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Xiaomi launches Mi 9 smartphone with triple camera, up to 8GB of RAM

21 Feb

We are getting close to the start of the Mobile World Congress in Barcelona, which means we should see a number of high-profile mobile device launches over the coming days. Today Chinese manufacturer Xiaomi has thrown the first punch by launching its new Mi 9 flagship smartphone and, at least on paper, the new Xiaomi looks like an enticing option for smartphone photographers.

The Mi 9’s triple-cam setup is built around an 48MP Sony IMX586 1/2″ sensor which comes with a quad-bayer filter and produces 12MP image output. The lens offers an F1.75 aperture and 26mm equivalent focal length.

The primary module is joined by an ultra-wide-angle with 17mm equivalent focal length and F2.2 aperture. It uses a 16MP 1/3″ Sony IMX481 sensor. The tele offers a 2x magnification for a 50mm equivalent focal length and captures image information on a 12MP 1/3.4″ Samsung S5K3M5 sensor with 1.0µm pixels and a F2.2 aperture.

A combination of PDAF and laser is used for focusing and for very dim conditions a LED flash is on board. By default the Mi 9 records 4K video at 30 frames per second but the frame rate can be increased to 60 fps.

Images can be viewed and edited on a 6.39″ AMOLED display with 1080p+ resolution and hidden in a display notch you’ll find the 20MP front camera with F2.0 aperture which in some regions will use artificial intelligence to power a face-unlock function.

An in-display fingerprint reader and fast charging for the 3,300mAh battery are on board as well and Qualcomm’s new Snapdragon 855 chipset is paired with 6GB of RAM to power the Android operating system. Photos and videos can be stored on 64GB or 128GB of internal storage.

Pricing starts at approximately $ 455 for the 6/128GB version. The 8/128GB variant will set you back approximately $ 490. No information on exact pricing and availability outside China has been released yet.

Articles: Digital Photography Review (dpreview.com)

 
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Samsung Galaxy Fold comes with foldable display and six cameras

21 Feb

Samsung wasted no time unveiling the Galaxy Fold at its Unpacked event today – a foldable device with a 4.6″ display when folded, and 7.3″ display when unfolded. The device contains a total of six cameras – three on the back, two inside and one front-facing camera.

The company’s live presentation includes few camera details – but we’ve preliminarily gathered the following specs for the cameras included on the Galaxy Fold below (subject to change):

Location Full-frame equiv. FOV Aperture Autofocus Optical Image Stabilization
12MP ‘main’ camera Rear 27mm F1.5 / F2.4 Dual-Pixel Yes
12MP telephoto Rear 52mm F2.4 Phase-Detect Yes

16MP wide-angle
(fixed-focus)

 Rear 12mm F2.2 No No
10MP selfie camera Inside 26mm F1.9 Dual-Pixel No

8MP RGB depth-sensing camera

 Inside 22mm F2.2 Autofocus (unspecified) No
10MP selfie camera Front 26mm F1.9 Dual-Pixel No

Other technical specs known at this point are that it will offer 12GB of RAM, and uses two batteries for a 4380mAh combined capacity.

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Multi-tasking is a big focus of the device, and Samsung demonstrated the device’s ability to maintain continuity within an app as you switch between displays, as well as its ability to run three apps on the larger screen simultaneously.

Black, silver, green or blue color choices with personalized hinge color options will be offered. The Galaxy Fold will start at a steep $ 1980.

Articles: Digital Photography Review (dpreview.com)

 
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Picktorial photo editor for macOS gets 4.0 update with new DAM and workflow features

21 Feb

Non-destructive macOS photo editor Picktorial has been updated to version 4.0, which is free for customers who purchased version 3.50. Picktorial 4 brings new workflow and digital asset management (DAM) features, including its own index — a move to shed its reliance on macOS Spotlight — as well as an updated search function with advanced search fields that aren’t supported by Spotlight.

With the new search capabilities, Picktorial 4 users can find content globally or within specific folders using filters like capture date, rating, IPTC metadata, tags, and more. The software’s DAM also received a number of other changes, including jpeg+raw image stack support, a new image browser with two layout options, batch exporting and editing, support for albums, smart albums, and quick albums, plus the option to sort images in the browser based on rating, name, capture date, and more.

