I ordered a Nikon D700 along with an SB-900, Nikkor 50 f/1.8 AF-D, Nikkor 28–105 f/3.4–4.5 AF-D, Sigma 180 f/3.5 macro, and Sigma 1.4x
TC using the proceeds from my Olympus liquidation
sale. This equipment arrived on 31 July 2008. This
page gives my impressions after using the camera for a
month, which involved several macro photography
outings, photographing a wedding, and taking some
casual portraits.
The E-3 is ahead of the D700 in several
respects
The D700 uses a mixture of buttons, wheels, switches, and
rings to control the camera. Things like the metering
pattern, autofocus tracking, and focus pattern are
configured via switches. You change the mode by moving the
switch—simple and fast. The E-3’s controls operate entirely
through buttons and wheels. Changing the metering pattern,
for example, requires holding down a button and turning a
wheel. This isn’t as fast to execute or learn as flipping a
switch, but the motions burn themselves into your brain
after a few weeks of regular use. The payoff is twofold:
settings don’t change when the camera is bumped, unlike the
D700’s AF mode, and every single camera setting can be
programmed into the E-3 via custom resets. I had custom
reset 1 set to aperture priority, ISO 100, image
stabilizer on, raw capture, dynamic single target focus,
matrix metering, etc. This let me easily revert the camera
to a known state by holding down two buttons and turning a
dial to trigger the reset. On the D700, bringing the camera
back to a known state requires visually inspecting the
position of numerous switches and dials. The E-3’s approach
takes longer to get used to and requires regular practice,
but I think that it’s superior in the long run. Sadly,
there are only two custom resets, and you can’t give them
names.
Auto-ISO on the D700 isn’t as useful as on the E-3. The
problem with the D700 is that you program in a single
minimum shutter speed. This is fine with primes but not so
hot with zooms. The E-3’s auto-ISO function uses the focal
length of the lens to determine the minimum shutter speed,
and you can see the ISO change in the viewfinder as you
zoom.
The D700’s environmental sealing does not seem as secure as
the E-3’s. The flap that covers the USB and other ports on
the D700 doesn’t close securely, the CF door simply slides
open, and there’s a tiny latch for the battery compartment.
Many other items snap closed. The environmental sealing on
the E-3 is a work of art. Everything closes securely via
locking doors, and protection for the PC sync and other
connectors screws into place. There’s a greater overall
feeling of solidity. All pro (starting around $500) and
top-pro (starting around $1500) lenses in the Olympus lens
line-up are also environmentally sealed. Nikon cameras and
lenses have admittedly traveled the world and delivered
photos in all sorts of extreme conditions, and a cynic
would claim that Olympus’s environmental sealing only means
that you’re free to snap out-of-focus, noisy pictures in
these conditions.
The E-3 has fewer focus points than the D700 (11 vs. 51),
but they’re more evenly distributed across the viewfinder.
There’s almost always one where you need it. Too bad that
none of them work reliably. The D700’s are packed into the
center, which makes for more focusing and recomposing, but
they work.
It is subjective, but the D700 doesn’t feel quite as good
in the hand as the E-3, and fewer of the controls fall
naturally under your fingers. This is particularly true
with ISO adjustment. The E-3 puts the ISO button near the
shutter release where it’s easily reached by your right
index finger. It’s a simple matter to hold down this button
and adjust the ISO with your thumb while looking through
the viewfinder. Nikon puts the ISO button to the left of
the prism where you need to move your left hand off the
lens to access it. This requires a lot more movement than
Olympus’s set-up. Nikon also doesn’t include auto-ISO as
one of the ISO settings (it’s the one under ISO 100 on the
E-3)—you need to access it through the menu system. The E-3
can even display the color temperature in the viewfinder,
which lets you adjust white balance without dropping the
camera from eye level. Olympus is well ahead of Nikon in
this area.
The E-3 has a built-in IR receiver, which lets you trigger
the camera using a $30 RM-1 that’s smaller than a pack of
matches. It works well enough for casual use, but it’s
not something on which you want to stake your
reputation. The receiver is also on the front of the
camera. Nikon requires you to buy at least $100 worth
of stuff that screws into the 10-pin connector if you
want wireless remote capability. Fortunately, custom
function D9 plus the self timer does the trick for
tripod work.
