motorcycle ownership.