Joining the DAM changes are new workflow features, including automatic adaption to Apple’s color scheme for a uniform appearance, a new viewer that displays an image’s focus point, support for dual-layer jpegs that save all editing info within the image file, automatic NAS and connected external drive syncing for seamless remote access to projects, and support for high-resolution images up to 100MP.

Picktorial 4 is free for existing version 3.5 customers, but some features, including unlimited adjustment layers and batch editing, are only available to Picktorial Premium customers. The plan is offered for $ 9.99/month or $ 4.99/month for an annual subscription. Customers also have a $ 69.99 perpetual license option that includes a year of free maintenance updates. Existing customers have the option to subscribe for $ 39.99/year until February 28.

Articles: Digital Photography Review (dpreview.com)

 
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Photo Finishing – Challenge Yourself to Reveal the Personality in Every Image You Capture

21 Feb

The post Photo Finishing – Challenge Yourself to Reveal the Personality in Every Image You Capture appeared first on Digital Photography School. It was authored by Herb Paynter.

Many folks think that photography takes place in the camera, but that’s not the whole truth. Photography is a two-part process that involves 1) capturing the light from a scene, and 2) shaping that captured light into a form that matches what your mind saw when you took the picture. The capture process does happen inside the camera, but the shaping part happens on your computer.

The Capture, or Photo Process

We give the camera credit for things that it doesn’t actually do. Don’t get me wrong, capturing all the light in a scene is a monumental undertaking. Keeping track of millions of points of light is a very critical and specialized responsibility. However, the camera is not so much an artistic tool as it is a capture device with a single purpose – to accurately record the light from the surfaces of objects in a scene. While that purpose can get complicated with lighting challenges, the camera is still just box with a round glass eye and a single function: to record light.

When the light of a scene enters the camera lens, it gets dispersed over the surface of the camera’s image sensor, a postage-size electrical circuit containing millions of individual light receptors. Each receptor measures the strength of the light striking it in a metric called “lumens.” Each receptor on this sensor records its light value as a color pixel.

The camera’s image processor reads the color and intensity of the light striking each photoreceptor and maps each image from those initial values, producing a reasonable facsimile of the original scene. When this bitmap of pixels gets viewed from a distance, the eye perceives the composite as a digital image.

The real magic happens after the storing of light on the memory card. The image that first appears when you open the file is the image processor’s initial attempt at interpreting the data recorded by the camera’s image processor. Most times, the initial (JPEG) image interpretation of this data is an acceptable record of the original scene, though not always.

Presets

Your camera provides several pre-set programs that adjust the three settings in the camera that affect exposure: aperture, shutter speed, and ISO.

Three main controls determine your exposure: the shutter speed, the aperture, and the ISO. The camera presets (A, S, and M) allow you to determine the depth of field and/or speed with which the camera captures the light.

The A (aperture priority) mode allows you to set the size of the lens opening (f-stop) while the camera automatically sets the shutter speed. The S (shutter priority) mode lets you set the duration of the lens opening (shutter speed) while the camera adjusts the size of the lens opening. The letter P (program mode) allows you to determine the best mix of aperture and shutter speed while your camera retains the correct balance of light for the exposure. The letter M (manual mode) gives you complete control over all settings but requires to balance the overall exposure.

Your camera’s variable ISO (International Standards Organization) setting adjusts the light sensitivity of the camera’s image sensor, allowing you to capture scenes in dim or bright light; the higher the number, the more sensitive the light receptors become, allowing you to capture images in lower levels of light.

The Histogram

Your camera provides a small graph that roughly indicates how well the camera is set to correctly capture the light in the current scene.

This graph displays the range of light coming through the lens and approximates the current light distribution that captured under the current settings. By adjusting the three settings mentioned above, you can shift and somewhat distribute this range of light to best record the full range of light.

Color balancing the light

Every scene’s color cast is influenced by the temperature of the light illuminating that scene. When the scene is captured outside, the Sun’s position in the sky and the influence of cloud cover alters the color of the light. Your camera offers at least two ways to compensate for the differences in color temperature (Auto White Balance and Pre-set Color Balance).