The D700 has a well-implemented live-preview system that
can use either passive AF by flipping the mirror or
contrast-detect AF using the sensor. The E-3 only offers
passive AF. The D700’s implementation of passive AF feels
more responsive due to its vastly superior AF system. I’ve
yet to try the contrast-detect mode that Nikon calls
tripod mode. Sadly, the D700’s LCD does not pivot
like the E-3’s, which makes live preview difficult to use
for shooting at odd angles due to glare. The LCD screen has
a good viewing angle, but glare often washes out the image.
I’m hoping that Giottos releases one of their kick-ass
Aegis screen protectors for the D700
soon, as this would help considerably with glare. The
E-3 is also smart enough to close the viewfinder
shutter when live-preview is enabled to prevent light
from entering the camera via the viewfinder and
interfering with metering. You need to do this
manually on the D700.
The E-3’s in-body image stabilization works well and gave
me 2–3 stops of improvement depending on the situation.
Nikon relies on image stabilized lenses to do this. It
would be nice to have, but I’m hardly missing in-body image
stabilization on the my D700 since its lower-noise imaging
pipline lets me bump up the ISO 3–4 stops over what I would
have dared use on the E-3. This also helps freeze subject
motion, something image stabilization doesn’t address. It’s
a great feature in the E-3, but I’m not missing it as much
as I had expected due to the D700’s amazing high-ISO
performance.
The E-3 has a quieter shutter than the D700, and its
automatic white balance thoroughly spanks the Nikon’s. You
should expect the D700’s automatic white balance to miss
the mark by 1000+ K, particularly indoors, while the E-3’s
gets close enough, even under tough mixed lighting, that
fine-tuning typically isn’t necessary. This may be the
result of the E-3’s external white balance sensor. Whatever
the case, you need to make friends with the white balance
presets and/or an ExpoDisc when shooting a D700.
The D700’s F-mount feels like a clunky throwback to the
1950s compared to the buttery-smooth 4/3 lens mount.
Actually, it is a throwback to the 1950s! The F-mount seems
more like a guideline than a standard as mixing
teleconverters and lenses between manufacturers is a craps
shoot. We’re not talking loosing functionality or EXIF
data—the parts simply don’t fit together in most cases.
The D700 takes the lead most other things, like
reliably delivering sharp, in-focus images
The D700’s image quality is in a completely different
league than the E-3’s. Noise on the D700 is about 3 stops
less than the E-3, it captures a wider tonal range, and the
images look far sharper and more detailed. I don’t think
twice about shooting at ISO 1600–3200 in well-lit
environment and wouldn't see a problem printing ISO
3200–6400 shots at 16"x20" after some post-processing. ISO
12800 looks adequate for web galleries, small prints, or
perhaps larger prints after a B&W conversion. Banding
creeps in at ISO 25600—yuck. Regardless of the ISO, images
from the E-3 always appeared a bit soft and didn't respond
well to sharpening in post-processing. I suspect that this
is due to the heavy noise reduction needed even at low ISOs
(try decoding E-3 raw files using a high-res raw converter
like RPP for a real surprise). Not so with
the D700. They're crisp from the get-go and sharpen up
additionally if needed. Shadows in E-3 images also
always looked noisy, even at ISO 100, and lifting them
in post processing mostly amplified noise and reveled
banding instead of recovering detail.
The D700 has an amazing AF system. It works beautifully,
even in dim light, which was a welcome relief after the
inept AF system on my two E-3s (see my E-3 Focus
Trouble article). When set to continuous focus
mode, the D700 remembers the color of the object under
the initial focal point. It then uses that color
information to aid in handing off focusing duties to
the other 51 AF points as the subject moves around the
viewfinder. You can see the active focal point move
when it's doing this, like when tracking birds in
flight. It's amazing! When set to multi-point mode,
the E-3 appears to simply pick the focus point with
the most contrast, and it can’t hand off between
points like the D700. The D700 also has an in-body
focus-assist light for dim light, which is much less
annoying than the E-3’s technique of flickering the
pop-up flash. Tracking a bride moving down the aisle
is no trouble, and the camera will even focus on the
texture of drywall in typical indoor lighting at
night. It was a struggle to get in-focus pictures with
my E-3. It’s hard to capture out-of-focus ones with my
D700.
