The ASUS ROG Phone 3 now supports a special gaming mode audio profile with select ROG headsets

The ASUS ROG Phone 3 is undoubtedly one of the best gaming smartphones of 2020. But gaming performance isn’t the only thing that’s great about the device. It also packs in a fantastic 144Hz display and an impressive audio solution tuned by the audio specialists at Dirac. The device includes Dirac’s HD Sound Technology for audio enhancements like impulse response correction, frequency response correction, bass enhancements, crosstalk cancellation, volume enhancement, and a dedicated game mode audio profile. Now, Dirac is pushing a software update to select ROG headsets that will allow users to experience a special gaming mode audio profile with the ROG Phone 3.

ASUS ROG Phone 3 Review: The King of Gaming Smartphones is back

As per a recent post on Dirac’s website, the company’s new patented impulse and magnitude response correction solution is capable of digitally upgrading headset sound quality to deliver natural, balanced sound with true-to-source sound localization. Dirac claims that the solution is capable of delivering great audio performance for both gaming and music. Talking about the solution, Dirac’s Chief Sales Officer, Mats Oberg, was quoted saying:

“The core Dirac tech implemented within these ROG headsets is the result of years of work in the hi-fi and home theatre markets — where audio performance is of paramount importance. We’re now taking these technologies and acoustic principals and applying them to the gaming headset market, where sound can be the difference between an ordinary and extraordinary gaming experience. ASUS understands this, and prioritized product performance above all else, which is why they’re such a terrific collaborator in the gaming space!”

The new audio solution ensures that ROG headphones are capable of creating a balanced, clear sound so that dialogue remains crisp and voice intelligible. Additionally, the solution will also help the headphones reproduce rich acoustic detail, so even the softest, subtlest cues, like footsteps, can be heard clearly in-game. The Dirac-optimized ASUS ROG Phone 3 series of gaming headsets include: ROG Cetra, ROG Cetra Core, ROG Cetra RGB, ROG Delta, ROG Delta Core, ROG Delta White Edition, ROG Strix Go 2.4, ROG Strix Fusion 300, ROG Strix Fusion 300 PNK LTD, ROG Theta Electret, and ROG Theta 7.1.

---

Source: Dirac

The post The ASUS ROG Phone 3 now supports a special gaming mode audio profile with select ROG headsets appeared first on xda-developers.

from xda-developers https://ift.tt/3lGGhUn
via IFTTT

Huawei reportedly looking to sell part of Honor’s smartphone business

To say that Huawei is going through a rough patch would be an understatement. The sanctions imposed by the US government have been getting tighter, and the relief that was afforded is running out. An Android OEM that was once at the helm of technological innovation in the flagship space, is now forced to consider various alternatives to survive. A new report from Reuters now suggests that Huawei is looking to sell parts of its subsidiary, Honor, and its smartphone business.

According to Reuters, Huawei is in talks with suitors like Digital China Group, TCL, and Xiaomi, to sell parts of its Honor smartphone business to them. If a deal comes to fruition, Honor could be sold for as much as 25 billion CNY ($3.7 Billion). The scope of the sale is yet to be finalized, but it could include Honor’s brand, its R&D division, and the accompanying supply chain management business.

Selling off Honor would allow some reprieve to both Huawei and Honor. Huawei can recoup some of its associated costs, while allowing Honor and its business to rest in hands that are not affected by the US sanctions. It will also allow the company to focus better on higher-end Huawei smartphones, as Honor largely marketed itself at demographics like the youth and the budget-conscious.

Digital China Group has emerged as the frontrunner for the deal. According to Wikipedia, Digital China was spun off from Legend Holdings. Legend Holdings, in turn, became Lenovo in 2001. And as frequent readers may be aware, Lenovo Group also owns Motorola following its sale from Google. As far as we could tell, Legend Holdings/Lenovo is not directly associated with this sale. It remains to be seen how the deal eventually pans out, and which assets get sold to whom. For now, Honor is with Huawei.

---

Source: Reuters

The post Huawei reportedly looking to sell part of Honor’s smartphone business appeared first on xda-developers.

from xda-developers https://ift.tt/312R7fo
via IFTTT

Here’s how to enable custom reactions in Facebook Messenger right now

Facebook is known for testing new features with users all the time. Some are cool and useful, however, many are often held behind a barrier of exclusivity, with some people seemingly getting whatever the new feature is and many more not. One such feature is custom reactions, which Facebook said is coming to the Messenger platform soon. Message reactions are fun and useful ways to quickly communicate, but the ones that Facebook Messenger offers by default don’t cover all the bases. I discovered a way to enable them, and all you need is your computer, Tampermonkey, and a script that I wrote.

Enabling custom reactions in Facebook Messenger

First of all, you’re going to need to install Tampermonkey as a Chrome or Firefox extension. Tampermonkey is an extension that allows you to run “userscripts” on pages, which are custom JavaScript programs to modify pages, and we’re going to use it to enable custom reactions. Once you install Tampermonkey, click your extensions in the top right and select the Tampermonkey icon. You’ll be greeted with this screen.

