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Posts Tagged ‘Lens’

Popular YouTube channel creates camera lens from scratch using sand and rocks

05 Mar

Popular YouTube channel ‘How to Make Everything’ has published a new video showing the creation of a camera lens from scratch. The project didn’t start with pre-made components, as many DIY projects do, but rather with the purely raw materials, including sand and rocks for the eventual lens glass and copper housing.

The new project follows one involving the creation of a pinhole camera from scratch that the channel published in September 2018. This time around, the channel’s Andy George spends nearly half an hour walking viewers through the lens creation process, including many failed attempts.

Producing clear glass presented one of the project’s most time-consuming challenges, though casting the copper lens housing introduced its own difficulties. After weeks of work, however, the end result was a decently clear, though sadly ill-fated, camera lens with zoom functionality.

Articles: Digital Photography Review (dpreview.com)

 
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7Artisans announces a new 60mm macro lens for multiple mounts

01 Mar

7Artisans is set to launch a new macro lens in a range of mounts from MFT to APS-C in May this year, according to Photo Rumors. Details are a little thin on the ground, but what is known so far is that the lens will cost in the region of $ 200 and will have a close-focus distance of 65mm.

The maximum aperture will be F2.8 and with the help of an optional extension tube users can expect to achieve 5x magnification for extreme macro photography. The website says the lens will be available in Sony E, Canon EF-M, Fujifilm X and Micro Four Thirds mounts and we should expect it to arrive in May of this year.

The 60mm focal length is a popular choice for photographers using cameras with APS-C sensors, as the angle of view achieved is similar to that of the classic 90mm macro on a full frame system. Mounted on a Micro Four Thirds model however the focal length will seem much more like a 120mm. For more information keep an eye on the 7Artisans website where it will probably pop up a little closer to the launch date, or during the CP+ show starting today, where the lens may well be exhibited.

Articles: Digital Photography Review (dpreview.com)

 
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Leica announces new APO-Sumicron-SL 35mm F2 ASPH L-Mount lens

01 Mar

Leica has announced its new APO-Summicron-SL 35mm F2 ASPH lens, an L-mount lens designed to be used with Leica’s SL mirrorless cameras as well as Panasonic and Sigma cameras as part of the L-Mount Alliance.

The lens features 13 elements in 11 groups, including five aspherical elements. The optical elements feature ‘high-quality coatings’ on the various lens elements to help reduce unwanted reflections ‘to an absolute minimum’ and also feature a hydrophobic Aquadura coating on the exterior lens surfaces. The body of the lens is sealed against both dust and moisture.

As with other lenses in Leica’s Summicron-SL collection, the 35mm F2 ASPH lens features a Dual Syncro Drive (DSD) steeping motor for fast autofocus. Leica says the lens ‘completely travels the entire focus range in just 250 milliseconds.’ The lens measures 102mm / 4.02in long and 73mm / 2.87in in diameter and weighs in at 720g / 25.4oz.

The APO-Summicron-SL 35mm F2 ASPH lens will go on sale in mid-April for $ 4,595 at Leica Stores, Boutiques and authorized retailers.

Articles: Digital Photography Review (dpreview.com)

 
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Reverse Lens Macro – How to Make Macro Photos with “Backward Thinking”

28 Feb

The post Reverse Lens Macro – How to Make Macro Photos with “Backward Thinking” appeared first on Digital Photography School. It was authored by Rick Ohnsman.

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Occasionally a little “backward thinking” can be a good thing, especially when it comes to coming up with an economical way to do macro photography. Sure, you can shell out a few hundred dollars for a nice macro lens. You might give extension tubes or bellows a try, or even buy some closeup diopter lenses. But what if I told you how you could use that old film camera lens and an adapter easily purchased for under $ 15 to make some nice macro images? Might that not be a great and inexpensive way to explore the macro world? Great… now get ready to “think backwards.”

Yes, literally… You will need to think backward to take advantage of what is called “Reverse-Lens Macro Photography.” You will be mounting a lens backward on your camera so what is normally the front of the lens is the part that attaches to your camera. Before we look at how to do this, let’s first define “macro photography.”

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The Reverse Lens Macro Technique is a great way to enter the world of macro photography economically.

What is “true” macro?

Many lens manufacturers indicate their lens has “macro capability” and they might even put the word “macro” on the lens. These lenses indeed allow you to focus closely on your subject. However, in the true sense of the term, a macro photo is one in which the size of the image recorded on the camera sensor is the same size (or larger) than the physical object photographed – a 1:1 magnification ratio or greater.

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This might be a close-up, but is not a “true” macro photograph.

Here’s a practical example: A U.S. Quarter is 0.955 inches (24.26 mm) in diameter. A full-frame digital camera sensor measures 24mm x 36mm. So shot with a true macro lens on a full-frame camera, the uncropped image below represents a 1:1 magnification ratio or a true macro photograph. On a crop sensor camera where the sensor is 14.9×22.2mm (Canon) a 1:1 shot of a quarter would more than fill the frame. So, if the lens you’re using cannot focus close enough to fill the frame with a quarter, it might be a close-up lens but isn’t a true macro. Don’t be fooled by cropped images either. An image can be cropped tighter in editing, but that alone does not make it a “macro” photo.

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This is a full-frame shot. Notice the width of the shot is about 36mm, the size of the camera sensor. This is a true 1:1 macro shot.

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I shot this image with the reverse Pentax 50mm lens. It’s not giving “true” macro magnification

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This Is how close I could get with the reversed Vivitar zoomed out to 28mm. Remember, the wider the focal length, the closer you can get to your subject.

