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Spangled Drongo R5 with RF 100-500mm L + RF 1.4x extender |
This post is speculative. I have no inside knowledge
of product development processes at Canon or any other camera/lens maker.
However since introduction of the RF mount in 2018 Canon has
delivered several innovative models
which have some feature or capability not previously seen in the
catalogue of lenses by Canon or other
makers.
Canon’s overall RF strategy seems clear enough. Users who
already have EF lenses can mount and use
them on any RF mount body with the adapter. I have read many reports that these
lenses often autofocus better on RF bodies than they did on the EF mount DSLRs
for which they were originally intended.
For prospective users without a drawer full of EF models,
all the RF lenses thus far released have some feature or capability which
improves on the EF equivalent (where there is one) in some tangible way. This
is the carrot to lure users away from the old EF system to the new RF system. I
think Canon will stop making EF mount bodies and EF/EFS lenses as soon as they
feel they can do so without alienating too many DSLR diehards.
In the process of making the shift from EF to RF we can see
that the new RF lens models fit generally into two groups.
In the first group we see RF versions of established EF
models.
These include the 15-35mm f2.8, 24-70mm f2.8 and 70-200mm
f2.8. These three are staples of professional journalism. Others include a 50mm
f1.8, 24-105mm f4, 400mm f2.8 and 600mm f4.
I suspect that if Canon had not produced these lenses there
would have been a backlash from users accustomed to having those specific focal
lengths and apertures in their bag.
In the second group we see models which have the same or
similar focal length as an EF version but with added feature(s) plus models not
seen in the EF catalogue.
Here are some of these starting with primes, shortest focal
length first:
16mm f2.8
Architecture and real estate photographers have a 15-35mm lens
permanently attached to a camera body. But these UWA zooms are big, heavy and
expensive.
The rest of us want a small, light budget priced UWA lens of
some kind for occasional use.
Behold, the RF 16mm f2.8 which fits the bill perfectly.
Third party suppliers offer UWA primes but they are
generally quite large, often have a dome type front element and usually have no
electrical contacts.
The little RF 16mm takes a normal 43mm filter, has autofocus
and full communication with all Canon RF mount cameras present and future.
Even better it makes very good pictures. It does this with
the assistance of considerable post capture image manipulation either in camera
with JPG stills or video and in post processing with Raw files. This is
necessary to manage the massive barrel distortion and peripheral shading found
in uncorrected Raw files.
As a bonus it can make decent close-ups which seems a bit
strange for an ultrawide optic but it works quite well.
The one thing lacking as I write is a profile for Adobe
Camera Raw/Lightroom. No doubt this will appear in due course.
Missing thus far are a compact 24mm and compact 28mm. Hopefully
these will appear sometime.
35mm f1.8
This is a very popular focal length and aperture so it comes
as no surprise that the 35mm f1.8 was one of the first RF lenses to be
released.
It is the successor to the EF 35mm f2 of 2012 and improves
on that model with lower cost, lighter weight, better optical quality
especially wide open and the ability to make half life size macro photos.
50mm f1.8
The RF nifty fifty of 2020 looks like the 30 year old EF
version of 1990. They are about the same size and price, have a similar optical
formulation and fit into the same niche in their respective catalogues. But the
RF version offers something extra and that is close focussing ability which
enables 0.25x lifesize reproduction. The older lens offered 0.15x. In addition
overall optical quality is improved by the inclusion of an aspheric element in
the optics.
50mm f1.2
The EF 50mm f1.2 of 2007 is basically a 6 element double
gauss design with an additional aspheric element positioned at the rear. I see
in reviews it is optically very poor at the widest aperture and very soft in
the periphery at any aperture. By current standards it would be unacceptable.
The RF version of 2018 utilises a totally different optical
formulation with more elements and greater complexity.
Reviewers report this lens delivers excellent optical
qualities right from f1.2.
The RF version is dramatically better than the old EF model.
Missing thus far is a standard RF 50mm f1.4.
85mm f2
This is the RF version of the EF 85mm f1.8 which was
introduced in 1992. This lens has remained in the catalogue for almost 30
years, testament to its good overall
performance.
The RF 85mm f2 of 2020 has a completely different optical
formulation. This delivers slightly improved sharpness across the frame at all
apertures and the front focussing design enables 0.5x lifesize macro
capability. The EF lens offered only 0.13x.
85mm f1.2
Wide aperture 85mm lenses are ideal for portraiture. They
have long had a place in the Canon catalogue. The EF 85mm f1.2was introduced in
2006. In its day this was regarded as one of the best and sharpest lenses
available. But when I look at lens test
results I see it is weak across the frame at the widest aperture and really
weak in the periphery at all apertures.
The RF version released in 2019 is on a different level
altogether. The author of lens test site Optical Limits goes into raptures
about this lens, describing it as “breathtaking”, “stellar” and “pure lens porn” with “outlandish” sharpness across the frame
right from f1.2.
Still no stabiliser though and the RF is big, heavy and
expensive.