Click “create a new script”.

Next, you’ll want to paste in all of the following code into the window that you’ve been brought into.

// ==UserScript==
// @name         Enable custom reacts
// @namespace    https://www.xda-developers.com
// @version      0.1
// @description  Enable custom reacts
// @author       Adam Conway
// @match        https://www.messenger.com/*
// @grant        none
// ==/UserScript==

(function() {
  'use strict';

  const heart = '\u2764';
  const clown = '\u{1F921}';

  const heartEncoded = encodeURIComponent(heart);
  const clownEncoded = encodeURIComponent(clown);

  const promptText = `React with:
1: ${heart} (Heart),
2: ${clown} (Clown)`;


  const oldOpen = XMLHttpRequest.prototype.open;

  XMLHttpRequest.prototype.open = function() {
      const query = arguments[1];

      // Catch heart react specifically
      if (query.includes('ADD_REACTION') && query.includes(heartEncoded)) {
      // Get replacement reaction
      const new_reaction = Number.parseInt(prompt(promptText, '2'));

      // Replacing queries
      if (1 === new_reaction) {
        arguments[1] = query.replace(heartEncoded, heartEncoded);
      } else if (2 === new_reaction) {
        arguments[1] = query.replace(heartEncoded, clown);
      }
    }

    // Send
    oldOpen.apply(this, arguments);
  }
})();

Click File -> Save, and then reload Messenger’s Website on your computer. Make sure that your heart react is set to the default heart react, and not the purple heart react. If it worked, try to react to a message on Facebook with a heart and you’ll get this prompt at the top.

Type “2” and you should see that you reacted to the message with a clown face.

Next, restart Facebook Messenger on your phone, and you should see the following when you try to react to a message.

And that’s it!

Let us know if this worked for you in the comments below, or if you’re one of the lucky ones to get custom reactions in Facebook Messenger already!

The post Here’s how to enable custom reactions in Facebook Messenger right now appeared first on xda-developers.

from xda-developers https://ift.tt/374DfVK
via IFTTT

Google tests a new background suspension feature in Android 11 that could improve battery life

Unless you have a considerable amount of RAM on your Android smartphone (some Android phones are coming out today with up to 16 GB of RAM, an amount that would’ve been unthinkable 4 or 5 years ago), you might have found that multitasking on Android can sometimes be a less than stellar experience. Efforts are made with almost every major Android release to try and fix this. But you still need a lot of resources: using a smartphone with 4 GB of RAM in 2020 can get pretty limiting, and 2 GB is only reserved for the absolute low-end of the spectrum. Sometimes it also comes down to a choice between battery life or multitasking, though, as apps running in the background can hog battery heavily. In an attempt to improve battery life, Google is testing a new feature on Android 11.

This feature allows users to freeze apps while they’re cached, preventing their execution and improving battery life considerably as frozen apps won’t use any CPU cycles. We’ve actually spotted this feature a while back and gave it some coverage in our source code analysis. Back then, the feature wasn’t live for anyone: we briefly spotted it in Android 11 Beta 2, and thanks to the source code, we got to know a little about how it was supposed to work, but we could not actually enable it.

From the source code, we can see that the feature is intended to “freeze apps when cached and unfreeze them once removed from the cache or killed. Frozen apps won’t use any CPU cycles, reducing power consumption for misbehaving processes which might attempt to run while cached.”

Now, however, the feature was spotted by a user on Reddit. Not only it was activated, but the feature seemed to be enabled by default, as the post guided people to disable it in order to get better multitasking performance. The post author was using a Pixel 3 on Android 11. Our editor-in-chief, Mishaal Rahman, also independently confirmed that the feature started showing up on his Pixel 4.

Here are screenshots pic.twitter.com/hHkTyDiyrn

— Mishaal Rahman (@MishaalRahman) October 14, 2020

This feature could improve battery life by preventing cached apps from executing, but it also means that it’ll take longer to re-open apps you just closed if this feature kills them. Depending on what you prefer, you need to take a decision on whether you want this feature enabled or disabled.

The post Google tests a new background suspension feature in Android 11 that could improve battery life appeared first on xda-developers.

from xda-developers https://ift.tt/3iXsyqj
via IFTTT

20+ Tips & Tricks to help you master PUBG Mobile

PUBG Mobile continues to be one of the leading mobile games around the globe. It has managed to earn over $3.5 billion in player spendings ever since its launch in 2018, out of which over $500 million were made in just 72-days earlier this year. According to a report by Sensor Tower, PUBG Mobile is also the top-grossing battle royale game beating the likes of Garena Free Fire, Knives Out, Fortnite, and Call of Duty: Mobile.

India notably has been the largest country in terms of game installs. However, with the recent ban in place, the numbers are expected to change drastically. PUBG Corp, the South Korean company responsible for publishing the PC and console version of the game, has cut its ties with Tencent for PUBG Mobile in India. PUBG Corp is said to be working on finalizing a deal with a new brand that can handle the game’s distributing rights. We don’t know if and when the ban will be lifted.

