Why don't more electric bikes have regen brakes?

there is a plus about regen brakes that was not covered: it may not contribute much to the recharge cycle BUT it extends the lifespan of your brake pads.

Best thing about regen braking is the reduced wear on your brake pads.

I'm currently running with a Grin Technologies Gmac 10T motor. It does regen braking, has a virtual freewheeling feature in the controller (so it feels like normal freewheeling), and is a geared motor. I usually gain back around 8-11% of my ride depending on my riding style and haven't had to engage my brakes in any meaningful way in months! Oh, and I can use the throttle to modulate how much regen braking is going on. I have it start at 50% braking and can crank it to 100% with the throttle as needed. It seriously is the best of both worlds! I love this motor!

Using a heavily weighted cargo bike with regen breaking has saved many many sets of brakes.

The best part of regen is that it can be used for ABS on the back wheel, it stops it locking up when leaning on the front brake, this stops the back end of the bike skipping side to side and trying to overtake the front wheel. i only use the front brake now unless im pulling a heavy trailer. since the regen force is more than enough for the back when normally using the front brake.
next benefit is for pacing down hill without cooking the brakes it works even better with a heavy trailer.

My favourite thing about regenerative braking on my electric scooter is controlling speed with the throttle and not touching the brakes.

the only reason I have regen is to extend the life of my brakes

Cool part about regen braking is braking part, not regen. In very powerfull e-bikes it open posibility to make real abs-brakes. It is a lot easier to make driver that brakes with the motor itself than with some wierd, complicated contraption involving actual brakes.

I can agree on regen giving little on flat roads, but where I live there is more up/down than flat. Would be nice to save breaks and energy going down.

Regen braking on human-powered vehicles is, and will remain, a controversial subject. I personally think it's a great idea on tadpole-style recumbent e-trikes and cargo e-bikes, not because it helps recover power - though in those more mass-intensive applications it does make more sense - but because it helps you save money on brake pads in the long run.

Did I overhear it or didn't you mention saving breakpads? that d be the biggest advantage for regenbraking in my book.

Nice video. I have an ebike touring company. I have 8 Bionx 500D (NORCO frame). In addition to 6 Specialized Comos. The regen mode on these bikes is fantastic. My routes are very hilly and I have had customers who have returned from an 18 mile tour with the battery fully charged!!! Very efficient. Bottom line is that because motor efficiency and range are such that it isn't needed. Not sure what you are talking about regarding coasting on my Bionx ebikes, I have in shape riders who ride without assist, turning the motor off. I haven't tried any other regen ebikes so I have nothing to compare my experience with. Anyway, this is my experience with over 3,000 riders on tours with the ebikes I have.

I have a slightly different idea for regenerative/generative braking, that means Not just generating when braking, but also charge the battery by pealing as much a rider wants or can. that way if you running out of charge on the battery then you can charge the battery by pedaling for some times and then use the energy when you are tired, that way a good physical exercise for the rider and saving time on the hills! Can you understand what I trying to say here? So, in order to do that I would put the trigger on the OFF position of the thumb control or twist control line, so when you are NOT give power AT ALL you have an option to pedal on low gears to ride and charge at the same time, and a switch to turn charging on or off completely... so that way if the forward resistance when charging will be gone when you want to JUST ride pedaling. Makes sense? This way has another advantage that you can charge the batteries a lot even fully... if you give enough pedaling and RPM to the wheels.

Just getting into ebikes and have learned a lot from watching your videos. Watching your older videos is very informative. Thank you for contribution to ebikes.

I typically get over thirty percent regen but my last ride was 55.5%. I rode over 20 miles and returned home with more in the battery than I left home with. Plus it does save the brakes.

I was actually searching youtube for “ebikes with regenerative braking” when your video was listed as one of the search results.
my interest in regenerative braking is not for how much energy i can store into the battery through the electronic/regenerative braking system, but rather i prefer both the feel of regenerative braking, and i like that regenerative braking greatly extends my brake pads lifespan, exponentially (many times the original lifespan)
when i reached out to several different ebike companies asking if they offer any of their model ebikes, with regenerative braking, they all said the same thing, “this is the number one request we get from customers and ebike shoppers(people in the market for a new ebike)
i have several scooters with regenerative braking (dualtron storm, dualtron thunder, and many more) all of which coast very well, when not accelerating, and not braking.
i am considering installing the motor controller and all related electronics (and motor as well, if needed) from one of my scooters (equipped with regenerative braking) and installing this into my ebike.
this is an experiment, and i enjoy very much, learning from experimentation.
my 2012 toyota hybrid has regenerative braking as well as the traditional braking system with friction brakes. i always employ/engage and maximize the electronic regenerative braking system which permit me to only change my brakes once, in six years, compared to once or twice each year with my previous automobile, which was not equipped with electronic regenerative braking (same miles/distance driven with each automobile)
its also exciting to think of how engineers practicing the moto “there is always another way” shall continue to develop and solve this challenge of reducing drag to electric motors/generators, and maximizing efficiency of motors/generators.
great video!
great work!
thank you!

