GOBAO ECVT EMTB Mid-Drive Motor

Once I rode an electric offroad motorbike with regen and was surprised how much range it was generating when riding down a fire road from about 1000m back to the valley.
This is the thing with an EMTB. If you use your legs mostly to accelerate, and only a little bit of assist, then regen for braking. You can capture quite a significant amount of energy, compared to what you are drawing from the battery.
 
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thanks - so the chain ring (ring gear?) would be driven via chain or belt from the rear wheel's inertia (whilst the pedals are disengaged) direct to the output gear - which in turn would force the motor to act as a dynamo
but at the same time the motor creates a braking force that is transmitted back to the rear wheel via the output gear via the belt.
I'm partly there... but maybe I need some diagrams 🤨
No, the output gear is where your chain connects. But effectively it is the same, just connected through a gear. Basically where the toy wheel is, is where your chainring goes.

Also. The wheel that says ICE, is where your pedal cranks connect.

Also. Those red planetary gears can spin freely on the ends of those shafts. So if your feet are stationary on the cranks, and the bike is coasting. Those red planetary gears will spin freely, driven by the ring gear, and not drive the pedals.
 
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There are some limitations on regen can't be implemented in a way that the rear wheel via the chain and rear wheel inertia would enable regen. I think that this not a viable solution for regeneration on an emtb.

1. It would need a fixed rear hub, that adds problems for full suspension.

2. A fast spinning chain that now has tension on the underside not on the top as usually. That would mean slop on the top adding a serious possibility of chain derailment.

I think the only possible way of regen in an parallel ecvt mtb drive(what the versions of Gobao an Avinox due to the shape design most probably are) is only possible with active pedaling. The regen capability being different according to the riding situation.
 
Someone was suggesting a concentric pivot to alleviate suspension issues. Gets rid of the need for a tensioner, as there is no chain or belt growth and obviously, no derailleur. So the chainstay attaches around the output shaft\chainring, on the MGU.

1783684001559.webp
 

See paragraphs 154 and 155

Even small things can cause regeneration...
 
Adding regen to a e CVT , which is already complex and likely at a weight disadvantage would compound both challenges . Sadly, hub motors were born to regenerate, simply and at lower weight.
 
Adding regen to a e CVT , which is already complex and likely at a weight disadvantage would compound both challenges . Sadly, hub motors were born to regenerate, simply and at lower weight.
And since they are particularly suited for suspensionless bikes, you will save even more weight 😅

Joke by side, wasn't recently a post with a link to the website of a guy having built an e-cvt hub motor with everything concentric?
 
And since they are particularly suited for suspensionless bikes, you will save even more weight 😅

Joke by side, wasn't recently a post with a link to the website of a guy having built an e-cvt hub motor with everything concentric?
Haha, you get to have a choice, suspension and e CVT, or regen.

As if life wasn't a challenge, there you go, bringing up concentric.
 
Anyway, regen is by far not the raison why I want an e-cvt e-mtb...

From the technical structure, the Owuru is the one I like most.

From the software, I still have to wait until those drive units can be ridden in real condition.
 
Haha, you get to have a choice, suspension and e CVT, or regen.
On e-mtb, easy choice. Suspension and e-cvt.
Downhill the goal is anyway to brake as few as surviving allows...

I'm pretty sure Owuru will bring regen on the e-cvt city bikes in a close future.
 
Regarding the "Dead battery" dilemma, on the OWURU drive unit, there is a freewheel between the pedal axle and the chainring to allow a direct transmission of power when the motor(s) are off.

Source: US20200198727A1 - Power train - Google Patents
The current E2 motor that's on the Decathlon city bike is not the same animal as the with the MG and X1P motors. Namely because the external drive gear is in series with the crank chainring, perhaps allowing a freewheel to be employed, which I'm not exactly sure is a good thing:
1783657420704.webp


The E2 motor showcased last year (still not released) looks to be quite similar the newer motors:
1783657494779.webp

Cant remember if I already added to this thread, but according to Gobao


"We stop giving power when the battery reaches 10%. The system then only shift. Without power the ratio goes to the lowest and you can theoretically pedal."
That's just to conservative to take out such a huge chunk of battery capacity and moreover doesn't adequately deal with further degraded mode issues, like actual battery failure. There's more than one way to address this and we need Gabao to state how various degraded modes will work
Yes you did (or maybe in another thread).
I've posted something similar about the city bike Owuru drive unit which is since 2023 on the market and lacking the freewheel.
I guess future Owuru drive units like the announced Owuru Ride for e-mtb and cargo bikes will have it.

Contrary to the Gobao solution, the purely mechanical solution provided by the freewheel still allows to pedal when the battery is fully drained. However without shifting.

