Mercedes Project ONE Suspension - Explanation and Analysis

While NVH isn't really something I normally concern myself with, it has been brought to my attention that Multi-Link can help with ride harshness by isolating the loads through the bushings better, and this is probably a contributing factor to its selection given Mercedes' road-friendly approach to the car. Enjoy the video!

Kyle, please please please make a video where you explain the different types of suspension setups and the ups/downs of each setup. Kindly explain using similar point of views so it would be easier to understand the differences between each setup!

Something that hasn't been touched is that under one wheel bump no vibrations are sent over to the opposite wheel like on an anti-roll bar installation. This is as close as a suspension can come to perfection without being active.

Thank you so much for this! I've been trying to explain to a few friends how it works, and wasn't doing a very good job of it.

As always, thank you for the awesome explanation! I'm loving these videos as a keen auto engineering student!

This was the first of your videos that I've watched and it was excellent! Keep it up.

Great presentation, so nice to have an explanation that's clear and short, well done.

a wonderfully complex combination of simple principles. very clever

Just found these videos and love the wealth of info! subbed!

How incredibly complex! Good explanation. I always wondered how these set ups worked.

Great explanation sir!

Very great explanation to those complex design, thanks!

GREAT explanation and illustration!

The beauty of this solution is its simplicity. I wonder why no one else thought of this. In recent videos of the Project One, I can see that there's no body roll and it doesn't feel bone cracking hard either, seems to glide over the rough bumpy tarmac of the Nurburgring.

Excellent explanation, Kyle ! :)

Talking about multilink suspension - it effectively puts your pivot points further inside the wheels (less scrub radius) , makers use this for more than 20 years ( VW/ audi, Merc, BMW, Nissan ...) mainly- because cars where getting faster and heavier which forced to use bigger wheels , tyres and brakes , not allowing to position suspension pick up point where they supposed to be.
On damping - also it's an rather old concept made possible with damper technology coming where it is now , the only thing that is pretty hard to wrap the head about is - bump or drop on one side should effect another ... Unless damper takes those load's so well it becomes irrelevant.
I'd be happy to be corrected .
Good job on those videos , been following you for a while now.

Well done as usual sir

Very nice illustration By you!

Can you do a video on a FRIC F1 suspension system works? Specifically with Mercedes? How does the system control heave and pitch?

Yeap. Interested to see the breakdown of geometry once the steering arms are in place. A SolidWorks type model an animation would be superb.

I find multi-link suspension fascinating. the kinematics get a lot more complex but some of the kinematic results and practical implications are really interesting. Each arm being a pure tension-compression link allows them to be really lightweight if they are straight links as seen on this car (an example to the contrary would be the thrust arm on most modern BMWs). The two arms also create a virtual pivot point that extends beyond the physical reach of the arms, so you can have your virtual steering axis in the same place as, say, the physical brakes - not possible with a double wishbone system if your brakes are too big. if you want to limit scrub radius while also controlling kingpin, for instance, this would be advantageous. The steering axis also moves with steering input, this has a minor effect at lower steering angles but can still lead to interesting dynamic camber behavior as the instantaneous caster and kingpin change with steering angle. At the rear, the steering alignment considerations go away, but you can still lower forces through the toe link (and suspension deflection as a result) by minimizing your scrub radius and the moment that the center of mass of the corner assembly has about the virtual "steering" axis by moving the steering axis as desired - again, this steering axis, being virtual with the multilink setup, can be almost anywhere at the rear with steering geometry considerations largely out the window.
I would absolutely love to have a long conversation with the suspension engineers that worked on this car, it's a really unique implementation even six years later. We're starting to see more and more complex suspensions (Mustang GTD has dual-lower-link "double wishbone" front, the highly-regarded Lucid Air has a true 5-link front, etc.) but still nothing quite like this to my knowledge. The rabbit hole goes way way deeper than what i mentioned above - bushing compliance, accounting for how the front pushrod outer pickup point on the control arm should technically move with steering, Ackermann considerations, etc. It's crazy how a production (well, "production") car can have such a wild decoupled spring/damper arrangement and it's still not necessarily the most interesting aspect of the suspension system as a whole

The double-jointed outboard links are known as virtual ball joints and are designed to move the effective pivot point further outboard to reduce kingpin inclination, kingpin offset and scrub radius.

Thats an awesome design, great explanation.

The connected bell crank set up is genius. It is ant roll without a roll bar. It takes the preload off the wheel that isn't under pressure from the roll

Great work

can you do one on the aston martin one-77 since the shocks are in a very weird position in front of the engine on that pushrod like setup, one on the aventador would be sick too, great video

By separating the A-arms, they will be getting a 'virtual pivot point' for the steering. This brings the ball joints inboard, which makes room for a better brakes package. I.e. Brings it inboard too which allows for better cooling. Look how inboard the calipers are!

