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Program Mode: Everything You Need to Know (Ultimate Guide)

31 Aug

The post Program Mode: Everything You Need to Know (Ultimate Guide) appeared first on Digital Photography School. It was authored by Simon Ringsmuth.

Program mode: everything you need to know (ultimate guide)

What is Program mode on your camera, and when should you use it?

Program mode is one of those “odd one out” camera settings – one that most folks never try because they simply don’t understand how it can help their photography.

Yet once you get the hang of it, Program mode is actually pretty darn useful. That’s why, in this article, I aim to share everything you need to know about this mode, including:

  • What it actually is
  • How it works
  • How to use it for great results

So if you’re ready to become a Program mode master, then let’s get started.

people sitting at a table in a restaurant; photographed with Program mode

What is Program mode?

The camera mode dial operates on something of a continuum. On one end, you have Manual mode, which gives you complete control over the three elements of exposure: shutter speed, aperture, and ISO. On the other end, you have Auto mode, which gives you almost no control over exposure.

camera mode continuum Program mode Auto mode Manual mode

As you can see in the diagram above, other modes exist in the middle of the spectrum. These modes – Shutter Priority, Aperture Priority, and Program mode – give you some degree of control, but your camera does significant work, as well. For instance, Aperture Priority lets you control the aperture and ISO while the camera determines the proper shutter speed for a good exposure.

So what about Program mode? What does it do?

Program mode exists somewhere between Aperture/Shutter Priority and Auto mode, and it works like this:

You set the ISO, while your camera sets the aperture and shutter speed.

(Remember: The ISO refers to the sensitivity of your camera sensor, the aperture refers to the lens diaphragm size, and the shutter speed refers to the length of time the shutter captures light.)

Program mode also gives you control over other camera features, such as exposure compensation, but I’ll discuss that in a later section. For now, just remember that Program mode gives you ISO control, but leaves the aperture and shutter speed up to your camera.

(In fact, Program mode is sometimes referred to as “ISO Priority.”)

When is Program mode useful?

While Program mode isn’t nearly as popular as Aperture Priority or Shutter Priority, it can make a big difference to your photography – you just have to know when to use it.

In essence, Program mode works best when you care about the ISO, but you don’t care about the shutter speed and the aperture. This is either because you know that your camera will automatically give sufficient shutter speed and aperture values or because these settings won’t affect the final result in a meaningful way.

So if you’re shooting outdoors and you want to produce minimal noise in your photos, you might select Program mode, dial in a low ISO, and then let your camera do the rest.

squirrel photographed in Program mode

I shot this using Program mode, which let me tweak my exposure settings on the fly.

Or if you’re photographing under powerful artificial lights, you might tell your camera to keep the ISO low, then trust it to nail the remaining exposure variables.

Bottom line:

If all you want to do is adjust the ISO, you’re set. Put your camera in Program mode, change the ISO, and focus on composing and framing your shots rather than thinking about the aperture, shutter speed, and overall exposure.

But that’s not Program mode’s only use. You see, Program mode is also a great transition mode. If you’re aiming to improve your photography skills but you’re still stuck on Auto mode, you might try leveling up to Program mode; you can then use it as a stepping stone to Aperture Priority, Shutter Priority, and beyond.

Program mode: beyond the basics

At this point, you should be comfortable with the Program mode basics: You set the ISO, and your camera does the rest.

But if you dig a little deeper, you’ll find more useful features to unlock. Many of these can help you get the shot you want, instead of the shot your camera thinks you want. In this way, Program mode is like the late-night infomercial version of Auto; it handles all the nitty-gritty complicated stuff for you, but ends with a, “Wait, there’s more!”

First, Program mode allows you to use exposure compensation to correct any exposure mistakes. By adjusting the exposure compensation in one direction, you can force your camera to take brighter images, and by adjusting it in the other direction, you’ll get the reverse.

Say you take a photo of snow and it turns out too dark. With a little exposure compensation, you can bring back the snow’s natural brightness (note that you can’t do that in Auto mode).

And you can adjust plenty of other camera settings while in Program mode, including white balance, metering mode (full/center/spot), point of focus, and whether your camera should use its flash.

(Contrast this with Auto mode, and you should start to see the usefulness of the humble little “P” marker on your camera’s mode dial.)

Of course, Program mode isn’t always the way to go. Sometimes, you’ll want to independently adjust your shutter speed or your aperture, in which case one of the Priority options, or even Manual mode, is the right choice.

But when ISO is all that matters, give Program mode a try.

microphone in Program mode

Shooting in Program mode gave me a good overall exposure, but I didn’t like how the microphone was so dark.

microphone program mode

I switched to spot metering, retook the shot, and got what I wanted. Program allows for this flexibility, whereas Auto does not!

Program mode: final words

Program mode is a handy little option, even if it’s often eclipsed by Manual, Aperture Priority, and Shutter Priority.

So the next time you don’t want to give up all control over your camera but also don’t want to do everything yourself, consider Program mode. You might ask yourself, “Do I need to adjust the aperture? And do I need to adjust the shutter speed?”

If the answer is “No,” then Program mode is probably your best option!

Now over to you:

Do you use Program mode? Do you plan to start using it? Why or why not? What do you think of it? Share your thoughts in the comments below!

Program mode person with camera

The post Program Mode: Everything You Need to Know (Ultimate Guide) appeared first on Digital Photography School. It was authored by Simon Ringsmuth.


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What you need to know before buying your first lens

27 Jun

Updated June 2021

A camera is nothing without a lens, and while the bundled ‘kit’ lenses sold with many interchangeable lens cameras (ILCs) are good enough to get started, they’re quite limiting. If you want to explore the full potential of your camera – and your own creativity – you should consider adding another lens or two to your collection. But with a bewildering variety of lenses out there, how do you know which ones are right for you?

In this guide we’ll lead you step-by-step through the process of understanding the different kinds of lenses available, and choosing the right one for your needs.

Lenses and sensors

Lenses themselves know nothing of the sensor mounted behind them, but different sized sensors change the visual impact of the lens (specifically the focal length and aperture) on the final image.

Among interchangeable lens cameras today there are three commonly-used sensor sizes: Four Thirds, APS-C and full-frame. The examples given in the rest of this article are lenses designed for full-frame bodies but we’ll also discuss what impact sensor size will have.

How are lenses named?

Looking at the lens pages on manufacturers’ websites can be a little intimidating for a budding photographer. Lens names often include long lists of letters and numbers, which certainly sound impressive but can also be thoroughly confusing. Luckily you can safely ignore most of them to start off with, and concentrate mainly on just a few factors:

  • Focal length – this defines how wide or zoomed-in a view the lens provides
  • Aperture – expressed as ‘F’ or ‘f/’ this describes how much light the lens can gather and its ability to blur the image background
  • Image Stabilization – some lenses include optical stabilization units to counteract the blurring effects of hand shake
  • Format – describes the sensor size the lens is designed to work with
  • Lens mount – determines whether the lens will physically fit your camera

We’ll look into each of these in more detail below.

Focal length

The first number used to describe a lens is its focal length; in combination with the camera’s sensor size, this defines the angle of view covered by the lens, with smaller ‘mm’ numbers indicating a wider angle or more ‘zoomed out’ view. Zoom lenses are named using two numbers which indicate the extremes of the range, for example 24-70mm for a typical kit zoom lens. Fixed focal length lenses which don’t zoom (also known as ‘prime’ lenses) just have a single number (e.g. 50mm).

Here, we can see this lens’ key specifications expressed in terms of its focal length span (‘zoom range’) which is 18-35mm, and its minimum aperture range, which is F3.5 at 18mm, and F4.5 at 35mm.

The image below shows how the angle of view varies with focal length. In this instance it shows the effect of these lenses mounted on a full-frame camera. The same focal length lenses, mounted on a smaller, APS-C sensor would give a narrower, more cropped-in angle of view, and an even narrower coverage if mounted on a Micro Four Thirds format camera.

