OPPO launches the Reno3 Pro internationally with dual front cameras, quad rear cameras, and MediaTek Helio P95

OPPO had launched the Reno3 and Reno3 Pro in China at the very end of 2019, bringing over a good set of 5G phones to the Chinese market. While 5G is indeed the next step of evolution for smartphones, the rollout of this technology is at nascent stages in several parts of the world. In some regions, a 5G phone would be a fair few years early to the market, and for a consumer in those regions, it would make very little sense to pay a premium for a 5G smartphone right now. Realizing the differing need of the market, OPPO has launched a 4G variant of the Reno3 Pro for the international market at an event in India.

OPPO Reno3 Pro — XDA Forums

OPPO Reno3 Pro (4G): Specifications

Specification	OPPO Reno3 Pro (4G)
Dimensions and Weight	158.8 × 73.4 × 8.1 mm 175g
Display	6.5” FHD+ Super AMOLED display, flat 20:9 aspect ratio Punch-hole display with dual front cameras Max brightness: 800 nits; Peak brightness: 1200 nits
SoC	MediaTek Helio P95: 2x ARM Cortex-A75 @ 2.2GHz 6x ARM Cortex-A55 @ 2.0GHz PowerVR GM 9446 GPU
RAM and Storage	8GB + 128GB; 8GB + 256GB Expandable through microSD card slot
Battery & Charging	4,025  mAh battery 30W VOOC Flash Charge 4.0
Rear Camera	Primary: 64MP, 1/1.72” sensor, f/1.8 Secondary: Telephoto, 13MP, f/2.4 , 2x optical zoom Tertiary: Wide-Angle, 8MP Quaternary: Macro, 2MP
Front Camera	Primary: 44MP, 1/2.8” sensor, f/2.4 Secondary: 2MP depth sensor, f/2.4
Other Features	Under-display fingerprint sensor
Android Version	ColorOS 7 based on Android 10

 

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The OPPO Reno3 Pro 4G is similar to the Reno3 Pro 5G in terms of a few design elements, but there are a fair few differences across the devices. The first visually noticeable change is the display, as the 4G variant comes with a flat Super AMOLED display as opposed to the curved display on the Reno3 Pro 5G. Consequently, the 4G variant also loses out on some of the highlight features on the Reno3 Pro 5G, like the 90Hz refresh rate.

Powering the Reno3 Pro (4G) is the newly announced MediaTek Helio P95 SoC, coupled with 8GB RAM as well as 128GB and 256GB storage options. The change in the processor was expected since the Reno3 Pro launched in China came with 5G capabilities, and 5G smartphones in markets like India do not really make sense right now in early 2020.

The main focus of the Reno3 Pro is the camera setup, both on the front and rear. The primary 64MP sensor is capable of shooting “ultra-clear 108MP image” through clever use of multi-frame photos and sub-pixel interpolation in broad daylight. Zoom duties are handled by the telephoto camera, providing 2x optical zoom, and up to 20x digital zoom. For the front, the phone sports a 44MP main camera and a 2MP depth sensor, ensuring your selfies are top-notch, even in low light situations thanks to Ultra Night Selfie Mode.

Pricing and Availability

The OPPO Reno3 Pro will be available in India from March 6 in Auroral Blue, Midnight Black, and Sky White colors. The 8GB/128GB variant will be available at a price of ₹29,990 ($415) in the first sale; while the 8GB/256GB variant will be available for ₹32,990 ($455) at a later date. The phone will be available on Flipkart.

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Redmi Note 9 launches in India on March 12

Xiaomi’s Redmi Note lineup of devices is undoubtedly one of the most popular series from the Chinese manufacturers. The mid-range devices are known to offer great hardware at a compelling price and, as a result, they’ve been among the best selling devices from the company. For instance, the Redmi Note 7 was among the top 10 best selling smartphones of 2019 and the Redmi Note 8 and Note 8 Pro were among the top 10 best selling smartphones in Q4 2019. Xiaomi launched the Redmi Note 8 (review) and Note 8 Pro (review) in China back in August last year, featuring a Snapdragon 665 SoC and MediaTek Helio G90T SoC, respectively. The devices were launched in India late last year in October and Xiaomi managed to sell 1 million units of the two devices within a month of launch. Now, according to a recent tweet from Xiaomi’s Global VP and MD Xiaomi India, Manu Kumar Jain, the company is planning to launch the Redmi Note 9 in India on March 12.

Behold the answer to the most awaited question of 2020. Yes, the next #RedmiNote launches on March 12!