Auto White Balance

The Auto White Balance (AWB) sensor in your camera seeks any prominent white or neutral subject in the scene and shifts the entire color balance of the scene in an effort to neutralize that element. But there is an assumption with AWB that you desire the current lighting to be perfectly neutral in color.

Any clouds interfering with the sunlight will have a slight influence on the neutrality of 6500° (natural sunlight) lighting. AWB takes that slight shift out of the equation. Most of the time, this is a great idea. However, to record early morning or late afternoon (golden hour) lighting accurately, AWB will neutralize those warm colors and completely lose that “warm” mood.

Pre-Set White Balance Settings

Your camera offers several pre-sets to offset any known color casts caused by specific lighting situations. These settings appear in every digital camera “Settings” display and may appear in a slightly different order or wording. Daylight sets the camera to record scenes under typical mid-day outdoor lighting. Cloudy/Overcast shifts the colors toward orange to compensate for the bluish cast caused by light filtering through nominal cloud cover.

Shade offers a stronger orange shift to compensate for completely overcast (stormy) skies. Flash provides a very similar color temperature lighting as Daylight and is intended to prepare the image sensor for artificial daylight or “Speed light” type flash devices.

Tungsten/Incandescent shifts the colors toward the blue end of the color range to compensate for the warmer shift of incandescent lights. Fluorescent attempts to compensate for the greenish cast of gas-charged fluorescent lights.

Kelvin/Custom permits the user to set a custom color balance setting, essentially teaching the camera what “neutral” gray color looks like. All of these pre-sets attempt to correct non-neutral lighting conditions.

The Sculpting, or Finishing Process

While the camera does capture the full range of reflected light in a scene, it has no way of knowing the best tonal curve to apply to each image. Many times the five tonal ranges (highlight, quarter, middle, three-quarter, and shadow) need to be reshaped to best interpret the light captured at the scene. This tonal contouring process is the magic of sculpting the light into a meaningful visual image.

This little fella perched outside my front door and caught me off guard. I didn’t have time to fiddle with the controls to optimize the lighting situation. My first click got his attention and the second got this expression. Fortunately, I capture my images in both jpg and RAW formats simultaneously. Doing so allowed me to post-process the tones and display to you what I actually saw that morning.

I use the term “sculpting” when talking about image editing because it best describes the rearranging of tones in a digital image. Only ideal lighting balance looks great when rendered as a “stock” JPEG camera image.

This sculpting or finishing process amounts to the clarification of tones and colors in a digital image; making the image appear in final form the way the human mind perceived it in the original scene. While the color balancing aspect of this process is a bit more obvious, the tonal recovery is actually more critical to the final presentation.

The digital camera cannot capture all of the dynamics of the visible spectrum on a sunny day, nor can it determine the best balance of those tones. The camera’s image sensor simply captures all the light possible and presents the data to the camera’s image processor to sort out. Under perfectly balanced lighting, this works out just fine, but occasionally detail hides in the shadows and gets lost in the highlights, requiring help from the photographer/editor to balance out the tones.

This is where the individual tone-zones come into play, and the sliders available in RAW processing software (Camera Raw, Lightroom, On1 Camera Raw, Exposure X4) are invaluable. The internal contrast of every image (Whites, Highlights, Middle tones, Shadows, Blacks) can be pushed around and adjusted in a very non-linear manner (in no particular order) to reveal detail that otherwise remains hidden.

Conclusion

Photo finishing isn’t complete until both color and tones are correctly adjusted for maximum effect, matching the emotion of the original scene. Only then is your image ready for viewing. Challenge yourself to squeeze the detail and reveal the potential personality out of every image you capture. It’s well worth the extra effort.

The post Photo Finishing – Challenge Yourself to Reveal the Personality in Every Image You Capture appeared first on Digital Photography School. It was authored by Herb Paynter.


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Samsung unveils Galaxy S10 and S10 Plus with triple-camera; budget-friendlier S10e with dual cam

21 Feb

At its Galaxy Unpacked event, Samsung has officially unveiled the Galaxy S10 and S10+, both offering a rear triple-camera array, alongside a budget-oriented S10e ‘essential’ model with a dual camera unit. Also announced is the S10 5G, the largest of the bunch, featuring the unique ability to apply background blur and filters in real-time to video. All four devices offer a stabilized standard wide and a fixed-focus ultra-wide camera, as well as a front-facing selfie camera, while the S10e omits the optically stabilized tele-camera available in the other three. As expected, the S10 series’ display is the center of attention with a hole-punch style front-facing camera embedded in the screen in favor of the much-maligned notch.