The D700’s sports a gorgeous 3” LCD that offers four times
the pixel count of the E-3’s 2.5” LCD: 640x480 vs 320x240.
It’s bright, accurate, and appears to have a wider gamut
than the E-3’s. Too bad it doesn’t pivot.
I have not yet used the D700’s flash system enough to have
a strong opinion on the relative reliabilities of both
systems, but Nikon’s system appears better thought out so
far. Nikon lets you use an on-camera flash, either the
camera’s pop-up flash or an external one, as a wireless
controller and a strobe simultaneously. That is, the
on-camera flash can both control remote ones and also
contribute to the exposure. Olympus requires you to use the
pop-up flash to control remote ones, and it can’t
contribute to the final exposure. You can’t mount an
external Olympus flash on the camera and simultaneously
control remote flashes. Nikon’s flashes also give an
audible alert when they recharge. The D700’s amazing
high-ISO capability also places less demands on the flash,
which gives you more reach or faster recycling. The head on
the SB900 swivels 180 degrees in either direction, unlike
the FL-50R which is limited to 180 degrees one way and 90
degrees the other, which eases bouncing the flash.
The D700 lets you build a custom menu of commonly used
items and program the function button to bring up this
menu. This is fantastic for quickly accessing settings that
are buried in the menu structure. The D700 also offers a
detailed battery status monitor that’s displayed
continuously on the top LCD. The E-3’s battery status
indicator, which only has three states (full, almost dead,
and dead), is practically useless. Speaking of batteries,
the D700 ships with a charger that fills an empty battery
in under two hours. The charger that comes with the E-3
takes about five hours—the BCM-01 quick charger will set you back
$80. The D700’s built-in level, which displays in the
viewfinder or on the back LCD, is incredibly helpful
if you tend to hold the camera crooked like me. It
works in both portrait and landscape orientations.
Both camera produce beautiful JPEGs
The E-3’s JPEGs output impressed me compared to the
E-500’s. There’s really not that much to be gained shooting
raw files with the E-3. The D700 produces similarly
wonderfull JPEGs while not suffering from the E-3s noise
and slight softness. The D700’s raw files, however, leave
an incredible amount of room for adjusting exposure and
taming highlights/shadows in post-processing.
Lens line-ups
For many applications, Olympus is ahead of Nikon in the
lens department. Olympus offers a stellar selection of
lenses without a dud in the line, and all their pro and
top-pro lenses are weather sealed. In contrast, it seems
that many of Nikon’s lenses could stand an update for use
on FX bodies.
The discontinued Nikkor 28–105 f/3.5–4.5 AF-D, which I
purchased with my D700, is Nikon’s closest equivalent
to Zuiko’s 14–54 f/2.8–3.5 and 12–60 f/2.8-4.0; you’ll be hard pressed
to fnd a positive review of the Nikkor 24–120 f/3.5–5.6 IF-ED AF-S VR. The
Nikkor 28–105 is an okay lens but exhibits
unattractive bokeh on the long end: points of light
get often rendered as doughnuts like with a mirror
lens. I ended up buying a Tamron 28-75 f/2.8, which is working
beautifully. It’s soft wide open but sharpens up
nicely starting at f/4.0.
The Nikkor 80-400mm f/4.5-5.6D is the closest
equivalent to the two versions of the Zuiko 50–200 f/2.8–3.5, and most reviews
comment on its slow focusing and softening towards the
long end. It also does not focus as close as the
Zuikos and is not weather sealed.
The Nikkor 24–70 f/2.8G ED AF-S and 14–24 f/2.8G ED AF-S seem equivalent to
the Zuiko 14–35 f/2.8 and 7-14 f/4.0 and are also weather sealed.