Now if you are still playing the game and want to improve your skills, we have just the guide for you. Here are some valuable tips that can help you earn that chicken dinner.

Looting in PUBG Mobile

You need to be very efficient when it comes to looting. Make quick decisions and do not spend much time picking up items. It is best to keep moving while grabbing items as you see and discard the ones you don’t need, later in the game. If you have enemies in your area, quickly grab a gun and some protection.

Ammunition

Managing ammunition can get tricky. Pickup all types of ammo in the first few minutes of the game, until you find a good set of weapons that you are satisfied with. You should drop any unnecessary ammo from your bag to make space for other items. We also suggest marking the ammo that you have dropped, in case your teammate finds it useful. Keep a constant eye on the amount of ammo you are carrying and keep looting crates of enemies as you progress in the game. Also, make sure that you keep reloading your gun to avoid delays in between battles.

Share resources

It’s a good habit to share your loot with teammates. There is no point in hoarding items if you have no use, rather pass it on to someone who might actually need it. Mark items on the ground and inform teammates about them especially if you find extra ammo, scopes, or heals.

Use the best graphics settings

PUBG Mobile is a resource-intensive game. Most flagship phones and tablets should offer you the highest level of graphics. Our advice is to set your settings to Smooth along with the maximum frame rate available for your device. Currently, 90fps is the highest setting which makes the gameplay quite fluid. Of course, you would need a phone or tablet that comes with a 90Hz refresh rate display or above. A faster frame-rate also means that the game will respond faster to your commands.

Headphones are a must

PUBG Mobile is a lot more than just gunfights and explosions. You need to be very careful about enemies lurking around, especially the ones who camp. Having a good pair of headphones ensures that you can hear enemies approaching you on foot or in vehicles. Using headphones can also help you get a fair idea of gunshots fired nearby so you can be alert for a potential incoming attack. Moreover, headphones are a must if you are playing the game with your friends for effective communication.

Voice command presets on PUBG Mobile

If you are playing as a duo or squad, you need to actively communicate with your teammates. The game comes with preloaded voice commands that you can quickly access which makes it easier to communicate. Some of these commands also come with the ability to drop a marker. This makes it easier for other players in your team to pinpoint the location of enemies, vehicles, loot items, and so on.

In-game voice chat

Of course, the best and most effective way to communicate is to use the in-game voice chat option. Before you leave your mic on, make sure that you are not playing in a noisy environment as it can be very distracting for the rest of the players in your team. There are toggles to quickly switch your mic on and off or you can rely on the ‘tap to speak’ option. Additionally, use the compass that is on the top to give precise directions to your crew.

Third-person view

We can’t stress this enough, but make good use of the third-person view to your advantage. Don’t rush to attack your opponents, instead wait for them behind a wall and let them approach you. Attack your enemy when they are most vulnerable and unaware of your location. There is a learning curve to efficiently killing an enemy using a third-person view. But once you have a fair idea, you will gain the confidence of performing a clutch and finishing a full squad all by yourself.

Pre-fire

Pre-firing or shooting right before you get the enemy in your aim has its benefits. By doing so, not only are you reducing the reaction time for your enemy to attack you, your bullets are expected to land faster and effectively. This is best for close-range fights and does not apply to bolt-action sniper rifles.

Under-rated weapons on PUBG Mobile

The game offers a wide variety of weapons and while some might look useless, they can be very deadly. Do not under-estimate the ability of shotguns, or some of the SMGs like UZI and UMP45. They can be your lifesaver in the early stages of the game.

Peek and Fire

Do not expose yourself especially when you know there is an enemy sniper around. Use the peek option which is available under basic settings. It is switched off by default so make sure you enable it. There are additional settings for the peek option so try to experiment with these as well.

Notice your surroundings

Having a keen eye is very important. All doors are closed when the game starts, so if you see one that is open, it means someone has been there. You can confirm this by checking the available loot in that area.

How to run fast

The best way to run fast is by putting away your weapon. You can also consume some boosters like pain-killers or energy drinks to increase your pace.

Red zone and blue zone

The red zone is a randomly placed area on the map and should be avoided at all costs. Take cover until the zone clears else you could be blown away by the bombs dropping from the sky. As for the blue zone, the first two circles do not inflict a lot of damage, so don’t panic. It is the last few circles that you need to worry about.

Single fire mode

There are certain guns that can be used to fire a single shot instead of burst or automatic. This means you need to constantly tap the fire button. Now that might sound inconvenient, but it can be beneficial in certain situations especially if you have a DMR weapon or the M16A4.

Auto pick up

PUBG Mobile offers the ability to auto-pick items. You can enable or disable this feature from the settings and even set the limit for ammo, recovery items, throwables, and scopes. This can be really handy as it avoids picking up every single item on the ground and saving crucial space in your backpack.

Avoid getting shot

If you are being shot at, do not run in a straight line. Try to zig-zag and jump around to avoid the bullets. If an enemy has shot you from a distance, laying down is the worst thing that you can do. Try to get cover and immediately look at the mini-map to get an idea of the direction from where the shot was taken.

