Here are the latest Canon camera registrations that are not yet officially announced, courtesy of CanonAddict:
DS126936
Wireless Spec: Wi-Fi 5 (802.11ac) + Bluetooth
What it might be:Canon EOS R7 Mark II.
Reasoning: Registered shortly after the R6 Mark III. The “DS” prefix denotes an interchangeable lens camera. Like the R6 III, it sticks to the robust but standard Wi-Fi 5 to differentiate it from the flagship R1/R5 series.
Best cameras
ID0179
Wireless Spec: Wi-Fi 5 (802.11ac)
What it might be:Canon EOS C70 Mark II or XF605 Successor.
Reasoning: The “ID” prefix is historically used for Cinema EOS or professional camcorders. This registration has been active since early 2024, suggesting a long development cycle typical of pro video gear.
ID0174
Wireless Spec: Wi-Fi 5 (802.11ac)
What it might be:PowerShot V10 Successor or VR Camera.
Reasoning: Another video-centric “ID” code. Canon is aggressively expanding the V-series for vloggers, which often use non-standard naming conventions internally.
New Wireless Patent Found US Patent 12,114,054: Communication Apparatus (Wi-Fi 6)
Description: A patent describing a camera capable of connecting to IEEE 802.11ax (Wi-Fi 6) networks. It details methods for managing power consumption while maintaining high-speed dual-band (2.4GHz/5GHz) connections.
What it might be:Canon EOS R5C Mark II or High-End Cinema EOS.
Reasoning: Since the R6 Mark III and R7 Mark II are limited to Wi-Fi 5, this patent points to a future high-bandwidth camera that requires Wi-Fi 6 for professional monitoring or massive video file transfers.
The Minolta MND35 promises 18x digital zoom and 64MP JPEGs. The manual says it has a 13MP sensor. There is no connection whatsoever between this camera and the original Minolta company.
Image: Minolta Digital
It'd been going on for months before I knew about it, but in the space of a couple of days, I received a text from my former colleague and saw a post on Reddit highlighting it. Minolta cameras had hit the shelves at Costco.
That's odd, I thought, surely Sony, which absorbed the Konica Minolta camera business, hadn't launched a budget line without telling us. And, by the same logic, presumably Konica Minolta wasn't allowed to use the Minolta name on cameras, as part of the deal with Sony. So what was going on?
The answer was stranger than I'd expected. There is, it seems, a US company that hunts around for well-known brand names that have fallen out of use. Trademark rules are designed to protect the names and brands under which products are sold, so that third-parties can't sneakily benefit from the reputation and goodwill the original seller has built up. But you can only maintain a trademark that you're using to trade. It turns out that neither Sony nor Konica Minolta had continued to use its trademark for anything camera-related, so a Californian company had stepped in and claimed it.
"You can only maintain a trademark that you're using to trade"
This company is in the business of claiming orphaned trademarks and licensing them on to other companies. The result is that New York company Elite Brands can now sell cameras in the US under the Minolta name. Elite Brands also licenses the names (former cinema camera and projector maker) Bell + Howell and owns the Rokinon brand under which it sells Samyang-made lenses.
This situation, where the name is now owned and used by companies with absolutely no connection back to the original manufacturer, is, perhaps, one of the more extreme examples of how legacy names stumble on as zombie brands. More common is that the original company collapses and the rights to its name get bought out of receivership by a company with no intention of trying to continue the original business. Other times the original brand merges with another that has a different focus, so its name gets licensed out to someone wanting to operate in the consumer industry.
But whatever the specifics of each story, the licensing process allows brand names to rise from the dead and shuffle their way onto shops' shelves and websites.
Rollei
The Rollei name is used on a wide range of products, including this recently announced 85mm F1.8 that appears to share its specs with the one made by 7Artisans.
Image: Rollei
Rollei appears to be an example of the former situation. The name was bought when the original company collapsed in 2004, and it sells a wide range of products under the name, though they are all photo related, at least. It also licenses the name to a German film marketing and distribution company that sells Rollei film. In addition to this, it's also licensed the name to Hong Kong's MiNT Camera, for use on its reproduction of the Rollei 35AF film compact.
Yashica
The FX-D cameras being sold via Kickstarter are only some of the products being sold under the Yashica name.
One of the most obvious instances is Yashica. Yashica was a pretty well-respected camera maker for much of the 20th century but was eventually bought by Kyocera, which ceased production of the last Yashica products in 2005. It subsequently sold the name to a company in Hong Kong, which is responsible for the recent products being sold under the name.
We're not sure whether the Yashica / I'm Back co-branded version of the digital module ever existed, beyond this composite image.
Image: I'm Back
New owner JNC Datum Tech appears to be responsible for the SLR-shaped, tiny-sensor cameras being sold on Kickstarter. Film cameras and basic compacts are also available with the name, and a tie-up was even announced to use Yashica branding on I'm Back's somewhat clunky digital film modules and a "micro mirrorless" camera called MiMi, though it's not entirely clear how much of that came to pass.
Vivitar
Vivitar branding appears on a lot of products, some of which still relate to photography.
Image: Vivitar
Vivitar is a slightly more interesting case, because the originator of the brand was never itself a manufacturer: even at its height, it was a brand name being used to market and sell contract-manufactured products. It eventually collapsed and, the name having passed through various hands has, since 2008, been owned by a company headquartered in New Jersey, called Sakar International, of whom we'll hear more, later. The Vivitar name is now used on everything from bathroom scales and Peppa Pig-branded scooters.
Who's making these cameras?
Look closely at the cameras sold under a lot of these brands and you'll recognize than some of them look very similar to one another. There are a number of OEM camera makers that will sell you their cameras with your branding on them. Two of the biggest are Asia Optical, a Taiwanese company, and Shenzhen Soda Digital Techonolgy, a Chinese company also known by the brand name Songdian.
Asia Optical is responsible for making the Kodak PixPro cameras (which has included a Micro Four Thirds mirrorless model), and some of the Minolta-branded cameras, while Shenzhen Soda makes other Minolta Digital models and a lot of the unbranded cameras sold on online markets such as AliBaba.
As well as looking at whether a brand name is being used on original or innovative products, or items with any real relationship to the types of product on which the brand's reputation was built, I find it interesting to look at the About Us page on these legacy brands' websites, to see how much of a connection to the originating company's actions they imply they have. Rollei licensee Hans O. Mahn has the honesty to point out that it licensed the name in 2004, giving at least a hint that there's no particular connection back to the earlier events on the timelines that so often make an appearance.
Kodak
Personally I find the case of Kodak particularly fascinating, in part because of how stong people's feelings towards the brand still appear to be, despite some of the things that have been done with its name.
Kodak entered Chapter 11 bankruptcy protection in 2012, selling off many of its businesses, including its consumer film business, to settle its debts. The revived company was primarily focused on industrial print and packaging. However, recognizing how powerful a brand it had with consumers, it set out licensing its name for a wide variety of products.
The Kodak Charmera keyring camera, "inspired by the Kodak Fling" is available in seven styles, but you don't know which you'll get. It's been created by Reto Production, one of a range of licensees of the Kodak name.
Image: Reto Production
The most visible are the PixPro series of compact digital cameras, along with the multiple companies it's let use its name on clothing. Its name is also used by companies making half-frame film cameras and the Charmera keyring digital cameras with their gatchapon / lucky-dip styling that, if not quite viral, appeared moderately contagious earlier this year.
Kodak's licensing efforts appear a little more restrained than they did back in 2018, and it's worth noting that the company licenses its name to different companies in different regions. For instance, the Kodak name in Europe is licensed by GT Company, a French company that has also licensed the Agfa brand for digital cameras.
Polaroid
Sakar tried to launch a modular system, where the sensor is a lens/sensor module, under the Polaroid name in 2013.
