fullframe « 360Photography

RSS

Posts Tagged ‘fullframe’

Sony full-frame CineAlta 4K motion picture camera teased ahead of launch

28 Jul

Sony has teased its video-focused customers with news of an upcoming announcement: it will soon take the wraps off a new CineAlta motion picture camera, one sporting a 36x24mm sensor. There’s still a bunch details forthcoming, but thus far Sony has revealed that the new CineAlta model will be capable of multiple aspect ratios and will be compatible with many existing CineAlta accessories.

Sony has only revealed a handful of details about the camera at this time (below), explaining that it is developing the model ‘through careful research and close collaboration with creative professionals.’ The company doesn’t state when the camera will be available, nor when the full announcement will be made.

Technology highlights and key benefits:

Full Frame 36x24mm sensor exclusively designed for this Digital Motion Picture Camera
Aspect ratio-agnostic – including Full Frame, Super35 4K 4-perf 4:3 Anamorphic and 4K spherical 3-perf 17:9
New image sensor enabling exceptional picture quality
Maintains the workflow established with Sony’s 16bit RAW/X-OCN and XAVC
Compatible with current and upcoming hardware accessories for CineAlta cameras (DVF-EL200 Full HD OLED Viewfinder, AXS-R7 recorder, AXS-CR1 and AR1 card reader, AXS and SxS memory cards).

Via: DIYPhotography

Articles: Digital Photography Review (dpreview.com)

Comments Off

Posted in Uncategorized

Nikon reveals full-frame AF-P Nikkor 70-300mm F4.5-5.6E ED VR

11 Jul

After introducing an AF-P 70-300mm telezoom for its crop-sensor DSLRs last year, Nikon is adding a full-frame version to the mix. The AF-P Nikkor 70-300mm F4.5-5.6E ED VR is the first FX Nikkor lens to offer a pulse (stepping) motor, with quieter autofocus ideal for video shooters.

It claims 4.5 stops of stabilization, which is two stops better than 2.5 claimed on Nikon’s website for the current 70-300mm F4.5-5.6. This updated version also provides a shorter minimum focus distance of 1.2m / 3.94ft (compared to 1.5m / 4.9ft), ‘dust and drip resistance,’ a 9-blade aperture and an ED element to reduce chromatic aberration. It also has electronic aperture control for smooth exposure transitions while shooting video and bursts.

The AF-P 70-300mm F4.5-5.6E ED VR will sell for $ 700 with availability to be announced later.

NIKON INTRODUCES NEW FULL-FRAME TELEPHOTO ZOOM LENS: THE AF-P NIKKOR 70-300MM F/4.5-5.6E ED VR

MELVILLE, NY (July 11, 2017 at 12:01 A.M. EDT) – Today, Nikon announced the new AF-P NIKKOR 70-300mm f/4.5-5.6E ED VR, modernizing this popular zoom lens with a myriad of the latest Nikon technologies. The new lens features enhanced Vibration Reduction (VR) image stabilization capability and integrates a stepping motor for fast and quiet AF performance, making it Nikon’s first full-frame AF-P lens. This new NIKKOR lens is a versatile, compact telephoto option for intermediate FX and DX-format photographers looking to capture sports, wildlife, candids, travel and other subjects at long distances, all with stunning clarity.

“This latest lens reaffirms Nikon’s commitment to giving FX-format shooters of all levels the unparalleled quality of NIKKOR glass, with the benefits of our latest optical technologies,” said Kosuke Kawaura, Director of Marketing and Planning, Nikon Inc.

Updated with the Latest NIKKOR Lens Technologies
Whether capturing a baseball game from the bleachers or the sights of a scenic vacation, the new AF-P NIKKOR 70-300mm f/4.5-5.6E ED VR is a versatile lens that helps users capture sharp images and video, even in challenging light. The new AF-P NIKKOR 70-300mm is lighter than its predecessor, despite packing new technologies that help those shooting photos and video achieve stellar results. Enhancements to the lens include:

Improved Vibration Reduction (VR) System: The new AF-P NIKKOR 70-300mm lens provides users with up to 4.5 stops* of VR stabilization, to help create sharp photos and smooth video, even in low light or while handheld. Users can choose from either Normal or Sport VR Modes for added stability when shooting from a non-stationary location.
Lightweight with Stepping Motor Technology: This AF-P lens uses a stepping motor for fast and quiet autofocus, which reduces the sound of lens operation while recording HD or 4K UHD video. This new technology also contributes to the lens’ reduced weight, making it easy to carry on all-day excursions.
Electronic Diaphragm: This lens takes advantage of the fast burst speed of Nikon DSLR cameras, as the Electronic Diaphragm not only provides smooth exposure transitions during video capture, but also helps maintain consistent exposure during high-speed shooting, such as when photographing sports.
Get Close: The AF-P NIKKOR 70-300mm lens features a minimum focus distance of only 3.94 ft. (1.2 meters) and a reproduction ratio of 0.25x, letting users get even closer to capture the most extravagant details, even at 300mm.
Lens Construction: The lens features dust and drip resistance, along with a metal lens mount for durability. It features a 9-blade diaphragm for a natural, circular bokeh. The lens also features an ED element to significantly reduce instances of chromatic aberration.

Price and Availability
The Nikon AF-P NIKKOR 70-300mm f/4.5-5.6E ED VR lens will have a suggested retail price (SRP) of $ 699.95**, and availability will be announced at a later date. For more information on this new NIKKOR lens as well as the latest Nikon products, please visit www.nikonusa.com.

*Based on CIPA Standard. This value is achieved when FX-format compatible lenses are attached to a FX-format digital SLR camera and zoom lenses are set at the maximum telephoto position.

**SRP (Suggested Retail Price) listed only as a suggestion. Actual prices are set by dealers and are subject to change at any time. Specifications, equipment and release dates are subject to change without any notice or obligation on the part of the manufacturer.

AF-P Nikkor 70-300mm F4.5-5.6E ED VR specifications

Principal specifications
Lens type	Zoom lens
Max Format size	35mm FF
Focal length	70–300 mm
Image stabilization	Yes (4.5 stops)
Lens mount	Nikon F (FX)
Aperture
Maximum aperture	F4.5–32
Minimum aperture	F5.6–40
Aperture ring	No
Number of diaphragm blades	9
Optics
Elements	18
Groups	14
Special elements / coatings	1 ED element
Focus
Minimum focus	1.25 m (49.21″)
Maximum magnification	0.25×
Autofocus	Yes
Motor type	Stepper motor
Full time manual	Yes
Focus method	Extending front
Distance scale	No
DoF scale	No
Focus distance limiter	No
Physical
Weight	680 g (1.50 lb)
Diameter	81 mm (3.17″)
Length	146 mm (5.75″)
Sealing	No
Colour	Black
Zoom method	Rotary (extending)
Power zoom	No
Filter thread	67.0 mm
Hood supplied	Yes
Hood product code	HB-82
Tripod collar	No

Articles: Digital Photography Review (dpreview.com)

Comments Off

Posted in Uncategorized

Meet the EOS 6D Mark II – Canon’s entry-level full-frame DSLR

29 Jun

Hands-on with Canon EOS 6D Mark II

Meet the new 6D – it looks a heck of a lot like the old 6D, but before you jump to the comments to complain about how nothing exciting ever happens in the camera industry anymore, read this article first.