And obviously it's still possible to combine the software and the mechanical solutions.

Can I add to this, that whilst pedalling with no power in an E-CVT, the pedals will drive the smaller motor, MG2. This will generate some power so that you could technically vary the gear ratio, by slowing MG2.

Whether the MGU manufacturer allows you to use power generated by MG2 to vary the gear ratio, when the battery is flat, will be in the software design.

Remember. When MG2 is stationary. The gear ratio is about in the middle.
How would the secondary motor remain stationary during battery failure (not just discharge)? There would need to be some kind of secondary motor lock up mechanism (i.e. some kind of solenoid that locks the motor when power is lost) to hold the counter torque to allow power transfer of pedal torque to either to the output drive or generator to recharge the battery, or both. If the battery is damaged, there would be counter torque from the generator, so more power is transferred to the output drive. I see this as worst-case degrade mode support (say, Level 3).

In a higher-level degrade mode (say, Level 2), In a complete discharge scenario (but functional battery), After enough power in the battery is replenished through regen, the solenoid could activate, opening up the secondary motor for gear shifting as needed divert more pedal power to the output drive . This could be electronically regulated until you get safely home (would be a slog).

In the highest degraded mode (say, Level 1), basically a lower-battery mode, divert all pedal power to the output drive until such time that battery levels drop to level that requires rider input to divert torque to the generator (back to Level2)
 
The current E2 motor that's on the Decathlon city bike is not the same animal as the with the MG and X1P motors. Namely because the external drive gear is in series with the crank chainring, perhaps allowing a freewheel to be employed, which I'm not exactly sure is a good thing.
Look to the Owuru and Gobao patent applications.
Freewheel everywhere, also with concentric pedal axle/ chainring combo.
 
...
I see regen as a net positive. We get some additional charging. Speed is controlled on descents (grandma could set it to come on as low as 20 kph). No freehub in the rear wheel will allow for reverse gear for cargo bikes. No tensioner. But the bike won't coast as well.
There would be no motor counter torque, so it's still coasting, but added loss from fixed rear wheel constantly spinning the belt/chain for a mid-drive setup like the X1P.
Why would anyone want that on a performance emtb? I don't get it. I don't want a motor to control my braking. All I want my motor to do is give me assistance.

Mentioned this before, but I an incredible experience with regen braking and ABS on the TM-B. It was far more better than expected. Note also, that regen doesn't have to be integrated with the brakes. I would be OK if regen kicks in once you get to certain set speed, so it doesn't kick in during corning or being forced to pedal over technical sections (where you are at slower speeds and don't want to forced to pedal). Maybe a handlebar button control that allows you to lower the regen threshold when coasting back to home or to the car.

There are some limitations on regen can't be implemented in a way that the rear wheel via the chain and rear wheel inertia would enable regen. I think that this not a viable solution for regeneration on an emtb.

1. It would need a fixed rear hub, that adds problems for full suspension.

2. A fast spinning chain that now has tension on the underside not on the top as usually. That would mean slop on the top adding a serious possibility of chain derailment.

I think the only possible way of regen in an parallel ecvt mtb drive(what the versions of Gobao an Avinox due to the shape design most probably are) is only possible with active pedaling. The regen capability being different according to the riding situation.

Yes, you have to work the bike design to allow battery regen in the first place, as discussed in the battery regen thread. There can't be chain slop for regen to work - belts and chains must be taut, no spring tensioner, and concentric wheel path (i.e. single pivot).

Someone was suggesting a concentric pivot to alleviate suspension issues. Gets rid of the need for a tensioner, as there is no chain or belt growth and obviously, no derailleur. So the chainstay attaches around the output shaft\chainring, on the MGU.

View attachment 188332
Yep, this bike would be an example, though there's no need for a rear hub motor. Also here, the output drive elevated above the pedal axle, giving you high-pivot concentric wheel path, which provides needed anti-squat. Unfortunately this is not how the X1P is designed (and for that matter the Avinox MG motor as well) as pedal axle and output drive via chainring is coaxial. Would need a second chain loop linking chainring to an HP idler and then another chain loop linking the idler to the hub.
Haha, you get to have a choice, suspension and e CVT, or regen.

As if life wasn't a challenge, there you go, bringing up concentric.
No choice, pal. Single pivot or faux-bar suspension is the only way to get mid-drive battery regen from MGU/ECVT.
 
And since they are particularly suited for suspensionless bikes, you will save even more weight 😅

Joke by side, wasn't recently a post with a link to the website of a guy having built an e-cvt hub motor with everything concentric?
You're probably thinking of Cedric's post here: eCVT e-bike hub motor

That's definitely a prototype though; he's not proposing that layout for a suspension MTB.
 
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