This one is too close to call, particularly since I’ve
only briefly taken the 24–70 for a spin and never
touched the 14–24.
Nikon has a few versions of their 105 f/2.8 macro that are similar to the
Zuiko 50 f/2.0, but they’re not weather
sealed and are much larger. The stabilizer in the VR
version also doesn’t work at macro distances. Olympus
wins again.
The main wins for Nikon, outside of specialty long glass,
is the availability of fast primes and third-party support.
A Nikkor 50 f/1.8 AF-D costs about $100, and the
50 f/1.4 around $350. The comparable lens for 4/3 is
the Panasonic/Leica 25 f/1.4, which costs nearly $1000 if
you can find one in stock. Too bad Nikon discontinued
their 28 f/1.4 AF-D. Nikon also offers a wide range of
fast wide and telephoto primes and specialty lenses
with perspective and defocus control. Adding in
third-party manufacturers leads to a staggering number
of choices: every third-party lens manufacturer makes
F-mount lenses.
The D700 has less depth-of-field than the E-3 for the same
aperture and field of view lens due to the difference in
sensor sizes. This is often positive, as it helps with
isolating the subject, but it’s a negative for macro
photography where you’re fighting for every millimeter of
sharp focus. It also negates two stops of the D700’s
low-nose advantage, as you need to close down two stops to
get the same depth of field as with the E-3. That is, 50
f/2.8 on E-3 has the same depth-of-field as 100 f/5.6 on
the D700. I don’t see many reviewers addressing this fact.
Conclusion
My D700 produces beautiful, in-focus images. Neither of my
E-3s could consistently do this, which renders their
advantages moot. You can’t frame ergonomics, only results.
I’m very pleased with my switch.
Perhaps Olympus will improve the E-3’s noise
characteristics and fix its AF issues in the E-4. It took
them four years to update the E-1 to the E-3, and I wasn’t
about to wait that long. The D700 is giving me great images
today! That said, Nikon could learn a few things from
Olympus, particularly in the automatic white balance,
automatic ISO, control layout, and viewfinder display
departments.
Also check out this review of the E-3 by a
professional that comes to many of the same
conclusions.
Additional thoughts
The 2x crop factor of the 4/3 sensor yields small, fast
telephoto lenses that pack tremendous reach for their
physical size. The Zuiko 50–100 f/2.8–3.5 is a perfect example:
it’s 1–1.5 stops faster than Nikon’s equivalent
80–400 f/4.0–5.6 despite being
significantly smaller and lighter. The downside is
that sensor’s physical pixel wells are significantly
smaller than those on an APS-C or 35 mm sensors with
similar pixel counts. This results in either noisier
images or softening and smearing of details when noise
reduction is applied. Sadly, a 4/3 sensor will always
produce noisier images than a larger sensor with a
similar pixel count given equivalent lenses and
electronics.
Noise in digital images has much to do with physical
limitations and comes from two major sources: shot noise, which dominates in the
midtones and highlights, and readout noise, which
dominates in the shadows (a third noise source,
dark current, is only an issue in
multi-second exposures and occurs when the sensor
wells fill with thermally created electrons). Shot
noise arises from the quantized nature of light and is
a function of well size and quantum efficiency, which
is the fraction of photons converted into electrons
for later readout. Readout noise results from the
electronics that convert the electrons captured in the
sensor wells into a voltage for the A/D converter. It
is also a function of readout speed: a high readout
speed results in greater noise due to the increased
bandwidth (cameras designed for low noise have low
readout speeds).
We’ll likely see quieter electronics that reduce readout
noise. Decreasing shot noise requires sensor wells that
convert more photons into electrons. This can come from
greater efficiency, such as improving overall quantum
efficiency, or enlarging the wells to collect more photons
in the first place. Any improvement that helps a 4/3 sized
sensor will similarly aid 35 mm sensor performance, and the
latter will retain the advantages of larger wells. Larger
wells also have room to hold more electrons, which improves
the dynamic range of the sensor since that value is the
ratio of the well capacity to the noise floor.
Back