Because appearances are deceptive…

Hands-on with Canon EOS 6D Mark II

One of the most notable upgrades compared to the original 6D is an entirely new 26.2MP full-frame CMOS sensor, with a native ISO sensitivity span of 100-40,000.

We haven’t been able to conduct any lab testing yet, but from our initial shooting it appears (unsurprisingly) to deliver better image quality than the 20MP sensor inside the 6D. The bump in resolution from 20 to 26 Megapixel won’t make as much difference to maximum print sizes as the bare number might suggest, but as a general rule, more pixels = better image quality.

Hands-on with Canon EOS 6D Mark II

Ergonomically, the 6D Mark II is exactly what you’d expect. Button layout is virtually identical to the original EOS 6D, and anyone with experience of a recent EOS-series DSLR will be able to find their way around without any trouble at all.

Hands-on with Canon EOS 6D Mark II

It’s the same story on the back of the Mark II, with one very obvious difference. The LCD is now touch-sensitive, and fully articulating.

Hands-on with Canon EOS 6D Mark II

Like so. Operationally, this makes the 6D Mark II behave very much like the APS-C format EOS 80D. It even shares the same 45-point phase detection autofocus system, with the same Dual Pixel AF implementation in live view and movie modes too, covering 80% of the frame both vertically and horizontally.

Speaking of movie mode, the EOS 6D Mark II offers a fairly standard (ahem – standard for Canon) video feature, with a maximum resolution of 1080/60p. If you want 4K, you’ll have to save up for an EOS 5D Mark IV, I’m afraid.

Hands-on with Canon EOS 6D Mark II

Spot the difference – externally, the 6D Mark II (on the left) is extremely similar to its predecessor. It’s basically the same weight, too – 685g (1.5 lb) compared to 680g.

Hands-on with Canon EOS 6D Mark II

And aside from the redesigned screen, it’s pretty much identical from the back, too. Which is fine – the 6D was a pleasant, intuitive camera, and aside from some very minor styling differences (the card access lamp is now above the memory card door, not below – tell all your friends!) the Mark II barely alters the basic recipe.

While the simultaneously announced EOS Rebel SL2 features a dedicated Wi-Fi button, setting up the 6D’s wireless system is all done through the camera’s menu system. The 6D II supports NFC for easy pairing with Android devices as well as Bluetooth for maintaining a constant connection with your mobile device. Like its predecessor, the EOS 6D Mark II also offers a built-in GPS for image geotagging.

Hands-on with Canon EOS 6D Mark II

Note the raised collar around the hotshoe. This forms a weatherproof seal when the 6D Mark II is used with one of Canon’s high-end flashguns.

As usual, Canon is coy when it comes to the extent of the EOS 6D Mark II’s weather-sealing, but I am in the unusual position of having been able to test a pre-production unit in moderately heavy rain. You’ll be reassured to know that while I got quite soggy, the camera didn’t stop working, explode or fall apart in my hands.

Hands-on with Canon EOS 6D Mark II

For almost 30 years, non-pro Canon SLRs have sported the same distinctive exposure mode dial. This is where you’ll find the standard PASM shooting modes, as well as auto exposure modes, including full-auto, custom shooting settings and scene modes (‘SCN’). The 6D Mark II’s main power switch is just below.

Hands-on with Canon EOS 6D Mark II

Some readers might be disappointed with the 6D Mark II’s single SD card slot (and lack of UHS-II support,) but a lot of enthusiasts and advanced amateurs probably won’t care. With card capacities of 64GB+ and built-in Wi-Fi, some 6D II users might find themselves swapping cards very rarely.

That said, with a maximum shooting rate of 6.5 fps, the 6D Mark II will rip through card space quicker than its predecessor (which maxed-out at 4.5 fps) especially in Raw mode.

Hands-on with Canon EOS 6D Mark II

The LP-E6N battery is compatible with most high-end Canon DSLRs, which is great news for anyone considering a 6D Mark II as a second camera alongside an original 6D or recent 5D-series body. Battery life is quoted as 1200 shots in viewfinder shooting mode, dropping to ~400 in live view.

Hands-on with Canon EOS 6D Mark II

Like the 5D and 1D-series bodies, the 6D Mark II is compatible with Canon’s Remote Switch RS-80N3, and the programmable TC-80N3. The remote switch socket is positioned at the front of the camera, safely out of the way of the handgrip.

Hands-on with Canon EOS 6D Mark II

Standard HDMI and USB I/O ports can be found on the side of the 6D Mark II, alongside a mic socket. We’re pleased to see that the mic socket is offset, which means that it shouldn’t snag the articulating screen during movie shooting.

You can read more about using the EOS 6D Mark II in my shooting experience.

What do you make of the EOS 6D Mark II? Let us know in the comments below.

Articles: Digital Photography Review (dpreview.com)

Comments Off

Posted in Uncategorized

2017 Roundup: $1200-2000 ILCs: full-frame

23 Jun

Last updated: June 23, 2017

For those wanting to step up from entry-level to midrange ILCs, there are many things to consider, including the choice between a DSLR or mirrorless camera, what sensor size suits you best, how important video is to you, and of course the lens system.

While full-frame cameras typically offer superior low light image quality and more control over depth-of-field, crop-sensor cameras are extremely capable in their own right – and (usually) more compact and less costly.

We’ve split the $ 1200-2000 ILC marketplace into two segments – full-frame sensor cameras (discussed in this roundup) and crop-sensor (APS-C/Four Thirds) covered here.

This group of full-frame cameras is split right down the middle, with three DSLRs and three mirrorless models. Sony is, by far, the major player in the full-frame mirrorless market, with most of the other manufacturers sticking with DSLRs.

Here are the cameras we’ll cover in this enthusiast full-frame roundup:

Canon EOS 6D
Nikon D610
Pentax K-1
Sony Alpha a7
Sony Alpha a7 II
Sony Alpha a7R

Articles: Digital Photography Review (dpreview.com)

Comments Off

Posted in Uncategorized

Zeiss launches Milvus 1.4/35 full-frame lens for Canon and Nikon

21 Jun

Zeiss has launched a new lens for full-frame DSLRs with Canon and Nikon mount, the Milvus 1.4/35. The new model is the tenth lens in the Milvus series and according to Zeiss, thanks to its fast aperture, particularly suited for portrait photography. That said, its 35mm focal length also makes it a good all-rounder and useful in landscape photography and even filming.

“The high maximum aperture enables the subject to stand out clearly against the background, and the photographer can achieve creative combinations of focus and blur,” says Christophe Casenave, Product Manager at Zeiss.

Like all lenses in the Milvus line the 1.4/35 comes with a robust metal barrel and is protected against dust and splashes and therefore suitable for working in adverse weather conditions. Zeiss says a new optical design with aspherical lens elements, special glass materials and advanced correction means photos taken with the Milvus are practically free from chromatic aberrations. The Zeiss Milvus 1.4/35 will be available from specialist dealers and in the ZEISS Online Shop from July 2017. The recommended retail price is 1,999 Euros ($ 2,228). More information is available on the Zeiss website.

Press Release:

ZEISS Milvus 1.4/35 Camera Lens for DSLR Cameras

The tenth lens in the ZEISS Milvus series for DSLR cameras already shows its many benefits at full aperture

OBERKOCHEN/Germany, 2017-06-21.