Does it matter? No, not really. The fun is getting close to your subject. Close enough to see things you might not be able to see with your unaided eye. Whether it is a “true macro” may not matter unless you are entering a contest where only true macro shots are allowed. How close you can get depends on the equipment you have. How close is close enough? Well, that’s an artistic judgment.

Before we start… some cautions

Anytime you take the lens off your digital camera you expose the sensor and the insides to dust. You will be taking your lens off for this procedure. If you aren’t placing another (reversed) lens onto the camera, use a body cap to keep dust out until you are ready.

When you do put the reverse lens on your camera, know that the back end with its associated controls, connection pins, rear element and such will also be exposed. Use a rear cap on it when you’re not working with your set-up. Practice the same cautions you use with regards to dust and all will be fine.

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Ordinary objects like this set of keys become subjects for interesting photos when viewed as macro images.

Macro options

There are several ways to make macro photos.

These include:

  1. A Dedicated Macro Lens – The easiest but the most expensive
  2. Extension tubes or a bellows which increase the distance between the lens and the sensor
  3. Magnifying lenses (diopters) put in front of an existing lens
  4. Reversing a lens on the camera – This is the technique we’ll be teaching here.

What lenses work?

Almost any lens can work for this technique including those you usually use on your digital camera. Do you want to see? Take the lens off your camera, hold it backward and tight to the camera body, turn on the camera and get close – very close to a subject. Move very slightly toward and away from the subject to focus. The focus ring has little impact.

You can see this technique shown on numerous online videos and while it may give you a macro in a pinch, it’s not very practical. Trying to hold the camera with a loose lens and adjusting focus might be okay if you’re in the field and have nothing better, but it’s hardly optimal.

You’ll also note that once you disconnect the lens from the camera, you no longer have autofocus or aperture control. The camera may show a blank where the f/stop would typically be. I’ve seen the technique where you set the aperture with the lens on the camera, push the depth-of-field preview button and then disconnect the lens, so the aperture stays fixed at that setting. Right… funky at best. Let’s teach you how to do this right.

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Old film camera lenses are perfect for this technique as they usually have an aperture ring on the lens.

Got an old film camera lens?

If you’re an old guy like me, you remember film. You might even have your old film camera and a few lenses for it kicking around. If not, film camera lenses are cheap at pawn shops, online, or even at garage sales. For this technique, lens brand or mount type doesn’t matter since you’re not going to be connecting the lens to the camera in the usual way. Almost ANY lens will work so long as it has filter threads on the front.

The lenses I used with my old Pentax ME Super film camera are a 50mm Pentax lens with a 49mm filter ring and a Vivitar 28-105mm zoom with a 72mm filter ring. The thing to remember when using reversed lenses is the wider the focal length, the closer you can get to your subject. A zoom lens gives you a “variable macro.”

The biggest reason old film camera lenses work best for this is, unlike most digital lenses, they have aperture control rings on the lens. You won’t have aperture control from the camera, so having it on the lens is perfect.

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Reversing rings are what you need to mount your lens backward on your camera.

Setting it all up

Here’s where the “backward thinking” comes in. To mount your lens to your camera you need to attach it backward. You need to use an adapter with male threads on one end and the proper mount type for your camera on the other end.

In my case, I used a Canon EOS mount so I could attach the lens to my Canon 6D. I bought two Reversing Ring adapters, one with 72mm threads on one end and a Canon EOS mount on the other. The second, with 49mm threads and a Canon EOS mount on the other. Mine are cheap Fotodiox rings, at $ 7.95 US each for the 49mm, and 72mm from Amazon. The things to remember when buying these is to get the proper filter thread size and camera mount type.

They are available for Canon, Nikon, Sony, Pentax, Panasonic, and many other camera mount types.

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This, shot with the reversed Pentax 50mm might be a close-up, but is not a “true” macro photograph.

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This is shot with the reversed Vivitar at 28mm giving even more than a 1:1 macro magnification. Note how sliver-thin the depth-of-field is

The mechanics of making your macros – a step-by-step approach to making this work

Mount the lens

Screw the adapter to the lens filter threads and then mount the lens (backward of course) to the camera. Choose the lens you want by considering how much magnification you want – Shorter focal lengths allow you to get close to the subject with more magnification, longer focal lengths allow you to be further from the subject.

With my lenses, the 50mm Pentax prime gave a little more than a 1:1 ratio. The Vivitar 28-105mm zoom at 28mm was almost a 2:1 ratio. At 105, it was more a “close-up” rather than a macro lens and around 70mm was 1:1.

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This is the Vivitar 28-105 reverse-mounted on a Canon 6D.

Use a tripod

The magnification of macro greatly amplifies any camera movement and, with very limited depth of field, trying to work handheld will be frustrating, if not impossible. If there’s any wind, shooting outside probably won’t work either.

Subject Selection

Your depth of field with this technique will be sliver-thin, sometimes only a few millimeters. Beginners might want to start with subjects with minimal depth and shoot them, so they lie in the same “focal plane” as the camera. Stamps, coins, paper bills, or other flat objects are great, especially when you’re learning the technique.

Lighting

You’ll often be really close to your subject and in your own light. You’ll also be wanting to use smaller apertures to get more depth of field, further reducing light. Get creative with how you light your subject.

Camera settings – Use Manual Mode

You will be able to control ISO and Shutter Speed, but not Aperture. Remember, that’s on the lens ring.

