Canon EF and RF Lenses – All Autofocus Motors (opens in new tab)

I'm feeling a little bit of buyer's remorse for that same reason. I love my Canon, but having a closed loop lens system is not ideal and is insanely pricey. All of the "adapters" that allow you to use 3rd party lenses suck.

It is a little sad honestly how Canon has now been surpassed by Sony in both sensor technology and lens optical quality and yet they double down on forcing people to use their expensive lenses. I miss the old days when EF mount was the lingua franca of autofocus mounts with a thriving ecosystem of lenses from Sigma, Tamron, and the like. Even now some of the Sigma Art lenses for SLR mounts, like the 40mm and 105mm f/1.4, are peerless in terms of image quality.

Also not pleased that third party lens vendors were excluded. However the way I look at this is perhaps we would have no Canon cameras at all if the revenue they derive from lenses had not been captured.

Wait, did they reverse their stance on this again? I thought they had finally started to open the mount up to 3rd parties. Really disappointing to hear that this is not actually the case.

I'm in the same boat. I wouldn't be as upset if the Canon range was uniformly excellent. But every one of their RF ultra-wide zooms suffers from softness or extreme vignetting. I sent back a $2200 RF 15-35mm, and for landscapes I now just use my iPhone Pro.

They weren't dead to me immediately just because there are still third party RF lenses that rock, but when Sirui did the AF anamorphic lenses and I couldn't get one for my Canon then it really bummed me out. :/

Exactly why I just bought a Nikon.

Wait, what? That’s horrific! I love my range of lenses for my long-suffering 5d3. I wouldn’t have bought it if the only options were the canon lenses. How disappointing to hear.

My dog also developed an aversion to cameras, and I wondered if it was the USM focusing. That might have been what started it, but she still doesn't like any cameras at all, USM or not.

Nowadays they use pre-trained pattern recognition AI models, yes, which has become much more impressive (and CPU-intensive) with mirrorless cameras where the entire resolution of the main image sensor is available for analyzing the scene. Some higher-end traditional DSLRs have a "high"-resolution (around 0.1 MPix or so) metering sensor that is used to assist the AF system (eg. what Canon calls iSA and iTR [1]).

Traditionally, cameras would just focus using the single focus point the photographer has selected, or if they have selected a larger area focusing mode, the camera would typically pick the closest point of a group of points, assuming that that's usually what the photographer is interested in. (Remember that traditional (D)SLRs have a discrete AF sensor with at most a few dozen focusing points to choose from!)

In tracking AF modes (eg. Canon's Servo AF), depending on settings, the camera tries to avoid sudden shifts in focus even if a foreground object momentarily occludes the original target. Tracking AF also has to predict the subject's motion to prevent the focus from lagging behind a fast-moving subject. Higher-end cameras allow configuring the AF behavior in terms of how reactive vs "sticky" it should be when tracking a subject, and how linear the subject's motion is expected to be.

[1] https://www.canon.com.hk/cpx/en/technical/pa_Overview_of_65-...

Similarly, promo materials for the Elan 7 talked about how the camera was able to determine exposure based on a database of hundreds of photos.

I have no idea how this worked, but would have loved to see the photos they used for “training” this system 25 years ago.

Thank you for your feedback! And great that you've found the other chapters - most of them are already complete. Enjoy!

Well, there goes the rest of today…

Nikon has just released a powered zoom lens. So hopefully there will be more of these in the future.

https://www.nikon.com/company/news/2025/0213_imaging_02.html

A side project I've been neglecting is controlling autofocus on Sony Alpha cameras (specifically the A7ii and A7iii which I have) for the purpose of focus-stacking: shooting a few dozen shots with minimal-step focal differences and blending them all in photoshop later.

It took me a while to find the API; Sony made one then pretty much scrubbed it from the internet and has ignored my emails asking for one :-)

But even with the API, achieving results are tricky. Whether or not the focus motor steps properly seems to be based on how busy the camera is at the time... I'm trying various combinations of [shoot] - [sleep] - [step the focus] - [sleep] - [shoot] but the exactly which of these steps actually succeeds just seems so damn random.