ZEISS has launched a new lens for full-frame DSLR cameras from Canon¹ and Nikon² on the market: the ZEISS Milvus 1.4/35. Now the tenth lens in the Milvus family, the ZEISS Milvus 1.4/35 is particularly suitable for portrait photography thanks to its speed. “The high maximum aperture enables the subject to stand out clearly against the background, and the photographer can achieve creative combinations of focus and blur,” says Christophe Casenave, Product Manager at ZEISS. “The manual focus enables very exact focusing, and the creamy bokeh provides an excellent image look. And even at full aperture the image quality leaves nothing to be desired.” The ZEISS Milvus 1.4/35 is also perfectly at home in landscape photography: “The 35-millimeter focal length is a genuine all-rounder.” Like all lenses in the ZEISS Milvus family, it is protected against dust and splashes and, according to Casenave, even bad weather is no problem. The metal barrel gives the lens its robust and durable character.

Practically no chromatic aberrations thanks to a new optical design

With aspherical lens elements, special glass materials and advanced correction, ZEISS has given the lens a completely new optical design. “This means the photos are practically free from chromatic aberrations,” says Casenave. Thanks to their excellent edge-to-edge imagery the ZEISS Milvus lenses are designed for high-performance digital cameras. “The resolutions of camera sensors are constantly becoming higher, and this also increases the demands made on the lenses. For ZEISS Milvus lenses this is no problem. They are a solid investment in the future.”

Also suitable for filming

The ten lenses in the ZEISS Milvus family, ranging between 15 and 135 millimeters, are also suitable for film productions: the manual focus with a large rotation angle can be operated with the aid of a ZEISS Lens Gear with a follow-focus system. The de-click function allows the aperture to be set continuously in the version for Nikon³ cameras. A further benefit for filming: ZEISS has matched the color characteristics of the ten lenses. Filmmakers can therefore switch between the focal lengths and still have a uniform color look. “This facilitates editing enormously,” says Casenave.

Price and availability

The ZEISS Milvus 1.4/35 will be available from specialist dealers and in the ZEISS Online Shop from July 2017. The recommended retail price is 1,999 euros.

You can find further information at www.zeiss.com/photo/milvus1435

Articles: Digital Photography Review (dpreview.com)

Comments Off

Posted in Uncategorized

Four Common Myths About Full-Frame Cameras Dispelled

21 Jun

One of the beautiful things about modern digital photography is the astronomical degree of choice that is available to us. No matter whether you’re a professional photographer, a weekend warrior, or a casual enthusiast who just likes to take snapshots of your kids, your food, or your feet – there are dozens, even hundreds, of camera models and options to suit your needs. There are specialty cameras for recording extreme sports, underwater cameras for photographing the deep blue sea, and a slew of lenses available for DSLR and mirrorless cameras to suit any situation in which you might find yourself.

There are also some clear differentiating factors between these various options that make some cameras better suited to certain situations. One of the most common issues I see discussed is that of full-frame versus crop-sensor cameras. To help clear the air regarding this particular question I’d like to address four common myths about full-frame, with the goal of helping you choose a camera that suits your needs.

Four Common Myths About full-frame Cameras Addressed

Taken with a 10-year-old crop-sensor Nikon D200 and 50mm f/1.8 lens.

Myth #1: full-frame is better than crop-sensor

I see this myth being perpetuated all the time, particularly in online forums but also when talking to people in person. It’s a shame because it’s just not true. full-frame is certainly better in some aspects compared to crop-sensor cameras, but to declare that they are universally better is colossally misleading.

One analogy I like to use here is that of vehicles, particularly pickup trucks. A beast like the Ford F-150 is a fantastic and phenomenally well-rounded truck that excels at hauling, towing, and all the usual heavy-duty jobs for which one would typically buy such a vehicle. By comparison, the Toyota Tacoma is a smaller truck and not quite as powerful or capable, but actually beats its larger counterpart in some regards such as better gas mileage, smaller turning radius, and greater overall agility in a more urban environment.

Taken with a full-frame Nikon D750 and 85mm f/1.8 lens. A crop-sensor camera would have worked, but would have required me to be farther back in order to get this same composition and there was simply not enough space in the room to do so.

Different not necessarily better

Neither truck is objectively better; both are well suited to the specific needs of the people who purchase them. The same is true for cameras in that full-frame cameras work very well in many regards. But to say they are better negates some of the unique advantages of smaller crop-sensor cameras.

full-frame models, as a rule, have strengths like greater high ISO capabilities, improved dynamic range, and improved build quality. If these things are important to you, then a full-frame camera might suit your needs. However, smaller and less expensive crop-sensor cameras have some unique advantages as well such as:

Autofocus points that reach farther out to the edges of the viewfinder.
Faster shutter sync speeds.
Longer reach—a 200mm lens on a crop-sensor camera is basically like shooting with a 300mm lens on a full-frame camera.
Generally less expensive.

These are all generalizations, of course, and there are always exceptions to the rule. But suffice it to say that just because full-frame cameras exist doesn’t mean you need to get one.

Taken with a crop-sensor Nikon D7100, 50mm lens, and +10 close-up filter.

Myth #2: Shooting full-frame will improve your photography

This is a myth that’s closely related to GAS, or Gear Acquisition Syndrome – a condition that plagues many photographers and often causes them to continually buy more cameras, lenses, and accessories in the hopes that these things will help improve their photography. Getting a full-frame camera will certainly allow you to take advantage of the unique benefits that they offer, but it will by no means do anything to actually improve the quality of your photographs.

No matter what camera you have, whether it’s a mobile phone, pocket camera, or crop-sensor DSLR, the best thing you can do to make yourself a better photographer is to learn more about photography, not spend money on new gear. In fact, sticking with the gear you have and learning to work within its limitations can have a profound impact on your photography and go quite a long way towards helping you improve.

Taken with a full-frame Nikon D750 and 50mm lens, but it was years of learning about composition, lighting, and other photographic principles that helped me get this shot.

To extend the vehicle metaphor just a bit, buying a Formula 1 car will not automatically make you a better driver. Certainly, it will allow you to have access to the unique capabilities of such a fine automobile. But simply parking an F1 racecar in your driveway will in no way upgrade your own ability to operate a motor vehicle. Some photographers mistakenly think that purchasing a full-frame camera will give their photography a boost. But in truth, it’s the day-in-day-out work of practicing the fundamentals of photography like composition, lighting, color, contrast, etc., that will lead to improvements.

Myth #3 Full-frame is too expensive for casual photographers

If you do decide that you want to invest in full-frame gear, you can take solace in the fact that price is no longer the barrier to entry that it once was. The first full-frame camera was the Canon 5D, which came out in August 2005 and cost about $ 3500 USD, which made it prohibitively expensive for all but the most dedicated professionals and ardent enthusiasts. Crop-sensor cameras were far cheaper, making them the default solution for many photographers around the world. To this day they remain a perfectly viable option for almost any type of photography.

However, as prices have gone down over the years it is now much more feasible to purchase full-frame gear compared to days gone by. New full-frame cameras such as the Nikon D610 or Canon 6D are about $ 1400-1500 (at the time of writing this) and can often be found on sale, which is a steal compared to just a few years ago. And while more expensive models such as the Canon 1DX Mark II or Nikon D5 can easily cost as much as a used car, you certainly don’t need those high-end models to take advantage of many of the benefits of shooting full-frame.