The effect is as is as though you’ve ‘zoomed’ the lens, but instead you’ve only magnified a smaller portion of its projected image. As a result, the focal lengths that are useful on one sensor format will differ from those that you’d use for the same purpose on another sensor.

Illustration showing the coverage given by a series of popular focal lengths. These are shown for a full-frame sensor; each would cover a smaller area if used with an APS-C or Four Thirds sensor.
Lens type
35mm ‘full-frame’
APS-C / DX Four Thirds
Ultra wide angle 24mm and wider 16mm and wider 12mm and wider
Wide angle 28mm 18mm 14mm
Standard (Normal) 50mm 30mm 25mm
Telephoto 80mm and longer 55mm and longer 42mm and longer

For the sake of convenient comparison, lenses are often referred to by their ’35mm equivalent’ focal length; for example a 18-55mm kit lens for APS-C may be described as a 28-90mm equivalent. This means simply that an 18-55mm lens on an APS-C format camera covers the same angle of view as a 28-90mm lens does on a full-frame camera.

Aperture

The aperture specification of a lens describes how much light it is capable of gathering. Aperture simply means ‘hole’; in this context, the hole that lets light pass through the lens and onto your camera’s sensor.

Lens apertures can be expressed in several different ways, with F4, f/4, 1:4 all meaning the same thing. Confusingly, a smaller number means the lens has a larger maximum aperture – a bigger hole – and therefore can gather more light; an F2.8 lens collects twice as much light as an F4, for example.

‘Whole stop’ Aperture values
F1.4 F2.0 F2.8 F4.0 F5.6 F8.0 F11 F16

This table lists the common aperture values that are one ‘stop’ apart: each value lets in twice as much light as the one to its right.

A lens with a larger maximum aperture allows you to shoot in lower light, and (for example) take pictures indoors without using flash. Wide apertures also give decreased depth of field (i.e. how much of the picture in front of and behind the focus point appears sharp), which is an important aspect of creative photography.

Longer lenses give less depth of field for the same aperture, when focused at the same distance. And, because you need a shorter focal length to get the same image framing on an APS-C or Micro Four Thirds camera, you’d need a larger aperture if you want to achieve the shallow depth of field you’d get on a full-frame camera.

A large aperture such as F1.4 gives a shallow depth of field, blurring backgrounds and foregrounds to isolate a subject in a picture. The 24mm F1.4 used to take this picture also allows you to shoot indoors in low light without having to resort to flash.

It’s worth noting that lenses are usually described by their maximum aperture value. When you see an aperture range written on the side of a lens (e.g. F3.5-5.6), those are the maximum aperture values at the wide and long ends of its zoom range, respectively. You can usually reduce the size of the aperture if you need more of your image to be in focus.

Image stabilization

Image stabilization increases the amount of sharp images you get by correcting vibration caused (usually) by natural hand-shake when shooting without a tripod.

In-body stabilization (where the camera’s sensor moves to counteract accidental movement) is increasingly common, but many lenses offer their own stabilization mechanisms to compensate for shake. In-lens stabilization is especially effective when using long telephoto lenses, where in-body stabilization is generally not as effective. Many cameras can use in-lens stabilization in conjunction with their in-body systems, to provide a greater degree of correction.

Image stabilization systems reduce the blur caused by camera shake, allowing sharp pictures to be taken even in low light, at long focal lengths or at high magnifications.

If you own a camera that doesn’t have stabilization built into the body, you’ll probably want to consider buying stabilized lenses, especially when it comes to telephotos.

The various lens manufacturers all call lens-based optical image stabilization by different names, with corresponding initials in the lens names, so here’s what you need to look out for when buying:

  • Canon – Image Stabilization (IS)
  • Fujifilm and PanasonicOptical Image Stabilization (OIS)
  • Nikon – Vibration Reduction (VR)
  • Sony – Optical Steady Shot (OSS)
  • Sigma – Optical Stabilization (OS)
  • Tamron – Vibration Control (VC)

Format coverage

Having said that sensor format has a significant impact on the way lenses behave, it’s also worth considering that some lenses only work on certain sensor formats. In several instances, camera makers use the same mount for their APS-C and full-frame cameras. In most of these situations, full-frame lenses will work on the smaller APS-C models, but APS-C lenses end up restricting full-frame cameras to a cropped APS-C mode.

Some photographers start with an APS-C camera and then buy full-frame compatible lenses for it, to lower the amount of money they have to spend if they later buy a full-frame camera that uses the same mount. In general, we’d advise buying lenses that suit your needs now, rather than ones that may better suit a camera you don’t yet own.

Lens mounts

Each camera maker uses its own proprietary lens mount, meaning that lenses can’t be swapped across brands; a Canon lens won’t fit on a Nikon body, for example, and you’ll cause damage to both lens and camera if you try. The two exceptions are Micro Four Thirds, which was developed jointly by Panasonic and Olympus, and L-mount, a full-frame collaboration between Leica, Panasonic and Sigma.

Most companies are now focusing their efforts on their Mirrorless camera mounts, so this is where the newest and most advanced lenses are emerging. Many DSLR-mount lenses can be adapted to work on the mirrorless cameras made by the same brand (older designs are less likely to offer a full range of functions) but lenses for mirrorless cameras cannot be used on DSLRs.

Mount Mount type Sensor formats Notes
Canon EF DSLR

• Full-frame

EF-S DSLR

• APS-C

Canon EF-S lenses cannot be mounted on full-frame DSLRs but other brands’ EF-mount APS-C lenses can.
EF-M Mirrorless

• APS-C

EF and EF-S lenses can be adapted to work on EF-M cameras
RF Mirrorless

• Full-frame

Most EF-mount lenses work well on RF mount via an EF/RF adapter.
Four Thirds
• Olympus
• Panasonic
Micro Four Thirds Mirrorless • Four Thirds
Fujifilm X Mirrorless • APS-C
L-Mount Alliance
• Leica
• Panasonic
• Sigma
L Mirrorless

• Full-frame
• APS-C (TL)

Only Leica has made TL-mount (APS-C) cameras and lenses.
Nikon F DSLR

• Full-frame
• APS-C (DX)

F-mount was modernized over many decades but only relatively modern ‘AF-S’ designs offer AF when adapted onto Z-mount cameras
Z Mirrorless

• Full-frame
• APS-C (DX)

Pentax K DSLR

• Full-frame (FA)
• APS-C (DA)

As with Nikon, there are variants of the K mount, but most lenses work with the latest DSLRs
Sony E Mirrorless

• Full-frame (FE)
• APS-C (E)

Other lens makers use ‘E’ for both APS-C and full-frame lenses, so it’s worth checking which format they cover

A number of third party manufacturers, including Tamron, Tokina and Sigma make lenses for other makers’ lens mounts, with the older DSLR mounts benefiting from the widest support. Sony allows some third-parties to make lenses for its mirrorless E-mount system but Nikon and Canon have, so far, been protective of their new Z and RF mounts, meaning there are fewer third-party options available.

Zoom vs. Prime

Zoom lenses have become almost ubiquitous over the past few years, and at first sight buying a lens which is restricted to a single angle of view might seem pointless. But prime lenses still have some very real advantages; compared to zooms they tend to be smaller and lighter, have faster maximum apertures, and give sharper, cleaner images. These factors make them extremely useful for specific purposes, for example low light shooting or blurred-background portraiture where a large maximum aperture is advantageous.

Almost counterintuitively, the restrictive nature of using a single focal length can encourage creativity by forcing you to visualize your composition before you shoot. Shooting with primes forces you to think more about what you want to include and exclude from your photo and also makes you consider where you’re standing, and the impact this has on perspective in your image. For instance, a long focal length, shot from a distance can compress your subject and the background, whereas a wide-angle lens placed near your subject will exaggerate the distance between it and the surroundings.

