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Posts Tagged ‘GALAXY’

Samsung Galaxy S9 Plus Review

21 Jun

Samsung’s Galaxy S9+ is a large, fast smartphone that’s jam-packed with photography-focused features. But while it’s certainly capable of great image quality, we found some issues with regard to capturing moving subjects, shooting under low lighting and when using ‘Live Focus’ portrait mode. On the other hand, 4K/60p video capture is of very high quality with good autofocus, and the screen on the S9+ is the best we’ve seen on a smartphone to date.

Key photographic / video specs

  • Dual rear cameras, each with optical stabilization
    • Wide-angle: 12MP F1.5-2.4, 26mm equiv. focal length, dual pixel autofocus
    • Telephoto: 12MP F2.4, 52mm equiv. focal length, contrast detect autofocus
  • Wide-angle module is the only variable aperture smartphone design on the market
  • Front-facing wide-angle camera: 8MP F1.7 25mm equiv.
  • ‘Live Focus’ background blurring for rear and front cameras
  • ‘Pro’ mode offers manual control in built-in camera app, and Raw can be enabled
  • UHD 4K/60p video recording, slow-motion 1080/240p and 720/960p recording (8x and 32x slow motion when outputted at 30 frames per second)

To start, the Galaxy’s dual rear cameras are similar to the setup on Apple’s iPhone X (one wide-angle, one telephoto), while Google’s Pixel 2 makes do with just a single camera on the rear of the phone.

Out-of-camera JPEG | ISO 32 | 1/614 sec | F2.4

But beyond just the number of cameras, each of these phones takes a noticeably different photographic approach across different shooting scenarios. We’re starting to see enough differences between the experiences of using these phones to really warrant consideration of what you want (and like) to photograph, especially if you’re choosing your next phone with camera quality as a primary concern.

The ‘Live Focus’ portrait mode experience
is disappointing

With the Galaxy S9+, Samsung touts its Dual Aperture technology as an aid to low-light shooting and the included telephoto lens is primarily used for the ‘Live Focus’ portrait mode. We found that, despite the Dual Aperture, the phone would select exposure settings that resulted in unnecessarily blurry images in even moderately low light. We also found that, overall, the ‘Live Focus’ experience using that telephoto lens can give you completely mis-focused images even in bright light, and that it’s nigh unusable as light levels start to drop.

Other specs

  • Android 8.0 Oreo
  • 6.2″ Super AMOLED display with 2960×1440 resolution (529 ppi)
  • Qualcomm Snapdragon 845
  • 6GB RAM
  • 64/128/256 GB storage plus microSD card slot
  • 3500 mAh Lithium-ion battery (non-removable)
  • $ 840/890/940 (£849/869/929 in the UK, €949/1049 in Germany and France for 128GB and 256GB models)

We’ve now had our loaner Galaxy S9+ for several weeks courtesy of Verizon Wireless, and taken a critical look at how its cameras perform under a wide variety of scenarios. Let’s dig in and see what’s what.

Unique Features

The Samsung Galaxy S9+ (along with its smaller brother, the S9) are the only current smartphones on the market with adjustable apertures and screens that automatically adjust contrast and brightness depending on your viewing conditions.

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Body and display

The Galaxy S9+ comes with a huge 6.2″ AMOLED display with rounded edges that is simply gorgeous to look at – for the most part.

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Photo quality

From ‘Live Focus’ portraits to a special ‘Food’ mode, we’ve taken a look at the Galaxy’s image quality under a wide range of situations.

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Video quality

With UHD 4K/60p and slow-motion video recording, the Galaxy S9+ certainly looks capable on paper – so we found out how it looks in the real world.

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Sample gallery

We’ve updated our sample gallery with dozens of images from several weeks of shooting. Check out portraits, concerts, sports and more.

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Conclusion

The Galaxy S9+ is one of the most photographically capable smartphones on the market; is it the one for you?

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Articles: Digital Photography Review (dpreview.com)

 
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The Samsung Galaxy S9+’s dual aperture feature explained

11 May
The wide-angle camera on the Samsung S9+, along with its smaller S9 sibling, comes with an adjustable aperture, offering either F1.5 or F2.4.