Taken with a full-frame Nikon D750 and 70-200 f/2.8 lens. I could have taken a similar shot with a crop-sensor camera and different lens, but I specifically wanted the wide aperture of this lens and the control over depth of field offered by the D750.

Another benefit of the passing of time is that full-frame cameras which were cutting-edge a few years ago are significantly cheaper in price now that they have been replaced by newer models. Consider the Canon 5D Mark II, a camera which is so good it was used to film the season finale of the TV show House in 2010. While it can’t match the blistering high ISO performance and other tricks of its newer counterpart, it’s still a phenomenal camera and can be found used online for much cheaper than the shiny new models.

Myth #4 All serious photographers will eventually go full-frame

Friends and family members often ask me for advice when it comes to buying cameras and camera gear, and this used to be somewhat precarious territory due to the understanding that real photographers always ended up buying full-frame cameras. Thus, advising someone to buy a crop-sensor camera was to tread on dangerous ground because in a few years that person might realize his or her gear is a second-class citizen in the world of photography and it would have been better had a full-frame model been purchased from the start. Thankfully nowadays, as Princess Leia said to Han Solo at the end of Return of the Jedi, “It’s not like that at all.”

Taken with a crop-sensor Nikon D7100 and 50mm f/1.8 lens.

Sensor technology in cameras today is so good that you can shoot professional photos whether you have full-frame, crop-sensor, medium format, micro-four-thirds, or in some cases even just a mobile phone. Camera gear is not the limiting factor it once was. So while many professionals certainly like to shoot full-frame, there is a growing number who prefer the features, size, convenience, and price of smaller models especially in the world of mirrorless cameras like the Olympus OM-D EM1 Mark II or Panasonic GH5.

If you have specific needs that are not being met by your crop-sensor camera then it may be a good idea to consider a full-frame camera. But otherwise, the gear you have is probably good enough and you’d be better off investing your money in lenses, lighting, and education rather than a new camera body.

Taken with a full-frame Nikon D750 and 50mm f/1.8 lens. Why that particular setup? Honestly, I just like how that camera feels in my hands and I enjoy using it.

Conclusion

I’d like to hear from you, the DPS community, on this one. What type of camera gear do you shoot with, and is there any way in which you find it to be limiting? Do you shoot with full-frame and if so, what do you like about it? Are you content using crop-sensor cameras?

For the record, I personally use both crop-sensor and full-frame cameras and have specific purposes for both. But it’s always interesting to hear from other photographers on subjects like this. Leave your thoughts in the comments below.

The post Four Common Myths About Full-Frame Cameras Dispelled by Simon Ringsmuth appeared first on Digital Photography School.

Digital Photography School

Comments Off

Posted in Photography

How to Understand the Differences Between Full-Frame Versus Crop-Sensor Cameras

14 Jun

I remember how excited I was to get my first DSLR several years ago. My wife and I had a newborn and wanted to get better shots of our little baby than what a pocket camera could provide. So we soon found ourselves with a new-to-us Nikon D200 that produced stunning images of our precious little boy. The pictures wouldn’t win any prizes, but they were leagues beyond what we could get with our pocket camera or cell phone and that was fine with us.

However, the more I learned about cameras in the coming months, the more I started to think we had made a mistake because our camera was, I discovered, a crop-sensor model. Unbeknownst to us, we had spent hundreds of dollars on what was clearly an inferior camera! Or so I thought at the time. The truth, as is so often the case, is much more nuanced. I’ll explore it a bit in this article so you can understand the practical differences between these two types of cameras and hopefully decide which one is right for you.

How to Understand the Differences Between Full-Frame Versus Crop-Sensor Cameras

This duck is rushing to get the latest full-frame camera he read about on the internet.

Different, not better

Before I get too deep into this article I want to make one thing clear; neither crop, nor full-frame, nor medium format, nor micro-four-thirds are any better than the others. All of them are different, and each format has its strengths and weaknesses (yes, even full-frame cameras have weaknesses!) and each is ideally suited to different types of photography. Moreover, all types of cameras are capable of taking great photos. Even mobile phones, which are basically super-duper-ultra-crop sensor cameras, can take breathtaking award-winning shots that grace not only social media feeds but billboards, walls, and pages of magazines across the world.

The term crop-sensor or full-frame refers solely to the size of the imaging sensor inside a camera. A full-frame sensor is the same size as a piece of 35mm film which was, and still is, the most widely-used type of film in analog cameras. The most common size that the term crop-sensor refers to is known as APS-C, which is the same size as a piece of film from the mid-1990’s Advantix format (also called the Advanced Photo System or APS) invented by Kodak.

How the smaller sensor affects your images

Using a smaller sensor has interesting effects on things like depth of field and apparent focal length of lenses, but it’s not a subjective measure of how good or bad a camera is. Think of it like going to an all-you-can-eat buffet with different sized plates. Shooting with a full-frame camera is like taking a normal size plate to the serving area, whereas using a crop sensor camera is like using a plate that is about 30% smaller. Both will get the job done, and both are great for different types of people. So what’s all the fuss about? Understanding some of the practical differences between these two types of plates…er…cameras will help you know which type is best for you.

So what’s all the fuss about? Understanding some of the practical differences between these two types of plates…er…cameras will help you know which type is best for you.

Crop-sensor versus Full-Frame…it’s not about which is better, but which will suit you better.

ISO performance

For years one of the immutable truths about shooting with a full-frame camera was that it automatically gave you better performance at high ISO values. While this is still mostly true today, it’s also safe to say that for a majority of practical scenarios crop-sensor cameras have picked up the slack and can hold their own fairly well when pitted against their large-sensor counterparts.

If you are looking for the ultimate in high ISO performance though, you might want to ditch that Canon Rebel and start shopping around for a 5D Mark IV or a 1DX. The reason for this discrepancy is due to physics. The pixels, or tiny individual light-sensitive bits on a camera imaging sensor, are usually larger on a full-frame camera.

Bigger buckets

For example, pretend it’s raining and you want to collect some of the water that’s falling freely in your front yard. To do so you set out 24 large buckets (so big you call them mega-buckets) next to each other and wait a few minutes for them to start filling up. Your neighbor, meanwhile, sees your plan and rushes to do the same thing but uses 24 ultra-mega-buckets that are about 30% larger than yours. When the sun comes out and the birds start to sing, who will have collected more water? I’ll give you a hint, it’s not going to be you.

How to Understand the Differences Between Full-Frame Versus Crop-Sensor Cameras

Even though you and your neighbor were both harvesting rainwater with 24 mega-buckets, hers were larger in size and therefore able to collect more water. It’s kind of the same with cameras in that a model like the Nikon D5500 has a 24-megapixel image sensor which is the same as a full-frame Nikon D750. However, since the pixels on the D750 are bigger they are more sensitive to light. So, when there’s not much light available, such as a situation where you may need to shoot at ISO 6,400 or 12,800, they do a better job of collecting the light.

ISO 6400, crop-sensor Nikon D7100. Note how grainy much of the dark areas look, and the somewhat desaturated feel of the bright colors.

Shooting the same scene with a full-frame Nikon D750 yields much better results, with less overall noise and cleaner colors.