Fixed focal length ‘prime’ lenses are often much smaller and lighter than zooms covering the same angle of view. This is Nikon’s Z-mount 35mm F1.8 lens alongside its standard 24-70mm F2.8 zoom – the size advantage is obvious.

Some popular lens types

Standard zoom

A standard zoom is a general-purpose lens that covers a range of focal lengths from wide-angle to moderate telephoto. The most obvious example is the kit lens that came with your camera (generally something like an 18-50mm for APS-C or a 24-70mm for full-frame). It offers versatility but can become limiting when you find yourself wanting to get more creative. The kit lens can be upgraded to an optic with more range or a faster F2.8 maximum aperture, with better optical performance, like the Canon RF 24-70mm shown F2.8 below.

Most manufacturers offer general-purpose upgrades to their kit lenses with expanded zoom ranges suitable for a wide range of subjects, such as this Canon RF 24-70mm F2.8.

Telephoto zoom

Often the second lens that photographers buy, a telephoto zoom effectively allows you to ‘get closer’ to your subject by enlarging it within the frame. It’s therefore useful for photographing such things as sports, wildlife, distant nature scenes, or children running around playing. By narrowing your field of view, a long lens can have the effect of compressing your subject and background, often making it appear as though the background is magnified and closer to your subject.

Telephoto zooms such as this Nikon Z 70-200mm F2.8 S allow you to zoom in on your subjects and compress them against the background.

Superzoom

Superzooms are all-in-one lenses which cover a full range of focal lengths from a moderate wide-angle to long telephoto. In one package they combine the range of the kit zoom that came with the camera, plus that of a telephoto zoom, and therefore make perfect general purpose travel lenses. The technical image quality is often not quite as good as two separate lenses, and the maximum aperture tends to be small (a higher F-number), meaning worse low light performance and less ability to achieve shallow depth of field. However, for many users this is more than made up for by their convenience.

Superzoom lenses such as the Tamron 28-200mm F2.8-5.6 Di III RXD encompass a wide range focal lengths from wide-angle to telephoto, in a relatively compact single lens.

Wide-angle zoom

A wide-angle zoom extends the angle of view out beyond that captured with the standard zoom, allowing you to capture broad sweeping vistas or architectural wonders. It’s therefore a popular choice for landscapes, cityscapes, architecture, interior shots, and night- and astro-photography.

Wide zooms such as the Sony 16-35mm F2.8 pictured here let you fit more in the frame.

Macro lens

‘Macro’ is used to describe a lens with extreme close-focusing ability, which allows you to take photographs of small objects such as insects or flowers. Some zoom lenses use ‘macro’ in their name to indicate closer-than-usual focusing ability, but true macro lenses tend to have fixed focal lengths. In general, the longer the focal length, the further away you can be from your subject. (Nikon calls these lenses ‘Micro’ or ‘MC’ lenses instead, which is technically more accurate.)

Macro lenses like the Sigma 105mm F2.8 DG DN Macro allow you to shoot closeups in fine detail.

Fast prime lens

Fast prime lenses come in all focal lengths, from wide angle to ultra-telephoto, but what they share in common is the ability to capture a lot of light, blur backgrounds and offer high optical quality.

We’ve traditionally found 35mm (or the equivalent 23mm or 17mm on APS-C or Four Third sensors) to be a pretty good do-everything focal length, in terms of not being too wide or too zoomed-in. An F1.8 maximum aperture can give shallow depth of field and lets you work in low light without the need for flash, while remaining compact and lightweight. Wider-angle and longer focal length primes are also available, as are lenses with even faster maximum apertures (F1.4 and brighter) that typically offer higher quality optics, let you work in lower light and give even shallower depth-of-field to help isolate your subject.

A ‘fast’ prime, such as this Canon 35mm F1.8, can let you shoot in low light without flash, while isolating your subject against a blurred background. They are also typically smaller than zoom lenses.

Other lens features

There are a few other aspects of build and operation which you may wish to consider when buying a lens:

Autofocus

Autofocus performance can vary significantly between lenses, and autofocus performance can make a huge difference between capturing the perfect moment at a sports event or social occasion and having a frustrating photographic experience.

Mirrorless camera systems are still relatively new, and there’s a subtle interplay of optical design and focus motor that effects performance. For instance the ring-type ultrasonic motors that were great for focusing on DSLRs aren’t as well suited to focusing on mirrorless cameras, particularly for the smooth, subtle movements required for video autofocus. As such, it’s difficult to make generalizations, so it’s worth checking reviews of the lens you’re planning to buy.

Electronic manual focus (‘focus by wire’)

Many modern lenses have no physical connection between the focus ring and the focusing lens elements, as was the case in older SLR and DSLR lenses. Many cameras use this to provide speed-sensitive manual focus, where a quick turn of the focus ring results in a bigger focus jump than a slow movement. This lets you jump quickly to the part of the focus range you want, but can be awkward if you’re trying to manual focus while shooting video.

To get round this, some cameras offer a ‘linear’ focus response mode, where the focus always moves by the same amount in response to how much you turn the focus ring: letting you practice and anticipate the amount by which you need to turn the ring.

Manual focus lenses

Although modern autofocus is excellent, there is still a huge number of manual focus lenses on the market. These include designs optimized for shooting video and traditional, high-quality designs, through to unusual, specialist lenses that would be near-impossible to make autofocus along with the creations of small companies without the experience (or access to lens mount protocols) to manufacture AF lenses.

Ultra-wide angle lenses, tilt-shift lenses and some very expensive lenses designed to be mechanically simple but optically excellent are out there, and are worth considering.

Build quality and weather sealing

Premium lenses often include weather sealing. This can extend from an o-ring around the mount through to a series of seals at every joint, as with this Panasonic lens.

As a general rule, the more expensive a lens is, the better built it is likely to be. The kit lenses that come with cameras tend to rather lightweight and plastic in construction. If you spend a bit more, you can get something more durable. Some lenses incorporate environmental seals against dust and water; in general this tends to be towards the top end of the price spectrum, but Pentax and Olympus in particular offer a decent range of mid-priced sealed lenses.

System addict…

One last word. When choosing a camera system to invest in, it’s important to appreciate that the lens has just as great an impact on the image quality as the camera. Lenses tend to last longer than cameras too, becoming obsolete less quickly than bodies, so it can be worth spending a little bit extra to get the quality or flexibility you really want. But, while DSLR systems are much more extensive, most new lens development is focused on Mirrorless cameras, so these may prove more future-proof.

Bear in mind that most mirrorless lens systems are still only a few years old, so they may be missing the type of lens you want, for now. That said, the system with most options isn’t inherently any better than a smaller system that includes all the lenses you need.

Even if you don’t have a very specific application that needs specialized lenses (or other accessories) in mind, it’s worth doing some research before committing to one system or another. Oh, and once bitten by the lens buying bug, many enthusiasts find it hard to stop; you have been warned…

Glossary

Angle of view – Describe the view offered by a lens, measured as the angle between the furthest extremes of the lens’s coverage. If this is confusing, imagine the view in front of you as a semicircle of 180 degrees: a ‘wide-angle’ lens can see a bigger segment of the semicircle than a ‘long’ (telephoto) one.

Depth of field – This describes how much of the scene in front and behind the point of focus appears acceptably sharp. An image with shallow depth of field leaves the background (and foreground) appearing blurry and out-of-focus. An image with deep depth of field contains a greater amount (depth) of sharp detail.

Fast / slow lens – An informal way of describing a lens’ aperture in terms of its relation to exposure time. ‘Fast’ lenses have large maximum apertures (low F-numbers), which allow the use of shorter, ‘faster’ shutter speeds. ‘Slow’ lenses have smaller maximum apertures, and typically require longer, ‘slower’ shutter speeds.

Focal length – Expressed in millimeters, focal length describes the angle of view of a lens. Telephoto lenses have a long focal length, and wide-angle lenses have a short focal length. The longer the focal length, the narrower the angle of view and the more zoomed-in it appears.