Photo: Lars Rehm
Perhaps the most interesting example is Polaroid. As with Vivitar, the rights to its name changed hands several times following the collapse of the original company. Sakar International (which owns the Vivitar name) used the name for a while, using it to sell camera modules that connected to smartphones and attempted to launch a modular camera system (conceptually not unlike the Ricoh GXR system) where lens-like units with the sensor built into them could be attached to a camera unit. Unfortunately the styling of these was lawyer-excitingly similar to the design of Nikon's 1 system cameras and lenses, so were withdrawn.
In an unusual turn of events, a project to revive instant film manufacture, boldly called The Impossible Project, managed to take ownership of the Polaroid brand name, meaning that, just sometimes, zombie brands can be brought back to life.
The Polaroid name is back in the hands of an instant film maker based in one of the original company's last factories.
Image: Polaroid
There are the seeds of something similar at Kodak, too, which has recently regained the ability to sell its photo film to the public, after over a decade out of the consumer market. The licensing will still continue, but you can again buy products made by Eastman Kodak from the continuation of the original company.
What's the value of a brand name?
Ultimately, brand licensing is something of a high-wire act. Companies understandably want to maximize the amount of money they make by licensing the brand name they own, but if you're not selective about who and what that name is associated with, you can undermine the public perception of the brand and risk reducing its value to both yourself and your licensees.
Licensing isn't inherently a bad thing, but the quality of the products you allow to wear the name then reflects on all the others. Which becomes important if, like Kodak, you want to also sell your own products under that brand.
Image: Kodak
It's hard to imagine that many people buying a Vivitar-branded personal massager are making any connection back to the Series 1 lenses of the 1970s. Perhaps simply being a vaguely familiar name has some value in a time when dizzying number new brand names (both emerging and transient) are being plastered over the countless products being sold on sites like Amazon. But in the case of Kodak and Polaroid, there is some connection to the original products on which those names' reputations were built. Or, at least, there are for some of the products.
"It's hard to imagine people buying a Vivitar-branded personal massager are making a conscious connection back to Series 1 lenses"
The Minolta example, where there is no connection at all between the products being sold and the reputation that the name would seem to imply is an extreme case, but the closer you look at the world of brand licensing, the more it should make you question what, if anything, that brand name you have vague fond memories of, now represents.
Mt. Jefferson, a volcano in the Cascade Mountains, towers over the landscape of central Oregon. I captured this photo on an exceptionally clear day (through a spotless airplane window), and converted it to black and white using Exposure X6 software with the Ilford HP5 Plus film style.
This month, we're celebrating the art of black and white photography. Whether you're focused on the interplay between light and shadows, ethereal high-key images, or using darkness to create mood and mystery, we challenge you to show us the world in monochrome. Strip away the color and show us your best black and white images!
Photos can be submitted between Sunday, December 14, and Saturday, December 20 (GMT). The challenge is open to photos captured at any time.
Important: Images MUST include a title and a caption of at least 25 words to be eligible. We need to be able to share the story behind your photo. We will consider both photos and captions when selecting our winners, so make sure to tell us that story!
Visit the challenge page to read the full rules and to submit your photos for consideration as soon as the challenge opens.
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This week, Sony announced a new enthusiast mirrorless camera, the a7 V. As is becoming tradition, members of the DPReview editorial team gathered to discuss it, going over what's new, how the camera fits into the market, and touching on why this kind of camera has gotten so expensive lately.
If you want to see how the a7 V performs, check out our sample gallery and review. We'd also love to hear from you; what do you think of the a7 V? Let us know in the comments below and on our forums.
Canon 5D IV | Canon 70-300 F4-5.6 | 128mm | ISO 400 | 1/500 sec | F7.1 Sandwich Harbor, Namibia
Today, I'd like to dive into the use of shadows in landscape photography. Shadows are almost always part of nature: we often shoot using a (almost-)point light source (the sun or the moon), and even if the light is soft (like it is after sunset or during a cloudy day), the light is almost always directional, which means that some areas of the image are darker compared to others.
So, if shadow is an almost integral part of photography, we ought to at least give it some attention and understand how it works in comparison to other components of the image, and perhaps see how we can use its characteristics to enrich our photography, which is what I intend to do here.
I would say that the first function of shadows is to promote separation and thus depth. As I've mentioned in the past, separation of the different image layers is important to help viewers discern the actual distance between the subjects, thus helping them perceive the scene's depth, which is present in 3D reality but can be absent in the 2D image.
This image of dunes in Sandwich Harbor, Namibia, would be absolutely flat without the shadows. The dunes are the same exact color, and without the dark areas, it would be impossible to understand the shapes in the scene and its depth, rendering it flat and boring.
Canon 5D IV | Canon 70-300 F4-5.6 | 70mm | ISO 400 | 1/1250 sec | F8
Below are two aerial images of Cono Arita, Argentina. One was taken before sunrise, with flat light, and the other after sunrise. I'm not trying to claim that one is better than the other, but I'd like to urge you to see how different they are, and why. There is some difference in color, sure, but the main source of change is most definitely the cone's shadow. What role does the shadow serve here?
DJI Mavic II Pro | 1/15 sec | F3.2 | ISO 400
DJI Mavic II Pro | 1/60 sec | F8 | ISO 100
There is a similarity and a difference between the roles I mentioned above. The shadow creates depth. Clearly, it stretches from the cone to the very edge of the salt pan, thus making it easier to perceive the distance between them. But it isn't really the factor separating the different layers – it's the difference in color and texture which does that in this example. By the way, can you understand what problem I have with the composition in the second image?
The second image above leads us to a second use of shadows: extending the subject and changing its shape. If used correctly, the shadow of a subject can help the photographer manipulate the shapes in an image to better fit the composition and the photographer's vision. Take, for example, the following image, which I took a long, long time ago in Jerusalem.
Ultra-orthodox Jews walking back from the temple in the early morning. You could say that the shadow is the main part of the subject, being larger and more prominent (different from its surroundings). In any case, it helped me balance the compositional masses in the image. Without the shadow, there would be nothing to counterbalance the person's compositional weight, and the image would be right-heavy. (Jerusalem, Israel)
In this image from Deadvlei, Namibia, the shadow again extends the subject and allows me to have a good foreground element. It also parallels the tree itself (which is a bit obvious since their shapes are naturally similar), but moreover, it parallels the sunstar flare on the top part of the image. In addition, the dune's shadow on the horizon adds a layer and enhances depth. It also prevents the background trees from grabbing too much attention and overlapping the main tree.
Canon 5D IV | Canon 16-35mm f/2.8L III | 31mm | ISO 100 | 1/80 sec | F16
I'd like to divert now and talk about the use of shadows to create and enhance the atmosphere in a landscape image. Shadows have a tendency to interfere and appear inside lit parts of an image, thus enhancing the texture and diversifying the light, which may appear minor but is, at least in my opinion, not so at all.
Trees' shadows enrich the lighting and add texture to this image, balancing the viewer's attention between the different compositional elements. (Jargant River, Mongolia)
DJI Mavic III Classic | 1/400 sec | F10
Again, the shadows add texture to the light, making the image more interesting. (Jargant River, Mongolia)
The gradient of light on the top right shows us that the total solar eclipse is, in fact, just a huge shadow cast on Earth by the moon. I claim that the image wouldn't be half as good without this gradient, since it's not only a compositional element but also an extension of the subject, drawing a link between the faraway eclipsed sun and the Earth's sky. As homework, take a good, long look at this image and try to understand the roles of the different subjects, how they counterbalance each other, and how they contribute to the overall composition. (Lake Cuesta Del Viento, Argentina)
DJI Mavic II Pro | 1/10 sec | F2.8 | ISO 100
Lastly, I'd like to present the rare case of the shadow being the actual subject. This is hardly common, but if you use it right, it could be very interesting and curious to the viewer. Take a look at the image below.