Nikon's lens/body compatibility matrix is horrendously complicated. https://www.kenrockwell.com/nikon/compatibility-lens.htm

Whereas I think "no metering" is never a problem on Canon.

Over the decades as a DSLR shooter (on Canon), I even saw Nikon shoot themselves in the foot not once but twice.

* When Nikon introduced "E" lenses (electronic aperture, like Canon and all modern designs), very few bodies were compatible with it. They didn't have the foresight to introduce compatible bodies before any lenses with E were released. For example, this was released in 2008 ( https://www.kenrockwell.com/nikon/24mm-pc.htm ), and the earliest compatible body is from 2007. It doesn't work with tons of crop (DX) bodies like the D90, as well as any film camera.

* When Nikon introduced "AF-P" (stepper motor) lenses in 2016, there were no compatible bodies before 2013. Again, not enough future-proofing.

Meanwhile, Canon took a different approach. They pissed off users twice - when transition from the FL mount (1964) to FD (1971), and FD to EF (1987). They basically got it all right with EF - fully electronic, no aperture slider, no focus screw, big diameter.

I have even successfully used a year-2017 Canon lens with Ring USM AF and IS on an original EOS 650 film body (released in 1987), and both AF and IS work perfectly. Mind you, both of those features did not even exist at the birth of EOS. Presumably the AF electronic protocol is agnostic of what motor technology is in the lens, and IS can be a lens-only thing without the body knowing.

Nikon's compatibility gotchas don't hold a candle to Canon's excellent (albeit imperfect) compatibility. Nikon keeps making the same mistakes over and over again, such as not having a screw-drive motor in the F to Z mount adapter; the company really seems to hate people with old lenses and bodies. Oh and this is not new either; Nikon's F to 1 adapter (does anyone remember that highly cropped mirrorless camera?) also lacked certain features.

Nikon's lenses seem to follow a similar timeline, with different names:

Wave motor = AF-S (1998)

Stepper motor = AF-P (2016)

Voice coil motor = SSVCM (2022)

https://imaging.nikon.com/imaging/lineup/lens/glossary/

Tolerably modern Nikon lenses have in-lens AF I believe.

Cool videos, thanks! The driver shown in the first video is indeed a piezoelectric actuator, but not the type Canon uses in their lenses. The driver shown in the second video is probably related to Canon's Nano USM.

Do companies like Canon manufacture these motors or actuators themselves? Or is there some other company that specializes in this sort of thing?

The system stops the motors once it reaches focus. Therefore is a closed loop system.

Hi fooker, thanks for your feedback.

I haven't heard of this issue before, but a quick research showed me that other people have (similar) AF problems with longer lenses on an R6 II. See here https://community.usa.canon.com/t5/EOS-DSLR-Mirrorless-Camer...

Sorry for not providing an explanation, perhaps I can find some time to look deeper into this - but I can't promise.

Thanks for your feedback. Until now I have never blogged about the creation of these illustrations, but it's a nice idea, there is tons of "behind-the-scenes" material. With regards to the viewfinder image, the actual path of light was drawn with the help of a Japanese optical engineer who was able to provide professional raytracing simulations.

turnsout Thank you very much. Trying to understand complex things has always fascinated me. Indeed it takes a lot of time (rd. 1.600 hours for the complete series of Canon lens chapters) but its people like you who drive me forward. I don't have a donation page yet, I never thought it would be used :-)

Thanks nayuki for the detailed comment and positive feedback.

Thanks for pointing out the missing EF-M, I am going to add that during the next polishing round. With regards to USM noise, the ultrasonic whine can be picked up by very good ears. I think the Nano USM is excited in the range of 60+ kHz, so at least that type of USM motor is absolutely inaudible.