In a never-ending quest for better image quality, smartphone manufacturers are turning to all sorts of tricks to eke better performance out of very small image sensors. But through all the software, algorithms and dual-and-triple camera setups, the Samsung Galaxy S9 and S9+ flagship phones have joined a very select club of smartphones with real aperture settings. The S9+ will automatically switch from F1.5 to F2.4 depending on your lighting situation, and you can manually select it in ‘Pro’ mode.

Going from F2.4 to F1.5 on the Galaxy S9+ gives you nearly a stop and a third of extra light

So what are the potential benefits of having aperture control on a smartphone anyway? According to Samsung, “the category–defining Dual Aperture adapts to bright light and super low light automatically, like the human eye. And you can flex your artistic side, toggling the aperture to create a mood.”

Just ‘flexing my artistic side’ by manually choosing F1.5 and shooting into the sun. Out-of-camera JPEG.
ISO 50 | 1/516 sec | F1.5

All that strikes us as a little ‘over-the-top,’ but there is some potential here. Going from F2.4 to 1.5 gives you nearly a stop and a third of extra light, and will keep your ISO value down (or your shutter speed up) in dim conditions. But we were also curious about the quality in other situations; after all, these apertures are equivalent to F9 and F14 on full-frame. Could shooting the wider aperture in bright light give you sharper images by having less softness from diffraction?

Landscape quality

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F1.5 F2.4

Here’s an easy-to-see example of the difference in detail capture, despite all the Galaxy S9+ is doing behind the scenes to make these look as detailed as possible. It’s important to put this in context, though: when flipping between these two images full-screen on the S9+ they look identical. So unless you’re planning on making prints from your cell phone landscapes, it probably doesn’t matter all that much which aperture you (or the phone) pick.

Let’s see what sort of difference the aperture makes with a close subject, and distant background.

Close focus quality

Disappointingly, the S9+ and its included applications don’t allow you to use any computational background blur wizardry on images shot using the wide-angle camera that it does allow on its telephoto one (the smaller S9 on the other hand, which only has a wide angle camera, does let you do this). So does having a wider aperture give you some buttery background blur naturally?

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While there is a difference in background blur between the two apertures, it’s nothing like shooting with a wide-aperture prime lens on an interchangeable lens camera – but nor would we really expect it to be. But we do see how the phone’s noise reduction techniques deal with fine gradients in out of focus areas$ (document).ready(function() { $ (“#icl-4085–1726942983”).click(function() { ImageComparisonWidgetLink(4085); }); }).

F1.5 F2.4

Low light performance and takeaways

In really low light conditions, the faster aperture will definitely get you better shots on the Galaxy S9 and S9+ than if you were forced to use the camera at F2.4. Optical image stabilization means that you can hand-hold images down to a reasonably slow shutter speed, and the phone can keep its ISO more than a stop lower – as long as your subjects aren’t moving.

Out-of-camera JPEG.
ISO 50 | 1/13 sec | F1.5

But as I found out while shooting a dimly lit concert with the Galaxy S9+, Samsung’s latest flagship camera phone still isn’t a match for low light and moving subjects in its fully automatic mode (you can switch into ‘Pro’ mode and force higher ISO values or shutter speeds if you’re an advanced user). We are still working through our testing and plan on doing side-by-side comparisons with phones such as Google’s Pixel 2, which intelligently stacks images together even in low light situations.

This photograph taken at 1/30 sec in ‘auto’ was the only one that wasn’t blurred to oblivion. Out-of-camera JPEG.
ISO 800 | 1/30 sec | F1.5

Now it’s true that for casual shooters taking their phones out to dinner and photographing their friends and their food, the camera will automatically switch to F1.5 will help them get shots with more detail and less noise reduction, while using an F2.4 aperture will get them slightly better quality in daylight.

But we can’t help wondering if this is a little ‘gimmicky’ – the drop in detail at F1.5 is unlikely to be a deal breaker for these sorts of users, and if Samsung didn’t have to squeeze an aperture blade system into the lens design, could they simply have made the lens perform better wide open? The system looks to have real blades that expand and contract, but you’re only allowed a toggle between the two values.

We don’t know for sure, but we’ve still got lots of testing on the Galaxy S9+ over the coming weeks. Stay tuned for our full review.