I'll take smooth coasting over regenerative braking.

You missed out on the point that Regen also saves on brake pads! Also the savings can far exceed 10% if you regularly go on a route that has a down hill and uphill where you need to slow down for safety on the down hill and the regen can not only help you do that without wasting brake pads but save that downhill energy for when you go up hill again. Lastly if you want to turn your bike into a dual renewable energy wind turbine you can only do it with regen braking by turning the bike upside down then adding in the wind blades into the wheel spokes section and then engaging the brakes slightly to recharge your battery with wind power.

You could possibly add regenerative braking with additional circuitry that regulates the voltage. And to deal with the rather high spikes of current, a supercapacitor bank could be used to deal with the sudden amounts of current. While then the power returns more slowly back to the battery

2:24 isn't that resistance part of the point? i mean that's basically you charging the bike?

I agree with you on regenerative braking. The only reason I would see a practical use would be bike touring. You also have to think about regenerative braking placing extra stress on the bike frame when implemented. Another positive issue with regenerative braking is most systems have a safety That does not allow you to charge your battery when it is above 75% so you do not have to worry about overcharging your battery. I get much more efficient charging by placing 2 flexible 40W solar panels, one on my front fender and one on the back fender. This way I get a much less of an increase in wind resistance. I live in Arizona so I get a great constant trickle charge through a voltage regulated buck converter to my batteries. I get an estimated 7 to 10% range increase depending on the usable sunlight. I did try regenerative braking on my front motor with an updated voltage controller and a second battery, but I really never noticed an improvement In battery storage, I think that was more related to the environment I ride in having very few downhill routes. Anyway I like your DIY battery Book, Thanks for the video.

I have a high power ebike (2kW). Can go pretty fast. For me, regen braking is a must! I don't even care about the "Regen" part. The real reason I use it is for Braking power. It's a safety feature for me. It helps a lot when braking from 40mph, and riding alongside traffic. Not sure about this, but I would say the motor does more than 50% of the braking overall. Plus, it is instantaneous. The moment you touch the brake lever, all that braking power kicks in.

We just moved house to a more mountainous area with steep hills to climb and decend. I just tried my new GMAC (locked clutch, geared) motor and Grin controller with regen, yes both cost quite a bit to import, complicated to set up, but the regen seems to work very well here, hardly any battery voltage drop when I go to the shops a few km away, nice to have another form of braking to take the stress off my existing brakes too, such steep hills here.

My take on this question - based on something I read probably 15 years ago - is: regenerative braking adds a lot of complication. If you want more range, get a second battery.
This kind of advice doesn't work for a car, because the heaviest thing in an electric car is the battery. The heaviest thing on an electric bike ... is the rider.

Being in the EV (car) you did a great explanation and above all, you pin point the difference between each system. Thanks

Thanks, good video.
Just a couple of points, about my experience of 6 years and 30,000 km with a Kalkhoff with Albert Xion hub direct drive motor and rege in braking:
1) I do not perceive any friction if costing,
2) and something very important: practically, I do not spend brake pads, no brake maintenance. Another important point regarding the central motor, is that in hub motor's, the chain suffers less (risk of breakage, and you can continue your journey by motor w/o pedals...), and the chain has a 3 times more life.
Thanks & Regards 👍

but when you consider replacing your brake pads every few days if you do a lot of downhill and pulling loads regen is great for.

Regen is pretty cool, and as an added benefit; stronger legs from fighting the friction!

Great explanation thanks. Mountain bike tours are 2-3 hours up and 1 hour down hill and this will eat up brakes quickly which is quite some costs. So for mountain bikes I still believe even a few km more will be of advantage. Sometimes I even have to charge the battery during a longer MTB tour and if this could be bridged by regen braking would be cool.

Micah, thanks for the details. To close the loop, what does the regen cost over a standard set up? If the bike without cost $1,000 would the regen option add $250 to make it $1,250 or is it more?

The cons outway the pros for sure. You opened up my eyes. Thank you.