But for the portrait photographer who demands only the best,
here it is.
100mm macro
Canon has a long history of making high quality 100mm f2.8
macro lenses.
The EF 100mm f2.8 macro was released in 1990 with 1x
lifesize reproduction but no stabiliser. I used this lens through the 1990s for
wildflower close-ups, producing many photos on transparency film which still
look good today.
This was followed by a version with ultrasonic focus in 2000
then an L version with stabiliser in 2009.
Each of these EF 100mm macro lenses delivered very good
results so I guess the question for product developers entering the RF mount
era was …what comes next ? Do we just
repeat the EF formula but with RF mount or go for something special ?
As it happens they went for something special in the form of
the RF 100mm f2.8 L Macro IS USM lens which for the first time offers 1.4x
lifesize reproduction. It also delivers extremely high sharpness right across
the frame right from f2.8 at both normal and macro focus distance. The
stabiliser is very effective and the autofocus super fast.
All this means I can make close-ups of wildflowers waving in
the breeze quickly, easily, without a tripod and without any other aids. This
has dramatically changed the way I approach wildflower photography.
The 100mm macro has evolved from a special purpose lens into
a high speed, high function, do anything 100mm lens which is effective for
sports, action, birds in flight, portraiture and anything else for which the
100mm focal length is appropriate.
600mm f11 and 800mm f11
These two implementations of new type of super-telephoto
lens were announced in 2020.
Super teles utilising diffraction/refraction optics are not
new. Canon introduced a 400mm f4 (non-L) DO (Diffractive optics) IS USM in 2001
and updated this in 2014 with a Mk2 version.
You will notice that there are no EF or EF-S lenses with a
maximum aperture smaller than f5.6. This is because the SLR and DSLR cameras of
the era could not reliably autofocus at smaller apertures.
But the on-sensor dual pixel AF in Canon mirrorless models can
focus right down to f22.
Canon has used this new found capability to great effect
with the new 600 and 800mm f11 lenses which deliver very good super tele capability at previously
unattainable levels of size, mass and
price.
In Australia you can buy a new RF 600mm f11 for $1289 or an
RF 600mm f5.6 L for $20,000 which
is 15 times as much.
I had a 600mm f11 for a while and was very impressed with
the remarkable value for money which it can put into the hands of enthusiast
photographers. Sharpness, contrast and
AF performance are all very good. The downsides are a limited close focus
capability and restricted area of the frame available for focussing.
Professional sport photographers will continue to use the
big whites as they are a bit better optically and mechanically and allow more
background blur.
I sold the 600mm f11 after getting an RF 100-500mm L, which
offers greater versatility but costs 4x as much.
Zooms
Zooms can benefit even more than primes from the new found
ability of RF mount bodies to focus at apertures smaller than f5.6. Canon has used this to make a range of zooms
with focal length and aperture ranges not seen previously. The strategy here is clear enough. Canon
wants to offer RF system users lenses which have a greater zoom range or
lighter weight and smaller size or closer focus distance or better stabiliser
or better autofocus or better optical performance or all of the above than
could be had in the EF system.
RF 24-105mm f4-7.1 STM
This is Canon’s least expensive (for now anyway) RF zoom. It
is usually sold together with one of the lower priced RF mount bodies as a kit.
This provides a budget priced entry into the full frame EOS RF mount system.
It is the RF successor to the EF 24-105mm f3.5-5.6 of 2014.
The RF version is a completely new design with fewer
elements providing the same focal length range in a smaller, lighter package at
a lower price. This has been made
possible by
a) utilising post capture corrections to manage the massive
barrel distortion and peripheral shading
at 24mm and
b) reducing the widest aperture to f4-7.1.
All of which should be just fine in practice and in some
respects that is so. Center of frame sharpness is very good as are
the stabiliser and AF speed and accuracy.
But my experience with four copies is that something is not
quite right with this lens. I have been
unable to find one which is decently sharp in the periphery at all focal
lengths.
So in concept this lens is exactly what the RF system needs
for an entry level zoom but there appears to be a problem with the
implementation.
I cannot recommend this lens for landscape and similar
subjects requiring sharpness across the frame.
RF 24-240mm f4-6.3 IS USM
Superzoom lenses are quite commonplace on cameras with small
sensors. For instance the Sony RX10.4 bridge camera with a 15.9mm diagonal
sensor has a 25x zoom of very good quality. But as sensor size increases lens
designers become increasingly challenged when trying to produce a superzoom of
consumer friendly size.
In 2004 Canon released the 10.7x EF 28-300mm f3.5-5.6 L. This was a very large, heavy,
expensive “big white” which must have been a pain to lug around but apparently
found favour with some professional photographers for exactly the reason
amateurs like superzoom lenses which is the ability to manage changing
circumstances without having to change lens.