Articles: Digital Photography Review (dpreview.com)

 
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Samsung Galaxy S9+ sample gallery

19 Apr

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We recently got a hold of Samsung’s latest and greatest smartphone, the Galaxy S9+. Like the Note 8, the S9+ has dual cameras (one wide, one telephoto,) but this time one of them can switch between F1.5 and F2.4 automatically or on demand.

We took the S9+ on a recent trip to Southern California and returned with a nice selection of photos taken under both sun and clouds. Watch this space for a full review very soon.

See our Samsung Galaxy S9+ sample gallery

Articles: Digital Photography Review (dpreview.com)

 
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Tech Insights teardown confirms Galaxy S9 uses Samsung and Sony image sensors

12 Apr

The analysts at Tech Insights have torn down the Samsung Galaxy S9 in order to analyze the device’s camera sensors and, as usual, the summary of their findings makes interesting reading for anyone who has an interest in image sensor technology. The main takeaway from Tech Insight’s report is that Samsung is once again using different image sensors by region.

Depending on where you buy the Galaxy S9, your device will either come with a Samsung S5K2L3 or Sony IMX345 chip.

Both imagers use a 3-layer stacked structure, comprising a CMOS image sensor, image signal processor (ISP) and DRAM. The Sony IMX345 is very similar in structure to the IMX400, the world’s first 3-layer stacked imager that was introduced on the Sony Xperia XZ flagship a year ago.

The Samsung S5K2L3 ISOCELL Fast sensor is the Korean manufacturer’s first 3-layer stacked model. In contrast to Sony’s custom solution with the DRAM in the middle, Samsung has opted for connecting the DRAM chip face-to-back on the ISP. The assembly also includes a dummy silicon structure filling the unoccupied space next to the DRAM chip.

This definitely won’t translate into noticeable performance or image quality differences between Galaxy S9 smartphones, but it does seem to show that Samsung is far from its goal of dethroning Sony to become #1 in the global image sensor market—it’s hard to dethrone the competition when you’re still using their sensors.

For a lot more detail on the sensor structure and assembly head over to Tech Insights, where you can also purchase even more in-depth reports if you really want to dive deep.

Articles: Digital Photography Review (dpreview.com)

 
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Samsung explains the sensor tech behind the Galaxy S9’s super-slow-motion mode

05 Apr

Samsung published a couple of technical blog posts today, providing some detail on the stacked sensor technology used in the new Galaxy S9 and S9 Plus smartphones, and specifically how this tech is used to power the devices’ super-slow-motion mode.

This mode can record 960 frames per second at HD resolution for a duration of 0.2 seconds, which translates into 6 seconds playback time at 30 fps—32 times slower than standard video. The resulting videos can be reversed, exported as GIFs and edited in other ways.

To achieve the blistering fast frame rates, Samsung has adopted similar imaging technology to what we’ve previously seen on some Sony devices. The S9 sensor offers faster sensor readout-times, bandwidth and video processing of the application sensor than on previous Galaxy generations by using a three-layer stacked sensor design that consists of the CMOS image sensor itself, a 4x faster readout circuit, and a dedicated DRAM memory chip for buffering:

In addition to slow-motion, the stacked sensor helps reduce rolling shutter effects in video mode, and counter camera shake through frame-stacking methodologies.

“We were able to achieve a readout speed that is four times faster than conventional cameras thanks to a three-layer stacked image sensor that includes the CMOS image sensor itself, a fast readout circuit, and a dedicated dynamic random-access (DRAM) memory chip, which previously was not added to image sensors,” explained Dongsoo Kim. “Integrating DRAM allowed us to overcome obstacles such as speed limits between the sensor and application processor (AP) in a high-speed camera with 960fps features.”

You can see some of the Samsung super-slow-motion video results in the video below. Samsung’s article on the technology is available on its blog, where you’ll also find an interview with the team behind the new sensor.

Articles: Digital Photography Review (dpreview.com)

 
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The Galaxy S9 Plus’ camera is its third most expensive component

20 Mar

Last week the team at iFixit undertook a teardown of the brand new Samsung Galaxy S9 Plus to examine and evaluate the device’s repairability. Now analysts TechInsights have done the same thing, but with a focus on components and costs.