This is truly genius design

Hi there! Great explanation 👏🏽. Do you know how could potenciometers be applied on the roll damper? Do they need to have two linear potenciometers one for each spring or can it be just one since the springs will have the same symmetric movement?

i didn't just like it , i loved it ...,pls make more similar videos

thats a really cool system, so its a very compact and fully adjustable and dampened anti roll system

Currently I work on my master's thesis which is about design new type of suspension for lmp1 car based on this idea. It is a lot o fun So far. Let's See what willl be the outcome.

Thanks Kyle.

Check out the wiggle in the front left pushrod at 7:04 Must be seriously strong!

If you haven't already you should check out greenteam stuttgart's solution to the independent roll and heave spring/dampers. Pretty neat solution that doesn't require a through shock or two springs. On the topic of FSAE Suspension I'd love to see you do a video on AMZ's active damping hydraulically mode separated suspension, a bit of a mind bender.

Would a setup like this be less needed when using sprung areo?

That was damn interesting

Great Vid Kyle, please make an update on the AM-RB final edition, they changed the whole undertray of the car.

very nice,Thank you

So as some that might want to make this at home with parts you can buy what if you make a x with the shocks and leave the top parallel shock off. Or if a do that would I still need a top shock alone with the x patter on the bell cranks to get the same effects. I'm also guessing I'm not going to need springs with high tensile strength like I would in other set ups. Kinda would like to know how I could go about calculating what springs I need for a weight of the vihicle in a set up like this or the one I described.

Good lord that's brilliant!

Im just gonna drop out and watch your videos, thanks.

The triplex system seems to be doing the same job, but in a more Gen 1 sort of way. This is super complex though.

Thats a pretty nice Schazzy

hejj kyle nice vid. Has this system the same idea as the triplex suspension of königsegg?

The koenigsegg looks like it uses somthing similar. Really great video!

Technical name for it is "full floater suspension" ....Trek bikes use a similar setup on a few of their models

I might have missed it in the video but how das Mercedes want to adjust the roll independently? I haven't seen an ARB so far.

Can you make a video on how venturi tunnels work,and how would a diffuser just behind the front splitter work.

Where's the aero analysis for the project one? Have you deleted it because I can't find it on your channel.

I swear, i was thinking about this type suspension few years, since Koeningsegg was fighting with suspension squat in a quite complicated way.

Great! Thanks!

How much harder would that be to do maintenance/repairs on?

This is such a beautiful design in its simplicity. It's ingenius, but also makes me wonder why I've never thought of it before.
Thanks for the video!

Awesome！

so apart from the shocks the front its basically a 1990's ATTS Honda prelude

Shouldn't damping be more soft on single wheel bumps, for more traction on the other wheels ????
Otherwise the car would tilt and I think you would lose traction on two or more of the other wheels.....

At 6:04, wouldn't one have two separate shafts ? Not doing so would effectively relocate/create a "second" rocker pivot point that would, in effect, "lock the rocker on heave and compression? The horizontal damper would then be rendered useless if that was a single shaft! Additionally, looking at the gold mounting base, there are two sets of damper adjustments. High/low speed adjusters- I'm thinking separate left/right adjusters.

do you have anything on roll centers?

Can you take a look at "Formula X" from project cars 2?
Also why is compliance from the suspension such a problem in F1 but compliance from the tires fine?

What other cars have used this type of suspension? Is there a name for it that I can google?
Ive seen a similar thing on Formula-Vee but its for heave only and its to encourage roll. Not minimize it.

This type of heave spring combined with laterally connected antiroll-mechanism is relatively common in road cars. The Citroen hydropneumatic suspension operates like that. Those hydraulic suspension spheres are laterally interconnected making them work like a heave spring. The hydraulic pipe offers some amount of roll damping. And there are lateral antiroll-bars front and rear to prevent the car from tipping over because of the lateral interconnection.
About that separation of roll motion and single wheel bump motion. Aren't those two motions actually same motion: Wheels moving opposite directions in relation to each other. No matter how I look at that suspension mechanism, every time the left and right side wheels move in opposite directions in relation to each other, that motion is resisted by the roll spring and heave spring working in parallel. When looking at the rear suspension 3:05 if the left side rocker is rotated clockwice, that motion is resisted by both heave and roll spring because of how those springs are connected to the rocker at the right side.
It would be interesting to see modern vehicle where the antiroll-bar is not connected between lateral pair of wheels, but is instead connected between longitudal side-pair of wheels. One for left side and one for right side. Citroen 2CV had this style roll spring (those coil springs inside suspension tubes, during roll or heave motion. During pitch they behave in different way), those spring were just very soft and because of that 2CV leans so much. The British Hydragas/hydrolastic was simple hydraulic version of that. LLTD could be simplified to simple geometrical leverage calculations, and ground shape would have no effect on lltd.
I think with those front suspension arms, mercedes has tried to create centrepoint steering geometry using virtual geometries to remove KPI and offset. At least from pictures, it looks like the n-lines of the suspension linkages intersect somewhere around the center plane of the wheels, so the instantaneuous screw axis of the hub should be somewhere around the center of the wheel.

German (over) Engineering..
At it's finest.