In order to take this shot without my shadow appearing in it, I had to hide in the shadow of the tree on the right.
Instead of including both the tree and its shadow in the image, I chose only to include the shadow. By doing this, I selected a totally different subject in terms of shape, compositional weight, color, and, most importantly, in essence. This subject could be viewed as a negative of the other trees in the frame.
Firstly, the shadow is almost perpendicular to the other trees. Moreover, it's dark on a light surface, whereas the background trees are light on a somewhat-darker surface. These harsh differences enhance the image and cause it to be much more interesting. The fact that you usually don't see a shadow as a subject draws the viewers' eyes and makes them try to understand what exactly it is they're seeing. All this can take a very simple composition and elevate it into something greater.
Erez Marom is a professional nature photographer, guide and traveller. You can follow Erez's work on Instagram and Facebook, and subscribe to his mailing list for updates.
Erez has recently published his first e-book, "Solving the Puzzle," thoroughly explaining his views about composition in landscape photography and beyond.
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Canon's recently announced EOS R6 III is aimed at hybrid shooters and has a strong suite of features for both stills and video shooting. We've already analyzed its still image quality, but now let's take a look at how its video modes perform in front of our studio test scene.
As a reminder, the EOS R6 III can do full-width DCI or UHD 4K* video up to 120p. At 60p and below, you have the option of using Canon's "Fine" mode, which delivers oversampled footage from 7K capture, though the company adds the intriguing caveat that the 60p fine mode won't be quite as detailed as the lower framerate ones. The R6 III can also shoot open-gate footage using the entire sensor, and supports internal Raw recording using Canon's C-Raw format.
* - The camera performs the same in its UHD and DCI modes, so whenever you read about the EOS R6 III's "4K" performance in this article, know it applies to both.
Image Comparison
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Starting with the open gate mode, the 6912 x 4608 image the EOS R6 III produces captures lots of detail, appreciably more than the 5952 x 3968 open gate image from the Panasonic S1II. The difference will almost certainly be less noticeable in motion, but the EOS R6 III's higher resolution allows for a bit more room to crop in if you're delivering a vertical or horizontal 4K video (or if you shot a bit too wide, and are trying to take a 9:16 vertical crop without using the full height).
The increased detail versus the S1II is still there, though slightly less obvious, when you're using the oversampled 4K mode. The Z6III offers similar levels of detail, though at default settings, it appears to apply more or less subtle sharpening than Canon does.
However, the EOS R6 III loses its edge in detail when you bump up to 4K/60. The oversampled fine setting is massively more detailed than the line-skipped standard mode, but, as Canon said, it's less detailed than the oversampled footage from 24p mode. Interestingly, the rolling shutter figure is the same, so its perhaps a processing difference, rather than a readout one, presumably for reasons of heat.
Rolling shutter
7K open gate
17.9ms
4K24/60/120 standard
7.2ms
4K24/60 "fine"
14.3ms
The Nikon Z6III's output is again sharper (and more sharpened), but it's not far off the output of the Panasonic S1II. This isn't because Nikon and Panasonic's 60p modes are more detailed than the 24p ones; it's because Canon's oversampled 60p mode isn't as detailed as its 24p one. Perhaps most painfully, though, is that even the EOS R6 II's 4K/60 footage has a slight edge in detail over its successor's.
The sensor isn't fast enough to offer an oversampled 4K/120 mode, but the EOS R6 III's is at least full-width, so switching to it won't change your field of view like it will with the S1II, which has a 1.24x crop for UHD, or the Z6III, which has a 1.5x crop. The 4K/120 capture is as detailed as the EOS R6 III's other line-skipped modes, but this leaves it a long way behind the S1II's 4K/120 footage, and even the Z6III's. Despite those being derived from a smaller area of the sensor, it's very likely they're derived from more pixels that aren't spread as far apart as they are on the EOS R6 III.
Raw Video
As always, when discussing Raw video options, it's worth keeping in mind that the difference between Raw video and Log video is nowhere near as stark as the difference between Raw and JPEG for stills when it comes to editing flexibility. While shooting in Raw for video gives you control over noise reduction, sharpening* and white balance, it doesn't offer substantially more latitude to adjust your footage's lightness than Log footage does.
With that in mind, the EOS R6 III's Raw footage looks good, capturing a lot of detail from either the entire sensor in open gate mode, or from a 7K 1.89:1 crop derived from that footage. The latter can be shot in up to 60p, though going above 30p will require switching to Canon's Raw Lite format, which compresses the footage more. If there are compromises to detail that come from that, they're not evident in our test scene.
It's also worth pointing out that, unlike with the S1II's Raw modes, Canon applies lens distortion corrections to its Raw footage. That arguably makes them a bit less Raw, but means you won't have to manually apply them after the fact, which is especially important for those RF-mount lenses that heavily rely on those corrections as part of their optical formulas.
* - Put another way, shooting in Raw puts the onus of noise reduction and sharpening on you.
Summary
The EOS R6 III's higher resolution sensor has its benefits, but its slower readout speeds hurt its full-width slow-motion performance.
The EOS R6 III's open gate mode provides exceptional amounts of detail for this class of camera, as does its oversampled 4K/24 mode. Its 4K/60 mode isn't quite as strong as those of its competitors with faster, lower resolution sensors, though, and you'll pay a significant detail cost to gain full-width 4K/120. The convenience of maintaining your field of view is definitely a benefit, but its partially stacked sensor rivals will maintain more consistent detail levels for your slow-mo shots.
Still, it's hard to complain about the quality of the video we've been able to capture with the EOS R6 III outside of the studio. Annecdotally, when I sent Mykim, our director of video and platforms, a cut of a video we'd shot using the EOS R6 III, she asked which camera we had used, saying the footage had a "really nice visual quality to it, distinct from other videos we have done." (It is worth noting that we shot it at golden hour on a beach, so it was quite literally being shown in its best light.)
We'll cover other aspects of the video shooting experience in our full review, but in terms of image quality, the EOS R6 III has a lot to offer.
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Sony a7 V | Sony FE 24-70mm F2.8 GM II | 70mm | F2.8 | 1/80 sec | ISO 250 Photo: Mitchell Clark
This week, Sony announced the a7 V, its latest hybrid camera which uses a 33MP 'partially stacked' sensor to achieve high burst rates. We got the chance to use a pre-production model, which luckily coincided with what may have been the last few sunny days of the year in the Pacific Northwest. We used the opportunity to take some street portraits, action shots of animals, and more.
We've just got access to a build of Adobe Camera Raw that supports the camera's losslessly compressed Raw files and have added a couple of conversions of images shot in that format.
If you want to read more on the a7 V, you can check out our review of it here, or watch our video on it below. It contains a few sample videos shot with the a7 V, though look forward to seeing more footage from it in the future.
Please do not reproduce any of these images on a website or any newsletter/magazine without prior permission (see our copyright page). We make the originals available for private users to download to their own machines for personal examination or printing (in conjunction with this review); we do so in good faith, so please don't abuse it.
Sample gallery
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Additional pictures, information, and complete specifications (see also this page):
Immersive Flight Like No Other
A1 defines a new class of drone: the 360 Drone. Unlike traditional quadcopters, A1 relies on a headset-first configuration. where the Vision Goggles are a vital component of the experience, rather than just being an accessory.
This system is designed to be intuitive from the first takeoff. The Grip controller’s FreeMotion Mode translates hand movements into precise flight paths, allowing users to steer simply by pointing the controller.
This “point-to-fly” simplicity makes A1 significantly easier to master than traditional dual-stick drones, removing the steep learning curve that often prevents people from experiencing flight. However, A1 grows with you; FPV Mode remains fully accessible for pilots who demand classic control dynamics.