Sony got into full frame mirrorless first with the FE series
lenses starting in 2013. In 2015 they introduced the FE 24-240mm f3.5-6.3. This
was the first consumer grade 10x superzoom for full frame mirrorless cameras. This was a bold move from Sony but from
reviews which I have read, not altogether successful optically. One well
regarded reviewer described corner sharpness as “disastrous” and
“appalling”. Ouch. It would appear this
lens could benefit from an upgrade.
Canon introduced the RF 24-240mm f4-6.3 in 2019. This lens
is very similar to the Sony in length, mass and specifications. Reviewers were
initially shocked at the amount of barrel distortion and peripheral shading at
24mm in uncorrected raw files. Once corrected however the lens can turn in a
good optical performance with excellent
stabiliser and autofocus operation.
My experience with the RF 24-240mm is a bit mixed. I have
bought and used three copies of this lens since it was released in the quest
for one which could meet my rather picky optical expectations. It would appear that as with the 24-105
f4-7.1 above, this lens is subject to considerable sample variation. It has a complex optical formulation with 21
elements. I am guessing that Canon can only meet the price point for this lens
by minimising the amount of testing applied to each sample before it leaves the
factory.
My first copy was soft at the long end. The second was soft
on the left side. I have kept the third copy which is by no means perfect but
acceptable for this type of consumer product.
Overall this is a better lens than the RF 24-105mm f4-7.1
STM and one I am happy to recommend provided you get a good copy.
RF 100-400mm f5.6-8
Introduced in 2021, the RF 100-400mm is the RF system successor
to the EF 70-300mm.
I bought and used the EF 70-300mm for a while because at the
time there was no RF tele zoom. I found the EF 70-300mm to be a nice lens with
very good sharpness at all focal lengths. It is still available and is very
good value for money.
However…..the new lens is a better match for either the RF
24-104mm f4 L or the RF 24-105mm STM and provides greater zoom reach.
The RF lens is lighter than the old one and the same length
if you add the adapter to the EF 70-300mm. The new RF lens also benefits from
the new 12 pin connection to RF mount cameras with faster AF which is better
able to track moving subjects.
Canon has achieved size/weight reduction by reducing the
aperture one stop from f4-5.6 to f5.6-8.
I find this no problem as the RF bodies especially the R5 and R6 focus
just fine at f8 and have very good high ISO noise characteristics.
The RF 100-400mm is a very nice compact budget alternative
to the next lens which is the:
RF 100-500mm f4-7.1 L
Introduced in 2020 this is the RF successor to the highly
regarded EF 100-400mm f4.5-5.6 L of 2014. As such it had to be something
special and it is.
I have one of these and have never been quite so impressed
by any other lens, ever. It has greater
reach than the EF lens yet is lighter and shorter (if you count the EF-RF
adapter needed for the EF) and amazingly sharp at all focal lengths. It has an
excellent stabiliser and superb tracking capability for fast moving subjects.
It is substantially more expensive than the EF 100-400 (but
that lens is now 7 years old) and costs four times as much as the RF 100-400mm
described above.
But I still rate the RF 100-500mm L good value for money
because it is such a fine lens.
Summary
As the RF full frame mirrorless system catalogue evolves it
is apparent that Canon has put considerable research and development into
developing best-in-class lenses from the largest and most expensive, like the
600mm f4L to the smallest and least expensive like the 50mm f1.8 STM. There is something in the catalogue for all
levels of user from full time professionals right down to hobbyists who want
something better than a smartphone.
What’s next ?
We shall see, but the total number of cameras sold has
declined precipitously over the last few
years with the low end bearing most of the reduction.
So why is Canon producing budget lenses for the RF system ?
My guess: they want to terminate production all DSLRs, all
APS-C, all EF and EF-S lenses and all EF-M bodies and lenses.
The situation until recently has been that “entry level”
meant a Rebel style crop sensor DSLR with EF-S kit lens or an EF-M mirrorless
body with a kit EF-M zoom.
If I were running Canon I would be working to quietly delete
all those options from the catalogue to concentrate research and development,
inventory, sales, marketing and support into just one system.
Support for this idea can already be seen in the form of the
entry level EOS RP and the RF 24-105mm
STM kit lens.
I got these kits and prices from the same vendor. I could
not get an exact match as you can see. The RF-M 15-45mm is a low grade kit zoom
which I found hardly worth using when I had EF-M gear.
The EF-M 18-150mm
doesn’t match the RF 24-105 very well but is the best fit that I could find.
|
Model |
Body price
AUD |
Lens price
AUD |
Body with
lens AUD |
|
EOS RP full
frame Kit with RF 24-105mm
STM |
1529 |
699 |
1969 |
|
EOS M6.2 W.
EVF W. EF-M 15-45mm |
1439 |
EF-M 18-150mm 795 |
2234 |
The crop sensor M6.2 has a faster frame rate than the RP so
might be preferred for fast moving subjects. On the other hand the RP is much
nicer to hold and use. I have bought and owned both and would pick the RP every
time if asked to choose.
You can see where this is going. Already you can have a compact
full frame mirrorless kit for less money than an approximately comparable crop
sensor one.
As usual we shall see.
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