Technology advances

This analogy quickly breaks down when you consider the advances in modern technology. Most crop-sensor cameras today significantly outshine their forebears from just a few years ago when shooting at ISO 3200 or 6400. The Fuji X-T1, a modern crop-sensor camera, is about equal to the full-frame Canon 5D Mark III in terms of high ISO performance. Granted the latter is a few years old and has since been bested by other full-frame cameras, but still, the point remains that today’s crop-sensor cameras are no slouch when it comes to shooting at high ISO values.

However, if you want the absolute best in terms of high ISO sensitivity, a modern full-frame camera is usually going to be your best bet. It’s not a zero-sum game though, and there are many other practical considerations to think about. Lastly, just because a camera can shoot at ISO 25,600 doesn’t mean it’s the right one for you.

Cost and Size

There is a principal of mathematics known as modus ponens which is used as a way of showing a certain thing to be true because it follows a logical progression. Basically, it’s a formal way of saying that one thing P naturally implies Q. If P is true, then Q must also be true.

Camera Size

When we apply this rule to photography we can immediately see one disadvantage of cameras with larger sensor sizes. It goes like this; full-frame sensors are larger than cropped image sensors (i.e. condition P). Larger sensors need larger camera bodies in order to compensate for the increase in sensor size (i.e. condition Q). Therefore, cameras with larger sensors are larger than cameras with smaller sensors. Quod erat demonstrandum.

The sensor in a full-frame camera is much larger than the sensor in a crop-frame camera. Therefore, the camera itself needs to be larger too.

Price – $ $ $

Thus, we can see another key difference between cameras with various sensor sizes, and it’s something to keep in mind when considering which type of camera to buy. Image sensors range from the size of a tic-tac breath mint to that of a postage stamp, to a potato chip, and even larger when you consider highly specialized imaging devices like those used at NASA. These image sensors are not cheap to manufacture, which is why full-frame cameras can easily cost twice as much as their crop-sensor counterparts. If you go all the way up to medium format, with sensors that are significantly larger than full-frame, you can easily spend $ 10,000, $ 20,000, or more on the camera alone, without any lenses.

How to Understand the Differences Between Full-Frame Versus Crop-Sensor Cameras
Crop-sensor cameras like the Nikon D3300 or the Canon Rebel T6i are smaller, less expensive, and also more portable than their full-frame counterparts. If you’re shopping for a camera, don’t need crazy-high ISO performance, and also don’t want to empty your pocketbook in the process, then a crop-sensor or micro-four-thirds camera (which has a sensor that’s about 25% as large as a full-frame camera) will suit you quite nicely.

However for many photographers, the size of their camera is of little concern, and they don’t mind the increase in size, weight, and cost that comes with venturing into the full-frame territory. Just know that bigger isn’t always better, especially because along with bigger sensors comes bigger lenses that are required to fit on them as well.

Lens Size and Selection

When considering a camera system, whether crop-sensor or full-frame, it’s not just the size of the camera that you will need to keep in mind but the size and price of the accompanying lenses as well. Lenses designed for smaller sensors are generally smaller and less expensive than lenses for full-frame cameras. A 70-200mm f/2.8 lens for full-frame cameras, which is fairly standard for many photographers, can easily cost upwards of $ 1500. Whereas a similar piece of glass like the Sigma 50-100mm f/1.8 lens for crop-sensor cameras will set you back about $ 1000. It’s even better when you look at the micro four thirds system, where lenses are significantly smaller and often less expensive than comparable full-frame models.

The classic 70-200mm f/2.8 lens. Designed for full-frame cameras, it’s a fantastic lens that will give you great photos but it’s also expensive and heavy. Similar lenses for cameras with smaller sensors are smaller, lighter, and often cheaper.

However, one advantage of going with a full-frame system is the sheer quantity and variety of lenses that you have available at your disposal. Since all 35mm film cameras ever made are full-frame, you can use most of those lenses on modern cameras and sometimes you don’t even need an adapter. Many modern full-frame cameras are capable of autofocusing with older lenses too, making it easy to find high-quality glass that will suit your needs if you don’t necessarily need to buy brand-new. There is a growing selection of lenses for crop-sensor cameras, particularly in the micro-four-thirds ecosystem. But if you need access to the largest possible array of lenses than a full-frame camera might just be your best bet.

Lens Performance: Depth of Field and Focal Length

At this point, it might sound like I’m less than enthusiastic about full-frame cameras, but I promise you that’s not the case. I shoot with both crop-sensor and full-frame gear. There is a reason why full-frame cameras and lenses are highly sought-after despite their larger size, heavier weight, and greater cost. Most glass made for full-frame systems costs more and weighs more because it is higher quality. They also produce superior results compared to some of the cheaper lenses for smaller cameras. (Note that I said most, not all. Certainly, there are many outstanding lenses for APS-C and micro-four-thirds cameras. But it’s safe to say that lenses made for full-frame cameras are, for the most part, going to produce outstanding results.)

There’s also the fact that when shooting full-frame you get the benefit of a shallower depth of field. For example, portrait photographers often prefer shallow depth of field. When shooting with a large sensor and a 70-200mm f/2.8 lens you can get results that are difficult to replicate with crop-sensor gear. The math is a bit tricky, but shooting a subject at 200mm with an aperture of f/2.8 on a full-frame camera gives very different results than using a crop-sensor camera.

Examples

Shot with a 200mm lens on a full-frame camera.

I shot the photo above at 200mm with my full-frame camera, but it would have been quite different if I shot it on my crop-sensor camera. A 200mm lens behaves like a 300mm lens when mounted on an APS-C camera. That means I would have had to move much farther back to get this same composition and therefore would have significantly increased the depth of field. The background would not have been as blurry, and the pillar behind the boy would have been more in focus as well.

85mm lens on full-frame versus crop-sensor

Here’s a photo that I took with my crop-sensor D7100, using an 85mm lens at f/4.

85mm lens at f/4 shot with a crop-sensor camera.

After I took that picture I put the same 85mm lens on my full-frame D750 and while standing in the same spot, took the following image:

85mm lens at f/4 on full-frame, same physical position as the first picture.

It looks like I zoomed out, but in fact, I was using the exact same lens but on a full-frame camera. To get a picture like the one I shot initially, I had to move forward which then changed the background elements and also gave me a shallower depth of field with a background that was more out of focus.

85mm lens at f/4 shot on a full-frame camera.

The reason this happens is that with the former you are getting a picture that accurately reflects a lens’s true focal length, whereas on a crop sensor camera you are seeing a cropped version of what the lens sees.

Wide-angle

This picture of the Edmond Low Library on the Oklahoma State University campus was taken with my 35mm lens on my Nikon D7100 (crop-sensor).

35mm lens at f/4 on a crop-sensor camera.

I took the next picture sitting in the exact same spot on the library lawn, using literally the exact same 35mm lens mounted to my full-frame Nikon D750.

35mm lens at f/4 on a full-frame camera.

Nothing changed here except the camera on which the lens was mounted. The shot of the library on my crop-sensor camera is, in a very real sense, a cropped version of what you see on a full-frame camera. The implications of this are profound since it means a 35mm lens on a crop-sensor body actually behaves more like a 55mm lens. (The exact value varies just a bit depending on whether you shoot Nikon or Canon, which each use a slightly different crop factor.)