It's funny how many people think their subjective experience and confirmation bias outweigh science.
Fact: regen is better than coasting. Getting energy back is better than not using any energy.
It is usually easy to "prove" a false point by carefully picking a scenario that avoids the weaknesses in your argument, especially if you pick a snapshot of a certain state or short time and carefully avoid looking at the entire system and the overall, long-term effects.
It is an indisputable fact that regenerative braking has a positive effect over time, regardless of the vehicle. The questions Micah is addressing are how much benefit is there, and is it worth the development and expense? The answers for casual bike riders happen to be "not a lot" and "probably not". You probably don't ever run your battery all the way down on a single ride and have easy access to charging whenever you need it. But for some people and some situations it would be worth it. Specifically, people riding long distances in extremely hilly terrain would see a significant increase in range with regeneration, and keeping the battery at a higher state of charge gives you more torque to get up subsequent hills.

i have it, and love it, keeps my brakes from wearing and produces energie, it does wear out the tire a bit more.

Grin Technologies has good options for regen diy equipment ... Maybe do a review on the geared regen hub kit?

I save a $100 per month because of my regenerative braking on my front tire. I burn through brake pads like crazy as I'm hauling a massive trailer. Also, my bike has a bbshd mid-drive for the rear.

They should have some sort of flywheel or coil spring system to store the energy away from the battery and then either charge the battery or use it to propel you when you restart your ride ....

I've used a few ebike motors in regen for kite turbine projects.
A normal ebike project regen can work well for hilly areas.

Thanks for the content Micah. I want the option of pedaling the bike with no resistance so I've never seriously considered regenerative braking. Nice to see the full picture anyway.

As usual you are the best and most clear source of information on Ebikes online. You are right on one important point, you want to keep also the bike simple, the more crap you add to it the more chance something is gona go wrong, not to mention initial cost and repair cost . . what will they think of next "airbags for bikes?"

when driving down hills it would help keep the speed low

Can't the clutch engage as soon as the brakes are applied, thus having the magnets go past the coil? That'd allow for regenerative braking in a geared motor.

What about having dynamos on the wheels, kind of the style we used to have to get lights on old bicycles?
So, when you press the "regenerative brake" lever, the dynamo(s) is connected to the wheel(s) and slows the bike down. Anyone who tried riding in the dark with an old dynamo light knows that it slows you down quite a bit. Ramp it up to multiple (and/or larger) dynamos on back and front wheel and voila: Regenerative braking without needing to change the drive train at all.
And bonus is you save wear on your mechanical brakes.

I think you are the best youtuber for learning things, Thanks for teaching me alot. I want to add a light I got that it is the size of a car blinker or truck it's a small retangle yellow light.

I have a Rad City which has a direct drive motor w/ regenerative braking. You did not mention it is completely silent which I like and Rad claims very reliable. I agree the rolling resistance is a negative but the bike is well built for commuting. I have 1300 miles on mine...so much fun to ride!

3:24 not only have bicycles less mass than cars, they also do a lot less breaking due to their lower max speed. e.g. on roads with some turns that need you to slow down to lets say 30 mph (~50 kmph) a car and a motorbike have to break (really fast ones even harder) but a bicycle doesn't. riding a bicycle is more continuous than a car or motorbike. so fewer breaking less hard with less mass on less distance equals no need for regenerative breaking because the costs/disadvantages outweigh the benefits. it just sounds good. same for lower speed scooters.
EDIT: no, i don't need one of your books. thanks. :)

Thanks Micah. Great info! I got my first ebike last week, and my friends ask me all the time does my bike have regen. Now I have a good answer for them. 😀 Thanks again. Love your videos.

Also, in relation to mid mounted motors, you would have to have a transmission that would allow the chain to pull from the rear (sort of like the old back-peddle coaster brakes) derailleur changers wouldn't allow this, the reach mechanism would be pulled forward.

well said . i Loved my old Bionx with regen braking but more for braking than powering the batt , and that was before disc brakes were as popular .

I had regen braking on rad city but returned it bc there was just too much drag when the motor wasn’t engaged. Also once you reach the top speed of the motor, pedaling faster becomes almost impossible.

I get asked this question about regenerative braking all the time too!