The experience is fully realized when the Grip is paired with the Vision Goggles. Powered by industry-leading Pancake optics and dual 1-inch Micro-OLED (2560×2560) displays, the goggles mirror the pilot’s head movements in real-time. Together, these three elements combine to create a seamless interface that allows users to have a truly immersive experience of the sensation of flight, rather than simply piloting a drone.
8K 360 Capture Made Simple
At the heart of A1 lies a dual-lens 1/1.28-inch sensor system capable of recording 8K30fps, 5.2K60fps, or 4K100fps in full 360 degrees. Every flight captures the entire environment in one pass. No gimbal adjustments, no missed angles. The “fly first, frame later” workflow lets users choose perspectives in post, from cinematic pans to creative effects like Tiny Planets or deep subject tracking. FlowState Stabilization ensures the footage remains smooth and steady, even in windy conditions.
Compact, Compliant, and Ready for Travel
Weighing just 249g with the standard included battery, A1 fits in the palm of your hand and complies with EU C0 class and similar sub-250 g regulations worldwide. It offers up to 24 minutes of flight time, or up to an extended 39 minutes of flight time via an optional high-capacity battery, combining portability with performance.
A retractable landing gear system protects the bottom lens during takeoff while maintaining an unobstructed view for invisible-drone shots.
Share the Adventure with Sky Path
The new Sky Path system gives you ultimate control over your flight. It allows pilots to design, save, and automate complex flight routes. Once you’ve configured the perfect path, you can let A1 fly itself. This frees you to sit back and simply enjoy the immersive journey without touching the controls, or focus purely on creative direction. Creators can execute precise, repeatable flight paths to stitch together the same route at different times for stunning transitions and effects.
Sky Path also transforms the A1 into something that can be shared. As the drone flies its route autonomously, hand over the Vision goggles to friends or family. It allows anyone, regardless of skill level, to instantly access the joy and immersion of 360 drone flight, turning a solo passion into a group adventure.
Intelligent Flight, Limitless Creativity
A1 comes packed with intelligent tools that make professional results accessible to everyone.
Sky Genie: Sky Genie takes what professional pilots usually master in years, and offers it in seconds. With a single tap, A1 executes complex 360 maneuvers like Orbit, Spiral, and Comet, delivering instant, cinematic results.
Deep Track: Powered by Insta360’s renowned tracking technology, Deep Track locks onto your subject with unwavering precision, handling framing of your shot, keeping a target centered with superior accuracy.
Virtual Cockpit: Flight meets fantasy. Through an immersive overlay, take flight in real-time with a dragon, turning a standard flight into a mythical journey. Expect more skins over the coming weeks as A1 releases.
Built for Longevity and Responsibility
A1’s user-replaceable lenses and propellers make the drone easy to repair, cutting down on return shipping and material waste. For added peace of mind, Antigravity Care offers affordable replacement and flyaway protection, keeping everyone flying with confidence.
A core part of this design is the payload detection system, a first for consumer drones in this class. This smart safeguard actively detects excess weight or unsafe modifications, preventing the drone from being used for purposes it was not designed for. This technology ensures the A1 remains a force for fun, creativity, and exploration, never the opposite.
A Creative Ecosystem Across Mobile and Desktop
A1 integrates seamlessly with the Antigravity app and Antigravity Studio desktop software. The software supports quick transfers, automatic reframing, color correction, and auto editing tools. From instant social-ready clips to professional-grade exports, creators can manage their 360 workflow in one connected ecosystem.
The editing process is designed to be powerful yet easy to use. The software’s automatic highlight editing finds the best moments from your flight, allowing creators to get polished, ready-to-share videos with just a single tap.
Recognized Worldwide
Since its unveiling, Antigravity A1 has received some of the industry’s highest honors, including the Red Dot Award: Design Concept 2025, TIME’s Best Inventions 2025, the Good Design Award 2025, and the ‘Best of Innovation’ title in the CES Innovation Awards 2026. A1 was also the recipient of 20 awards from top media outlets at the recent IFA 2025.
Specifications
A1 Drone
Class
EU C0 (with Flight Battery)
EU C1 (with High-Capacity Flight Battery)
Takeoff Weight
249 g (8.78 oz) (with Flight Battery)
291 g (10.26 oz) (with High-Capacity Flight Battery)
*Tested in a controlled windless environment at 25°C (77°F), 5.2K 30fps (video recording disabled), with the drone flying forward at 6 m/s (13.4 mph) at an altitude below 50m (164 ft) until low-battery auto-landing was triggered. Flight time may vary under different conditions.
Max Flight Distance (per charge)
13 km (8.0 mi) (with Flight Battery)
23 km (14.3 mi) (with High-Capacity Flight Battery)
Max Ascent Speed
8 m/s (17.9 mph) (S Mode)
6 m/s (13.4 mph) (N Mode)
3 m/s (6.7 mph) (C Mode)
*Tested in a controlled windless environment at 25°C (77°F) at an altitude below 50m (164 ft).
Max Descent Speed
8 m/s (17.9 mph) (S Mode)
6 m/s (13.4 mph) (N Mode)
3 m/s (6.7 mph) (C Mode)
*Tested in a controlled windless environment at 25°C (77°F) at an altitude below 50m (164 ft).
Max Horizontal Speed (at sea level, no wind)
16 m/s (35.8 mph) (S Mode)
12 m/s (26.8 mph) (N Mode)
3 m/s (6.7 mph) (C Mode)
*Tested in a controlled windless environment at 25°C (77°F) at an altitude below 50m (164 ft).
Max Wind Speed Resistance
10.7 m/s (24 mph) (Level 5)
Max Takeoff Altitude
4,000 m (13,123 ft) (with Flight Battery)
3,000 m (9,842 ft) (with High-Capacity Flight Battery)
Global Navigation Satellite System
GPS + Galileo + Beidou
Hovering Accuracy Range
Vertical:
±0.1 m (0.33 ft) (with vision positioning) | ±0.5 m (1.64 ft) (with GNSS positioning)
Horizontal:
±0.1 m (0.33 ft) (with vision positioning) | ±0.5 m (1.64 ft) (with GNSS positioning)
Operating Temperature
-10°C to 40°C (14°F to 104°F)
Internal Storage
20GB
Internal File System
exFAT
Supported Storage
microSD (up to 1TB)
Recommended Memory Cards
SanDisk
SanDisk Extreme PRO 64GB V30 U3 A2 microSDXC
SanDisk Extreme PRO 128GB V30 U3 A2 microSDXC
SanDisk Extreme PRO 256GB V30 U3 A2 microSDXC
SanDisk Extreme PRO 512GB V30 U3 A2 microSDXC
SanDisk Extreme PRO 1TB V30 U3 A2 microSDXC
Lexar
Lexar Silver Plus 64GB A2 V30 microSDXC
Lexar Silver Plus 128GB A2 V30 microSDXC
Lexar Silver Plus 256GB A2 V30 microSDXC
Lexar Silver Plus 512GB A2 V30 microSDXC
Lexar Silver Plus 1TB A2 V30 microSDXC
Kingston
Kingston CANVAS GO! Plus 64GB A2 V30 microSDXC
Kingston CANVAS GO! Plus 128GB A2 V30 microSDXC
Kingston CANVAS GO! Plus 256GB A2 V30 microSDXC
Kingston CANVAS GO! Plus 512GB A2 V30 microSDXC
Kingston CANVAS GO! Plus 1TB A2 V30 microSDXC
Camera
Image Sensor
1/1.28-inch
Lens Aperture
F2.2
Video Resolution
8K: 7680×3840@30/25/24fps
5.2K: 5248×2624@60/50/30/25/24fps
4K: 3840×1920@100/30/25/24fps
4K Slow Motion: 3840×1920@30/25/24fps
Photo Resolution
55MP (10496×5248)
14MP (5248×2624)
Video Format
INSV (Exported through Antigravity App or Antigravity Studio)
Photo Format
INSP (Exported through Antigravity App or Antigravity Studio)
DNG
Video Modes
Standard Video, Slow Motion
Photo Modes
Standard Photo, HDR, Burst, AEB
Video Encoding Format
H.264、H.265
Max Video Bitrate
170Mbps
ISO Range
100-6400
Shutter Speed
14MP Photo: 1/8000-1/2 s
55MP Photo: 1/8000-1/20 s
Sensing
Sensing Type
Forward and downward binocular vision system, supplemented with a 3D infrared sensor at the bottom of the drone.