Implications – how it affects you

So what are the practical implications of this phenomenon? It means that if you are primarily interested in landscape, architecture, or other shots that are suited for wider focal lengths, a full-frame camera will generally be a good choice. However, if you like to shoot wildlife or sports, a crop-sensor camera can give you a lot of extra reach with your lenses and effectively transform a 300mm telephoto lens into a 450mm birdwatching, goal-scoring powerhouse.

I like to do close-up photography on my full-frame D750 not because it’s objective a better camera, but because there are specific features about it that I like for this type of photography.

The Final Word

After examining various differences between crop and full-frame cameras, I hope it’s clear that neither one is inherently better. Both are uniquely suited to different types of photographic tasks.

I’m always eager to hear from the dPS community on topics like this though, and if you have thoughts you would like to share on this issue please leave them in the comments below. Which system do you use and why? Are you satisfied, or are you considering switching from one format to another?

Do you have any questions after reading this article? Post a reply and in the meantime, no matter what type of camera you have, remember to get out there and use it to take pictures you enjoy.

The post How to Understand the Differences Between Full-Frame Versus Crop-Sensor Cameras by Simon Ringsmuth appeared first on Digital Photography School.

Digital Photography School

Comments Off

Posted in Photography

Full-frame Nikon 8-15mm F3.5-4.5E ED fisheye zoom now available

31 May

$ (document).ready(function() { SampleGalleryV2({“containerId”:”embeddedSampleGallery_3650555962″,”galleryId”:”3650555962″,”isEmbeddedWidget”:true,”standalone”:false,”selectedImageIndex”:0,”startInCommentsView”:false,”isMobile”:false}) });

The Nikon AF-S Fisheye Nikkor 8-15mm F3.5-4.5E ED is a circular fisheye for the company’s full-frame DSLR bodies. At its wide end it has a 180-degree vertical and horizontal angle-of-view, changing to a non-circular 180-degree diagonal AOV at its long end. The lens has three ED and two aspherical elements as well as Nano Crystal and fluorine coatings.

The 8-15mm F3.5-4.5E ED is available immediately for $ 1249.95.

Press Release:

NIKON ANNOUNCES THREE NEW WIDE-ANGLE NIKKOR LENSES

AF-P DX NIKKOR 10-20mm f/4.5-5.6G VR – Compact Ultra-Wide-Angle Perspective DX-format Zoom Lens
AF-S Fisheye NIKKOR 8-15mm f/3.5-4.5E ED -Circular Fisheye Zoom for the Ultimate in Versatility and a Unique Perspective
AF-S NIKKOR 28mm f/1.4E ED – Outstanding Definition and High Resolution Wide-Angle Prime Lens

MELVILLE, NY (May 31, 2017 at 12:01 A.M. EDT) — Today, Nikon announced three exciting new wide-angle NIKKOR lenses to give a diverse array of users brilliant image quality and maximum versatility whether shooting vast landscapes, architecture, interiors, events and many other wide-angle applications. The new ultra-wide zoom and lightweight DX-format AF-P DX NIKKOR 10-20mm f/4.5-5.6G VR is an excellent value for budding shutterbugs and novice shooters looking to explore a wide-angle point of view, while the new AF-S Fisheye NIKKOR 8-15mm f/3.5-4.5E ED is an FX-format circular fisheye zoom lens for photographers and content creators who desire a truly unique perspective. Lastly, the new AF-S NIKKOR 28mm f/1.4E ED is a superior prime lens that provides professional and advanced photographers the ultimate in wide-angle image quality. Both the AF-S Fisheye NIKKOR 8-15mm f/3.5-4.5E ED and AF-S NIKKOR 28mm f/1.4E ED are the latest additions to the Gold Ring Series of NIKKOR lenses, a mark identifying Nikon’s premium lens offerings.

“Nikon continues to push the limits of optical excellence, while making new perspectives more attainable than ever before with our latest wide-angle NIKKOR offerings,” said Kosuke Kawaura, Director of Marketing and Planning, Nikon Inc. “Whether a photographer is a novice learning the art of landscapes, an enthusiastic video creator or a working professional shooter, Nikon now makes the wide-angle perspective achievable for everyone.”

The AF-P DX NIKKOR 10-20mm f/4.5-5.6G VR – Ultra-Wide Zoom Lens That’s Compact and Portable

The new NIKKOR 10-20mm is an ultra-wide-angle DX-format zoom lens that opens new perspectives and possibilities for those new to photography, and is ideal for shooting travel and scenery, real estate, large group portraits or vlogging. This new lens combines superior image quality and an attainable price to give consumers wide-angle versatility with a lens that’s remarkably compact and lightweight.

Like all NIKKOR lenses, the new AF-P DX NIKKOR 10-20mm f/4.5-5.6G VR provides advanced optical technologies for stellar image quality in any light, whether shooting a sun-drenched coastal vista, tight spaces or the night sky. The lens features the equivalent of 3.5 stops¹ of Vibration Reduction (VR) performance, to help capture sharp images while handheld or in challenging light. Additionally, it utilizes Nikon’s Pulse Motor technology for super-fast and whisper quiet AF operation- which is especially useful when recording video. The optical formula contains three aspherical elements for excellent image quality with minimal distortion even at the widest focal length.

This is a versatile lens that not only excels at shooting expansive horizons, but also offers a remarkably close working distance that’s useful for images or showing up-close details when making product-related videos or how-to content. To get closer to capture small objects with big details, the lens has a close minimum focusing distance of only 8.6 inches (0.22 meters), bringing small objects to life in glorious size.

AF-S Fisheye NIKKOR 8-15mm f/3.5-4.5E ED – Circular Fisheye for Photographers and Content Creators

Nikon’s first fisheye zoom gives photographers and filmmakers an FX-format lens with the look and feel of a circular fisheye and the versatility of a full-frame fisheye, all in one lens. The new lens design provides a creative circular 180-degree vertical / horizontal angle of view on full frame cameras, and zooms to a non-circular fisheye view (180-degree diagonal angle of view) on the long end of the focal range. The lens can also be used on DX-format cameras for a distinctive point-of-view and extreme wide-angle applications. When looking to push creative boundaries, the intriguing perspective from a fisheye lens should be considered to provide a distinct look to your photos and videos, such as a dramatic emphasis on a subject or an extremely wide interior point of view.

The AF-S Fisheye NIKKOR 8-15mm f/3.5-4.5E ED is also the latest in Nikon’s Gold Ring Series of premier lenses and features a next-generation design for high-resolution Nikon DSLR cameras. Made for advanced photographers and creators, this durable lens is constructed of lightweight magnesium alloy, and employs internal focusing (IF) to retain its compact size, even while focusing. It is also Nikon’s latest lens to use an electromagnetic diaphragm for consistent exposure during high speed shooting, or smooth exposure control while capturing video.

The optical formula of the Fisheye NIKKOR 8-15mm consists of three ED elements to reduce chromatic aberration, while two aspherical lens elements minimize coma even at the widest aperture, and enable a more compact lens size. Additionally, the front lens element is coated with Nikon’s non-stick Fluorine coat to help resist dirt, fingerprints and smudges, while Nikon’s exclusive Nano Crystal Coat helps reduce ghost and flare.