The rear triple camera array comprises a standard 12MP ‘main’ wide-angle, 12MP telephoto camera, and a 16MP ultra-wide unit with a 123-degree field-of-view. The F1.5/F2.4 dual aperture feature introduced in the S9 is offered on the main rear camera on all models. The S10+ offers a secondary front-facing RGB depth sensor to allow for blurred background selfies – the S10 and S10e offer a single front-facing camera.

The S10 5G also offers additional depth sensing cameras on both the front and the rear, but these are specialized low resolution (240×160) time-of-flight cameras that can sense distances of nearby objects for real-time effects like background blur. The table below summarizes all camera features for all models.

Models Location Full-frame equiv. FOV Aperture Autofocus Optical Image Stabilization
12MP ‘main’ camera S10, S10+, S10e, S10 5G Rear 27mm F1.5 / F2.4 Dual-Pixel Yes
12MP telephoto S10, S10+, S10 5G Rear 52mm F2.4 Phase-Detect Yes

16MP wide-angle
(fixed-focus)

 S10, S10+, S10e, S10 5G Rear 12mm F2.2 No No
10MP selfie camera S10, S10+, S10e, S10 5G Front 26mm F1.9 Dual-Pixel No

8MP RGB depth-sensing camera

 S10, S10+, S10e Front 22mm F2.2 Autofocus (unspecified) No
Time of Flight depth-sensing camera S10 5G Front/Rear N/A N/A N/A N/A

The S10 cameras are equipped with added intelligent features, including a Scene Optimizer capable of recognizing 30 unique scenes, as well as suggestions for optimal compositions. A new ‘Bright Night’ mode attempts to improve image quality in low light, presumably using long exposure image stacking techniques like Google’s Night Sight or Huawei’s Night Mode. New bokeh effects have been added to the traditional bokeh effect: spin, zoom and color fade.

The S10 cameras are capable of shooting 4K UHD video using the HDR10 format, meaning that high contrast scenes can be captured while being displayed with saturated colors and punch. The front-facing cameras can also record at UHD resolution. The time-of-flight depth sensors on both the front and rear of the S10 5G allow it to apply background blur in real time to your videos – the first time we’ve seen this ability in a consumer device.

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Display sizes vary across the series: the S10e offers a 5.8″ screen, the S10’s measures 6.1″ and the S10+ offers a 6.4″ display. Each is an AMOLED display supporting HDR10+ video playback (Samsung’s version of Dolby Vision), and uses dynamic tone mapping to optimize brightness levels on the fly based on your viewing environment (a clever way of ensuring images appear similar in both dim and bright viewing environments, as we explain here).

Samsung has improved what was already a very color accurate display – these phones cover the full DCI-P3 color gamut, and offer up to a whopping 1200 nits peak brightness. Unfortunately, like all Android phones to date, most (if not all) applications don’t ‘opt-in’ to the wide-gamut mode with proper color management, so images may appear over-saturated relative to color managed devices or what most web viewers would experience.

The Samsung Galaxy S10 will start at $ 900; the S10+ at $ 1000 and the S10e at $ 750. The S10 5G is likely to be priced above $ 1000.

Articles: Digital Photography Review (dpreview.com)

 
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Shooting with the Fujifilm X-T30, the frugal flagship

20 Feb

After a rare Seattle snowstorm finally subsided, DPReview editor Jeff Keller was able to escape the snow and spend some time with the impressive Fujifilm X-T30, a camera that offers a lot of bang for the buck.

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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How to Set Your Photography Goals (and NOT Fail)

20 Feb

The post How to Set Your Photography Goals (and NOT Fail) appeared first on Digital Photography School. It was authored by Mat Coker.

You can spend many years as a stagnant photographer simply because you didn’t set any goals.

But if you set goals, and work toward accomplishing them, you can grow more than you ever imagined.

Photographers encounter two problems when setting goals. The first is not knowing how to set a goal. The second is not knowing how to accomplish it.

Let’s look at how to set a goal and then be sure that you can accomplish it.