When taking the device apart the team found Samsung’s Fast 2L3 third-generation 12MP, 1.4 µm pixel-pitch Dual Pixel ISOCELL sensor in the main camera and a 12MP, 1.0 µm pixel-pitch Samsung S5K3M3SM in the tele-camera, the same as in the Galaxy Note 8 dual-camera module.

TechInsights also provides cost estimates for all components and at $ 48 the Samsung’s camera setup is the third largest cost block on the device. Only the display at $ 72.50 and the main chipset at $ 68 have a higher impact on the overall figure. Final assembly and testing is estimated as $ 12.50, and the overall manufacturing cost of the device is $ 379.

Given in the US the S9 Plus currently retails at $ 840 unlocked, this should leave a decent margin for covering overheads and, crucially, making a profit. For more technical details and up-close images of most components have a look at the full report on TechInsights.

Articles: Digital Photography Review (dpreview.com)

 
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Teardown video shows how the Galaxy S9 variable aperture works

15 Mar

The YouTube channel JerryRigEverything recently tore down (or rather tore apart…) the new Samsung Galaxy S9, giving us the closest look at yet at the new smartphone’s camera hardware. So if the still images in the iFixit teardown weren’t quite interesting enough for you, this might just do the trick.

The camera teardown is about one minute and a half long, running from the 3:30 mark until about 5:00. In that time, we get to see the Optical Image Stabilization system demoed and torn open to reveal the magnets inside:

Then, we get really close look at one of the phone’s most intriguing features: the variable aperture. It turns out the system works using a little lever on the side of the housing. So when the phone senses that there is enough light to justify it, it’ll flip this switch electronically and switch from it’s world’s-brightest F1.5 setting to F2.4.

Here’s a very close look at that switch in action:

You can check out the full teardown in the video at the top. And stay tuned, because we’ll be bringing you a full smartphone camera review of the Samsung Galaxy S9 just as soon as we can put a unit through its paces.

Articles: Digital Photography Review (dpreview.com)

 
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iFixit teardown finds Samsung Galaxy S9 Plus difficult to repair, shows dual-blade aperture

12 Mar

The team at iFixit.com has taken apart Samsung’s brand new Galaxy S9 Plus flagship smartphone and given it a pretty low repairability score of 4/10 points. The testers liked the fact that many components are modular and can be replaced independently, but found accessing the battery to be an unnecessary challenge.

The device’s display and glass back also increase the chance of breakage, and make repairs difficult to start. The need to remove the rear glass panel and disassemble the entire phone when replacing the display was listed as another negative point.

During the teardown, the iFixit crew also had a closer look at the smartphone’s 12MP optically-stabilized camera module with 2x zoom. The dual-camera comes as a single unit on a single PCB and with a single connector. Inside, they found the DRAM chips that power the 960 fps super-slow-motion mode.

The S9 Plus main camera uses a variable F1.5/F2.4 aperture, and the close-up images show the design. Instead of a diaphragm-design with several aperture blades, the lens comes with a simpler construction, comprising of two rotating, ring-like blades for switching between its two aperture values.

Head over to iFixit.com to read the full report.

Articles: Digital Photography Review (dpreview.com)

 
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Hands-on with the Samsung Galaxy S9 and S9+

27 Feb

Hands-on with the Samsung Galaxy S9+

Samsung has announced its new flagship smartphones, the Galaxy S9 and S9+, at the Mobile World Congress in Barcelona. While changes on the surface are pretty subtle, under the hood the new models offer a range of interesting features and functions.

With its dual-camera setup, the S9+ looks like the more appealing S9 model to mobile photographers. We’ve had the chance to take a closer look at the device during the launch event. Here’s what you should know.

Subtle design changes

The S9 generation’s design language is very similar to its predecessors, and with its rounded edges the new models are comfortable to hold. However, Samsung has made some refinements to refresh the devices’ visual appeal and improve handling and operation.

Most importantly, the fingerprint sensor has been moved from next to the the camera lens to below the camera module, preventing any accidental touching and fingerprint-smearing of the latter.

In addition, the S9+’s 6.2-inch Super AMOLED display has been reinforced with thicker Corning Gorilla Glass 5, and both bezels and the screen itself come in a deeper black color to better conceal the iris sensor at the front and create a more minimalist look. Both S9 models are available in four colors: Midnight Black, Titanium Gray, Coral Blue, and Lilac Purple.