Long / wide lens – A way of describing the field of view offered by a lens. Long lenses are more zoomed-in, while wide lenses are zoomed-out and capture a wider angle of view.

Micro Four Thirds – A mirrorless system founded by Panasonic and Olympus, based around a 17.3 x 13mm sensor (224 sqmm) format known as Four Thirds. The system allows some very compact camera/lens packages, particularly for very long telephoto lenses. This system includes some high-end video cameras.

APS-C – A common sensor format used by interchangeable lens camera manufacturers. APS-C format sensors measure around 24 x 15mm (~360 sqmm), and this format offers a balance of image quality, size and price in between Four Thirds and ‘full-frame.’

Full-frame – A sensor format the same size as a frame of 35mm film – the dominant film format of the 20th and early 21st Centuries. Measures 36 x 24mm (864 sqmm), giving a significant image quality benefit compared to smaller formats, but resulting in larger, more expensive camera/lens combinations. Despite the name, sensor larger formats do exist, in sizes known collectively as ‘medium format’.

Prime lens – A lens with a fixed focal length, which cannot zoom in or out. A technical term not to be confused with Amazon Prime.

Zoom lens – A lens whose field of view (described in terms of focal length) can be adjusted, allowing you to zoom-in or out on a subject, to achieve a different composition without changing your position.

35mm / full-frame equivalent – A way of understanding the characteristics of a lens when used on a non-full-frame camera by relating it to the 35mm film format that’s familiar to many photographers. Most commonly used in reference to focal length: e.g a 28mm lens on an APS-C camera is equivalent to a 42mm lens on a full-frame camera.

Articles: Digital Photography Review (dpreview.com)

 
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Hands-on: What you need to know about the Leica SL2-S

13 Dec

Hands-on with the Leica SL2-S

Leica’s third full-frame L-mount camera, the SL2-S, has just landed. Based on the SL2 which launched just over a year ago, the SL2-S has a 24MP sensor and it’s a bit more video-focused than its higher-resolution forebear.

If you’re familiar with the SL2, there frankly isn’t much that’ll surprise you about the SL2-S. But if you’ve overlooked the SL2 previously or are just new to the Leica SL-series in general, then follow along for a closer look at the newest model in the lineup.

Sensor, grip and logo

The most immediate change on the SL2-S relative to its sister model is right here, front-and-center: the sensor. It’s a 24MP unit that sits on an in-body stabilizer, and it grants users the ability to capture oversampled (meaning, very detailed) 4K/30p video using the sensor’s full width. You can also opt for 4K/60p capture, though you’ll need to crop in to a smaller APS-C portion of the sensor to access that. There a few other nitty gritty video details to cover as well, which we’ll get to shortly.

As for the rest of the camera, the most obvious outward change on the SL2-S relative to its sister model is the blacking-out of the ‘LEICA’ lettering on the viewfinder hump. It does make for a slightly more subtle look, but of course, the bright red dot next to it will probably still draw some attention for those in the know. Lastly, the grip remains pretty comfortable despite its blocky shape, helped by an indent for your fingertips just visible in the shadow here.

Rear controls and screen

On the rear of the camera, along the screen’s left side, you’ll find Leica’s standard set of buttons. ‘Play’ enters playback, ‘Fn’ can be pressed once to access a custom function, or can be ‘long-pressed’ to select a different custom function for the next time you short press. It’s a handy way to change the button’s behavior without diving into the full menus.

Hitting the ‘Menu’ button enters a quick menu where you can control some key functions via the touchscreen, including the shooting mode, drive mode, focus settings, and more. A further press of the Menu button brings up the main menus, which let you delve a little deeper into the camera’s settings. You can continue to press the ‘Menu’ button to navigate along the six pages of options, or you can use the top command dial to do so. The rear dial will navigate up and down various settings.

Speaking of that rear dial, it’s also how you quickly change shooting modes without entering the quick menu at all; you press it in, and then rotate it to swap between PASM modes.

The AF Joystick allows you to move your AF area around the frame, and it allows you to manipulate settings in the main and quick menus as well. The button next to it defaults to manually swapping between the LCD screen and electronic viewfinder (EVF), but a long-press allows you to change its behavior, just like the ‘Fn’ button. Speaking of the EVF…

Viewfinder

The viewfinder alone could be a reason for someone to consider an SL2-S. It’s big, bright and detailed, offering 5.76M dots of resolution. The only other 24MP camera you’ll find that type of detailed picture on is the Panasonic Lumix S1; other comparable 24MP offerings from the likes of Nikon, Canon and Sony have viewfinders that are a similar size but lower resolution.

The ring surrounding the viewfinder is a large diopter adjustment dial for those glasses-wearers among us; its size makes it easy to set it just right, but there’s enough resistance that you won’t knock it out of place accidentally.

Top plate controls

On the top of the camera we see a generously sized display that shows pertinent exposure and camera settings. To its right are two more custom buttons that, again, you change the behavior of using a long press. A close look reveals, in fact, two more custom buttons well-placed to be manipulated with your middle or ring fingers on the front of the camera, though we wish they were separated a bit more.

You also get a flash hot-shoe, and on the right side of that you’ll see an engraving reading ‘LEICA SL2-S’, the only place on the camera you’ll find its model name. (A rather cryptic ‘Type no.: 9584’ is printed on the bottom of the camera.)

Video

The headline video spec of the SL2-S is 4K at up to 60p, which, on paper, looks a lot like that of the SL2. There are differences, though. The SL2 shoots sub-sampled video from nearly the full width of its sensor for all of its video modes, whereas the SL2-S shoots full-width oversampled video for its 24, 25 and 30p modes. This means the SL2-S is using all its pixels to shoot 6K footage which is then downscaled to 4K. This should give more detailed video and possibly better low-light performance. The ‘S’ uses an APS-C region for its 60p footage, which gives up some of this benefit but should still look good.

In addition, the SL2-S includes features such as built-in display correction LUTs to give a usable preview when shooting in Log gamma (both of which are also available as ‘Cube’ files which can be applied as you edit the footage). A future firmware update will add options such as waveforms for assessing exposure, and the ability to set exposure time as shutter ‘angle’ rather than shutter speed, along with a ‘tally’ lamp mode that indicates when the camera is recording.

Ports

Behind a thick, flexible rubber door on the left side of the camera body are headphone and microphone ports, which also double as remote release ports, as well as a full-sized HDMI port (which feels a lot sturdier than the ‘mini’ or ‘micro’ ports on many competing cameras). Immediately beneath these, behind its own rubberized door, is a USB-C port that supports charging, tethered shooting and image transfer.

Storage

On the other side of the camera is a set of SD card slots; both support the faster UHS-II type memory cards, and you’ll likely want to use reasonably quick cards if you’re planning on using the 25 fps silent shutter burst feature, or shooting at the camera’s highest video quality settings.

Battery

On the bottom of the Leica SL2-S you’ll find a BP-SCL4 battery pack, the same as you’ll find in the SL2 and the Q2 and Q2 Monochrom fixed-lens cameras. It’s good for a CIPA-rated 510 shots per charge, though you’ll likely get many more than that in normal use. We find that a rating of 500 or so is good for at least a couple of days of focused photography if you’re, say, exploring a new city.

Interestingly, there’s no battery ‘door’ per se; the entire unit pops out and leaves a hole in the bottom of the camera. But each BP-SCL4 has its own gasket around the bottom, ensuring that the camera lives up to its IP54 weather-sealing rating.

Hands-on with the Leica SL2-S

And there you have it: Leica’s latest full-frame mirrorless camera, the SL2-S. Although compared to the SL2, the exterior differs only by the blacked-out logo, its lower resolution sensor will likely be welcomed by those who don’t need 47MP of resolution, or those who need better quality video (which will be augmented further in a promised firmware update next year). The SL2-S also comes with its own high-res shot mode, which can churn out 96MP files on the occasion that you do need more resolution (though you also need a tripod and a pretty static subject).