Gyroscope

PUBG Mobile can make use of your phone’s gyroscope. It does have a learning curve, but once you get the hang of it, you will have much better control over your aiming and gun recoil. You can enable it by heading to Settings>Basic and fine-tune it by going to Settings>Sensitivity.

Sensitivity

Having the right sensitivity can make a huge difference. There are different sensitivity settings for the camera, ADS (aim down sight), and the gyroscope as we mentioned above. Each has different sliders for different scopes and camera views. It might look a little overwhelming at first but you can choose an overall setting that is available on the top. Eventually, you can customize them as you get a better hold of the game.

Use vehicles wisely

There are various vehicles that you can use in the game. Be mindful while driving as it is easy for enemies to spot you because of the noise they make. You also need to keep an eye on the health bar of your vehicle or you might end up in a pile of roasted junk. It is also a good habit to carry a gas can so you can refuel your vehicle when required.

Plan your attack

Make a strategy before rushing into a building for an ambush. Check your corners, listen to footsteps, use grenades, and coordinate with your team to efficiently hunt down opponents. Running straight into the enemy will never do any good.

PUBG MOBILE - NEW ERA (Free⁺, Google Play) →

The post 20+ Tips & Tricks to help you master PUBG Mobile appeared first on xda-developers.

from xda-developers https://ift.tt/3jWxr4t
via IFTTT

Why the Google Nest Thermostat is a perfect way to start your smart home

Google is looking to a new generation of smart homes with the launch of its latest generation of Google Nest Thermostat. It marks ten years since the first (pre-Google) Nest Thermostat brought home automation to an audience beyond James Bond movie villains and offers more features at a lower price. Here’s everything you need to know.

What is it?

It’s just called the Google Nest Thermostat — not to be confused with the original Nest Thermostat or last year’s Nest Thermostat E.

What does it do?

If you’re a complete smart home novice, then welcome! This new model is aimed at you. (Though it also contains some new features for the stalwarts, too). Essentially, a Google Nest Thermostat replaces your existing ‘dumb’ thermostat, allowing you to control and programme your heating and HVAC cooling systems from your phone.

It can be controlled manually via the on-screen display, through the Google Home app, or by voice with Google Assistant. But its real power comes from its ability to make intelligent decisions that go way beyond making your house a certain temperature at a certain time. Using an array of sensors, it can look at whether you’re actually in the house to enjoy the climate, and even detect boiler/HVAC problems before they occur.

Why do you need one?

More than any other smart home device, the answer is ‘because they pay for themselves’. Features such as presence detection mean that if you go out, your heating can be automatically switched off, saving you money. It also allows you to set up routines at a granular level. If you work outside the home, it doesn’t just switch on the heating at a set time but can actually use the Google Home app to detect when you’re on your way.

More than this, the Google Nest Thermostat can actually make suggestions to adjust your settings to help you save even more. It can even tell you if the boiler is playing up, before it fails completely.

What’s different about the new Google Nest Thermostat vs Nest Thermostat E?

There are a number of tweaks. First of all, the design has been simplified. Though superficially similar to previous models, its smaller, thinner, and does away with a physical dial in favour of touchscreen gestures.

Left: Nest Thermostat E. Right: New Nest Thermostat.

The biggest change is the use of Soli radar that we first saw in Google’s Pixel 4 smartphone. Here, Soli is used to spot you approaching and light up the Nest Thermostat display without you lifting a finger. The tech also allows the geofencing feature to be pinpoint accurate, making Home/Away Assist work flawlessly (in theory anyway).

In keeping with Google’s sustainability programme, the new model is made from 49 percent recycled materials. A ‘Trim Kit’ is also available to help cover up any unsightly marks left by your old thermostat during installation.

What about older models?

The previous generation Nest Thermostat E has been taken off sale by Google already, but it hasn’t gone away completely. Google will still be offering it to the trade for new build housing and remodelling purposes, but consumers will be limited to the newer model.

In fact, if you do some digging, you may find places still selling the 2015 model, which plays nicer with high-end HVAC systems. Expect to pay a pretty penny for that one though.

Is there anything it doesn’t do?

Yes. Because the new Google Nest Thermostat doesn’t currently offer controllers for the devices in each room (radiator valves for example), it can’t turn your bedroom off during the day but keep the rest of the house warm, or only heat the bathroom when you draw a bath. In addition, there are no sensors for air quality or mitigating factors like if you’ve left a window open. German firm Tado offers all these features — but it’ll cost more than $130.

When is it available?

Google is offering pre-orders now for U.S. and Canadian customers with delivery due in “the coming weeks”. Once it’s available, it’ll also be available from all the usual outlets. No word on international availability yet, but we’d expect to see it reach Europe and Asia sometime in early 2021.

Pricing is significantly lower than previous models, clocking in at $129.99 (U.S.) and CA$179.99 (CA). The thermostat comes in 4 colors: Snow, Sand, Fog, and Charcoal.