Open the Aperture Ring all the way while you focus. Move the camera or subject in tiny increments to get focus (the focus ring won’t have much effect.) If you’re using a zoom, you can use the zoom feature to help you focus. If your camera has Live View, use that. Use the Zoom feature of Live View to magnify your image and check the critical focus. If not, you’ll have to use the viewfinder. Also, remember that autofocus doesn’t work here and so LCD screens where you touch to focus aren’t going to help.
Stop down the Lens with the Aperture Ring once you’ve focused. Smaller apertures (like usual with all photography) give greater depth of field.

You will usually be struggling to get more depth of field in macro photography! Also know that as you stop down the lens, things get darker. It’s sometimes hard to adjust the aperture ring without bumping the focus slightly, so be prepared to refocus.

Making your shots

Shoot, “chimp,” adjust exposure, and repeat. To control exposure typically adjusting shutter speed on the camera should be the easiest. Expect to make LOTS of shots, making adjustments as you go to get that “perfect shot.” Macro photography can be “fiddly,” so get used to it.

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A focusing rail, like this one from Neewer, can greatly aid you in making very fine focus adjustments.

Taking it to the next level

If you decide you like macro photography and want to make things a little easier and more precise, you may want to invest in a Focus Rail. Mount this device to your tripod, and mount your camera to it. Using a system of fine gears and adjustment knobs, you can move your camera in tiny increments. Macro is a game of millimeter movements and obtaining more precise control can be a huge help. Taking it up even more, one can buy very sophisticated rails, some with motorized, computer-controlled movement. If you’re ready for that, you’re not as likely to be using the reversed lens technique. I’m quite happy with my Neewer Macro Focusing Rail which cost under US$ 30.00.

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Even at f/22, the depth of field is very limited. Focus stacking would need to be used to get this whole image in focus.

Focus stacking

Sometimes more is better, right? When you can’t get enough depth-of-field with one shot, taking multiple shots (each focused to a just slightly different point), and combining them in editing to get a front-to-back depth of field, may be the answer. Photoshop has focus-stacking capabilities and for a beginner is a good place to start. When you’re ready to dive deep into focus stacking, programs like Helicon Focus or Zerene Stacker are what the pros use.

I have a friend in our camera club who decided to pursue macro photography in a big way. He purchased a motorized, programmable focus rail, a nice macro lens, bellows, extension tubes, and then uses Zyrene Stacker to assemble what are often dozens of images into a single spectacular macro. I’m happy at the moment to use my reverse mounted film camera lenses, (though I did purchase a dedicated Tamron 90mm macro lens too).

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A member of my camera club made this shot using the technique of focus stacking. This shot, razor sharp through the shot, (tough to do in a macro image!) is actually 118 shots combined with the program Zerene Stacker. This online image doesn’t do it justice. As a print, it is absolutely stunning! – Photo by Robert Riddle.

Conclusion

One of the attractions of photography is that it teaches you to see and then share through your photos, things people don’t ordinarily notice or see. Macro photography takes that a step further, opening up a tiny and incredible world of detail. The reverse lens macro trick is one that allows you to get a glimpse into this new world with minimal expenditure. I hope you’ll give it a try!

The post Reverse Lens Macro – How to Make Macro Photos with “Backward Thinking” appeared first on Digital Photography School. It was authored by Rick Ohnsman.


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Sony announces FE 135mm F1.8 G Master lens

26 Feb

Sony has announced its FE 135mm F1.8 G Master telephoto prime lens. Sony says that this (relatively) lightweight and portable lens is well-suited for portrait, wedding and sports photographers.

The 135mm F1.8 has 13 elements in total, which include XA (extreme aspherical), Super ED and ED. The XA and Super ED elements in the front group replace traditional large and heavy negative elements to ‘effectively suppress all common telephoto lens aberrations,’ according to Sony. Sony claims that the combination of a Super ED and ED element ‘compensate for axial CA, minimize color fringing and maximize overall resolution,’ while the large XA elements mitigate spherical aberration.

Producing large XA elements that don’t negatively affect bokeh is difficult, but Sony claims its 10nm mold precision and other improvements ensure that onion ring bokeh is non-existent. Furthermore, each lens is individually inspected for smooth bokeh. An 11-blade aperture ensures circular out-of-focus highlights even at F4 and beyond. Sony’s Nano AR coating is used to reduce flare and ghosting, while a fluorine element repels fingerprints and water.

There are four XD linear motors on the lens – two for each of the focus groups – that promise responsive, accurate and quiet focusing. Sony states this is its first lens to offer two direct-drive SSM motors to move two separate XA elements for fast focus. Moving large XA elements was only possible by switching from piezoelectric actuation to linear induction motors. The 135mm F1.8 is weather-sealed and features an aperture ring, focus ring with linear response (important for videographers), two customizable focus hold buttons and a focus range limiter with three settings. The latter allows you to fine tune the lens for your shooting situation and is particularly important given the lens’ close focus distance. If you are shooting distant subjects, limiting focus allows for nearly instantaneous focus without the risk of hunting to extremely nearby distances.

The FE 135mm F1.8 GM will ship in late April for $ 1900. Click on any of the images below to launch our sample gallery from our brief time with the lens at a local shooting event.

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Press Release

Sony Electronics Inc. Announces New Full-frame 135mm F1.8 G Master™ Prime Lens with Stunning Resolution and Bokeh, Excellent AF Performance

SAN DIEGO Feb. 26, 2019 Sony Electronics Inc today introduced a highly anticipated addition to their acclaimed G Master series of full-frame E-mount interchangeable lenses – a 135mm F1.8 full-frame, large-aperture telephoto prime lens (model SEL135F18GM).