Forward
Measurement Range: 0.5–18 m (1.6–59.1 ft)
Effective Sensing Speed: Flight Speed ≤ 12 m/s (26.8 mph)
FOV: Horizontal 93°, Vertical 104°
Downward
Measurement Range: 0.3–7.5 m (1.0–24.6 ft)
Effective Sensing Speed: Flight Speed ≤ 6 m/s (13.4 mph)
FOV: Front and Back 107°, Left and Right 90°
Operating Environment
Forward:
Surfaces with discernible patterns and adequate lighting (lux > 15)
Downward:
Surfaces with discernible patterns, diffuse reflectivity > 20% (e.g. cement pavement, stout trees), and adequate lighting (lux > 15)
Video Transmission
Video Transmission System
OmniLink 360
Live View Quality
2K@30fps
Operating Frequency
2.400 GHz – 2.4835 GHz
5.170 GHz – 5.250 GHz
5.725 GHz – 5.850 GHz
*5.150–5.250 GHz and 5.725–5.850 GHz can be used only in countries and regions where permitted by local laws and regulations.
Transmitter Power (EIRP)
2.4GHz:
<33dBm (FCC)
<20dBm (CE/SRRC/MIC)
5.1GHz:
<23dBm (CE/FCC)
5.8GHz:
<33dBm (FCC)
<30dBm (SRRC)
<14dBm (CE)
Max Transmission Distance
(open, free of interference)
10 km (6.2 mi) (FCC)
8 km (5.0 mi) (SRRC)
6 km (3.7 mi) (CE)
4 km (2.5 mi) (MIC)
*Tested outdoors at 25°C (77°F) in an open, interference-free environment. Data reflects maximum one-way transmission distance without return-to-home under each standard. Actual performance may vary depending on environment, usage, and firmware.
Max Transmission Distance
(open, with interference)
Strong Interference (urban/industrial): approx. 1–4 km (0.6–2.5 mi)
Medium Interference (suburban): approx. 3–6 km (1.9–3.7 mi)
Low Interference (seaside/suburb): approx. 5–10 km (3.1–6.2 mi)
*Tested under FCC standard in open environments with typical interference. Used for reference purposes only.
Max Transmission Distance
(obstructed, with interference)
Low Interference/Buildings: approx. 0.1–0.5 km (0.06–0.31 mi)
Low Interference/Trees: approx. 0.5–3 km (0.31–1.9 mi)
*Tested under FCC standard in obstructed environments with typical low interference. Used for reference purposes only and provides no guarantee for actual transmission distance.
Max Transmission Rate
30Mbps
Average Latency
Approx. 150ms
*Tested in an open, interference-free environment. Actual latency may vary depending on environmental differences.
Antenna
4 antennas, 2T2R
Wi-Fi
Protocol
802.11 a/b/g/n/ac
Operating Frequency
2.400–2.4835 GHz
5.170–5.250 GHz
5.725–5.850 GHz
*5.150–5.250 GHz and 5.725–5.850 GHz are only available in select countries and regions in accordance with local regulations.
Transmitter Power (EIRP)
2.4 GHz: < 20 dBm (CE/SRRC/FCC)
5.1 GHz: < 20 dBm (FCC/CE/SRRC)
5.8 GHz: < 20 dBm (FCC/SRRC) | < 14 dBm (CE)
Bluetooth
Protocol
Bluetooth 5.0
Operating Frequency
2.400 GHz – 2.4835 GHz
Transmitter Power (EIRP)
<10 dBm
Flight Battery
Weight
< 67.5 g (2.38 oz) (Flight Battery)
< 108.6 g (3.83 oz) (High-Capacity Flight Battery)
Capacity
2360mAh (with Flight Battery)
4345mAh (with High-Capacity Flight Battery)
Energy
16.9Wh (with Flight Battery)
31.1Wh (with High-Capacity Flight Battery)
Nominal Voltage
7.16V (with Flight Battery)
7.16V (with High-Capacity Flight Battery)
Charging Limit Voltage
8.6V (with Flight Battery)
8.6V (with High-Capacity Flight Battery)
Battery Type
Li-ion 2S
Charging Temperature
5°C to 45°C (41°F to 113°F)
Charging Time
Flight Battery: Approx. 45 mins (Hub) | Approx. 58 mins (Drone)
High-Capacity Flight Battery: Approx. 60 mins (Hub) | Approx. 103 mins (Drone)
*Charging times are measured in a controlled environment at 25°C (77°F).
Leica has introduced new color variants of select lenses in its lineup, bringing its popular olive green colorway to three M-mount primes. The company has also announced a glossy black 50mm lens in its Classic lineup.
The new Safari lineup of lenses includes the Summilux‑M 35mm F1.4 ASPH., Summilux‑M 50mm F1.4 ASPH. and Summicron‑M 28mm F2 ASPH. All three lenses feature a silver-chrome brass focus tab, the feet scale in red and the meter scale in white. Otherwise, the lenses keep the same optical design and features as the standard black and silver versions, but with the matte olive green finish found on Safari edition camera bodies.
Image: Leica
Leica is also offering a glossy black finish of the Summilux‑M 50mm F1.4 Classic. The glossy finish is meant to wear through to brass over time, giving a vintage look to the lens with use. As with the Safari edition lenses, the finish is the only change on the Summilux‑M 50mm F1.4 Classic.
In addition to unveiling the Safari and glossy black lenses, Leica also announced that the M EV1 is now available for purchase in the US. The camera was already available elsewhere, but a delay in FCC approval meant it was not cleared for sale in the US at the time of launch in October.
The Leica Summilux‑M 35mm F1.4 ASPH. Safari is available now for $6795, the Summilux‑M 50mm F1.4 ASPH. for $5495 and the Summilux‑M 50mm F1.4 Classic in glossy black for $4595. Those interested in the Leica Summicron‑M 28mm F2 ASPH. Safari will have to wait a bit longer; it will be available on February 12, 2026, for $5995.
Four Leica M-Lenses Available as Coveted Product Variants Leica Camera AG launches three M-Lenses in the Leica Safari Design as well as a variant featuring a glossy black finish
Teaneck, December 4th, 2025 – Leica M-Lenses are legendary, embodying exceptional performance, masterful craftsmanship, and iconic design, recognized around the globe. Developed and manufactured in Germany, they epitomize the essence ofthe Leica philosophy through precision, resilience, and enduring value. Leica Camera AG is expanding its portfolio with four M-Lenses that stand out for their special design: the Summilux-M 35 f/1.4 ASPH., the Summilux-M 50 f/1.4 ASPH., and the Summicron-M 28 f/2 ASPH. in the olive-green Leica Safari design, as well as the Summilux-M 50 f/1.4 from the Classic line featuring a glossy black finish.