Brace yourselves because #ProCamerasMaxPerformance is going to be nothing like you’ve ever seen before!

RT with #ILoveRedmiNote to share this EPIC moment.#Xiaomi pic.twitter.com/NDwPjW9Wwh

— Manu Kumar Jain (@manukumarjain) March 2, 2020

In the tweet, Jain reveals that the next Redmi Note device launches on March 12 and the accompanying image has a large number 9 with four cameras in between. This confirms that the company will be launching the Redmi Note 9 series at the event. The tweet further reveals that the upcoming Redmi Note 9 will lay strong emphasis on the cameras and will offer “ProCamerasMaxPerformance”. As of now, Xiaomi hasn’t confirmed if it’ll be launching both the Redmi Note 9 and Note 9 Pro at the launch event, but considering past trends, it’s safe to assume that the company might launch both the devices together. Interestingly though, the Redmi Note 9 series hasn’t been launched in China yet so we currently don’t have any information about its specifications or pricing.

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Xiaomi showcases 40W fast wireless charging technology which can charge 0-100% in 40 mins

Wireless charging tech on smartphones has been around for quite a while now. However, unlike other innovations in the smartphone world, wireless charging hasn’t caught up. While this low rate of adoption can be attributed to several reasons, there’s one major issue that has limited the spread of wireless charging on modern smartphones — slow charging speeds. At a time when a wired charging connection can, most likely, get your smartphone from 0-100% in just about an hour, most wireless charging solutions on premium flagships can barely match that performance.

In a bid to address this issue, several smartphone manufacturers have been working on more powerful and efficient wireless charging tech. For instance, earlier this year Xiaomi launched its Mi 10 flagship lineup in China, which features support for 30W fast wireless charging. The Mi 10 lineup was one-upped by Vivo’s APEX 2020 concept, which features support for 60W fast wireless charging. According to the company, the 60W wireless charging solution is capable of charging a 2,000mAh battery in just 20 minutes. But since the APEX 2020 is just a concept smartphone, we can’t expect its Super FlashCharge technology to make it to production devices anytime soon. Xiaomi, however, might bring a 40W fast wireless charging solution to its devices sometime later this year.

In a recent post on Weibo, the company’s co-founder Lei Jun revealed the company’s new wireless flash charging technology which boasts of 40W output capabilities. As seen in the video above, the new fast charging technology can charge a 4,000mAh battery from 0-57% (2,280mAh) in just 20 minutes, while taking about 40 minutes to get it up to 100%. In effect, this makes Xiaomi’s wireless flash charging technology faster than Vivo’s 60W Super FlashCharge. While it would be great to see this new technology in an upcoming Xiaomi device, the company hasn’t revealed any information about the release timeline for the same. It’s also worth noting that the phone in the video is a prototype/custom Mi 10 Pro.

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Source: Weibo

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Facebook’s 3D Photos are now supported on many Android devices with single cameras

Back at Facebook’s F8 developer conference in 2018, the company first announced a new feature for the platform called 3D Photos. As the name implies, the feature lets you post and view three-dimensional photos in your Facebook News Feed. The photos appear in your news feed like any other photos, but when you scroll past them, tap on them, or tilt your device, the 3D Photo’s perspective changes. You can also use virtual reality headsets like the Oculus Go or the Oculus Rift to view 3D Photos. At the time of launch, Facebook allowed users to create a 3D Photo only if you imported a depth map file on desktop and used a dual-camera phone like the latest Samsung Galaxy or iPhone devices. The reason behind the dual camera requirement was that Facebook could create a depth map from the images captured from both cameras. Now, however, dual cameras are no longer a requirement to create 3D Photos on Android phones.

As per a recent blog post from the company, Facebook now uses AI and machine learning to create a 3D Photo without any depth map data. As VentureBeat explains, the company has improved its machine learning algorithm such that it can infer the 3D structure of images without needing depth data. Additionally, the feature now works with selfies, paintings, and complex scenes as well.

To achieve this feat, Facebook trained a convolutional neural network using millions of pairs of 3D images and their depth maps. Once trained, this neural network is now being used to infer what a 3D image should look like without the accompanying depth map. This neural network can be run on typical mobile processors in a “fraction of a second,” making it suitable for the 3D photo feature. Google also enabled a similar feature in AR Core’s Depth API late last year, which allows the platform to create depth maps using a single camera.