Equipped with Sony’s most advanced optical technologies, the new lens is built to meet the extremely high standards of Sony’s G Master series. The new FE 135mm F1.8 GM offers exceptionally high resolution and exquisite bokeh, two qualities that are signature attributes of Sony’s flagship G Master brand. The new lens combines rapid autofocus (AF) acquisition with a lightweight, portable design and a variety of professional functions, making it a versatile, high-performance tool for professional portrait photographers, wedding photographers, sports photographers and a wide variety of imaging enthusiasts.

“Sony’s commitment to growing our lens lineup remains stronger than ever,” said Neal Manowitz, vice president of imaging solutions at Sony Electronics. “Our 31st native full-frame FE lens and 49th overall E-mount lens, the highly anticipated 135mm prime brings the acclaimed G Master quality to another popular focal length for both professionals and enthusiasts to enjoy. We will continue to drive market-leading innovation in all aspects of our imaging business, giving our customers the opportunity to capture and create like they never have before.”

Realizing consistently high resolution across the entire frame, even at F1.8, the FE 135mm F1.8 GM boasts an innovative optical design that places XA (extreme aspherical) and Super ED (Extra-low Dispersion) glass elements in the front group to effectively suppress all common telephoto lens aberrations. Additionally, the Super ED element plus one ED glass element are strategically positioned to compensate for axial chromatic aberration, minimize color fringing and maximize overall resolution, ensuring outstanding image quality. For impressive clarity, Sony’s unique Nano AR Coating is applied to reduce flare and ghosting that can occur when shooting backlit portraits.

The new telephoto prime lens utilizes its XA element, refined with Sony’s latest bokeh simulation technologies during the design and manufacturing stages, to control spherical aberration and achieve exquisite bokeh. In addition, an 11-bladed circular aperture mechanism contributes towards achieving extremely natural and beautiful background defocus. The exciting new model also features dual-autofocus groups in a floating focus arrangement for improved close-up capability, allowing a minimum focus distance of just 0.7 meters and a maximum magnification of 0.25x.

To ensure that this lens can keep up with fast-moving portrait or sports subjects, the FE 135mm F1.8 GM has been equipped with a total of four of Sony’s proprietary XD linear motors—two for each group—that achieve rapid, reliable and speedy AF tracking and performance. There is also a control algorithm that helps to maximize control response and ensure quiet, low-vibration AF. All of this exceptional performance is packaged in a compact, lightweight body weighing in at 33.6 oz.

The FE 135mm F1.8 GM includes a number of professional controls that enhance ease of operation for both stills and movie shooting. These include an aperture ring that allows direct, intuitive aperture control and a focus ring that features Linear Response MF for fine, responsive manual focus control. There is also a focus range limiter switch, two customizable focus hold buttons, and a focus-mode switch that makes it possible to quickly select auto or manual focus to match changing shooting conditions.

New Circular Polarizing Filters

In addition to the new FE 135mm F1.8 GM Lens, Sony has also announced a new lineup of Circular Polarizing Filters. The new filters, including models for lens diameters 49mm, 55mm, 62mm, 67mm, 72mm, 77mm and 82mm, preserve image quality and resolution about twice[i] as effectively as Sony’s existing circular PL filter lineup, making them a perfect partner for Sony’s flagship G Master series lens. They also feature a ZEISS® T* Coating to minimize flare and a slim filter design to prevent image vignetting and maximize overall performance.

Pricing and Availability

The FE 135mm F1.8 GM will ship in late April 2019 for approximately $ 1,900 US and $ 2,600 CA. The lens will be sold at a variety of Sony authorized dealers throughout North America.

The new circular polarizer filters will ship in May 2019, with approximate pricing outlined below:

  • 49mm (model VF49CPAM2) – $ 100 US / $ 130 CA
  • 55mm (model VF55CPAM2) – $ 110 US / $ 150 CA
  • 62mm (model VF62CPAM2) – $ 140 US / $ 190 CA
  • 67mm (model VF67CPAM2) – $ 155 US / $ 200 CA
  • 72mm (model VF72CPAM2) – $ 165 US / $ 220 CA
  • 77mm (model VF77CPAM2) – $ 180 US / $ 240 CA
  • 82mm (model VF82CPAM2) – $ 230 US / $ 300 CA

A variety of exclusive stories and exciting new content shot with the new lens and Sony ‘s Alpha products can be found at www.alphauniverse.com, a site created to educate and inspire all fans and customers of Sony’s Alpha brand.

The new content will also be posted directly at the Sony Photo Gallery and the Sony Camera Channel on YouTube. Detailed information pages within Sony.com for the new lens can be found at:

  • SEL135F18GM (US)
  • SEL135F18GM (CA)

[i] Depends on model and focal length of lens attached

Sony FE 135mm F1.8 GM specifications

Principal specifications
Lens type Prime lens
Max Format size 35mm FF
Focal length 135 mm
Image stabilization No
Lens mount Sony FE
Aperture
Maximum aperture F1.8
Minimum aperture F22
Aperture ring Yes
Number of diaphragm blades 11
Optics
Elements 13
Groups 10
Special elements / coatings XD, Super ED and ED elements; Nano AR and fluorine coatings
Focus
Minimum focus 0.70 m (27.56)
Maximum magnification 0.25×
Autofocus Yes
Motor type Linear Motor
Full time manual Yes
Focus method Internal
Distance scale No
DoF scale No
Focus distance limiter Yes
Physical
Weight 950 g (2.09 lb)
Materials Magnesium alloy
Sealing Yes
Filter thread 82 mm
Hood supplied Yes
Tripod collar No

Articles: Digital Photography Review (dpreview.com)

 
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Have Digital Filters Replaced the Need for Physical Lens Filters?