If you need inspiration toward growth and learning as a photographer, look to the toddler. They develop more over 2 years than most adults develop over 2 decades.

How to set your photography goals

I’ll share my photography goals with you and explain how to set your own goals.

  1. Define my creative vision (no more copying other photographers)
  2. Accomplish a photography project I started as an unskilled kid
  3. Learn about light from painters
  4. Study toddler psychology
  5. Help 15 students achieve their photography goals

Five goals seem like a lot, but I accomplished all my major goals last year, so I’m eager to accomplish these goals too.

Toddlers are at one of the crossroads of life. They’re exploding in their abilities but need to have their potential guided by grown-ups and older kids.

You should set your goals based on these 2 questions:

  1. What will I have accomplished when I finish this goal?
  2. How will this goal help me grow as a photographer?

Accomplishment: When I complete goals 2 and 5, I will have fulfilled a childhood ambition and helped other photographers to grow.

Growth: Goals 1,3 and 5 will help clarify my vision and deepen my understanding of light and toddlers.

Set goals that are meaningful to you. Make them small enough to be achievable but large enough to challenge you.

When you first start setting goals, you should set and focus on one at a time. Once you know what you’re capable of you can set multiple goals that cover an extended period of time.

A toddler with a marker, colors on everything without thought. We can be just as directionless in our photography, snapping photos of anything that grabs our attention. Or, we can be purposeful and move toward intentional accomplishment.

Setting a goal is easy, but how do you accomplish it?

After deciding on your goals, use this method to accomplish it:

  1. Describe how life will look when you’ve achieved your goal
  2. Understand the consequence of not completing it
  3. Plot out the steps toward achieving your goal
  4. Create an environment that makes the goal happen by default (so failure isn’t an option)

I’ll use my toddler psychology goal as an example.

How will life look once I’ve achieved this goal? I’ll better understand toddlers, better connect with them during sessions and take more creative photos.

If I don’t complete this goal then I will not have expanded myself as a photographer and I’ll continue to experience the same frustrations during sessions.

The main steps toward achieving this goal will be:

  • Finding reliable sources that explain toddler psychology
  • Reflecting on my experience as a father and photographer
  • Use what I’ve learned to take better photos of toddlers
  • Write about what I’ve learned (for myself and others)

Many people fail to reach their goals because their environment works against them.

How can I create an environment that will make this goal achievable?

It’s busy running a photography business and I’m likely to forget my goals. But, I’ve written it on my list of goals so that it won’t be forgotten. I came up with a quick list of sources to begin my research. Research time has been scheduled into my calendar.

Creating your environment to make your goals achievable

This is one of the most important steps. If you set a goal and then have the proper space and time to work on it, you’ll be able to achieve it.

Let’s suppose your goal is to learn how to use your camera off Auto Mode. But 30 days after setting your goal you’ve hardly practiced at all. Your life is hectic and your environment will keep you distracted unless you make it work for you.

You need to set aside a block of time every day that is devoted to using your camera. Write it in a day planner or set an alert. Better yet, carry your camera with you all day. It’s hard to avoid learning when you’ve committed to taking a camera with you everywhere you go.

Rubber boots are a passport to adventure for toddlers. With their boots on they can go anywhere and do anything.

Maybe you’re taking a trip this year and hope to take a lot of great photos. But hoping isn’t the same as setting a goal and plotting out the steps to achieve it. Most trips have a very rushed itinerary which is one way that your environment will work against you. Have you set aside time for photography?

Maybe you want a more efficient post-processing workflow. Is your environment filled with distractions that eat up your time? Turn off the WIFI, your phone, and any other digital distractions. Isolate yourself for a block of time or until the work is finished. Banish everything that distracts your focus.

Your goal should be challenging to achieve, but don’t make it worse by having your environment work against you.

Peeking through the bedroom door.

Tell me YOUR goals

One of the best ways to get started on a goal is to tell somebody what you plan to do.

I would love to hear your photography goal. Leave a comment letting me know what your goals are.

The post How to Set Your Photography Goals (and NOT Fail) appeared first on Digital Photography School. It was authored by Mat Coker.