What do you make of the SL2-S? Is it something you would consider adding to your camera bag? Let us know in the comments.

Articles: Digital Photography Review (dpreview.com)

 
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This is Why You Need a Camera Lens Protector

10 Nov

Nothing rattles the photography community faster than talking about lens protectors. Some swear by it, while others wouldn’t touch it with a 10-foot pole. What is the rage about, and what is the approach you should take with lens protectors? We will discuss all of them in this article. What is a Lens Protector Lens protectors are pieces of glass Continue Reading

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What you need to know about Canon’s new RF 70-200mm F4 and 50mm F1.8

04 Nov

Introducing the Canon RF 70-200mm F4 L IS USM and RF 50mm F1.8 STM

Canon’s full-frame mirrorless RF system keeps on growing, and today sees the addition of two much-requested new lenses. The RF 70-200mm F4 L IS USM is a compact, more affordable alternative to the previously-announced RF 70-200mm F2.8, and the RF 50mm F1.8 STM is a low-cost standard prime for photographers that don’t need F1.2 (i.e. most photographers).

Click through this article for a walkthrough of their key features (hands-on images courtesy of Canon).

Canon RF 70-200mm F4 L IS USM

Let’s look first at the RF 70-200mm F4 L IS USM. Spiritual successor to the popular EF 70-200mm F4 family of tele-zooms, one of the main selling points of this new RF zoom is its size (it’s both smaller, 32% shorter than the EF equivalent, and 11% lighter). In fact, at its 70mm position, the new RF 70-200mm F4 is only slightly bigger than the RF 24-105mm. The zoom can be locked at 70mm for storage.

Despite its medium/long-tele reach, minimum focus is a respectable ~0.6m (2 ft) at all focal lengths.

Canon RF 70-200mm F4 L IS USM

Like its big brother the RF 70-200mm F2.8, however, the lens gets considerably bigger when zoomed-in towards 200mm. Despite the extending design, the RF 70-200mm features ‘L-series dust and weather-resistant build,’ which includes a fluorine coating on the front element to repel water and dirt.

Optical construction consists of 16 elements in 11 groups, including four UD (ultra low dispersion) elements that mitigate chromatic aberration. The new lens also features Canon’s Air Sphere Coating, to reduce flare and ghosting.

Canon RF 70-200mm F4 L IS USM

On the barrel of the RF 70-200mm F4 you’ll find the usual array of switches, for focus (and focus limiting) and image stabilization. The RF 70-200mm F4 offers three I.S. modes: 1, for general use, which stabilizes in all directions, 2, which is intended to offer best performance for panning shots, and 3, where stabilization only activates once you fully depress the shutter button.

The RF 70-200mm F4’s rated I.S. performance is impressive: 5EV from the lens alone and up to 7.5EV when used in conjunction with the in-body image stabilization system in the EOS R5 and R6.

Canon RF 70-200mm F4 L IS USM

You might need that stabilization because unlike the RF 70-200mm F2.8 (and previous EF designs) there’s no provision for a tripod foot. Potentially also frustrating for some photographers is that just like its ‘big brother’ the RF 70-200mm F2.8, this new lens is not compatible with Canon’s RF 1.4X and 2X extenders.

Focus elements are driven by a pair of Nano USM motors. Based on our previous experience with Canon’s Nano USM technology, we expect autofocus performance will be very fast, and silent as well.

The Canon RF 70-200mm F4 L IS USM will be available in early December for $ 1,599.

RF 50mm F1.8 STM

Next up is the RF 50mm F1.8 STM, a low-cost prime lens for RF shooters. Essentially a native RF equivalent to the older EF 50mm F1.8 STM, the new lens is tiny (weighing only 160g / 5.6oz) and at $ 199, considerably more budget-friendly than the RF 50mm F1.2L.

RF 50mm F1.8 STM

Optical construction is all-new, consisting of six elements in five groups, with one aspherical element. Minimum focus of ~0.3m (1ft) works out to a maximum magnification ratio of 0.25X.

The ring you can see in this picture (and the previous one) is a customizable control ring, which can be set for direct control over manual focus, or in it’s ‘control’ position to provide access to other settings like aperture control or exposure compensation, via the menu system of RF cameras.

RF 50mm F1.8 STM

Seven rounded blades deliver a near-circular diaphragm at wide aperture settings, and the new lens features a front filter diameter of 43mm. Canon’s SSC (Super Spectra Coating) should help reduce flare and ghosting. The RF 50mm F1.8 STM will be available next month.

Articles: Digital Photography Review (dpreview.com)

 
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Nikon Z6 II and Z7 II: what you need to know

15 Oct

Intro

The Nikon Z6 II and Z7 II are the first time the company has used ‘Mark II’ branding and it makes sense: these are relatively subtle refreshes of already established cameras.

However, while the overall specs of the cameras don’t change dramatically, the updates and improvements address a number of key criticisms of the original models and will start to add up for some users. Both the Z6 and Z7 have benefited from fairly substantial firmware updates since their release, but the biggest changes in the Z6/7 II come courtesy of different hardware.

Dual card slots

One of the most obvious changes to the Mark II models is the provision of dual card slots. Both cameras gain a UHS-II SD card slot in addition to the XQD/CFexpress Type B socket. As you’d expect, there are options to have the two slots provide simultaneous backup, overflow capability or Raws to the primary card and JPEGs to the second. There’s no option to record stills to one card and video to the other.

The change won’t make a lot of difference to some people, but it may make the Z6 and Z7 II a lot more practical for some workflows.

Full vertical grip

Another much noted absence on the original Z cameras was the option for a grip with duplicate controls for portrait orientation shooting. The Z6 and Z7 do have a grip available, but it’s a simple battery grip with no duplicate controls.

The MB-N11 ($ 399) is a proper vertical grip, which duplicates the main control dials and AF positioning joystick for vertical shooting. The grip displaces the Z6/7 II’s in-body battery, effectively providing space for one additional battery. The outermost battery is hot-swappable, meaning you can replace it on-the-fly while recording video, without having to pull the whole battery tray out or stop recording. There’s an additional USB type C socket on the grip, meaning you could power the camera from one socket while sending data over the one on the camera body.

Both cameras bodies are identical in dimension to their predecessors, though, so can also use the older MB-N10 control-less battery grip or any other cage, bracket or accessory you might have for one of the older models.

Battery

The new cameras use the latest version of Nikon’s EN-EL15 battery. The EN-EL15c is a higher capacity version of the existing type ‘b’ battery and, like that unit, can be charged over USB. The cameras will work with all previous EN-EL15-pattern batteries but for best performance you’ll want one of the latest versions.

The battery is higher capacity but the dual processor designs mean both cameras deliver between five and ten percent mode shots. The Z6 II is rated at 410 shots per charge with the LCD, 340 through the viewfinder, while the Z7 II offers 420 and 360, respectively. Energy saving modes boost all these figures by a further 5 percent on the Z7 II and around 14 percent on the Z6 II.

Dual processors: faster shooting / more shots

Under the skin, the biggest change in the new Mark II cameras is the move to dual Expeed 6 processors. This doubling of the cameras’ processing power is what allows the Z6 II’s shooting rate to be expanded up to 14 frames per second from 12, while the Z7 II hits 10 fps, rather than nine. Note that these maximum framerates are only available if you’re shooting 12-bit Raw and using a single AF point.

The added processing power helps both cameras clear their buffers much faster, more than trebling the number of Raw files you can shoot in a burst, in some instances.

AF improvements

The new cameras have received a major update to the way their autofocus works, with human or animal eye/face detection now available in the cameras’ Wide area AF modes. The significance of this is that it lets you limit the zone of face/eye detection to the part of the frame you want to focus on, making it easier to select your subject.