24 Feb

The post Have Digital Filters Replaced the Need for Physical Lens Filters? appeared first on Digital Photography School. It was authored by Mark C Hughes.

Do you need filters for beautiful pictures?

If you are old enough to have used a film camera, you know why people needed lens filters in order to accomplish visual effects in their images.  Back in the film days, you had limited control over white balance or ISO. Once you selected your film from the available film stock, and put it in your camera, you were stuck with a roll (24 or 36 exposures) of single ISO negative or slide film that was probably daylight balanced. In order to not waste money, you did everything you could to carefully mete out your images and make the most of them.

Most film was daylight balanced so getting it right in-camera was critical

Back in the day

To help you make great images in the film days, you needed certain filters to help fix your white balance, and neutral density (ND) filters to allow you to slow your shutter speeds down. That was then, this is now. With the advent of digital cameras and the high-powered abilities of most image editing software, you can accomplish digitally much of the work that filters used to do.  Is there still a place in modern digital photography for optical lens filters?

The answer is yes, but only for a few specific types of filters. In fact, you may find it difficult to get many filters in your local camera store that would have been readily available in the film camera days.  Most bricks and mortar camera stores carry few filters. The more unusual filters might be found in the bargain bin section, next to the books on how to use your new Canon 5D mark 1 (hint: that is an old digital camera).

Some filters have to be really large to accommodate wide angle lenses

Types of Optical Lens Filters

I find that optical lens filters break down into six general types: UV/skylight filters, color modifiers, special effects, specialty filters, ND filters (including graduated), and circular polarizers. Most optical filters can be replaced by digital processes, either in the camera itself or in post-production. Some optical filters are really big and all take up space in your bag.

Ultraviolet (UV) or Skylight filters

Let’s consider UV or skylight filters. Film stock was often sensitive to UV light so it was important to protect your film by using a filter so that UV light wouldn’t make the images hazy.  Modern digital cameras are not susceptible to UV light interfering with their sensors as there are already UV and IR filters built into the cameras (we will discuss the importance of this later). Today, UV or skylight filters serve a completely different purpose: many photographers use them to protect the front element of their lenses.

A UV or Skylight Filter will protect your lens front element

UV/Skylight filters as lens protection

As an aside, there are two schools of thought regarding UV or skylight filters. Some argue that putting a cheap filter in front of a really expensive lens significantly degrades the optical properties of your lens and that most good quality lenses have great coatings and are quite robust.  Alternatively, others would prefer to replace a $ 100 filter than replace a $ 2000 lens. While I agree you should never use cheap filters, I do tend to think that if you use good filters they do protect your investment in much more expensive lenses. I have replaced lots of filters that were shattered from an impact. In all of those cases, the front lens elements were protected from contact by the filter. I am not sure that would have occurred without the sacrificial filters.

Regardless, since these UV/skylight filters don’t cause any significant changes to your image, they really are only useful for physical lens protection.

A warming filter to adjust white balance

Color filters

Color filters were another common filter used with film cameras for simple color correction. Back in the film days, the film stock was mostly daylight balanced so if your images were taken in non-daylight conditions, you would need to use a color filter to correct your white balance. Although film processors had some ability to adjust the white balance in the lab, back then – today too, for that matter – it was always easier when you got things right in camera. Color filters are still available but are more of a novelty item, used for a specific effect, often in concert with gelled flashes and strobes. They are also still used for film cameras, instant cameras, and for specific applications like underwater photography.

Special effects filters

Once upon a time, there were lots of special effects filters that would produce in-camera special effects like grids, streaks, and starbursts. These all still work on digital cameras, however, most of these effects can be digitally produced, reducing the need for the optical filter. Many film shooters will take their images and then scan them to edit them, so the extra effort and cost of using special effects filters seem unnecessary. They are also difficult to find.

Rectangular Graduated Neutral Density Filter

Neutral Density Filters – Graduated

The next filter type to consider is the neutral density filters, commonly used by landscape photographers (both film and digital). These divide into two groups: graduated neutral density filters and overall neutral density filters. Acting like sunglasses for your camera, graduated neutral density filters are all neutral colored – they should impart little color change – and darken only part of the image. Graduated filters help deal with the dynamic range of your sensors, particularly when shooting into scenes that are very bright and very dark in the same view. Most modern digital cameras have a dynamic range of about 10 – 14 stops whereas your eyes are more like 20 stops. Keep in mind that this is not really a fair comparison because our eyes work quite differently from camera sensors. Graduated neutral density filters can usually be applied in post-processing. Although, if the dynamic range is really huge, it often means you can take one image rather than multiple images that need to be composited (this is what HDR images really are).

The left shows the image normally processed with the right having a digital neutral density filter

Neutral Density Filters – Non-Graduated

A neutral density filter (non-graduated) is the first optical filter type that does things that cannot be easily duplicated, either in camera or in post-production. At least not all of its functions. While it is certainly possible to darken your images digitally in post, a non-graduated neutral density filter allows you to take images that your camera would not allow you to take in full sunlight. In full sun, it may be so bright that you may not be able to stop your lens down and slow your shutter down sufficiently to get motion to blur. Non-graduated neutral density filters allow you to slow your shutter speed down in the field when conditions are bright. You will be able to take images of moving subjects in bright locales and blur the motion to create interesting effects.  For example, waterfalls are often shot using a non-graduated neutral density filter. Neutral density filters are often measured in stops to indicate the number of stops you can slow things down. At the extreme end of the non-graduated neutral density filters are the specialty filters used for photographing solar eclipses. Without these strong filters, the sun can permanently damage camera sensors.