However, even with the new advancements, the feature has some limitations. As per a report from Engadget on the matter, while any device can now view 3D Photos in the News Feed, the ability to post a 3D photo in Facebook’s app is limited to the iPhone 7 and newer, along with a couple of “midrange or better” Android phones, including Samsung’s Galaxy Note 8 and Note 9, as well as the entire Pixel lineup excluding the budget-friendly Pixel 3A. Along with this new development, it’s also worth noting that Facebook is currently testing an image editing suggestions feature for the photos you post on your News Feed.

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Source: Facebook AI

Via: Engadget, VenturBeat

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Redmi K30 Pro Zoom Edition, Redmi Note 9, and Redmi 10X 4G names confirmed in MIUI 11

There are a handful of established players in the smartphone market; and thanks to how releases have worked out in the past, we have now fallen into a predictable pattern of releases. Every year few months, these established players release another iteration in their successful product lines, cashing in rightfully on the hard-earned goodwill from those lines. So when we hear about Xiaomi working on the Redmi Note 9, we aren’t really surprised. But when we hear about Xiaomi working on a Redmi K30 Pro Zoom Edition and Redmi 10X, we do take notice.

XDA Senior Member kacskrz discovered the names of a few upcoming Xiaomi/Redmi smartphones in the latest MIUI 11 China Developer ROM. These include:

• Redmi K30 Pro
• Redmi K30 Pro Zoom Edition
• Redmi Note 9
• Redmi 10X 4G

Of these, we already know that Xiaomi is going to launch a Redmi K30 Pro flagship smartphone in China. Xiaomi has also revealed that the Redmi K30 Pro will come with the Qualcomm Snapdragon 865 SoC as well as 5G capabilities. However, this is the first mention of a special “Zoom Edition” of the flagship. We do not know what exactly is special about this “Zoom Edition”, but judging from its name, it may obviously have something to do with better zoom capabilities on the phone.

As for the Redmi Note 9, there is no surprise that it is in the works. According to market research firm Canalys, the Redmi Note 7 had a spot in the top 10 selling smartphones globally in 2019, while the Redmi Note 8 and Redmi Note 8 Pro both occupied spots in the top 10 selling smartphones globally for Q4 2019. In fact, the Redmi Note 8 was the best selling Android smartphone for Q4 2019 — so it was entirely expected that Xiaomi would follow up with a successor.

Redmi Note 8 Pro XDA Forums || Buy Redmi Note 8 Pro from Amazon.in

The Redmi 10X 4G is a peculiar find. Xiaomi has sold several “X” phones as part of its Mi series, like the Mi 5X and Mi 6X. However, this is the first time we are hearing of a “Redmi #X” phone. We do not know what is special about this phone outside of the name. We speculate that the 10X could refer to either zoom capabilities (following the theme from the K30 Pro Zoom Edition), or it could be variant of the Redmi 10 (unlikely, since the Redmi 9 is yet to be released, pushing the Redmi 10 and then Redmi 10X to even further timelines). Curiously, the name also includes the words “4G’, which indicates that there might also be a 5G variant in the work.

We’ll let you know when we receive more information about these upcoming phones.

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Opinion: Waterfall Displays are the Future of the Glass Slab Smartphone

Curved screens have been one of the more controversial additions to phones in the past few years. A lot of phone enthusiasts dislike the extreme curves as they pose practical usability issues. Other people swear by curved displays, claiming that the look and feel of the curves are worth the usability trade-offs. This has been a hotly-debated topic and it seems as though some OEMs have decided to go to the extreme with “waterfall” displays. In my opinion, curved screens are here to stay and they are evolving into the new waterfall display.

The waterfall display can be found on two different devices at the moment, the Huawei Mate 30 Pro and Vivo Nex 3. Both of these devices have displays that curve so drastically that they wrap around to the sides of the device. This means there aren’t even physical volume buttons on the side. In theory, this sounds like it’s going to be a horrendous experience from both ergonomics and palm rejection. In reality, it makes for an absolutely incredible feeling device that also looks futuristic.

I’ve had both the Vivo Nex 3 5G and Huawei Mate 30 Pro for four months and have used both extensively. Both have different takes on the waterfall display and how it should work with buttons and user interactions.

Left: Huawei Mate 30 Pro. Right: Vivo Nex 3 5G.

The Vivo approach is probably my favorite of the two. While Huawei maintains a physical power button, Vivo removes all physical buttons from the sides of the phone. Instead of physical buttons, Vivo opted to use pressure-sensitive buttons for the volume rocker and power button. All you need to do is press where the button would be and it will work. You do get nice haptic feedback from the absolutely fantastic haptic motor to know when the button was pressed successfully.