Nikon says this feature is contingent on the additional processing power supplied by the dual processors, and so is unlikely to be extended to the original Z6 and Z7 via firmware. The company also claims that overall AF performance has been improved, specifically in terms of stickiness, when it comes to focus tracking.

The low-light capabilities of the cameras’ focus systems are also improved, with the Z7 II capable of achieving AF down to –3EV in standard AF mode and the Z6 II reaching –4.5EV with an F2.0 lens. This is a one stop improvement over the existing models and comes without engaging the slower, low-light AF mode for shooting in extreme low light.

Viewfinder improvements

The cameras continue to use the same 3.69M dot OLED viewfinder panels, but we’re told that blackout times between exposures have been improved.

Nikon also says the response lag of the finders have been improved but it hasn’t provided a number for this claim. It does point out that the EVF optics, which provide an impressive 0.8x magnification, are made from Nikon glass.

USB power

Another change from the older models is the ability to operate the cameras using USB power. A modern USB-C power supply should provide sufficient current (Nikon says the source must use a USB-C to USB-C cable). This comes on top of the ability to charge the camera over USB, and opens up the possibility of extended video or timelapse shoots.

Video updates internal

Nikon has made a series of improvements on the video side of things. The most significant for people using internal capture is the ability to shoot 60p 4K footage. The Z7 II will capture the higher frame rate footage from 93% of the width of the sensor, and will need to line-skip or pixel-bin to do so. The Z6 II instead uses a native 3840 x 2160 crop from the middle of its sensor, which is essentially an APS-C (‘DX’ in Nikon speak) region. Z6 II users will need to wait until February 2021, when 60p capability will be added as part of a free update.

60p can only be recorded internally, possibly held back by the cameras’ HDMI sockets.

Video updates external

There are a couple of significant improvements for anyone capturing video using an external recorder, too. The first is that, in addition to N-Log output, the Mark II cameras gain the ability to output ready-to-view Hybrid Log Gamma footage for viewing on HDR TV sets. This provides a way to deliver HDR content but it’s worth noting that Panasonic’s S5 can do this without the need for an external recorder. Both cameras will be limited to 4K/30p output.

The both cameras will have a paid upgrade option to output Raw video streams. In the case of the Z6 II, this will be like-skipped 4K from most of the width of the sensor, on the Z7 II will output Full HD (1080p) Raw from the full sensor area or 4K from an APS-C crop. Initially, there will be support for the Atomos Ninja V, which encodes the steam as ProRes RAW. In February 2021 a further update is promised, adding compatibility with Blackmagic recorders for encoding as Blackmagic Raw, opening up the ability to use Raw footage with DaVinci Resolve.

Minor updates

As well as the larger updates, both cameras also gain a series of small tweaks and improvements that Nikon is bringing to its latest models.

These include the option of exposure times as long as 900 seconds (15 minutes) rather than being limited to 30 seconds. The cameras also gain the ability to create videos from interval timer mode (which lets you also save JPEGs or Raws of every frame), rather than just from the simpler timelapse mode. These are both features we first saw on the D780.

Video shooters are also likely to appreciate the new (and overdue) option to reverse the direction of the focus ring when manual focusing. All Z-mount lenses are focus-by-wire, so can be programmed to respond in the same direction as most other brands, or remain Nikon-like, depending on your preference. It’s unclear whether this feature will come to the original Z6 and Z7 via firmware (but we hope so).

What’s the same?

The cameras’ ergonomics and handling are fundamentally unchanged, which we think is a welcome decision. Nikon has a history of putting well-designed hand grips and sensibly-positioned control dials into its medium / high-end cameras, and the Z6 and Z7 II are (literally) no different.

A few small adjustments have been made to the user interface though, including the addition of ‘Wide + Human Face/Eye detect’ and ‘Wide + Animal Face/Eye detect’ to the ‘i‘ quick menu, but most of the UI remains the same.

Overall

The Z6 and Z7 II are solid mid-life updates to the original Z6/7 which, on the face of it, make helps the Nikon Z-mount look a little more fresh alongside the latest cameras from Canon, Sony and Panasonic which have been released in the past two years. While some Z6/7 owners will find little reason to upgrade, these new Mark II versions should prove more attractive to some of Nikon’s DSLR customers who’ve been waiting to make the switch to mirrorless.

We can’t say yet how well the Z6/7 II compare to the best of their peers in terms of autofocus or video performance, but, on paper at least, they appear likely to to be competitive. An effective doubling of processor power opens up of potential for performance tweaks via firmware, too, going into the future.

So should you buy a Z6 or Z7 II? As always, that depends (and we’ll be breaking down the reasons for and against in another article coming soon). Upgrading from an original Z-series model will be unusually painless – they’re physically identical, and the interface is all-but unchanged. If you don’t need the extra power (or the extra card slot) and you’re not much of a video shooter, it’s a harder question to answer, especially given that the original Z6 and Z7 are continuing in Nikon’s product line, and are likely to get cheaper in the coming months.

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What you need to know about Nikon’s new 14-24mm F2.8 S and 50mm F1.2 S Z-mount lenses

17 Sep

What you need to know about Nikon’s new Z 14-24mm F2.8 S and Z 50mm F1.2 S

We’ve known they were coming for a while, but Nikon’s mirrorless lens roadmap moved two steps further forward with the launch of the new Z 14-24mm F2.8 S and Z 50mm F1.2 S. Keep reading to learn more about these two premium Z-mount lenses.

Z 50mm F1.2 S

Good news for Nikon Z shooters looking for a standard lens – you now have another option. The new Z 50mm F1.2 S is positioned between the affordable (and excellent) Z 50mm F1.8 S and the considerably less wallet-friendly Z 58mm F0.95 S.

Size and weight

First (and most obvious) things first: This is a pretty big lens. At almost six inches long (without the hood) and with an 82mm filter thread, the new Z 50mm F1.2 S is almost twice as big as the F1.8, and almost twice the weight (1095g, or 2.4lb). Nikon claims that key optics in this new lens are ‘1, 1/2x larger’ than in the F1.8, and the new lens also houses twin STM motors for accurate focus throughout its operating range.

Amazingly, the Nikon 50mm F1.2 S is even larger and heavier than the Canon RF 50mm F1.2L USM, which weighs in at 950g (2.1lb).

Size and weight

For the historically inclined, the last 50mm F1.2 from Nikon (the Nikkor 50mm F1.2 AI-S) weighed less than 400g (0.9lb) and was only 5cm (2in) long. However, due to the compromises involved in stuffing an F1.2 maximum aperture into the narrow F-mount, it was not, sadly, a particularly good lens. This 50mm F1.2, however, promises to be much better.

Optical construction

Optical construction comprises 17 elements in 15 groups, including three aspherical elements and two ‘ED’ extra-low-dispersion elements, and both Nikon’s Nano Crystal Coating and the newer ARNEO coating for flare, ghosting and coma suppression. Meanwhile, distortion is well-controlled and nine rounded aperture blades should help keep out of focus highlights circular at wider apertures.

Because of the exceptionally wide dimensions of the Z-mount, the rear element of the lens can be very large, helping to keep light rays near-perpendicular when they reach the sensor.

Nikon describes the optical construction of this lens as ‘symmetrical’, and in theory this should mean that the Z 50mm F1.2 S is capable of high resolution at all apertures, across the frame. This is obviously something that we want to put to the test as soon as we can.

Twin STM focus motors

The Z 50mm F1.2 S becomes the latest Nikon lens to feature twin STM focus motors, which should increase focus accuracy at close distances, as well as being quieter and more power-efficient than traditional Ultrasonic motors. Minimum focus distance is 0.45m (about 18″) and of course manual focus is also possible using the large focus ring. As we’d expect, this is ‘manual focus by wire’ but very finely-geared for precise adjustment.

Nikon promises ‘minimal’ focus breathing (where magnification changes as the lens is focused), which is good news for videographers.