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Tamron SP 35mm F1.4, 35-150mm F2.8-4 and E-mount 17-28mm F2.8 III arriving mid-2019

20 Feb

Tamron has announced three new full-frame lenses slated to launch in the middle of 2019: an SP 35mm F1.4 Di USD and 35-150mm F2.8-4 Di VC OSD for DSLRs, as well as an ultra-wide 17-28mm F2.8 Di III RXD for Sony E-mount cameras.

The SP 35mm F1.4 become’s the company’s fastest current lens, joining the existing 35mm F1.8 in Tamron’s high-end SP line. Calling it “the embodiment of all optical technology and manufacturing knowhow Tamron has developed to date,” the company isn’t revealing much more detail – only that it will offer fast, high-precision autofocus.

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The Tamron 35-150mm F2.8-4 is designed as a compact, do-it-all zoom and is equipped with stabilization. The lens offers a minimum subject distance of 45cm / 17.7in across the entire zoom range, and low dispersion glass elements aim to keep optical aberration under control.

For Sony a7-series shooters, Tamron offers a 17-28mm F2.8 with a notably small diameter and 67mm filter size. It’s equipped with a stepping motor (denoted as RXD or Rapid eXtra-silent stepping Drive) to boost its appeal to video as well as stills shooters.

Pricing isn’t available at this time; Tamron plans to launch all three lenses in mid-2019.

Tamron announces the development of three lenses—two for full-frame DSLRs and one for full-frame mirrorless cameras

February 20, 2019, Saitama, Japan – Tamron Co., Ltd. (President & CEO: Shiro Ajisaka), a leading manufacturer of optics for diverse applications, announces the development of two new lenses for full-frame DSLR cameras—the 35-150mm F/2.8-4 Di VC OSD (Model A043) zoom lens and the SP 35mm F/1.4 Di USD (Model F045) fixed focal lens; and a new high-speed ultra-wide-angle zoom lens for Sony E-mount full-frame mirrorless cameras—the 17-28mm F/2.8 Di III RXD (Model A046).

Tamron will display these new lenses at CP+ 2019, the World Premiere show for camera and photo imaging, beginning February 28 through March 3, 2019 at Pacifico Yokohama and at the Wedding and Portrait Professionals International (WPPI), February 27 through March 3, 2019 in Las Vegas.

The lenses are expected to launch in the middle of 2019.

Fast compact Portrait Zoom breaks new ground: 35-150mm F/2.8-4 Di VC OSD (Model A043)

The new compact Model A043 is designed for fast handling and easy transport and features a zoom that extends from 35mm to 150mm, incorporating the 85mm focal length (often regarded as optimum for portrait shooting). It offers a fast F/2.8 aperture at the wide-angle end while maintaining a bright F/4 at the telephoto end. For close-focusing, the MOD (Minimum Object Distance) is 17.7 in across the entire zoom range. Delivering superb image quality, precisely placed LD (Low Dispersion) glass elements and aspherical lenses quash degrading optical aberrations. Furthermore, the Model A043 incorporates the Dual MPU (Micro-Processing Unit) system, which assures optimal AF performance and effective vibration compensation.

Fast fixed focal lens boldly demonstrates Tamron’s lens-making expertise: SP 35mm F/1.4 Di USD (Model F045)

Tamron’s SP lens series was born in 1979, based on the concept of delivering lenses for taking the perfect picture for those who love photography. This year marks the 40th anniversary of the series. In celebration, Tamron has developed the Model F045, the distillation of Tamron’s accumulated lens-making expertise and craftsmanship. This orthodox fixed focal lens, which some consider the most basic of all interchangeable lenses, is the embodiment of all optical technology and manufacturing knowhow Tamron has developed to date.

The Model F045’s unprecedented high-resolution image quality and beautiful, appealing background bokeh lets photographers capture any scene down to the finest details. The external lens barrel was developed through tireless pursuit of operability and durability, focusing constantly on the needs of photographers. This lens is equipped with a fast F/1.4 aperture and high-speed, high-precision AF functionality offering exceptional reliability, plus various other features for increased convenience, making it the perfect everyday lens for your creative pursuits. It is ideally suited for nearly every photographic genre, including photojournalism, landscape, sports, street life, wedding groups and family snapshots.