Thanks for the explanation, it's really clear, I was wondering for long time why it's not the case, I hope the technology gets better sooner and make regenerative power worthwhile for e bikes, it feels bad to lose the energy as heat

All good points. Regen as a feature has its benefits and its tradeoffs, and because of those tradeoffs, it's definitely not a good fit for everyone.
I use regen as my primary brake, but mainly because of how much it reduces the wear & tear on my disc brakes. I've seen upwards of 20% energy recapture at times (if I cherry pick from my segments out in the mountains), but day to day it's more in the 2-4% range - definitely not the selling point. But for a high-mileage rider with a heavy bike and cargo, being able to reduce my brake maintenance to nearly nothing isn't a small thing.

Hello Mikey hope you are well.
I live in a very hilly area in the UK without regenerative braking I would go through brake pads every two weeks brake pads last with regenerative braking up to 3 months sometimes
Keep safe .

Regen braking might be good if you live with steep and long hills, but where I live I'm on the brakes less than 1% of the time. The loss in forward efficiency ain't worth it.

I have a question that can you say a [(thick tire or a thin tire is the best for all conditions)]in road and off-road

flying down a hill with my bike on fire lol imagine , be safe don't overcharge

What if dedicated regen hub on front wheel, front brake lever clutches engagement of the spinning magnets. Something like that would be able to coast free and regen trough battery charge input.

Great, clear explanation of regenerative braking in Ebikes. Thanks.

Gonna start my build soon, your channel has been great inspiration for my project, keep up the good work!

Great break down on regen. There are always pros and cons.

Great video but you didn't mention about saving on brake pads when using regenerative brakes.

Life is too short to worry about regen. Just ride!

Thanks for taking the time to explain all the reasons! I suspected mass of the bike / rider would be a factor, I didn't know about the motor issues. Keep up the great work !

My 2013 folding electric dahon used to have regen braking and costed 2.2k (dollars), have a nice day 😊

bird: HEY BRO CAN YOU KEEP IT DOWN MY KIDS SLEEPING

Thanks for the video, I will stop dreaming about regenerative breaking from now on...

I often get this question from strangers. I learned so much more about thanks to this video that I can give better answers than "Because it's stupid, leave me alone."

Great video! Really just good for a braking alternative. Def use heavy motor brake on scooters to slow down without actually using the disc brake

I've got a bionx motor. At the end of long trips, I pray every time that the battery not die. I am also not comfortable with high currents flowing to the battery. My vote also for smooth coasting.

Very nice and concise explanation which answered the technical, economical issues. Thanks!

When you go uphill, slowly, the vast majority of power goes into moving up the weight, not certainly drag. When going downhill, with a good regenerative system, you can probably recover 50% of the energy put into the hill climb. That means that if the conditions are good (e.g. battery at average charge, slow speed, good breaking power) and for example you used a 50% assistance you can literally get back 100% of the range.

Thank you for the information and knowledge on regenerate braking. I purchased a 2018 Rad Wagon Cargo Bike and very familiar with the regenerate braking so what I did. I online spoke to the tech at Electric Bike World. Order the aftermarket fully integrated display and controller 35 amp. The display fully programmable. The battery a biggie 48v/😊80amps= 5 batteries in total. You can set the regenerate braking

You need an extra circuit containing some 3000 Farad super capacitors and an additional Back EMF Filtering circuit to handle regenerative charging properly. However, it may be beneficial while climbing down mountains.

You can make one....use a step up rectifier......and a switch that disconnects from controller power and into the rectifier.....this will cause the cogging effect causing the bike to slow down and this creates energy to the batteries....I've done this before......it works .....the rectifier stabalizes the input and gives a set output current .....just be careful since the wheels are cogging make sure u install good torque arms to hold that wheel in place .....

The best thing about regenerative breaks is not the amount of power you get back from using them It's the fact that you have breaks that never wear out.

Thankfully, my ebike has enough range where regen braking isn't an issue. I had given thought to the old fashioned generators we used for adding lights to our bikes at one point. A couple of those rubbing both sides of the tire would add some range and could be made to disengage when not wanted but again, that's just more weight and complexity added for too little return.

I would think that it could be done electrically. Maybe a momentary switch in the brake handle that engages the regin breaking when the handle the depressed slightly but is otherwise disengaged this would allow you to regerate some of the lost power while coasting, especially down hill but when disengaged has no more resistance than a regular bike wheel. I think this could be done with a manual clutch as well provided you could spin the stator and the magnets separately. Might require a little more hardware to make it happen but it's a thought.

well said! I love the idea of regen for larger EVs but it isn't efficient enough yet for most standard eBikes.