Handling and operation

There’s no getting around the fact that this is a large lens, and it makes the Z6/7 feel pretty small by comparison. We strongly suspect, however, that it will pair well with those cameras when used with their optional grip, and of course any future high-end Z-series camera with a bit more heft.

Handling and operation

In terms of operation, the Z 50mm F1.2 S is also pretty consistent with other high-end S-series Nikon lenses of late. A control ring can be customized for direct control over exposure compensation or aperture (and other things, but those are the two most useful) and an ‘Fn’ button can be customized via the camera for quick access to various modes and features. Meanwhile an OLED status panel on the barrel shows focus and aperture + hyperfocal distance information. In line with other S-series lenses, the Z 50mm F1.2 S is ‘extensively’ sealed against dust and moisture.

The Nikon Z 50mm F1.2 S will be available in December for $ 2099.

Z 14-24mm F2.8 S

Nikon’s AF-S 14-24mm F2.8 was a wildly popular lens, and for many years it was among the best wide-angle zooms you could buy. Nikon was always going to create an equivalent for its new mirrorless Z mount and here it is: the Z 14-24mm F2.8 S.

Size and Weight

The old AF-S 14-24mm F2.8 is a famously large, unwieldy lens, thanks mostly to its enormous front element. The new Z 24-24mm F2.8 is an altogether more portable option, and considerably lighter (650g / 1.4lb compared to 970g / 2.1lb). That’s a weight reduction of 35%.

It’s not a small lens by any means, but at around five inches long, it is the smallest and also lightest 14-24mm F2.8 on the market (albeit in a class of only three – the third being Sigma’s 14-24mm F2.8 DG HSM Art). Minimum focus is 0.28m (~11in) so get ready to shoot some classic ‘wildflowers at sunset’ landscapes.

Optical construction

Optically too, this lens is totally different to its nominal F-mount predecessor. This is very obvious from the flat front element, which contrasts very clearly with the large, bulging front element of the older AF-S 14-24mm. And yes, this does mean that you can use screw-in filters, although you’ll need to attach the included HB-96 hood to do it, and you’ll need to hunt down 112mm filters – not a particularly ‘standard’ size (or a cheap one), but both Nikon and B+W do make them.

If you don’t fancy shelling out for massive new filters, there’s also a tray for trim-able 40.5mm drop-in gel filters at the very rear of the lens.

Optical construction

Internally, the new Z 14-24mm F2.8 S comprises 16 elements in 11 groups, including three aspherical and four ED elements. Like the 50mm F1.2, it features both Nano Crystal and ARNEO coatings. Nikon promises “stellar point light reproduction capabilities” and excellent coma and flare suppression, which should make this lens ideal for wide-aperture astrophotography.

Weather-sealing

The front element is coated with fluorine, to aid with cleaning if moisture and fingerprints should make their way onto the glass. Speaking of which, the Z 14-24mm F2.8 is sealed against dust and moisture.

Price and availability

The Nikon Z 14-24mm F2.8 S will be available in November for $ 2399 – a considerable premium over the older AF-S 14-24mm, but one that’s hopefully justified by its image quality. We’ll be sharing sample images as soon as we get hold of a production lens.

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DPReview TV: How to start a YouTube channel Part I – the gear you need to get started

29 Aug

Have you ever dreamed of starting your own YouTube channel? In this video, the first in a series, we talk about the basic gear you’ll need to get going – all for under $ 1000.

Subscribe to our YouTube channel to get new episodes of DPReview TV every week.

  • Introduction
  • Camera
  • Lavalier microphone
  • On-camera microphone
  • Tripod
  • Memory cards
  • ND filter
  • Your basic kit

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What you need to know about the new Nikon Z5

23 Jul

What you need to know about the new Nikon Z5

The Nikon Z5 is an entry-level full-frame mirrorless camera that looks a lot like the Z6, handles a lot like the Z6, and offers a lot of the same features. So what makes it different, and why is it cheaper? Read on to find out more.

All images provided by Nikon USA and used with permission.

24MP CMOS sensor (not BSI)

The Nikon Z5 uses a 24MP CMOS sensor, paired with an Expeed 6 processor, but it is not the same BSI-CMOS chip that we’ve seen in the Z6 (and likely also the Sony a7 III). The Z5’s sensor is probably closely related to the last-generation sensors in the likes of the Nikon D750. For practical purposes, this means that image quality in a normal ISO sensitivity span is likely to be excellent, but the Z6 will probably have the edge at very high ISOs.

1/8000sec min shutter and ‘silent’ shooting

Despite its entry-level positioning, the Z5 offers a minimum exposure time of 1/8000sec, which enables wide-aperture shooting in bright conditions. As well as mechanical and electronic first-curtain modes, a ‘silent’ shooting mode is also available. In ‘silent’ mode the shutter is fully electronic and – literally – silent.

Because there is no mechanical action associated with fully-electronic exposures, this is potentially also a good option for highly critical macro and extreme telephoto work, where you need to minimize vibrations. The downside is an increased likelihood of distortion when shooting moving subjects.

273-point PDAF and 4.5fps continuous shooting

The Z5’s autofocus system appears at least very similar if not exactly the same as that found in the Z6 and Z7, and benefits from the feature additions that Nikon has made to those models via firmware. As such, you get human and animal eye-detection, and a tracking mode which operates a little more like 3D AF Tracking in Nikon’s DSLRs. Coverage from the Z5’s 273 autofocus points is 90% vertically and horizontally.

The Z5’s maximum continuous shooting rate of 4.5fps is OK for this class, but probably not fast enough for serious sports or action photography.

5-axis in-body stabilization

Unlike Nikon’s entry-level (and currently sole) DX-format Z-series model the Z50, the Z5 offers 5-axis in-body stabilization. This system is rated for up to five stops of correction, which (again) is comparable to the Z6 and Z7.

5-axis in-body stabilization

With a VR-enabled F-mount lens mounted via the FTZ adapter, or a Z-series lens like the forthcoming Z 70-200mm F2.8 S, the system becomes 3-axis, handing off pitch and yaw correction to the lens, with the body dealing with roll. The stabilization rating with a VR lens increases slightly, to 5.5EV (per CIPA) but as always with such things, you might get greater or less benefit depending on the situation (and focal length).

Same size and weight, similar ergonomics to Z6

The Z5 is an unusual entry-level model in being exactly the same size and weight as the model above it in the lineup. We’re told that this was a deliberate decision to make manufacturing more economical. The only major ergonomic change to the Z5, compared to the Z6, is the migration of an exposure mode dial to the right of the viewfinder, in place of the small status LCD which sits on top of the higher-end model.

Same size and weight, similar ergonomics to Z6

The 3.2″, 1.04M-dot LCD on the rear of the Z5 is the same size as that found in the Z6 and Z7 (but lower-resolution), and like those models it is also touch-sensitive and can be tilted for waist-level shooting and video work.

Whereas the Z6 and Z7 use an almost all magnesium-alloy body chassis, the Z5 economizes slightly with plastic on the back and the base of the camera. We’re told that despite the different construction, the Z5 is sealed to the same extent as the Z6/7 against dust and moisture. From what we know about the build quality of those models, this is really good news.

3.6M-dot Quad VGA EVF

Also good news is that the Z5 shares the same electronic viewfinder as the Z6/7. While we’ve seen the 3.6M-dot Quad VGA EVF out-resolved recently, it remains one of our favorite finders, offering fine, crisp detail and excellent contrast, without offering the 100fps+ feed of some competitive models. The EVF assembly features an automatic switch, to de/activate the viewfinder when your eye modes between finder and rear screen.

The image above shows an EVF module from the Z6/7 being inspected at Nikon’s factory in Sendai. Read the full factory tour here.

Dual UHS-II SD cards

Before the Z6 and Z7 were announced, whoever would have thought that card slots could cause such controversy? The Z5 splits from its higher-end stablemates by offering two card slots, both of which support the cheaper and more readily available SD format, up to UHS-II.