AF-S NIKKOR 28mm f/1.4E ED – The Latest in The Gold Ring Series of f/1.4 Primes in the NIKKOR Line

The new AF-S NIKKOR 28mm f/1.4E ED is Gold Ring glass that provides maximum versatility for outstanding definition and sharpness regardless of shooting scenario. With a fast f/1.4 maximum aperture and nine blade rounded diaphragm, it affords a shallow depth of field with gorgeous bokeh and stellar low light performance, making it a great choice for shooting low light landscapes, interiors and events.

The superbly balanced and solid body is composed of lightweight magnesium alloy, and features dust and water drop resistant sealing to withstand the elements, combined with a fluorine coating to resist dirt and smudges. The optical construction of the lens is engineered for the best possible wide-angle image quality. It consists of 14 elements in 11 groups, with three aspherical elements that virtually eliminate coma, aberration and distortion, with two ED glass elements that minimize chromatic aberration. The lens also uses Nikon’s Nano Crystal coat to reduce instances of ghosting and flare.

The new AF-S NIKKOR 28mm f/1.4E ED is a welcome addition to Nikon’s stable of impressive f/1.4 primes that give professional photographers and creators the highest levels of image quality and performance, which also include; The AF-S 24mm f/1.4G ED, AF-S NIKKOR 35mm f/1.4G, AF-S NIKKOR 58mm f/1.4G, AF-S NIKKOR 85mm f/1.4G and AF-S NIKKOR 105mm f/1.4E ED.

Price and Availability

The Nikon AF-S Fisheye NIKKOR 8-15mm f/3.5-4.5E ED will be available immediately for a suggested retail price (SRP)* of $ 1249.95. The AF-P DX NIKKOR 10-20mm f/4.5-5.6G VR and AF-S NIKKOR 28mm f/1.4E ED will be available in late June for a suggested retail price (SRP)*, $ 309.95 and $ 1999.95, respectively. For more information on these NIKKOR lenses as well as the latest Nikon products, please visit www.nikonusa.com.

1: Based on CIPA Standard. This value is achieved when DX-format compatible lenses are attached to a DX-format digital SLR camera and zoom lenses are set at the maximum telephoto position.

*SRP (Suggested Retail Price) listed only as a suggestion. Actual prices are set by dealers and are subject to change at any time.

Nikon AF-S Fisheye Nikkor 8-15mm F3.5-4.5E ED specifications

Principal specifications
Lens type	Zoom lens
Max Format size	35mm FF
Focal length	8–15 mm
Image stabilization	No
Lens mount	Nikon F (FX)
Aperture
Maximum aperture	F3.5–29
Minimum aperture	F4.5–29
Aperture ring	No
Number of diaphragm blades	7
Optics
Elements	15
Groups	13
Special elements / coatings	Three ED + two aspherical elements, Nano Crystal and fluorine coatings
Focus
Minimum focus	0.16 m (6.3″)
Maximum magnification	0.34×
Autofocus	Yes
Motor type	Ring-type ultrasonic
Full time manual	Yes
Focus method	Internal
Distance scale	No
DoF scale	No
Physical
Weight	485 g (1.07 lb)
Diameter	78 mm (3.07″)
Length	83 mm (3.27″)
Materials	Magnesium alloy
Sealing	No
Colour	Black
Zoom method	Rotary (extending)
Power zoom	No
Zoom lock	No
Hood supplied	Yes
Tripod collar	No

Articles: Digital Photography Review (dpreview.com)

Comments Off

Posted in Uncategorized

Professional powerhouse: Hands-on with the full-frame Sony Alpha a9

23 Apr

Hands on with the Sony a9 (ILCE-9)

We got a chance to get our hands on the Sony alpha 9 immediately after its announcement. Our first reaction? Continuous shooting with full time live view isn’t a gimmick: you can follow the action without any interruption.

This is an entirely different beast compared to the a6500, which only had 8 fps live view during continuous shooting. This is a nearly 8-fold increase in frame rate: actual 60 fps live view during bursts (120 fps when not shooting).

Hands on with the Sony a9 (ILCE-9)

It feels more substantially built than the existing a7 cameras, but without it becoming hefty. Sony says the a9 is ‘well sealed – especially around most buttons and dials’ for dust and moisture resistance. Whether it’s up there with the Canon EOS-1D X Mark II or Nikon D5 remains to be seen.

The camera’s grip is a little deeper than the a7 cameras, which means it’s more comfortable to hold with larger, heavier lenses such as the 24-70mm F2.8 GM.

Hands on with the Sony a9 (ILCE-9)

Despite the fairly radical specifications, the a9 retains the same fundamental form factor as the existing series II a7 cameras. However, as you’ll be aware if you were following the camera’s launch, just about everything inside the body shell has been revised to optimize speed. And outside the shell too – far more direct controls, like the AF and drive mode dials up top.

Hands on with the Sony a9 (ILCE-9)

Here’s just some of the cleverness that lives inside the camera: the processing board with twin SD card slots, a 3.7m dot OLED viewfinder and a beefed-up lens mount with more screws for greater strength and durability. But the big news is the 24MP stacked CMOS sensor, mounted on a 5-axis stabilized cradle.

The 24.2MP stacked CMOS design includes memory for buffering immediately behind the pixel layer. This and the (comparatively) modest pixel count are key to the camera’s fast readout, which underpins the camera’s headline features: 20 frames per second shooting, 60 fps AF/AE calculations for improved subject tracking, and a fully electronic (truly silent) shutter with minimal rolling shutter.

The Bionz X processor itself is also new (relative to the a7R II and a99 II), and comes with a front-end LSI. These improvements help increase processing speeds 1.8-fold and the buffer 6-fold relative to the a7R II, allowing for 241 continuous compressed Raws during 20 fps bursts. These improvements also help reduce power consumption by 40% compared to the a7R II.

Hands on with the Sony a9 (ILCE-9)

Although it looks a lot like an second-generation a7 series camera, the a9 features a range of improvements, many of them things that photographers (including us) have been requesting for some time.

The most obvious of these is the AF point joystick on the camera’s rear panel. This and the dedicated AF-On button (as opposed to the recessed button switchable between AF/MF and AEL on previous cameras) will be immediately welcome by anyone who’s shot with an existing Sony camera. The joystick is responsive, but often as you’re using it it accidentally registers a center (downward press), which can be assigned to any function custom buttons can be assigned to. For now, we suggest assigning it to ‘Not Set’ (nothing) so you don’t inadvertently activate something else (like center point AF-S, which it’s set to by default) while trying to move your AF point.

There have been changes to the elements that have been carried over too. For example, the dial on the rear plate of the camera is larger and has more noticeable ‘clicks’ as you turn it, making it far easier to use with precision. The buttons also have a more direct feel, rather than the slightly spongy sensation of the ones on the existing models (particularly the a7R II and a7S II.

Hands on with the Sony a9 (ILCE-9)

Our first impressions of the camera are that everything is that bit faster. Startup time is reduced (30% faster than a7R II), as is the speed at which the viewfinder panel is activated when you pull the camera up to your eye. AF is faster as well: 25% faster AF acquisition speeds, and 30% higher detection rate when it comes to Eye AF and face detection, compared to the a7R II. Low light AF speeds and performance should be improved as well, as Sony now claims AF at -3 EV with F2 lenses (1 EV better than the a7R II).