First: Loved this segment, ( love all so far), having perused a few comments..speaking of Changimg brake pads over batteries...seems regen just to get a little more life out of pads would be more costly both in terms of $ as well as labor.
Secondly...could you address the idea of wiring in ultraCapacitors? To augment battery ( life, range, speed, etc) looking forward to your thoughts

Makes sense, cost, lack of benefit, rolling resistance. You pretty much covered it. But as others have mentioned, the engine braking could provide beneficial in other ways without much regen return. Still, probably better off just to get a dedicated ebike or electric scooter that has the system as that would be a full-time system providing higher benefit wouldn't it?

I love regen breaking not only because of the pads but because few times save my life make me stop faster avoiding accident's...

People: we want regen brakes! Companies: no, you don't. People: no, we want it. Companies: no, you don't, look at this video. People: we don't care, we want it anyway!

Interesting engineering perspectives on lithium battery charging hazards... screaming for vengeance down a long hill... batteries cooking off... fire spitting everywhere... Love this channel!

At 1:40 you said they use a centrifugal clutch. Wouldn't that keep the motor connected to the wheel as long as RPM is above the threshhold value, like on a scooter? If an ebike only works one way it seems more likely that they would have a sprag clutch or freewheel clutch (that only engages one way).
It would be handy to have a lockable sprag clutch with an extra lever on the handlebars to trigger it. Then you could have the best of both worlds, freewheeling and regenerative braking based on scenario. Or maybe achieve it with a motor using electromagnets rather than permanent magnets, so you could turn off the magnetic resistance by removing power from the field windings.

Very informative. Especially for older "un-hip" types like me!

Bird break stole the show. Very informative video.

From hill I going on bike 45 kmph. But I want go 25 kmph and charge battery and save brakes. But without regenerative braking I can not do that...

While regen isn't worth it on standard bikes, on recumbent bikes with a fairing it changes everything.
Those bikes have a big braking problem and regen solves that by adding a lot more braking power and the ability of continuous braking downhill without brake overheating

I have thought about this question a lot and come up with similar arguments but this video has really cleared it up for me. Thanks.

My bike battery is 48 volt / 14Ah it is for the M2S pro 750. 750 watt rear motor, 26" frame 9 gears, 26 x 4" tires. The battery will last a long time with conservative riding and this bike is flat out a blast. Keep these bikes clean and learn how to change the rear tire correctly , it's really not that hard.

So what do you recommend for someone that lives in very steep very choppy Ozark Hills?
To give you a quick example 80% to 90% of the roads are steep hills.
If I'm to ride a regular 18 speed bike I would get halfway up the hill before I had to shift down to the lowest gear and even then I might end up walking the bike up part of the way.
Going down the hills you could only go 1 or 250 before you had to break all the rest of the way down otherwise you would be well over 50 miles an hour.
What kind of e-bike would you recommend ?

I've been riding bicycles for 51 years and working on regular bicycles for 51 years. And I remember I had a light on my bicycle with a generator that runs on the tire and why could that not be used for something like this to charge your battery I cannot believe with the technology we have there is nothing but when somebody finds something and they will it's going to be one rich person. He seems like one of the more educated ebike instructors or you seem like one if you ever read this. I wish I could sell these because I believe in e bikes this bike can save my life I got the ecotric hammer

If I hook two 10 36 350 together in parallel. Will it double the storage capacity. Won't this help my ebike go further without having to charge my battery??

There's another way. Instead of dumping charge into a full battery, a variable resistance / short circuit will make the best abs brake system. With hub direct drive motors, if there's no load on the coils, there's almost no resistance physically.

Less people care about extra mileage they can get on the regenerative braking,
I was on the horns of the dilemma if I should get a torque or cadence pedal assist kit, as I heard the torque based are more battery efficient,
I decided to go with the latter when saw people complaining about TSDZ2 reliability though,

The hub motor also doesn’t put its force through the gears and chain thereby reducing wear and tear.

I recently built a go kart with car alternator as bldc motor and some ebike parts. I was thinking about making LiFePO4 batteries for my go kart and ebike, but using prismatic cells, not cylindrical. Something like DIY powerwall, but with smaller cells and more voltage. Is it a good idea? I am not sure if LFP can take vibrations and if it will be reliable enough.

Better to pedal easily when out of battery than saving a few % on reg breaking and eventually deplete the batt

Do regen braking require actual brake? Let's say on high speed and you release the throttle without press the brake, will it regen braking too as some car does? Do I need actual brake sensor to sense the brake to get regen braking when I press brake? Hope you can answer 3 of my questions detailed and separately

Since the one-way nut on the gear type motor was broken, my bike gained regenerative braking and battery charging capability. It malfunctioned soon after. but it charged my battery for a while (maybe it broke it):)