High-speed ultra-wide-angle zoom lens for Sony E-mount cameras is extremely compact and lightweight: 17-28mm F/2.8 Di III RXD (Model A046)

The Model A046 achieves an astonishingly small diameter for a high-speed ultra-wide-angle zoom lens, as witnessed by its modest 67mm filter size. Its unprecedented light weight and compact size provide excellent balance when used with a full-frame mirrorless camera, making it easy to carry, and enabling it to cater to a wide range of scenes and shooting conditions. The Model A046 offers a fast F/2.8 aperture throughout the entire zoom range and delivers high-resolution and contrast edge to edge. The combination of ultra-wide-angle focal length, fast constant F/2.8 aperture and Minimum Object Distance of 7.5 in at the wide-angle end encourages richly expressive and creative photography in a multitude of scenarios. The Model A046’s AF drive system is powered by the RXD (Rapid eXtra-silent stepping Drive) stepping motor unit, enabling it to deliver high-speed, high-precision and superbly quiet operation suitable for shooting video as well as still photographs.

Note: All DSLR camera functions are possible when the Models A043 and A045 are attached to a mirrorless camera via the manufacture’s adapter.

*Specifications, appearance, functionality, etc. of the above-mentioned three products are subject to change without prior notice.

Tamron SP 35mm F1.4 Di USD, 35-150mm F2.8-4 Di VC OSD and 17-28mm F2.8 Di III RXD specifications

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Canon EF-M 32mm F1.4 review

20 Feb

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Silver Award

85%
Overall score

The EF-M 32mm F1.4 STM was an easy lens to miss when it was announced, unveiled at the same time as Canon’s all-new EOS R. Quite how the EOS M series will play alongside the newer R line remains to be seen, but its adopters have been clamoring for more wide-aperture native lens options for some time, so it’s nice to finally see a lens of this type join the lineup. And at F1.4, it’s the fastest lens in the EOS M system to date.

The third prime lens for the EF-M mount, the lens’s 32mm focal length provides a versatile equivalent focal length of 51mm in full-frame terms on EOS M-series bodies, and an aperture equivalent to an F2.2 lens on full-frame. As the only lens of its kind in the range, it should appeal widely to those already invested in the system, particularly portrait photographers who haven’t really had a suitable alternative as of yet (at least not a native one).

It should also find a lot of love from those shooting in low light, and it also makes sense for those intending to capture nature who don’t need a lens with true macro capabilities. In short, it has plenty of appeal.

Key specifications

  • Focal length: 32mm (equivalent to 51mm in 35mm terms)
  • Aperture range: F1.4-16 (In 1/3 stops)
  • Filter thread: 43mm
  • Close focus: 0.23m (0.76ft)
  • Maximum magnification: 0.25x
  • Diaphragm blades: 7
  • Hood: optional (ES-60)
  • Length / Diameter: approx. 56.5 x 60.9mm (2.22 x 2.40in)
  • Weight: approx. 235g (8.3oz)
  • Optical construction: 14 elements in 8 groups

That wide aperture is arguably even more important here, given that this is only the second lens in the stable not to be furnished with its own image stabilization system. This isn’t a feature we’d expect as standard on a lens of this sort, but it wouldn’t exactly be out of place when you consider that stabilization isn’t found inside any current EOS M-series bodies (at least not mechanically). Its omission from the lens itself is probably less of a concern for anyone intending on shooting portraits, but those planning on using it for static subjects in sub-optimum light might have hoped Canon had found space for this.

Speaking of not finding space for things, it’s a shame to find that a lens hood isn’t included with the EF-M 32mm F1.4 as standard.

Design and handling

The overall design of the EF-M 32mm F1.4 is consistent with the other optics in the series, which is to say smart and understated. Its charcoal grey finish perfectly complements the EOS M50 body I used during this review, while its weight of 235g gives it some substance relative to its size when held on its own. The combination is just as nicely balanced in the hands as it is to the eye, and the whole package will just about fit into a coat pocket.

The streamlined barrel features a large, textured focusing ring, while the rest of the casing has a matte finish that’s smooth to the touch. The overall result is perhaps the most minimally styled lens in the line since the (much smaller) EF-M 22mm F2 STM pancake lens. As with its siblings, there’s no focus-distance window or equivalent markings, and in the absence of an AF/MF switch, alternating between autofocus and manual focus has to be done via the camera.