Leica Safari Editions
By launching these three lenses in the Leica Safari look, the company is continuing the longstanding tradition of this popular design variant. It is characterized by a striking color scheme featuring a highly durable matte olive-green finish, making it the perfect match for the Leica M11-P Safari. Further design features – such as the silver-chrome brass focus tab, the feet scale in red, and the meter scale in white – add stylish accents. As the Leica Safari Edition, the three fast M-Lenses – Summilux-M 35 f/1.4 ASPH., Summilux-M 50 f/1.4 ASPH. and Summicron-M 28 f/2 ASPH. – featuring extended close focus distance represent an exclusive highlight. In terms of performance and build, they match the respective series models and, as compact wide-angle, reportage, and standard focal lengths, offer maximum freedom and flexibility in image composition.
Design Variant with Glossy Black Paint Finish
The elegant, glossy black paintfinish has long been among the most coveted Leica looks and now lends the design variant ofthe Summilux-M 50 f/1.4 its distinctive aesthetic. Thanks to its picturesque bokeh when shooting with a wide aperture, the image aesthetics of this fast classic lens are as emblematic of the Leica look as the exclusive glossy black finish. Over the years, frequent use creates a unique patina on the paintwork, partially revealing the brass underneath. In this way, each single unit of this M-Lens, which belongs to the Classic line, gradually reveals its very own story. The design variant is perfectly complemented by a classic round lens hood, likewise finished in glossy black paint.
The retail prices are: $6,795.00 for the Leica Summilux-M 35 f/1.4 ASPH. Safari, $5,495.00 for the Leica Summilux-M 50 f/1.4 ASPH. Safari, and $4,595.00 for the Leica Summilux-M 50 f/1.4 glossy black paint. The three special editions are now available worldwide at Leica Stores, on the Leica Online Store, and from authorized dealers.
The Leica Summicron-M 28 f/2 ASPH. Safari will be available worldwide starting February 12, 2026, at all Leica Stores, in the Leica Online Store, and from authorized dealers. The retail price is $5,995.00.
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Product photos: Mitchell Clark
This week, Sony announced the a7 V, the latest enthusiast-class mirrorless camera to use a 'partially stacked' sensor to achieve the fast readout speeds required for high-speed bursts and video. It's entering a market segment with stiff competition, both from other cameras using similar sensor technology and ones that achieve pretty similar performance even without it.
To see how it competes, we'll compare it to similarly positioned cameras – the Canon EOS R6 III, Panasonic S1II and Nikon Z6III – in a variety of categories. We'll largely leave out comparisons with the a7 IV for now, as we'll be discussing it in more depth in an upcoming article.
Price
As this segment of the market has become more capable (and as inflation and, in the US, tariffs have continued to raise costs), the price tags on the cameras have also risen. The a7 V is in the same ballpark as competitors like the Canon EOS R6 III and Nikon Z6III, though it's the most expensive among the three. And not just because it's the most recent release.
Sony a7 V
Canon EOS R6 III
Panasonic S1II
Nikon Z6III
MSRP (US/UK)
$2900 / £2800
$2800 / £2800
$3200 / £2900
$2700 / £2500
It is, however, still a fair bit cheaper than the Panasonic S1II, at least in the US. In the UK and EU, the prices for all four cameras are more evenly matched, with the Z6III being the only one that really stands out as considerably cheaper.
Resolution and speed
Like its predecessor, the a7 V has a 33MP sensor, which provides 16% more linear resolution than the 24MP models used by Panasonic and Nikon. Sony has joined those companies in using a "partially stacked" sensor, though, which uses more complex circuitry to increase readout speeds.
Sony a7 V
Canon EOS R6 III
Panasonic S1II
Nikon Z6III
Resolution
33MP
33MP
24MP
24MP
Stills rolling shutter rate (e-shutter)
∼15.1ms (14-bit)
∼13.5ms (12-bit)
∼14.6ms (14-bit)
∼14.6ms (14-bit)
Canon's sensor in the EOS R6 III provides a similar level of resolution and, at first glance, speed, despite the company using an FSI design. However, it's worth noting that in e-shutter mode, it drops to a 12-bit readout rather than a 14-bit one, which is a concession the other models don't have to make in most circumstances.
It's hard to say whether that difference will end up being mostly academic, though. The Canon's lower bitrate readout hurts dynamic range, resulting in more noise in the deepest shadows. But while the specs make it seem like the a7 V will maintain more dynamic range during continuous shooting, we've also seen that partially stacked sensors can have less dynamic range in their e-shutter modes, which may make the difference in bit depth less consequential in practice.
The issue is most prevalent on the Z6III, as it happens in all of its shooting modes, whereas the Panasonic S1II can achieve better dynamic range when using its mechanical shutter. However, it can't maintain that performance while using its electronic shutter because of the impact it would have on its rolling shutter rates. Sony says the a7 V will also be able to get great dynamic range when using its mechanical shutter, but early reports indicate that its DR drops in e-shutter mode, suggesting there'll be a price to pay there, too.
Viewfinder and screen
The tilting/articulating mechanism on the a7 V and Panasonic S1II also gives you plenty of clearance for microphone, headphone and HDMI plugs when shooting video.
The a7 V hasn't made any big strides with its viewfinder, which, like the Canon's, is starting to feel a little dated, but its rear display is among the best in class. Not only is it larger and higher resolution than the ones Canon and Panasonic use, but it features a mechanism that lets you tilt it in line with the sensor, while also being able to fully articulate it for shooting at odd angles, or taking video of yourself, all without fouling the ports on the side of the camera.
Sony a7 V
Canon EOS R6 III
Panasonic S1II
Nikon Z6III
Viewfinder res/magnification/eyepoint
3.69M dot 0.78x 23mm
3.69M dot 0.76x 23mm
5.76M dot 0.78x 21mm
5.76M dot 0.8x 21mm
Rear screen
3.2" 2.1M dot Tilt + Fully articulating
3.0" 1.62M dot Fully articulating
3.0" 1.84M dot Tilt + Fully articulating
3.2" 2.1M dot Fully-articulating
All four companies give you the option to run the EVFs at a very responsive 120fps. Panasonic and Nikon's are higher resolution, which can be nice when reviewing photos, and the Z6III's can reach up to 4000 nits peak brightness, making it more visible even in harsh sunlight. Sony advertises that the a7 V has "blackout-free" shooting, though we'll have to test whether it truly continues to live refresh the preview as you're pressing the shutter, or if it's achieving the blackout-free effect by displaying the previously shot frame, as competitors like the Z6III and EOS R6 III do.
Autofocus
The a7 V gains Sony's latest autofocus system, which we've found to be one of the most capable around when it comes to tracking and overall reliability. It offers a wide array of autofocus selection points, for both tracking and non-tracking, and like with Canon and Nikon, its general tracking system works in conjunction with its subject recognition one. If the camera recognizes a subject under or around your selection point, it'll track it using the dedicated algorithms for it; otherwise, it'll attempt to track whatever is there. Panasonic takes a different approach, requiring you to switch between generic tracking and subject recognition.
Speaking of, like all the cameras in this comparison, the a7 V can recognize several subject types: humans, animals, birds, vehicles and planes, and is alone in offering a dedicated insect mode. It also has part recognition, narrowing in on a person, animal, or bird's eye, or the nose of an airplane.
Sony also offers an "Auto" mode, like Nikon and Canon, and allows you to select which subject types you'd like to be included in it.
Continuous shooting and pre-capture
The a7 V can shoot at a very respectable 30fps with its electronic shutter and, like most of its peers, has an option for pre-burst capture, where the camera will start saving images to the buffer when you initiate autofocus, and then write them to the card once you've fully pressed the shutter button, which can help you capture a moment even if you're a bit late to the draw. Its framerates aren't quite as high as those from Canon and Panasonic (though again, see the discussion about the EOS R6 III's 12-bit readout in burst rate, and the Sony's potentially reduced DR despite its 14-bit readout), but they should still be sufficient for all but the quickest action.