Neutral Density Filters on the front element of the lens

Smooth water motion with a non-graduated neutral density filter for longer exposures

Specialty filters

The second optical filter type that cannot be duplicated in post-processing or in-camera are specialty filters related to UV and IR light.  By default, cameras have filters on their sensors that cut UV and IR light out so that only visible light is recorded. However, it is possible to get these filters removed (you have to send your camera body away) to allow you to shoot UV-only, full spectrum (which includes UV, visible and IR), or IR-only images. Once this is done, your modified camera is generally limited to that particular use, but the images it produces can be quite interesting. By using specialty filters on a modified camera body that allows for full spectrum, you can control what portion of the spectrum is visible in your images. There are cut filters that allow full spectrum sensors to only see UV, visible light or IR spectrum. These filters cannot be duplicated in post-processing.

Slight neutral density cast for a circular polarizer

Circular Polarizers

The final optical filter type that cannot be duplicated in post-processing is a circular polarizer.  There are actually two types of polarizers, linear and circular. They both cut the same light out but circular polarizers can rotate an allow you to find the optimal orientation whereas linear polarizers are fixed (you should only use circular polarizers unless you know what you are doing). Circular polarizers do two things: cut down reflections and increase contrast. Some also act as a weak neutral density filter. When light hits a metallic or watery surface, the reflected light tends to be polarized (all the light is vibrating in the same direction). The circular polarizer lets you filter out this polarized light. You do this by turning the filter.  The change can be quite dramatic, and it cannot be achieved in any practical sense through post-processing. In addition, because there is always some polarized light in the atmosphere, the filter will make the colors in your images punchier. This is a secondary feature of polarizers but adds to their use. Colors just pop more.  Different brands and types alter how much this occurs. In general, you can’t go wrong using a circular polarizer, particularly for landscape photography.

Circular Polarizers help control reflections

Conclusion

Many filters that were used with film cameras are not really required anymore because of the ability to control white balance and ISO. Other filters created effects that can easily be duplicated using image editing software like Photoshop. Despite this there are a few filter types that cannot be replaced by processes applied in post, thus they remain vital tools in your photographer’s toolbox.

Do you use filters? Share with us in the comments below.

 

 

The post Have Digital Filters Replaced the Need for Physical Lens Filters? appeared first on Digital Photography School. It was authored by Mark C Hughes.


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Ricoh GR III, with updated lens, 24MP APS-C sensor and in-body IS to ship in March

22 Feb

Five months after its development announcement, the Ricoh GR III will be shipping this March for $ 899. Unlike the GR II, which was a very minor upgrade to the original, the major components on the GR III are all-new.

The controls have received a major shake-up as the GR III becomes the first in the series to use a touchscreen. The screen is a 3.0″, 1.04M-dot LCD, with all of the usual features like AF point selection, menu navigation and image review onboard.

It also gains image stabilization, with a 3-axis sensor-shift system offering shake reduction rated at up to four stops. This ‘SR’ system can also be used to simulate an AA filter for when moiré reduction is desired. And there’s now an ultrasonic dust reduction system for the sensor, which is perhaps a nod to the dust problems that some encountered on the GR I and II.

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The GR III’s autofocus system has been overhauled, with the addition of on-sensor phase detection. This, along with a redesigned lens, gives us hope that the GR II’s autofocus will be quicker than its predecessors. Ricoh is yet to provide any technical details but says it will be ‘faster and more responsive.’

The GR III’s 28mm equiv. F2.8 lens has six elements in four groups, with two elements being aspherical. The lens can now focus as close as 6cm (2.4″), compared to 10cm (3.9″) on the previous models. The GR III continues to offer a built-in 2-stop ND filter.

The resolution of the GR III’s APS-C sensor has been bumped from 16MP to 24MP, with a fully expanded ISO range of 100 – 102,400. The GR III can now record 1080/60p video, but no 4K. Ricoh has added a Type-C USB 3.0 port on the camera (which can be used to charge the battery,) and connectivity options now include Bluetooth in addition to Wi-Fi.

Two things that the GR III lost are its built-in flash and a fair amount of its battery life. The latter has plunged from 320 shots to 200 shots per charge – a 38% drop – despite using a higher capacity battery. More than likely, the addition of in-body IS puts the biggest hit on battery life.

As mentioned above, the GR III will be yours to purchase in March for $ 899. A new 0.75x wide-angle adapter (GW-4) will also be available for $ 249.

Press Release

Ricoh launches RICOH GR III high-end, compact digital camera

Newest model in the popular RICOH GR series delivers exceptional image quality in a smaller, lightweight body, making it ideal for street photography

WEST CALDWELL, NJ, February 21, 2019 – Ricoh Imaging Americas Corporation today announced the launch of the highly anticipated RICOH GR III camera. The new camera is the latest model in the RICOH GR series, a lineup of high-end digital cameras providing exceptional image quality in a compact, lightweight body ideal for street photography, travel and capturing candid images.