Google Nest Thermostat

At $129, the new Nest Thermostat is cheaper than the Nest Thermostat E or Nest Learning Thermostat (Third Generation). If you're looking to turn your home into a smart home, a smart thermostat is a sound purchase.

Buy at Amazon

Featured image credits: Google

The post Why the Google Nest Thermostat is a perfect way to start your smart home appeared first on xda-developers.

from xda-developers https://ift.tt/2GXjLYq
via IFTTT

The Definitive Guide to 5G: Everything you need to know about 5G

It’s fair to say that since the last couple of years, there has been no buzzword having as strong a marketing impact as the word 5G. The word signifies so much that the industry has been promoting it every nook and corner. New smartphones support 5G. New carrier deployments talk about 5G services. Chip vendors talk about 5G modems and SoCs. Device makers upsell 5G as the “next big thing” that will “change users’ lives.” Depending on who you talk to, you’ll hear different things about 5G. Is it mildly upgraded 4G mobile broadband, or is it the technology that will connect industries and services, power a massive number of IoT devices, and serve as the backbone support for future innovation? What is 5G, exactly? Is it worth the hype?

5G will be a big part of the mobile era in the 2020s, and it will be tough to separate the wheat from the chaff. What do consumers need to be aware of? This is our in-depth guide to 5G where we’ll lay out the answers to these questions.

What is 5G?

5G is the fifth generation mobile network. 5G NR (New Radio) is the air interface that powers 5G, succeeding 4G LTE. The 5G specification was developed by the 3GPP, an industry standards body. Release 15 of the specification was completed in 2018, while Release 16 was completed in June 2020.

Similar to 4G, 5G is a cellular mobile network that powers mobile broadband. It uses different radiofrequency (RF) waves than 4G, but the underlying principle is the same: networks are divided into cells, and devices get cellular connectivity by connecting to radio waves emitting from a carrier-installed node. The big benefits of 5G over 4G are increased capacity, higher bandwidth, and higher speeds.

The background

Every ten years or so, mobile networks get a technology upgrade in terms of the standard. The 1G networks of the 1980s were analog networks. The release of 2G GSM was a big milestone back in 1991, as 2G networks were digital networks. 2G networks, for example, brought support for SMS texting. There were two types of 2G networks: GSM and CDMA2000. The 2G GSM networks later brought rudimentary and slow mobile data in the form of GPRS and EDGE (2.5G and 2.75G respectively). Browsing the web with 2G meant waiting minutes for a web page to load, but this was only the beginning of mobile Internet.

The first commercial 3G networks were rolled out in 2001. While 2G signified digital voice calling, 3G signified mobile data. Just like 2G, 3G was of three types: WCDMA (which was used in global phones), and EVDO Rev A. It took a long time for 3G networks to proliferate across the world; India, for example, didn’t have 3G networks until 2010. While mobile Internet was a viable venture with 3G, data speeds weren’t that good, as 3G UMTS only had a 144Kbps data speed target in the beginning. HSPA and HSPA+ (3.5G) did improve data speeds, but for the most part, browsing the web on 3G was a slow experience with speeds ranging from 1Mbps to 10Mbps on average.

Then came 4G LTE networks, starting in 2010. 4G was the standard that made fast, usable mobile data a reality. It had a data download speed target of 100Mbps, but most 4G networks these days have only 10-50Mbps download speeds because of congestion. It unlocked new industries such as ride sharing. It brought IP-based telephony in the form of Voice over LTE (VoLTE). 4G LTE was the successor to both global 3G (WCDMA/UMTS/HSPA) and EVDO Rev A. 4G networks were the best yet, and smartphones featuring 4G were more powerful than ever. 4G has been iterated upon by LTE-Advanced, and advancements in 4G keep happening with new modem chips being released every year. 4G is a mature technology, one that has changed the world.

With ever-increasing data requirements, though, 4G couldn’t keep up. 4G networks were starting to become congested, and as more consumers used them, data speeds started falling.

The time for a new cellular generation had arrived.

5G networks and modems have been in development for four years now, but commercial 5G only started to became a reality in 2019. In 2020, more 5G networks were rolled out, and more 5G devices were released on the market. 5G is still not a mainstream reality for more than half of the world, but over the next five years, that will change. The roll out of 4G networks is nearly complete, and so, carriers will now turn their attention to 5G.

The applications of 5G: cellular data and voice, enterprise solutions, and IoT

5G is a broad term. Generally speaking, it has applications in three fields:

• Mobile data and voice
• Enterprise solutions
• IoT connectivity

5G for smartphone users deals with the first field. The enterprise sector will, no doubt, benefit from it as well, with applications in industries such as driverless cars, smart cities, uses in the medical sector, smart machinery, smart manufacturing, etc. With respect to the third field, IoT, the telecommunications and mobile industries have been proclaiming for years that 5G will connect Internet of Things (IoT) devices in massive numbers. Everything around us will be connected. Will it happen? Possibly. For smartphone users, the latter two fields are academically interesting, but it’s the first field—mobile data and voice—which actually matters for end users.