Syntax-wise with F2.8, you got me. I know it's not 100% correct, but it was a deliberate choice that I made. Historically, there is either 1:2.8 or f/2.8 which will always be correct representments of the aperture (exit pupil) diameter. However, pursuing a cleaner look, I avoided the division or slash characters because the relation between the focal length and the f-number is known by every photographer. This is why Canon has also made the transition to the syntax "F2.8" in all their RF and RF-S-lenses - at least their product names and labels printed on the lens barrels. (The same is true with the focal length where Canon doesn't print "mm" on the barrel - to achieve a cleaner less mathematical look). So I believe what I did here was just go with the trend :-)

> EF-M, Canon's foray into mirrorless interchangeable-lens cameras

Canon's foray into SMALL mirrorless interchangeable-lens cameras.

The R series are mirrorless, but not that small. too bad.

EF-M is fairly dead at this point isn't it?

This sounds like a fun gadget. Just out of curiosity, do you still have that demo kit, and would you consider selling it? :-)

A couple of universities built a telescope called Dragonfly, that utilizes 48 Canon 400mm lenses to photograph the skies of New Mexico. The kicker is they don't use camera bodies. Instead, they designed and built mounts that directly connect the lens to a sensor. A PC controls each lens through some custom electronics using commands they reverse-engineered from the Canon control software. These commands control focus, aperture, and triggering a photograph. Images from the 48 lenses are then combined in the computer into a highly detailed final image. This was done back in 2013 so its possible Canon has released an API by now but I suspect they still keep it proprietary.

https://en.wikipedia.org/wiki/Dragonfly_Telephoto_Array

A number of machine vision camera vendors have higher-end variants that support active EF-mount lenses. They tend to be quite expensive models with larger sensor, since you tend to lose a lot adapting full-frame lenses to tiny C-mount sensors.

If you want a computer-controlled lens, one of the cheapest options is to use Blackmagic cameras that support SDI and/or USB control. You can then control either native M4/3 active lenses (focus, aperture, zoom) or supported EF-mount lenses if you use one of the EF->M4/3 active adapters.

You should be able to get fungus CLA’ed. Leica shooters using true vintage lenses sometimes need to do this when picking up a find from a flea market.

I must be old -- I vividly remember the Nikon crowd crowing loudly online forums (fredmiranda.com I'm looking at you) about how Canon broke backwards compatibility when they moved from FD to EF. Whereas you could slap an F-mount lens from the 1950s on any Nikon DSLR ever made, no problemo. (Remarkably, this continues to be true!)

As a Canon owner, Nikon has a much longer back compatibility range. Having autofocus motors and IS in body rather than in lens seems to be a part of their trick.

I have an EOS 35mm lying around that can use the same lenses too.

You're probably thinking of https://ciechanow.ski/mechanical-watch/

I can't imagine how long this post took to make, let alone trying to do animations.

On the ring-type USM motor you can click on some images to see animations running. But there is no additional interactivity at this point.

Sorry to hear that. I tried on my Firefox and it worked. Not sure what might cause that issue.

I had this problem in Chrome. I turned off JavaScript and the page worked nicely. (Props for that!) I'm assuming my adblocker or auto-accept-cookies plugin did something weird.

As the old saying goes, buy the glass, rent the body. Camera bodies change much more quickly than the lenses, so as an indie your money is better spent on the glass. However, shit is so cheap now that you can almost upgrade your gear like your phone. IF you’re a cut ally making money with it, you can pay off your gear in one or two gigs. Unless you’re the “nephew with a 5D asking $500” to shoot that project

I chose early on to invest in Canon's L lenses even though I'm an amateur. Yes, they are considerably more expensive than consumer lenses but for the price, you get a more rugged, weatherproof body, sharper and faster glass, and a greater selection of both fixed and zoom lens. The down side is they are quite heavy making them more difficult to carry when shooting outdoors and they can require a stronger tripod to support the weight of the lens and camera. But, the images they can produce can be simply stunning at times and that, after all, is why we do photography.

Considering my 70-200 can still hang after 10 years and will last another 20 easily with some TLC I was fine with my $1500 purchase - which I made as an indie filmmaker!

Jokes aside Sony glass really isn’t all that much cheaper.