Sony's edge is in its pre-capture configurability. Panasonic only lets you use pre-capture with its "SH" burst rates (so 30, 60, or 70fps), and Canon is even more restrictive, with its pre-burst capture setting only usable with its 40fps mode. Sony, meanwhile, lets you use it in each of its e-shutter burst modes, and lets you fine-tune how far back you want it to save, from a mere 0.03 seconds (1 frame at 30fps) before you fully pressed the shutter to a whole second. Both options make it easier to avoid having to sort through dozens of pictures taken before the most important moment.
Battery
When it comes to battery life ratings, Sony is clearly the standout. The a7 V is rated to get over double the number of shots using the EVF compared to the EOS R6 and S1II, and has a 75% lead over the Nikon Z6III. We're looking forward to testing it more to see if it has to make compromises, such as dimming the screen after a very short period of inactivity, to get such a high rating, but we're used to Sony squeezing a lot from its large NP-FZ100 batteries.
Sony a7 V
Canon EOS R6 III
Panasonic S1II
Nikon Z6III
Battery life EVF / LCD
630 / 750
270 / 510
310 / 350
360 / 390
While the CIPA ratings aren't typically reflective of the literal number of shots you'll get out of a charge, they work as an indicator of what kind of experience the camera will provide, and it seems like the a7 V will let you go a long time without having to use a charger...
Ports, storage and connectivity
The a7 V is the only camera in this comparison to lack a dedicated remote trigger terminal... though theoretically you could use the second USB-C socket as one, provided Sony updates its remote to use the more modern cable type, instead of the microUSB / Multi terminal one that this replaces.
... which is funny, since it has double the number of charging ports as its competitors. The a7 V features two USB-C ports, one mainly meant for data, which supports speeds up to 10Gbps, and one for power delivery, which tops out at 480Mbps. This setup will let you charge the camera while tethering, without draining your computer's battery, or let you plug in potential USB-C accessories while also charging the camera or transferring data from it.
Canon, Panasonic and Nikon's cameras each only have a single USB-C port; the EOS R6 III and S1II's at least run at the same 10Gbps, while the Z6III's is 5Gbps.
The a7 V is also the first mirrorless camera we've seen to support the Wi-Fi 6E standard, which should let you transfer images off your camera wirelessly using the faster (and less crowded) 6Ghz spectrum, provided the standard is certified in your country. The rest of the cameras can only use the 2.4 and 5Ghz bands.
Outside of these two standout specs, the a7 V has the same set of ports that's become standard on this class of camera: 3.5mm jacks for microphones and headphones, and a full-size HDMI port.
HDR shooting
Like the rest of its competitors, the Sony a7 V has the option of shooting 10-bit HEIF files encoded with a high dynamic range tone curve, which will look more vibrant and capable of more realistic highlights when shown on a display capable of HDR playback*. However, you can't capture HDR output files and Raws at the same time on the Sony; it's one or the other. Neither Canon, Nikon, nor Panasonic require this same trade-off, so you don't have to give up editing flexibility for straight-out-of-camera HDR.
* - which may be easier said than done, as HEIF files don't enjoy nearly as broad compatibility as JPEGs do.
Video - resolution, framerates and workflow
The list of video modes in the a7 V is spartan compared to the ones on other cameras, but the ones it has are well-executed.
The Sony a7 V can record full-width UHD 4K footage oversampled from 7K capture at up to 60p, and can do 120fps at 4K with a 1.5x crop. Unlike its competitors, there's no option to natively record the higher-resolution capture, nor is there an open gate recording mode or internal Raw recording (or, indeed, external Raw recording via HDMI), if your shooting requires these arguably niche features.
What will likely matter to everyone shooting video is overheating performance. The a7 V has an apparently very impressive heatsink, with Sony saying you can expect to be able to record 4K/60 footage for up to 90 minutes, while Canon only quotes 23 minutes for the EOS R6 III (though you can get more out of it if you switch out of the oversampled mode). Panasonic promises essentially no limit for 4K/60 recording on the S1II following its most recent firmware update, though that camera has an internal fan to keep things cool, while the Sony does not.
The a7 V lacks the variety of assistance tools that some of its competitors have; shutter angle and waveform monitoring feel like particularly notable omissions, as they make it easier to avoid mistakes in fast-paced shooting environments.
A feature Sony includes that others don't is its "AI Auto Framing" mode, which lets you set up the camera on a tripod and have it crop in on you or another recognized subject, following it around the scene. This can automatically give you a more dynamic shot where you would've had a static one if you're shooting without a camera operator. There are also several controls for it, letting you choose how tight you want it to punch in and how quickly you want it to follow you.
Video - rolling shutter
Given the a7 V's fast sensor, it's no surprise that its rolling shutter is very well-controlled, despite the fact that its 4K modes are derived from higher-resolution capture.
Sony a7 V
Canon EOS R6 III
Panasonic S1II
Nikon Z6III
Rolling shutter rate (4K/24)
∼14.5ms (oversampled)
∼14.3ms (oversampled) ∼7.2ms (standard)
∼12.5ms
∼9.5ms
We consider rates below 15ms to be excellent, so we wouldn't expect to see jello-like artifacts in anything but the whipiest of pans, or on the fastest of moving subjects, from any of these cameras. As such, it's unlikely the differences between these cameras will matter for almost all shooting.
The extras
We wouldn't have minded a customizable front-plate button or two.
While Sony has tweaked the ergonomics of the a7 V, those of us at DPReview who've had the chance to hold it still don't find it to be quite as comfortable as the other cameras in this comparison or Sony's high-end models like the a1 II or a9 III. And while you won't find yourself starved for control points, most of the other cameras in this category do have an extra customizable button or two compared to the a7 V.
Sony has implemented a multi-shot high-resolution mode in the a7 V, which promises to capture more detail with less noise. However, as with the similar mode on the Z6III, you have to combine the photos after the fact using desktop software. The Panasonic S1II has a similar feature, but it works both handheld and with a tripod, and is combined in-camera, making it much more versatile. None of these systems will work that well with moving subjects – Sony's and Panasonic's have some level of motion correction, but you lose the benefits in areas of movement – but with the S1II's, it's easier to just try it to see if it works; if not, you'll still capture the image, just without the bump in image quality. Canon doesn't have a comparable mode on the EOS R6 III.
Summary
It's clear that the a7 V is a much better competitor to the latest crop of enthusiast cameras than its predecessor was, and is a strong hybrid offering. And while it's not the most versatile video camera out there, for those without very specific requirements, it looks to be a hugely competent all-rounder, and one that can last all day on a single charge at that. It'd be hard to pick the wrong camera in this category (or, by the same token, to declare one as head and shoulders above the rest).
We'll have to put it through more testing to see if it delivers on its promises of excellent image quality despite its speed, and to see if its autofocus meets our expectations for what Sony is capable of. If it does, it'll be a very strong contender in the market.
Many of Panasonic's lens names can look downright intimidating. Case in point, the Panasonic Lumix G X Vario PZ 45-175mm F4-5.6 ASPH POWER O.I.S. lens. It's certainly a mouthful, and can be a head-scratcher in terms of what everything means. In this article, we'll be breaking down Panasonic's lens terminology to help you read its lens names with confidence.
Mounts, lens class and collaboration branding
Like many other companies, Panasonic starts its lens names with letters or terms that indicate the mount, lens class or any collaborative branding.
Lumix G and S
Panasonic makes cameras with two different mounts: Micro Four Thirds (MFT) and L-mount. The Lumix G lineup consists of lenses specifically designed for its MFT mirrorless cameras, and therefore, they utilize the MFT mount and are not compatible with L-mount cameras. Lumix S lenses are L-mount lenses made for the company's full-frame mirrorless cameras.