The RICOH GR III features a newly designed lens, image sensor and imaging engine that further upgrade image quality, enhance functionality and improve usability. The 18.3mm F2.8 lens delivers exceptional imaging performance with a slim design, consisting of six optical elements in four groups, while retaining the 28mm angle of view. It produces the clearest, sharpest images in GR-series history while reducing distortion and chromatic aberration. It also comes equipped with a macro shooting capability with a minimum focusing distance of six centimeters.

In keeping with the GR-series concept of packaging high image quality in a compact design, the RICOH GR III camera body is smaller than its predecessor, and is equipped with a large APS-C-size CMOS image sensor with approximately 24.24 effective megapixels to produce high-resolution images. Its short start-up time of approximately 0.8 seconds allows for quick, responsive shooting. The camera’s high-definition LCD monitor features touchscreen operation, offering intuitive control of various camera functions right on the screen.

The camera also features a high-speed hybrid autofocus system, built-in shake reduction, in- camera image finishing options, USB Type-CTM, Bluetooth and wireless LAN connectivity options. An accessory wide-angle conversion lens designed exclusively for use with the RICOH GR III is also available. The GW-4 Wide Conversion Lens expands the angle of view to 21mm ultra-wide angle.

“The Ricoh GR III is the ultimate street camera,” said William Hereford, a Brooklyn-based pro photographer, who has been shooting with GR series cameras for years. “The image quality and ease of use are equally amazing. I literally don’t leave my house without this camera. The GR III fits perfectly both in my hand and my pocket, so it is always available to capture a moment.”

Hereford says that the image quality is so great, that photos taken with his GR cameras have the potential to be used in national ad campaigns and magazine articles.

Designed to be the ultimate street photography camera, the RICOH GR III is a totally new breed of GR camera that will give the user new and different creative possibilities.

| Pricing and Availability |

The RICOH GR III will be shipping in March 2019 and will be available at www.us.ricoh- imaging.com and retail outlets nationwide. Price is $ 899.95 for the camera, $ 249.95 for the GW-4 Wide Conversion Lens.

Ricoh GR III specifications

Price
MSRP $ 899 / £799
Body type
Body type Large sensor compact
Body material Magnesium alloy
Sensor
Max resolution 6000 x 4000
Image ratio w:h 1:1, 3:2
Effective pixels 24 megapixels
Sensor photo detectors 25 megapixels
Sensor size APS-C (23.5 x 15.6 mm)
Sensor type CMOS
Color space sRGB, Adobe RGB
Color filter array Primary color filter
Image
White balance presets 8
Custom white balance Yes
Image stabilization Sensor-shift
CIPA image stabilization rating 4 stop(s)
Uncompressed format RAW
File format
  • JPEG (Exif v2.3)
  • Raw (14-bit DNG)
Optics & Focus
Focal length (equiv.) 28 mm
Maximum aperture F2.8–16
Autofocus
  • Contrast Detect (sensor)
  • Phase Detect
  • Multi-area
  • Center
  • Selective single-point
  • Tracking
  • Single
  • Continuous
  • Touch
  • Face Detection
  • Live View
Autofocus assist lamp Yes
Manual focus Yes
Normal focus range 10 cm (3.94)
Macro focus range 6 cm (2.36)
Screen / viewfinder
Articulated LCD Fixed
Screen size 3
Screen dots 1,037,000
Touch screen Yes
Screen type TFT LCD
Live view Yes
Viewfinder type Optical (optional)
Photography features
Minimum shutter speed 30 sec
Maximum shutter speed 1/4000 sec
Exposure modes
  • Program
  • Aperture priority
  • Shutter priority
  • Manual
Built-in flash No
External flash Yes (via hot shoe)
Flash modes Auto, Flash On, Flash On+Red-eye, Slow-speed Sync, Slow Sync+Red-eye
Flash X sync speed 1/4000 sec
Drive modes
  • Single Frame
  • Continuous Shooting
  • Bracketing
  • Multi-exposure
  • Interval Shooting
  • Interval Composite
Continuous drive 4.0 fps
Self-timer Yes
Metering modes
  • Multi
  • Center-weighted
  • Highlight-weighted
  • Spot
Exposure compensation ±5 (at 1/3 EV steps)
Videography features
Format MPEG-4, H.264
Modes
  • 1920 x 1080 @ 60p, MOV, H.264, Linear PCM
  • 1920 x 1080 @ 30p, MOV, H.264, Linear PCM
  • 1920 x 1080 @ 24p, MOV, H.264, Linear PCM
Microphone Stereo
Speaker Mono
Storage
Storage types Internal, SD/SDHC/SDXC (UHS-I supported)
Storage included 2GB
Connectivity
USB USB 3.0 (5 GBit/sec)
USB charging Yes
HDMI No
Microphone port No
Headphone port No
Wireless Built-In
Wireless notes 802.11b/g/n + Bluetooth
Remote control Yes (via smartphone)
Physical
Battery Battery Pack
Battery description DB-110 lithium-ion battery & USB charger
Battery Life (CIPA) 200
Weight (inc. batteries) 257 g (0.57 lb / 9.07 oz)
Dimensions 109 x 62 x 33 mm (4.29 x 2.44 x 1.3)
Other features
Orientation sensor Yes
Timelapse recording Yes
GPS None

Articles: Digital Photography Review (dpreview.com)

 
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The Lomogon 32mm F2.5 lens features perfectly round apertures on a rotating wheel

22 Feb

Lomography has launched the Lomogon 32mm F2.5, a compact lens with full frame sensor coverage and a unique wheel of aperture stops that protrudes from the barrel.