If you’re wondering how you turn on your device since these aren’t hardware buttons, don’t worry. The pressure-sensitive buttons work when the phone is turned off! You pretty much never need to press a physical button. Vivo has included a physical power button on the top as a backup just-in-case something random happens and you aren’t able to use the pressure-sensitive buttons on the side.

This doesn’t sound like a normal phone experience, right? To the best of my knowledge, there has yet to be a phone that has come to market without the dominant buttons being physical switches. This is super weird and yet I’ve come to prefer pressure-sensitive buttons to physical buttons. The combination of superb haptics and incredible false button more than make up for the lack of physical buttons. I actually wish more manufacturers would copy Vivo and include this in their phones.

The Huawei method is a bit more conventional, but only slightly. Huawei basically shoves the power button into the side aluminum frame of the device. Describing it sounds normal until you remember, the glass and display basically make up the sides of the phone. You still have some aluminum there, but it’s towards the back of the phone. Basically, the power button is further back on the device frame than it is on most phones. This honestly isn’t a big deal and you get used to it very quickly.

Huawei did remove the volume buttons from the Mate 30 Pro, which leaves us in a weird position. There are no pressure-sensitive or capacitive buttons on the side, so there is no mechanical way to change the volume. Instead, you need to use this funky double-tap gesture. You just double tap on the top half of the side of the display on either side. It’s honestly an annoying and unnecessary gesture. I really hope OEMs don’t follow Huawei’s user experience if waterfall displays do catch on.

What about palm rejection? Well, it’s never been an issue in my experience. I haven’t had issues with the device randomly getting touches from my hands or randomly changing the volume while holding it. The algorithms these companies are using are very good. I wouldn’t even consider palm rejection an issue on most modern curved phones. As long as you hold the phone like a normal human being, you’ll be good.

I know that was a lot about the user experience and how it affects general phone functions. What about ergonomics and durability? To fully grasp the idea of waterfall displays, you really need to understand what they are. Simply put, it’s a large display with curves that fall over the sides of the phone like a waterfall. The screen essentially becomes the sides of the phone.

So about durability? Well, I don’t think it’s a major concern, but it is something people will wonder about. For the record, both the Mate 30 Pro and Nex 3 come with a case in the box and I’d expect most waterfall display phones to do the same. It’s a good way to make sure your phone is protected no matter where you go. You may not love the idea of covering such an eye-catching design in a case, though. But this is not a unique problem for waterfall phones.

The main reason I’m not concerned about durability is these phones really aren’t that different. When most phones are dropped, they are dropped on one of the corners or the front/back. The back of a waterfall phone is unchanged from basically any other phone, so you’ll have the same durability issues. Similarly, the corners are not hugely different from other phones, especially those with less extreme curved displays. Dropping any phone on a corner is not good.

The weak point of a waterfall display is where the curved display meets the back, creating a sharp edge. This edge is not as protected as the edge of a display on a normal smartphone. Other phones have more material on the sides to protect the display, but on a waterfall phone, the display is actually on the side. So if you drop the phone and the side hits something or lands just right, you could have a problem. Is this likely to happen? Probably not, but it could.

After that, it’s all about looks. Looks, of course, are subjective. To be honest, I really like the look. The waterfall display looks fantastic while down on a table or even in your hand. It just looks futuristic and feels absolutely fantastic to hold. These design traits just make for devices I want to keep using. They are comfortable, sleek, and all-around great.

Alleged Motorola One 2020 Device

I’m glad more OEMs are taking a look at these displays and adding them to their own devices. The Huawei Mate 30 Pro and Vivo Nex 3 are the only two waterfall display devices at the time of publishing, but there are more on the way. Soon, Motorola is going to launch the Motorola Edge+ and a mid-range sibling with  waterfall displays. I can only imagine what other OEMs have in the works. I’m really excited to see all of these new devices and actually get to use them.

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Dirac’s Android app seeks to improve the audio quality of your existing headphone

If you’re deeply interested in the audio quality on your smartphone, Dirac is probably a name you’ve heard before. We’ve covered the company a few times here on XDA. Dirac is a Swedish audio research company that develops audio software used by many OEMs. There’s a decent chance you’ll find Dirac’s technology in the device you own. Their latest product is all about utilizing your headphones to their maximum potential.

What is it?