Pro and X
The Lumix S Series Pro 70-200mm F4 is an L-mount full-frame lens that's part of Panasonic's Pro lineup.
Image: Panasonic
After the letter identifying the mount may come an 'X' or 'Pro' designation, such as in Lumix G X Vario PZ 14-42mm F3.5-5.6 Power O.I.S and Lumix S PRO 24-70mm F2.8. The 'X' series of lenses is exclusive to the MFT system, so you will only see that designation on Lumix G lenses. They sit at the top of Panasonic's MFT lens lineup, offering better build and image quality than those not in the X series.
The Pro series also encompasses top-tier lenses, though Pro lenses are designed for full-frame L-mount cameras. As the name suggests, they are meant for professionals. As a result, they promise more advanced optics with improved weather-sealing and autofocus compared to non-Pro lenses.
Leica DG, Summilux, Vario-Elmarit and Nocticron
The Leica DG Summilux 9mm F1.7 ASPH lens features Leica's Summilux branding. Image: Panasonic
Lastly, some lenses will have Leica-related branding that references collaboration between Panasonic and Leica. The two companies began collaborating in 2000 and have renewed their partnership multiple times since then.
If you see 'Leica DG' on a Panasonic lens, that indicates it was designed and manufactured by Panasonic to Leica's quality standards. Leica DG lenses are designed specifically for MFT systems. In addition to the Leica DG designation, you may see other Leica terms on Panasonic lenses that reference specific features.
Summilux is a Leica name that combines the Latin words 'summi' (maximum) and 'lux' (light). Lenses with 'Summilux' in their name offer a wide maximum aperture, typically ranging from F1.4 to F1.7 on MFT lenses.
Vario-Elmarit combines Leica's 'Vario' (meaning zoom) prefix with 'Elmarit,' which refers to lenses with a maximum aperture of F2.8. Lenses with this phrasing are Panasonic Leica DG zoom lenses for MFT cameras that offer a maximum aperture of F2.8 or F2.8-4 in the case of the Leica DG Vario‑Elmarit 12–60mm F2.8–4 ASPH Power O.I.S. lens.
Lastly, some Panasonic lenses feature the Nocticron branding, which is a Leica trademark that refers to premium lenses with a fast F1.2 maximum aperture.
Lens technology
The Lumix G X Vario PZ 45-175mm F4-5.6 ASPH Power O.I.S. offers power zoom capabilities (PZ), aspherical elements (ASPH) and Panasonic's enhanced stabilization (Power O.I.S.). Image: Panasonic
Panasonic also includes various lens technology features in its lens names, when applicable. These can refer to zoom, stabilization or optical design features.
PZ
PZ is a brand-agnostic term that stands for Power Zoom. These lenses offer an electronic, variable-speed zoom that's designed for video use.
O.I.S and Power O.I.S
O.I.S. stands for Optical Image Stabilizer, which is Panasonic's stabilization system that aims to reduce blur that results from camera movement. The company also offers lenses with Power O.I.S., an enhanced version of O.I.S. for even better stabilization.
ASPH and Nano Surface Coating
Some lenses feature 'ASPH' in the name, which refers to the fact that the lens uses aspherical elements to correct optical aberrations for improved image quality. Aspherical lens elements are a general optical technology used across manufacturers, but Panasonic sometimes calls attention to the feature in the lens name. If you don't see it in the lens name, that doesn't mean aspherical lens elements aren't in use; some lenses simply don't feature the term in their name.
Finally, Panasonic's 'Nano Surface Coating' is a multi-layer anti-glare coating that it applies to lens elements to reduce ghosting and flaring for improved light transmission and color rendition.
My favorite photo I took this year is a reminder that being in the right place at the right time can make all the difference between a good shot and a great one. Sony a7R V | Sony FE 50-150mm F2 GM | 150mm | F2 | 1/320 sec | ISO 800
Picking out your favorite photo that you took in a given year can be a difficult prospect, especially if you're then trying to write something meaningful about it. Which will make for the best article? The one with the best story? The one that taught me something? Or maybe the most aesthetically pleasing?
Thankfully, the choice was relatively easy this year, since there was one that had all three. Our studio in Seattle is only a few train stops away from Pike Place Market, so often when I'm testing a camera or lens, I'll leave for work a bit early so I can walk through it to get some pictures.
Another photo I took that morning. These hallways would usually be packed shoulder-to-shoulder with people during normal hours. Sony a7R V | Sony 50-150mm F2 | 110mm | F2 | 1/250 sec | ISO 2500
I must've woken up extremely early this particular morning, though, because I was there at 7:30, well before the crowds arrived and before most shops even opened. At first, I thought that would make things more difficult; if no one's here, what is there to take pictures of? I was wrong on two counts, though; one, there were at least a few people out and about, and two, being relatively alone in a place usually packed wall-to-wall with people lets you see things that you wouldn't normally see.
This brings us to the fruit stand in question. Normally, the hall behind them would be bustling with people, making it difficult for anyone in particular to stand out, and blocking many of the beautiful neon signs from most angles. This time, though, there was none of that, so I was able to spot the two people standing at the stall, their faces lit by its warm lighting, contrasting the cool dawn light that was just starting to creep into the market.
being in the right place at the right time doesn't do much for you if you don't have the right tool to capture it
Of course, being in the right place at the right time doesn't do much for you if you don't have the right tool to capture it. Thankfully, this time around, I was testing out Sony's 50-150mm F2 GM lens, which is still one of my favorite pieces of photography gear released this year (spoiler alert?). Shooting at 150mm let me really isolate the shoppers from the background, and the fast aperture works wonders with all the artificial lights, melting them away as swirls of beautiful, vibrant color. If someone asked me to sell them on this lens, this picture would be one of my opening arguments.
Of course, it would then have to be followed by some more extremely strong points, since this lens is bonkers expensive. This picture also reminds me how lucky I am that getting to test high-end photography equipment is part of my job; I absolutely could've captured something similar with a much cheaper (not to mention less bulky) setup, but I'm not sure it would've had all of the magic. That means there's almost no chance I would've gotten this picture without this job, so it's hard not to feel at least a little thankful when I look at it.
Not that it's entirely luck. That lens and the a7R V it was attached to would've done me no good if I just spent the morning sleeping in and watching YouTube on the couch. I was only able to get the photo because I made the effort to wake up early and go to a photogenic place. It's an obvious lesson, but one I'll remember going into the new year; the pictures or videos that only exist in my head won't become real unless I go out and make them real. And once I'm out, I may find things I hadn't expected that also make for a great photo.
Honorable mentions
While it was relatively easy to pick a favorite this year, there were a few other shots I took that I feel are worth highlighting. You can check them out in the gallery below.
Sample gallery
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Canon is rumored to be registering a new high-end EOS camera with dual-band Wi-Fi 6. The camera is currently undergoing wireless certification in Asia (China). This wireless system was previously used in the Canon EOS R1 and Canon R5 II (now $500 off). The following are some possibilities of what this new came may be:
The new device could be a flagship-level model like the EOS R1 or R5 Mark II, but it might be the EOS R5C Mark II. Perhaps they’ll bring back the 8K oversampling to 4K 60p capability that was present in the original R5C?
A lower-end model with newer wireless specifications. After all, Wi-Fi 6 (or even Wi-Fi 6E/7) isn’t particularly groundbreaking anymore. Given the recent release of the EOS R6 Mark III, it’s hard to predict which body will get the upgrade next – the R6C successor, R7 Mark II, or R8 Mark II.
A video-specialized EOS R3C? The LC1720 sensor has a wide range of potential applications. They could combine it with the C80’s card-slot layout and encoding options while putting it in a C500/C300-style cinema body.
Connexion