Dual-camera with tele-lens

While the S9 comes with a “traditional” single-lens camera, the S9+ is the first Samsung Galaxy S model to feature a dual-camera for improved zoom performance and a background-blurring portrait mode. Both cameras come with a 12MP pixel count and optical image stabilization.

The big news has to do with the wide angle lens on the main camera, which features a variable F1.5/F2.4 aperture and dual-pixel AF. The 2x tele-lens comes with a slower F2.4 aperture and has to make do without dual-pixel technology.

Super-slow motion video

Thanks to an integrated DRAM buffer in the imaging chip, the S9 models are capable of recording HD-resolution slow-motion footage at 960 frames per second for 0.2 seconds. When played back at 30 frames per second that translates into 6-second slow-motion clips.

Slow-motion clips can be saved as gif files and set as a background animation on the home screen. You can also “embed” up to 20 slow-motion segments into standard speed footage, creating much longer clips that only use the slow-motion effect at key moments.

Variable aperture

The aperture on the main camera automatically switches between a very fast F1.5 and a slower F2.4 value, depending on light conditions. In lower light, the large aperture is used in order to maximize light capture; in brighter conditions, the slightly slower F2.4 aperture can produce sharper images and a wider depth-of-field.

We suspect that, in very bright light, it is also used to underexpose individual frames that are then merged with brighter frames to generate HDR images through a computational imaging algorithm. This has not been confirmed by Samsung, however.

AR Emojis

The new AR Emoji function isn’t about serious photography, but can be fun to play with regardless. In AR Emoji mode, your face is turned into a cartoon-style emoji as soon as it is detected by the front camera’s face detection. Taking off any eyewear or headgear tends to help.

Your emoji can then be animated using facial expressions. Once you are happy with the result, you can save up to 18 personalized animated emojis and use them in the usual way in apps such as Whatsapp or Facebook Messenger. The good news is that they can be shared with users of any smartphone, not just Samsung Galaxy models.

Articles: Digital Photography Review (dpreview.com)

 
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Samsung unveils Galaxy S9 with variable aperture and super-slow-motion

26 Feb

Samsung has unveiled its new Galaxy S series flagship phones, the Galaxy S9 and Galaxy S9+, at the Mobile World Congress in Barcelona today and the new devices’ cameras deliver what Samsung’s teaser videos had been promising: Variable aperture, super-slow-motion and AR emojis.

The main camera features an aperture that can switch between F1.5 for low light shooting and F2.4 in brighter light. The new aperture system is coupled with a 12MP “Super Speed” sensor that features an integrated DRAM module for more processing power when using computational imaging to reduce noise and increase image detail.

The additional processing power also comes in handy for the new super-slow-motion mode. Like recent high-end Sony Xperia models, the Galaxy S9 devices can record HD video at 960 frames per second for 0.2 seconds. That translates into 6 seconds playback time at 30 frames per second. Slow-motion videos can be converted into gifs or set as background videos on the home screen.

The new AR Emoji function allows you to create and personalize emojis based on your own face, using the front camera. In a second step emojis can be animated using facial expressions. You can save up to 18 AR emojis and share them with users of any smartphone, not just Samsung models.

New features aside, the camera specs haven’t changed too much compared to existing models. The main camera features optical image stabilization and a Dual-Pixel AF. The Galaxy S9+ comes with a secondary tele-lens, similar to what we’ve seen on the Galaxy Note 8, allowing for better-quality zooming and a bokeh mode. The longer lens comes with optical image stabilization and an F2.4 aperture. The front camera on both models combines an 8MP pixel count with a fast F1.7 aperture.

Camera aside, the main difference between the two new models is display size. The Galaxy S9 comes with a 5.77″ AMOLED display, the S9+ equivalent is a little larger at 6.22″. Both screens offer WQHD resolution.

Both models come with a microSD card slot and a headphone jack and are powered by Samsung’s Exynos 9 Series 9810 Octa Core chipset. In the Euro-zone the Galaxy S9 with 64GB of storage will be available from March for 850 Euros (approximately USD 1045). The S9+ is 100 Euros (approximately USD 120)more. No details on pricing in other regions have been released yet.

Articles: Digital Photography Review (dpreview.com)

 
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