The new product is an Android app that is intended to optimize the sound profile on your specific set of headphones. Something you may not realize is headphones apply their own processing to accentuate certain aspects of music. Manufacturers do this to highlight the capabilities of their headphones, but this can create audio that musicians and/or DJs don’t like. A similar thing happens with TV manufacturers. Some TVs will artificially change the refresh rate of movies, which annoys directors and actors because it’s changing the way the content was intended to be enjoyed. That’s where Dirac’s new product comes in. The company says their app applies an audio profile that “reveals” the music as it was intended, removing all of the headphone processing and “purifying” the experience.

Dirac sent us a test kit with a Pixel 3a and the Beats Solo 3 wireless headphones to try out this new product. There are a few reasons why I couldn’t use my own phone and headphones. First, Dirac’s engineering team creates individual sound profiles for specific headphones, so I couldn’t use my existing ones. Dirac creates these profiles by measuring the audio produced by the headphones in their stock configurations and then equalizing it against their own target curve, which they say they’ve tested extensively to produce the best audio. Thus, this is not a simple one-size-fits-all equalizer app for headphones.

Next, the reason I couldn’t simply download the app onto my own phone is a little more complicated. Currently, Dirac has to integrate the app into the audio framework of the OS in order to be able to apply the audio profiles. The app needs to be integrated into the software in order to be able to work with any music being played on the device. To work without that deep integration, Dirac needs partnerships with streaming services so the audio is processed on their end before being streamed to your device. This could be remedied if a future version of Android introduced an equalizer API that the app could hook into.

Using the app

The Dirac app is currently limited to a few devices, including the aforementioned Beats Solo 3 wireless headphones. The company plans to support over 100 headphones when the app is launched.

Using the app couldn’t be simpler. Once your headphones are connected, simply open the app, swipe up to begin, and choose your headphones from the list. You will then be asked to tap a button that reads “Yes, boost my headphones.” From there, you will see a progress bar fill up as the app applies a fit correction filter, adjust the hi/mid/low balance, and “[initialize] spaciousness.” Once completed, you simply tap “Let’s go” and the next screen will take you to your media player, which is Spotify in my case. Dirac’s app works with whatever audio is being played on your device, though.

The Dirac app puts a toggle switch in the notification shade so you can easily hear the difference it makes while listening to music. There is a bug in the current build of the app I tested that makes it so you hear very little difference when toggling the switch, but restarting the app fixes it. Once again, keep in mind this is only demo software.

How does it sound?

So the big question is does music sound better with the Dirac experience? In short: Yeah, it makes a pretty big difference. It reminded me of when you hear music coming from inside a car and how much clearer it sounds when the window is open. The Beats Solo 3 sound pretty good on their own, but with Dirac’s processing enabled, the music sounds “cleaner.”

Admittedly, I’m not much of an audiophile, but there are a few key characteristics I noticed. Dirac provided a playlist with songs to show off the abilities of the processing. Billie Eilish’s “Bad Guy” is a great example of how the app can improve vocal tracks. Eilish has a very unique way of singing, and her voice can sometimes get lost in the background. With Dirac enabled, however, her voice becomes much more clearly defined. You can hear the nuance in her delivery.

The Dirac optimizations don’t always make a positive difference, however. In songs that feature heavy bass, the bass becomes even more pronounced, and it can distort and mask other parts of the song. For the most part, I would say the app made the music sound crisp and full, but it definitely works better with some genres than others.

In the case of the Beats Solo 3, I don’t think the music sounded bad without Dirac’s optimizations. These are good quality headphones, but Beats products are known for having a signature sound. As someone who doesn’t analyze sound quality very closely, I would probably be happy with the sound without Dirac’s optimizations. But once you hear the improvements, it’s hard to go back.

When can I use it?

As I’ve already touched on, there are a few things holding Dirac back from being able to offer this app to everyone. The first challenge is supporting as many headphones as possible. Popular headphones such as the Beats Solo 3 and Apple AirPods will obviously be supported, but it will take time to add the plethora of other more obscure options out there.

The biggest challenge, however, is getting the app onto phones. Dirac is in talks with the “world’s largest smartphone and music streaming companies” to get the app integrated into their products. The company says they are slated to announce their first partnership in Q1 2020 (which ends March 31). Hopefully, we’ll know more about a launch timeframe with that announcement.

If Dirac can get their software integrated into smartphones and streaming apps and they support enough headphones at launch, this could be a popular tool for consumers (and maybe audiophiles). The idea of purifying the listening experience and hearing music the way it was intended to sound has always been the gold standard. This is why people spend hundreds of dollars on high-end headphones. We hope to see Dirac’s app do that for more people in the future.

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