Fitted with the Lomogon Circular Aperture Disk the lens uses a series of five round holes cut into a disk of metal as its aperture control. The toothed disk sticks out from the lens and is turned by the user to drop the desired hole behind the front element – a bit like Waterhouse stops from the 1850s. The holes in this disk correspond to F2.5, F4, F5.6, F8 and F11 – and each is completely round as they aren’t created by an iris.

The Lomogon uses 6 coated elements in 6 groups, has a 62mm filter thread and a closest focus distance of 0.4m. Developed with Russian manufacturer Zenit and built in China, Lomography says the Lomogon uses ‘the finest glass optics’ and is assembled by hand. The result, according to the company, is high micro-contrast and ‘enhanced colors’. It will be available in Nikon F and Canon EF mounts, and adapters can be used for other camera fittings.

Technical Specifications

  • Focal Length: 32 mm
  • Lens Construction: 6 elements in 6 groups
  • Maximum Aperture: f/2.5
  • Regular Apertures: dial aperture stops, f/2.5, f/4, f/5.6, f/8, f/11
  • Image Circle: 44 mm
  • Field of View: 68 degrees
  • Lens Mounting Profile: Canon EF and Nikon F
  • Electronic Contacts: No
  • Closest Focusing Distance: 0.4 m
  • Focusing Mechanism: Helicoid
  • Filter Thread: 62 mm

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If all goes well the Lomogon will begin shipping in November 2019 and will have a retail price of $ 499. During the Kickstarter campaign though, it can be had for as little as $ 299.
For more information see the Lomogon Kickstarter page.

Disclaimer: Remember to do your research with any crowdfunding project. DPReview does its best to share only the projects that look legitimate and come from reliable creators, but as with any crowdfunded campaign, there’s always the risk of the product or service never coming to fruition.

Articles: Digital Photography Review (dpreview.com)

 
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‘World’s sharpest’ 250mm lens now on Kickstarter with swappable lens mount

20 Feb

Taiwanese lens manufacturer William Optics is proposing to make a flatfield Petzval lens aimed at star gazers and photographers that it claims is the world’s sharpest 250mm.

Originally conceived as a compact and lightweight telescope for astrophotographers, the Redcat 250mm F4.9 uses a pair of synthetic fluorite elements to correct the usual field curvature of the Pretzval design to produce a sharp image right across the frame, according to the company. It is also claimed the lens is corrected to apochromatic standards.

A manual focus lens with a single aperture setting, the Redcat 250mm F4.9 is being promoted for normal subjects as well as for astrophotography on its Kickstarter campaign page. Those using it at night might not get to appreciate its startling red finish, but daylight photographers shooting wildlife could feel a little conspicuous.

Designed with a 44mm covering circle the lens is good for full frame cameras, and comes with an interchangeable T-mount system that allows options for Canon EF, Nikon F and Sony E cameras, with Micro Four Thirds and Pentax K to follow shortly. The lens weighs 1.47kg / 3.24lbs, measures 225mm x 80mm, and features a field rotation function for turning the camera on the mount, with markings for every degree. A reversible mount on the tripod foot has fittings for Arca-Swiss and Vixen style heads, and the lens comes with what is described as a ‘patented’ Bahtinov Mask for astro-focusing.

Sample shot with the Redcat 250mm f/4.9

At the time of writing the funding campaign had raised over $ 47,000 – well beyond the goal of $ 30,000. With most of the discounted deals gone, the lens can be had for $ 648, which the company says represents 93% of the full retail price. Visit the Redcat 250mm f/4.9 campaign page for more information, or the William Optics website.

Disclaimer: Remember to do your research with any crowdfunding project. DPReview does its best to share only the projects that look legitimate and come from reliable creators, but as with any crowdfunded campaign, there’s always the risk of the product or service never coming to fruition.

Articles: Digital Photography Review (dpreview.com)

 
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LensRentals constructs a C-4 Optics 4.9mm F3.5 Hyperfisheye Prototype lens

20 Feb

Lensrentals is known for its in-depth teardowns of the latest and greatest camera gear, but not everything has to be about destruction. For a change of pace, Lensrentals has decided to build a lens rather than destroy it.

In particular, Roger and his team have shared the above video and an accompanying blog post highlighting the construction of the the widest fisheye lens in existence, the C-4 Optics 4.9mm F3.5 Hyperfisheye Prototype.

Photos kindly provided by Lensrentals

Much like the 1970s Nikkor 6mm f/2.8 fisheye lens, the C-4 Optics 4.9mm F3.5 Hyperfisheye Prototype is so wide that it can actually see behind itself. It takes it a step further though; Instead of the 220-degree field of view of the Nikkor lens, the C-4 Optics fisheye, of which only two have been made, has a 270-degree field of view. Not only is it wider though, it’s also sharper and has less distortion and vignetting.

An individual element is stacked on top of another during the construction of the lens.

The entire construction is a doozy from beginning to end, with individual elements costing as much as $ 5,000, but as always Lensrentals manages to get it down with impeccable results. The final result is an unusual-looking lens that has legs and a backplate to help support the massive hunk of glass and metal.

For those of you who are curious, a smaller Sony camera (A7xxx) fits nicely protected within the legs,’ says Roger in his blog post. ‘For larger cameras the bottom platform can be removed, the legs extended or removed, and various apparatus (rods, follow focus, aperture control, etc.) mounted directly to the cheese plate.’

Roger notes the lens won’t be available to rent, so don’t get your hopes up. To see the full build and soak up the details, head over to Lensrentals.

Articles: Digital Photography Review (dpreview.com)

 
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