Video

When the Z5 is compared against the Z6 on specs, the main area of differentiation is in video. Nikon has moulded the Z6 into its current top-end video camera, but the Z5’s video feature set is much more pared-down. Although you can shoot 4K footage at up to 30p, there’s a 1.7X crop.

Overall the Z5 offers a solid feature set for its price, without being class-leading. Full HD video can be recorded without a crop (at up to 60p) but you won’t find a lot of the Z6’s more pro-oriented features, such as N-Log recording and output that can be encoded as Pro-Res Raw. The Z5 does offer focus peaking though, and zebra stripes. It also has sockets for a microphone and headphones.

New EN-EL15C battery

The Z5 ships with a new ‘c’ variant of the venerable EN-EL15 battery, but it remains compatible with previous versions, provided you don’t need in-camera charging (only offered by ‘b’ and ‘c’ variants). The new ‘c’ type battery offers a modest increase in capacity, giving an overall rating (per CIPA) of 470 shots using the rear monitor, and 390 shots using the EVF. It also supports USB power, via the optional optional UC-E25 cable.

New 24-50mm F4-6.3 kit lens

The Z5 might have basically the same body as the Z6 and Z7, but you can keep its overall size and weight down with the new 24-50mm kit zoom. The 24-50mm measures just 51mm (2″) long when retracted and weighs only 195g (0.43lb). The tradeoffs for such a small, lightweight lens are its relatively limited focal length range, and slow maximum aperture, but if it’s as sharp as previous Z-series zooms, this might be a worthwhile compromise for casual everyday photography.

New 24-50mm F4-6.3 kit lens

Nikon describes the lens as ‘dust and drip resistant,’ though not fully weather-sealed. The 24-50mm F4-6.3 will be available in a kit with the Z5 for $ 1699, or on its own for $ 399.

Articles: Digital Photography Review (dpreview.com)

 
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What you need to know about the new Leica M10-R

18 Jul

What you need to know about the new Leica M10-R

Leica has just released a major update to the M10-series, with a big leap in resolution over the original M10 models. The new M10-R features a variant of the 40MP sensor found in the more recent ‘Monochrom’ version, and includes a couple of the nice extras introduced in the older ‘P’ model. Read on to learn more.

New 40MP CMOS sensor

Externally, the only difference between the M10 and M10-R is the addition of an ‘R’ to the engraving on the hotshoe.

Internally, it’s a different story. The M10-R offers a big jump in pixel count, from 24MP to 40MP. For anyone who was expecting the next-generation M to feature the 47MP sensor from the SL2 and Q2, we’re told that the reason Leica opted for a ‘color’ version of the M10 Monochrom’s 40MP sensor is simply size. The 40MP sensor is thinner, and better optimized for use in the compact body of the stills-only M10-series cameras.

Like the original M10, there’s no option to shoot video. There’s also no low-pass filter on the sensor, to really make the most out of all those pixels. The downside to that is that moiré can be an issue in some situations (especially when shooting fabrics).

Same processor, better high ISO and dynamic range

The M10-R’s processor is the same Leica Maestro II that we’ve seen in previous M10-series models, but Leica claims that thanks to the new sensor, dynamic range has been substantially improved in Raw mode. Despite the significant increase in the size of its files, the M10-R’s continuous shooting rate is 4.5 fps – barely slower than the original M10’s 4.8 fps.

Like the original M10/P, native ISO sensitivity spans 100-50,000 (everything above 6400 is accessed via the ‘M’ setting on the ISO dial shown here) and the maximum exposure time has been extended to 16 minutes (from 4 minutes on the M10/M10-P).

Raw files are recorded in the DNG format, in 14-bit, with lossless compression.

Rangefinder focus system

Leica aficionados can skip this section, but for the uninitiated, the Leica M10-R is a rangefinder-type camera. It has an optical viewfinder, offering a comfortable field-of-view of approximately 28mm.

A series of prisms and mirrors under the top-plate (linked to a cam which connects to the lens) project two overlapping images into a small patch in the middle of the finder which, when they line up, indicate accurate focus. This was considered high technology in the 1920s, and still works well 100 years later, once you’ve got the hang of it.

Focus accuracy

One of the first questions I asked Leica representatives when they showed us the M10-R was whether the focusing system had been revisited to increase its accuracy, given the demands of a new 40MP sensor.

The answer I received was ‘no’. The system was overhauled and improved for the original M10, and has not been tweaked since. From my shooting on the M10-R so far, focus accuracy is about what I’d expect from shooting with the original M10. When working wide-open, it’s sensible (if you can) to focus bracket a little bit, but with practice, it’s not too hard to get focus where you want it, in most situations – despite the higher pixel count. For critical work, the optional Typ 020 viewfinder (shown above on an M10) allows for precise manual focus.

Framelines

The approximate field of view your lens is indicated in the viewfinder using projected frame lines. You can preview the field-of-view provided different lenses (from 28mm to 135mm) by moving the lever below the viewfinder window (shown in the previous section of this article).

When you mount a different lens, the frame lines will automatically adjust accordingly. To accurately frame shots using lenses wider than 28mm, you’ll need to attach an optical finder to the M10-R’s hotshoe. This image shows how much the 75mm Summilux intrudes into the view, but it’s an exception: most M-mount lenses don’t take up this much visual real estate.

3″, 1.04M-dot touchscreen

The M10-R borrows from the M10-P in a couple of key respects, one being its touch-sensitive rear LCD. The touch functionality is well-implemented, to the extent that it doesn’t get out of the way of the shooting experience. It’s useful mostly for flipping through images in playback mode mode, and pinch-to-zoom to check focus. And you can tap as hard as you like – the screen is protected by Gorilla glass.

Touch-screen

It’s a bit disappointing that there’s no option to customize the touch function. It would be nice, for example, to be able to rate images by touch or use the screen as a focus point positioning pad with your eye to the (optional) EVF.

On the plus side, navigating through captured images and zooming in/out is very fast, with virtually no ‘lag’ despite the large file sizes. Please note that the image above shows the M10-P, and was taken at a time when we could still get friends to hold cameras for us from less than 6 feet away.

‘Silent’ shutter

The M10-R’s ‘silent’ shutter is actually nothing of the sort, but rather the nicely-damped, very discreet mechanical shutter from the M10-P. While not silent, it is less obtrusive than the shutter sound of the original M10. There is no truly silent, fully electronic shutter mode available, in either normal or ‘EVF’ (live view) shooting.

Same old battery and memory card bay

No surprise here – the M10-R’s battery and memory card are still accessed via a latched door on the base of the camera. Leica will tell you this is to help keep the camera sealed against dust and moisture (which is it, by the way) but we suspect that tradition plays a big part.

Having to remove the base of the camera to swap out a battery or SD card isn’t the worst thing in the world, but it does make using the M10-R on a tripod (or even just in a soft case) more awkward than it probably needs to be. We had hoped for USB charging on this model, via a more-accessible port somewhere on the body but alas, tradition won the day, yet again. There’s no official word on battery life, but we’d expect the M10-R to offer basically the same stamina as the M10 Monochrom (350-400 shots per charge).

The M10-R supports SD cards up to the SDXC standard. In other words, there’s no benefit from using UHS-II cards in this camera. You can do it (and they’re mechanically perfectly compatible), you just don’t gain anything.

Leica FOTOS app

The M10-R is fully compatible with the FOTOS app, allowing for remote capture, image review and file transfer to a smart device. A fully-featured ‘Pro’ version of FOTUS is also available for iPad, for an annual fee. The app is shown here running alongside the weird and wonderful M10-D (which as you can see, doesn’t have an LCD of its own).

The Leica M10-R is available in ‘black chrome’ and ‘silver chrome’, for an MSRP of $ 8,295 (the same price as the M10 Monochrom).

Articles: Digital Photography Review (dpreview.com)

 
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