Source: Huawei

For smartphone users, 5G refers to faster data—much, much faster in some cases. The new networks also promise incredibly low latency, on par with wired broadband. This will be a big deal for use cases such as multiplayer cloud gaming which rely on extremely low latency. While 4G networks have never managed to get latency down to wired broadband levels, 5G is promising just that.

5G will also have much higher bandwidth and network data capacity. Supposedly, it won’t be as overwhelmed as 4G was when a huge number of users begin using the network. For carriers that have overwhelmed 4G networks, 5G will represent improved quality of service, less downtime, and a better customer experience.

It’s all about the speeds, though. The 5G specification targets 20Gbps maximum downlink speeds, which is ten times more than the highest 4G LTE modem chip (which go as high as 2Gbps). Of course, 20Gbps is only a theoretical target so far. The best modem chips released by chip vendors Qualcomm and Samsung can go as high as a theoretical maximum of 7.5Gbps (when using millimeter wave 5G) and 5Gbps (when using sub-6GHz 5G). In the real world, some mmWave 5G networks have gone as high as 1.5Gbps downlink, while sub-6GHz 5G networks have gone as high as 600-700Mbps.

Source: OpenSignal

With these speeds, consumers will naturally expect 5G to be an order of magnitude faster than their existing 4G LTE networks. It’s more complicated than that, though. Networks such as T-Mobile and AT&T’s low-band 5G networks are only slightly faster than 4G networks, to the extent where some are calling them 4.9G. In some cases, they may even be slower. A 5G network doesn’t necessarily mean it will be substantially faster than a 4G network, because it’s all about the radiofrequency spectrum. The rabbit hole here is quite deep, so you can have 5G networks with data downlink speeds of only 30-50Mbps, while other mid band 5G networks can go as high as 500-600Mbps. Networks vary. Network types vary as well.

The technology behind 5G: OFDM, spectrum, and modes

Speaking broadly, 5G is powered by the same technology that powers 4G: orthogonal frequency division multiplexing (OFDM). I’m not going deeply into technical specifics here. OFDM is a type of digital transmission and a method of encoding digital data on multiple carrier frequencies. It’s robust and efficient, so it’s the technology of choice. 5G incorporates both frequency division duplex (FDD) and time division duplex (TDD) technologies, just like 4G (FDD-LTE and TDD-LTE).

The key characteristic that separates 5G from 4G is spectrum. Spectrum is the range of electromagnetic frequencies that are used to transmit data through the air. 5G can use a broader spectrum of RF waves than 4G, which gives it the ability to provide higher speeds and higher data capacity. 10-20MHz of 5G spectrum in a low band such as 600MHz will give speeds ranging from 50Mbps-100Mbps, but with more spectrum, the speeds go rapidly up.

4G spectrum can also be re-purposed thanks to a technology called Dynamic Spectrum Sharing (DSS). This is what carriers such as AT&T is doing in the U.S. The highest 5G speeds will only be achieved with different spectrum, though.

There are two modes of 5G: non-standalone mode (NSA) and standalone mode (SA). Right now, nearly every carrier is relying on NSA 5G. Here, the 5G network is dependent on 4G base stations and 4G core network. The data link transfer in such networks is using 4G network facilities. NSA is easier for carriers to deploy as they can reuse their 4G core networks and network facilities. The disadvantage here is that it’s dependent on 4G so speeds won’t be as high, while latency won’t go as low as it can go in SA mode.

Source: Samsung

The SA mode is the true 5G dream that has yet to be widely realized. A few mobile network operators like T-Mobile in the U.S. have started to flip the switch for SA mode, but a broader roll out will happen in 2021 for more carriers. SA 5G networks are completely independent of 4G, as they use a 5G core network and independent network facilities. The data link transfer here doesn’t rely on 4G, which means SA networks can promise much higher speeds and much lower latency.

Newer smartphone releases powered by the latest modems support both modes, meaning they support future SA networks in addition to the current NSA networks.

Network bands explained

Sub-6GHz – Low band and mid band

There are two types of 5G. One is sub-6GHz 5G, which can be thought of as the true successor to 4G LTE. The other is millimeter wave 5G (mmWave). When you read about 1Gbps downlink speeds and line-of-sight to node requirements, you’re reading about mmWave. When you read about reliable 5G networks that actually work indoors and with real-world speeds of 100-500Mbps, you’re reading about sub-6GHz.

Most consumers will only experience sub-6GHz, because globally, carriers have been intelligent enough to treat mmWave with caution. In some countries such as the U.S., though, carriers have (cynically, in my opinion) launched mmWave first because of the initial lack of available sub-6GHz spectrum. While countries such as Russia, Japan, and South Korea have joined the mmWave bandwagon, the vast majority of the world has chosen to play it safe with sub-6GHz.

What do these terms mean, though?