It’s only the focus limit switch that physically breaks the lens’ symmetry. We wouldn’t necessarily expect such a lens to be fitted with one, but its inclusion makes some sense when you consider its 0.23m close-focusing limit and broad range of potential applications. This two-mode control allows you to either use the full focusing range or to work between 0.5m (1.64ft) to infinity, and it’s relatively flush with the rest of the barrel and somewhat stiff. This, together with its placement just above the mid-point of the lens, meant that I found it somewhat more awkward to operate than necessary. That said, I imagine for most photographers it won’t be a control used frequently enough to matter.

Like all of Canon’s EF-M lenses, the 32mm F1.4 is very compact. At barely 8 ounces in weight it won’t weigh you down, either.

The EF-M 32mm F1.4 STM’s mount is made of metal, and there’s no real issue with mounting or un-mounting as such, although the fact that the barrel is the same diameter throughout and that most of it is made up by the rotating focus ring means that you have to grab it right at its base when changing lenses.

As useful as it is to have such a wide aperture, one issue I soon ran into with the EOS M50 was the lack of an electronic shutter that can enable shutter speeds beyond the the mechanical 1/4000sec limit. This applies to other EOS M-series bodies too, and presents an obvious challenge when working outdoors in brighter conditions. Of course, an ND filter can help here, but it’s not a convenient solution. (Incidentally, there is a silent shutter option that employs an electronic shutter hidden in the EOS M50’s scene modes, although you have no agency over exposure settings when this is enabled and you can’t otherwise access the feature).

Focus

As with every other current optic in the EF-M series, focusing is handled by an STM stepping motor. Here, it’s a lead gear-type motor that promises smooth and quiet focus for stills and ‘near silence’ when capturing videos.

Canon’s own literature makes it clear that the advantage of this type of motor over the screw-type STM motor used in its other lenses relates to compactness rather than silence and speed. After using it for some time, I’m not sure whether the motor can be described as smooth in its operation when capturing stills, but only because it’s clearly working at speed to acquire focus. I’d certainly prioritize speed over smoothness here, so this is no criticism.

When shooting very close subjects, the EF-M 32mm F1.4 can take a moment to achieve focus, but for arms-length shooting and beyond, focus is fast and snappy.

Converted Raw| ISO 100 | 1/160 sec | F1.4 | Canon EF-M 32mm F1.4

In good light, the lens typically performs a rapid shift to its approximate position before a brief final shuffle for accuracy. While this is audible, these sounds are easily masked by ambient noise, and they’re not particularly obtrusive. When the lens hunts, it typically manages to travel between its full range in around a second and a half, although this can obviously be improved if you’re not shooting up close and are happy to limit the focus range to the 0.5m-infinity range.

Using autofocus during video recording will result in an audible low-frequency hum as it transitions between different focusing distances, rather than the more obvious, higher pitched whirring when focusing for stills. These sounds are picked up on recordings, but they’re also not distracting and are, again, easily quashed by ambient noise. These movements are very smooth, and I found the transitions looked very pleasing in resulting footage, assuming the camera found focus without any issues. There’s some noise from the lens as it’s manually focused during video recording, but if you turn the ring slowly enough you will not even notice this.

This image shows the 32mm at its closest focusing distance, with the inner barrel extended from the main body of the lens.

Focus itself isn’t internal; the inner barrel extends by around half an inch or so when at its closest focus distance of 0.23m, although the outer barrel maintains the same length at all times and the focusing ring also stays put. The focusing group isn’t mechanically linked to the ring, and response is speed-sensitive, not linear. This means that the amount of focus adjustment when manually focusing will vary according to how quickly you rotate the ring. You can work through the whole focusing range in as little as three quarters of a full rotation, but turn it too quickly and you may end up needing two-and-half rotations to move between the two extremes. Video shooters manually focusing will miss the option for linear focusing.

In any case, there’s ample room for fine control over manual focus adjustment, and this is helped even further by the peaking option found on every compatible camera, save for the original EOS M. The lens also supports full-time manual focus, which lets you override the AF system by turning the focusing ring.

Overall, while the lens doesn’t operate in complete silence for stills nor video, it works quickly enough for stills and smoothly enough for video.

Articles: Digital Photography Review (dpreview.com)

 
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