We’re also impressed with the new quad VGA viewfinder. Its offers a crisp, detailed view and fast enough refresh rate to follow action (120 fps, dropping to 60 fps during bursts). Since it’s OLED, it’s nice and contrasty. We wish the LCD had improved though: Nikon and Canon DSLRs offer retina-esque displays on their newer cameras that make shot images look that much more inspiring.

Hands on with the Sony a9 (ILCE-9)

Other changes include the addition of a physical control for switching between MF and the camera’s different AF modes. This, along with the ability to assign an AF area mode (with or without AF activation, a la Nikon D5/500) to the camera’s custom buttons, should make the a9 as quick to operate as it is at shooting.

Unfortunately, as of now, only one AF area can be assigned as ‘Reg. AF Area’ (oddly by long-pressing the Fn button while in that AF area mode), so you’ll only be able to instantly switch to one other AF area mode from the one that is currently engaged. We’ve requested Sony to enable multiple AF area modes to be assignable to multiple buttons, directly via the menu, as opposed to having only one ‘Registered AF Area’ the camera can store in memory. This might allow you to quickly switch between, say, Lock-on AF, complete Auto (when Lock-on fails), and good old center point. It would be even nicer if one could specify AF-S vs. AF-C for any of these modes so that, for example, I could generally keep the camera in AF-C, but always fall back to good old center-focus-and-recompose when all else fails.

Hands on with the Sony a9 (ILCE-9)

Stills aren’t the only area that gains massive improvements over previous models: Full-frame 4K video is now oversampled 2.4-fold from 6K footage. No pixel-binning, no line skipping. This leads to incredibly crisp footage but, more importantly, with extremely low rolling shutter thanks to the incredibly fast readout speeds of the new stacked CMOS sensor.

Which makes it all the more a shame that, for some reason, Sony decided to forego S-Log (and Picture Profiles entirely) on this camera. Sony claims this is because the camera is aimed at professional stills shooters, but for a camera that shoots such good full-frame 4K, we feel it’s a bit of a shame.

Hands on with the Sony a9 (ILCE-9)

The a9 uses a new battery. The ‘Type Z’ NP-FZ100 is bigger than the existing batteries and offers significantly more capacity: 16.4Wh to be exact, up from 7.7Wh in the older, ‘W’ type packs used in previous models. This allows the camera to achieve a rating of 650 shots per charge, based on CIPA standard tests.

As always, it’s quite common to be able to get many more shots out of a battery than the rating suggests, but the higher rating should mean the a9 will regularly be able to shoot for twice as long as most of the a7 series before needing a battery swap.

Hands on with the Sony a9 (ILCE-9)

Announced alongside the a9 is an accessory that should excite existing E-mount camera owners, particularly videographers.

The NPA-MQZ1K Multi-Battery Adaptor Kit comes with two of the new NP-FZ100 batteries and has space for another two. It not only works as a charging station for up to four Z type batteries but also has a dummy battery that allows it to be used as an external power pack. The unit is compatible not only with the a9 but also with the a7, a7R, a7S, a7 II, a7R II, a7S II, a6000, a6300, a6500, a5000, a5100 and RX10 III, providing up to 8x their current battery capacity. It include tripod-style mounting sockets, for attachment to a video rig.

Hands on with the Sony a9 (ILCE-9)

The ports on the camera’s left flank are all fairly familiar: headphone, mic, USB and HDMI. What’s slightly unexpected is that, despite the camera’s speed, the USB port is only version 2, rather than the much faster USB 3.

As you can see, the doors aren’t especially substantial, which is presumably why Sony isn’t making particularly strong claims about weatherproofing.

Hands on with the Sony a9 (ILCE-9)

The a9 is the first Sony to feature an Ethernet port, making clear its pitch-side intentions.

We’re surprised to see a traditional flash sync socket, for studio work. We’d expect that of Sony’s current models: the higher-resolution a7R II (which, curiously, lacks a flash sync socket) would appeal more to studio photographers. A hint perhaps that there’s a higher-resolution a9-series body on the way…

Hands on with the Sony a9 (ILCE-9)

An optional VG-C3EM battery grip doubles the camera’s battery life. The grip itself holds two batteries but fills the battery compartment, meaning you end up with two batteries in total, rather than three. Still, a rating of around 1300 shots per charge with two batteries puts the a9 will into DSLR territory in terms of longevity.

What do you make of the Sony a9? Let us know in the comments.

Articles: Digital Photography Review (dpreview.com)

Comments Off

Posted in Uncategorized

Throwback Thursday: The DSLR-A900, Sony’s first full-frame camera

20 Apr

Prior to September 2008, the only options for owners of Konica Minolta Alpha-mount lenses were APS-C DSLRs like Sony’s DSLR-A700 (Sony acquired KM’s camera business in 2006).

Then came the DSLR-A900, Sony’s first full-frame DSLR, which had an expansive feature set for the relatively low price of $ 3000. The A900, whose large magnesium alloy body could practically drive nails, had a 24.6MP full-frame CMOS sensor paired with two Bionz processors. That combination gave users a fully expanded ISO range of 100-6400 and burst shooting that topped out at 5 fps.

The A900 with its optional battery grip. As you can see, even the grip is full of buttons.

The A900 was one of those cameras with buttons for everything. Heck, there was even a switch for turning its in-body image stabilization system on and off. It also had a joystick which you could use to set the focus point – something that’s a big new feature on the a9. Back then the A900’s 9-point AF system was pretty exciting, though it pales in comparison to what you’ll find on a modern camera. Still, my colleague Rishi would be pleased that the A900 had AF micro-adjustment way back in 2008.

As you can see above, the A900 had a large pentaprism optical viewfinder, with 100% coverage and a magnification of 0.74x. The specs for its 3″, 921k-dot fixed LCD are the same as you’d see today. For those wondering: no, the A900 did not have live view.

The A900 had CompactFlash and Memory Stick Duo (groan) card slots.

Being a Sony camera of that era, the A900 had a few quirks. It had two memory card slots (good), but one of them was for Memory Stick Duo cards. The A900 carried over Minolta’s proprietary hot shoe, so if you wanted to use a flash with standard connectors, you’d need to use an adapter.

The A900 sits between its full-frame peers: the Canon EOS 5D and Nikon D700

As far as image quality goes, I think this quote from our review speaks for itself:

The Alpha 900 sets a new standard for resolution, edging past the EOS-1Ds Mark III by a whisker, and leaving its 12-ish megapixel competitors in a cloud of dust. Next to the Canon models the output looks soft, but in terms of sheer detail capture it’s now the one to beat in the full-frame DSLR market.

The main downsides were that the camera applied noise reduction to its Raw images and that things got pretty noisy once you passed ISO 400.

Despite that, the Sony A900 was quite a camera for Sony’s first attempt at a full-frame DSLR. It fell behind some of its competitors in some areas, such as autofocus speed, but that wasn’t enough to keep it from earning a ‘Highly Recommended’ award.

Have any fond memories of the A900? Share them below in the comments. If you have any ideas for a future TBT, be sure to let us know!

Read our Sony Alpha DSLR-A900 review

$ (document).ready(function() { SampleGalleryV2({“containerId”:”embeddedSampleGallery_5185531339″,”galleryId”:”5185531339″,”isEmbeddedWidget”:true,”standalone”:false,”selectedImageIndex”:0,”startInCommentsView”:false,”isMobile”:false}) });
Articles: Digital Photography Review (dpreview.com)

Comments Off

Posted in Uncategorized