Sub-6GHz 5G (also referred to as sub-6) means the radio frequencies of the network bands are lower than 6GHz. (As an aside, all 4G bands are sub-6GHz.) mmWave, on the other hand, means the radio frequencies of the bands are higher than 6GHz. mmWave bands range from 24GHz all the way to 100GHz, but in practice, carriers have rolled out networks ranging from 26GHz-39GHz so far.

Sub-6GHz is of two types: low band and mid band.

Source: T-Mobile

Low band 5G is similar to the FDD-LTE bands that are used in 4G networks today. These bands have the lowest radio frequencies of the 5G “layer cake” dubbed by T-Mobile. T-Mobile has a 600MHz “nationwide” 5G network in the U.S., for example, while AT&T has a similar 700MHz network. Low radiofrequency bands like these are the best at penetrating obstacles like buildings, trees, and reaching as far as geographically possible from a given carrier-installed node. This makes these bands the optimal choice for providing great indoor coverage. Conversely, however, their low frequencies means they have the lowest capacity to carry data, which, in turn, means speeds won’t be that great.

Common questions on Google Search are already asking: “Why is 5G so slow?” To some extent, that’s a U.S.-specific issue. The U.S. has gone all-in with low band and mmWave, missing the crucial mid band part of the equation. Both T-Mobile and AT&T’s nationwide 5G networks are available to hundreds of millions of people, but their data speeds aren’t impressive at all. At most, they can reach 225Mbps, but in the real world, it’s far more likely for them to reach 50-100Mbps, with speeds going as low as 20-30Mbps, which is indistinguishable from average 4G.

5G networks in other parts of the world, such as South Korea, Japan, and the UK, don’t suffer from this issue as they have emphasized the need for mid band. Low band networks will continue to be a part of the layer cake, but for now, the U.S. is placing too much emphasis on them. The problem is compounded by the fact that carriers lack the critical spectrum necessary to enable these low band networks to achieve their full potential in terms of data speeds.

Mid band is the optimal choice for building a 5G network. Mid band frequencies such as the popular 3.5GHz band as well as the 2.5GHz band aren’t the best at penetrating obstacles unlike low band frequencies nor can they carry as much data as mmWave frequencies. They aren’t the best for either indoor coverage or for the highest data speeds, but they are the best all-rounder. Mid-band coverage is acceptable as long as carriers are willing to install the appropriate number of nodes at any given location. Also, data speeds aren’t an issue as long as there is enough available spectrum for carriers to use. After all, 4G bands such as TDD-LTE band 40 (2300MHz) are also mid band, and carriers like Jio and China Mobile have used them with success in India and China respectively.

The spectrum issue is where the U.S. carriers ran into a roadblock. Up until now, none of the three major carriers in the U.S. have rolled out a mid band network for hundreds of millions of people. After merging with Sprint, T-Mobile has started building a mid band network, but it’s available only in a few cities so far. Verizon and AT&T have yet to roll out mid band 5G networks because they don’t even have the available spectrum. The U.S. FCC freed up valuable spectrum in the C Band earlier this year, much later than other countries. Both Verizon and AT&T have stated they plan to roll out their mid band networks in 2021. Consumers can only wait.

Consumers of mid band 5G networks in countries like South Korea have reported great speeds, and that’s the model the rest of the world should follow.

The controversial nature of mmWave

mmWave 5G is an entirely different matter. It turns out all the objections that many informed people in the telecommunications industry had to mmWave were correct. Yes, it does bring incredibly high speeds—speeds can regularly break the 1Gbps barrier for downlink. Yes, it does have low latency. However, none of that matters to any appreciable extent when you consider the limitations of the technology.

mmWave requires a line-of-sight to the carrier-installed node. The mmWave bands use incredibly high radiofrequencies, starting at 24GHz. These frequencies are blocked by obstacles like buildings, trees, and even a user’s hand. Even rain will degrade the signal. The geographical reach of these frequencies is only about 500 meters. It means that unless carriers install nodes in every lane, street, and neighbourhood, an mmWave signal will never be available to most consumers. You can use beanforming and place multiple antenna modules in a phone, but you can’t overcome physics at the end of the day.

Yes, these limitations are because of physics. There is a reason why so much spectrum was unused in these high frequencies. Using them for a mobile network that actually depends on radio waves reaching as far as they can is a bad idea. It’s a bad idea in principle, and carriers are only now starting to realize that. In the U.S., for example, T-Mobile has stopped promoting its mmWave 5G network that is available in select locations in select cities in the country. AT&T’s mmWave network isn’t even available to general consumers as it’s restricted for businesses. It’s only Verizon that has kept bragging about its mmWave “5G Ultra Wide Band” network, but once the novelty factor of 1Gbps speeds wears off, there is precious little utility to these newfangled networks.

The argument can be made that mmWave 5G works best when intended for crowded settings like landmarks, stadiums, meeting halls, etc. I would still disagree, as mid band 5G is just a far better compromise. Which sounds better: 1Gbps 5G with a signal that disappears as soon as you walk away from the public landmark, or 600Mbps 5G with a signal that actually keeps up when you head indoors? I know which one I would choose. Besides, it’s a far easier choice for carriers as well: spend less money on installing mmWave nodes, and have a network that can be used by more people over a wider geographical area.