Is there any way this could be adapted to off-road or rally racing?

Aston Martin AeroBlade analysis please

I thought braking would put pressure on the front wheels and acceleration put pressure on the rear wheels lifting the front up?

So how good will the ride of this car be on the road? Will it have multiple suspension settings?

The prognostication, from 5 years ago, that 'grip is likely going to be obscenely good', appears to have been verified as True, given that the real, road-going (well, if you have USD 2.7m to spend..) AMG ONE, utterly smashed the road legal Nurburgring lap record, last December (ie 2022)

Kyle! there is something interesthing abou the rear arms as well!
There is an extra rear suspension arm located between the rear arms, a 5th connection. It looks interesting as it seems, if you mentalize the suspension compression motion, as it has a shorter length when compared to the inferior arms, when the suspension gets compressed during heavy cornering centre roll, that arm tends to modify the toe angles accordilgly to the chassis rolling, opening it when compressed, closing it when lifted... Check this video at 7:30 and onwards! please! czcams.com/video/EzV_1hF4pxM/video.html
Also, it seems the engine doesn't have the same exhaust manifold the F1 car has. The F1 uses a shorter ram lenght exhaust duct and it makes sense for a road car since spooling time won't be a problem to it given it's electric motor in the compressor and bigger batteries. this buffs the lower rev area. I bet it doesn't have the same cam profile as well. And i see a stressed member chassis which means this car is going to be stiff and light. Only a few car manufacturers make use of the gearbox case as stressed member. Usualy it only suits racing cars.

So.... compared to a conventional setup with an anti-roll bar, more stiff on one wheel bumps(two springs and dampers active) and softer on roll, pitch and weight(one spring and one damper active). Hm.... Need furthur clarification on how much spring tension and damping is desirable on each modes.

👍 7:50 Check, my A5 has that setup.

5:15
...Upper roll spring cant strech... not retained...so used 2...
FEEDBACK FROM AUDIENCE REQUESTED
If a retainer was used could this pice be a single spring?
Hope the new (years old) job is happy. Cheers.
Wish you could work out some kind of deal for a "limited disclosure agreement " of non Co. data or analytics . If nothing else, that you may inspire your replacement who is only 7 years old now.

KEEP MAKING THESE OMG

Thanks! It was very good! but why in this car we don't have an inerter or complicated suspension like on the current Mercedes f1 car? Maybe this suspension is good for this car but personally, I don't see this so complicated! Maybe this is all rubbish, but, it's my opinion!

can one say that this is independent suspension then? I would think by lookin at this that a bump felt by one wheel could disturb the other due to the higher damper.

You can designer car engineer... My dream is designer car :)

In single wheel bump, I think that is too stiff.
Because each can support to load on its own, but they operate in parallel.

Does a car windshield produce downforce or is it even possible for it to do so?

48-0 likes-dislikes ratio, not bad

How would you adjust ride height with this kind of setup? Anybody please

F1 have L, R and heave damper.
This clever design got rid of a third spring yet, able to have the function of 3.

the problem is with that roll system. corner one way and the damper compress then rebound on return yet corner the other direction the damper droops then compresses on return..since there is one damper on roll...how would they set that up? mechanically speaking if compression and rebound are set at different loads...having one damper handling two opposite characters would be really complicated

Well... fancy setup of 50 year old suspension technology from Citroën 2cv

hmm so 3 springs instead of 2?

"Chazi"
Whut?

Comparing this car's aerodynamics to that of the P1 doesn't seem to be giving this car enough credit, one look at the interior will tell you that this car is a lot lower than just about anything but the Valkyrie and maybe the probe 16. It seems like it's aerodynamically in between the Valkyrie and the more conventional hyper cars.
I have to wonder if the fairly recumbent driving position increases the risk of dozing off on long drives. Also I've never been this interested in fuel economy figures for a hypercar before.

Why multilink suspension is unexpected on race-based car? Multilink provides better control, doesn't it?

Demn this is good

No double a-arms in the back? How is that a revelation? My 1996 C220 has a 5-link rear suspension. Mercedes only recently downgraded to double a-arms on their rear suspensions.

The car actually squats in front under braking..

SO they copied a Zero-Roll suspension setup off a 1984 Formula Vee?

Oh the chazy...

The thing I’ve never understood about these types of suspension is wouldn’t the assymetric setup be more effective to one side than the other? or is that counterbalanced with weight distribution?

i just had a brain too small moment

If you had an active cartoon of how it worked in motion it would be a lot easier to understand but I know thats expecting a lot and not that easy to produce but I didn't understand anything that was said as interesting as it is. I guess I'm just a dummy. Thanks anyway

Doesn't Koenigsegg have something similar, even if it's less advanced?

And i thought triplex suspension was complex 😂

believe or not but toyota has design and manufactured similar suspension on the front suspension,its called superstrut suspension and it can changes caster during steering change and i believe reduces torque steer,it was use in corolla ae111 levin bzr

or like the fucking gl suspension w/ the independent arm thing i'm just saying it not brand new

It can also be shit