Thankfully, as I mentioned, the vast majority of carriers have stayed far away from mmWave. 5G roll-outs in places like Saudi Arabia, Europe, and China are all based on mid band, and in some cases, complemented with low band.

The 5G ecosystem

The technology itself is nothing without its ecosystem. The 5G ecosystem consists of carriers that roll out 5G networks, network chip manufacturers, chip vendors that sell modem chips to enable smartphones to connect to these networks, and device makers that sell phones to end consumers. Other stakeholders in the industry include governments and their anti-trust bodies, contractors, and more.

Source: Newzoo

Carriers

In June 2020, 35 countries had rolled out some form of a 5G network up until now. There are 195 countries in the world, so there is still quite a way to go before 5G networks are available in even half of the world’s countries. At this point, Qualcomm will point out that 5G adoption has been faster than 4G LTE so far. Quite a few more networks are stated to go live in 2021.

In some countries like China, South Korea, and the U.S., 5G networks are available for millions of people. In contrast, there isn’t a single live 5G network in India, for example. Generally, the roll out of 5G has started earlier in developed countries, while emerging markets are taking their time. An optimistic argument can be made that within five years, most of the world will have it. Right now, though, for many places, it’s still a far off dream.

Examples of carriers that have rolled out 5G on a meaningfully substantial basis include China Mobile, SK Telecom, T-Mobile, AT&T, EE, and more.

Chip vendors

Now, there are two kinds of chip vendors. Vendors like Huawei, Nokia, Ericsson, Samsung, and ZTE sell 5G network chips to carriers to build base stations and carrier nodes. Thanks to political and security allegations, Huawei has been blocked from selling or having any part in the 5G networks of most Western countries, especially the U.S. This leaves Ericsson and Nokia to carry the mantle. On the other hand, it is generally accepted that Huawei has a technological advantage in network chips, and China’s 5G networks have been built by Huawei. With the trade ban on HiSilicon, though, it’s unclear how things will proceed in the future.

The other type of chip vendors are those that sell modem chips to smartphone device makers. Qualcomm is the prime example here, but Samsung Systems LSI and MediaTek also play a part. Huawei’s HiSilicon Group’s modem chips were used by Huawei itself, but with the coming dissolution of HiSilicon, this seems to be coming to an end.

Qualcomm’s first-generation X50 5G modem-RF system was announced back in October 2016, and it powered the first wave of 5G phones in early 2019. The 7nm second-generation X55 modem-RF system powered a few late 2019 Snapdragon 855-powered phones, but it came into widespread use in 2020. It’s paired with the flagship Snapdragon 865 SoC, which doesn’t have an integrated modem of its own. The 5nm third-generation X60 modem was announced by Qualcomm in February 2020, and it will likely show up in phones launching early next year. It brings innovations such as carrier aggregation of different 5G modes, higher downlink speeds, and more.

Source: IHS Markit

Qualcomm also brought 5G to the upper mid-range price tier with the launch of the Qualcomm Snapdragon 765 in December 2019, which had its own integrated Snapdragon X52 5G modem. It had lower specifications, but supported both sub-6GHz as well as mmWave. In June 2020, the company then brought 5G to the lower mid-range price tier with the announcement of the Snapdragon 690, which supports sub-6GHz 5G (and not mmWave).

Samsung Systems LSI’s first 5G modem was the Exynos 5100, which powered the first 5G Exynos phones last year. It was succeeded by the Exynos 5G Modem 5123, which is used in the 5G Exynos 990-powered variants of the Galaxy S20 and Galaxy Note 20 series. The mid-range Exynos 980 SoC is also 5G capable. Apart from Qualcomm, Samsung is the only chip vendor that produces and sells mmWave 5G modems. The 5G Exynos variants of the Galaxy S20 and the Galaxy Note 20 have mmWave support.

MediaTek, on the other hand, entered the 5G era with the launch of its new 5G Dimensity series of SoCs. The first SoC to be announced in this series was the Dimensity 1000 in November 2019. It has followed that launch by launching the mid-range Dimensity 800, the upgraded Dimensity 1000+ and Dimensity 820, as well as the lower mid-tier Dimensity 720 in 2020. MediaTek’s 5G modems choose to forgo mmWave support, opting to stick with sub-6GHz.

HiSilicon’s first 5G SoC was the Kirin 990 5G, which powered the 5G variants of the Huawei Mate 30 series, the Huawei P40 series, as well as Honor’s affordable flagship Honor View 30 and Honor 30 series. The company is gearing up to launch the Huawei Mate 40 soon, which will be powered by what will seemingly be the last HiSilicon flagship SoC for the foreseeable future.

Device makers

As of late 2020, an increasing number of device makers are selling 5G phones. The elephant in the room—Apple—has just announced its first ever 5G-powered iPhone 12 and iPhone 12 Pro series. Samsung, Huawei, Honor, OPPO, Vivo, Xiaomi, OnePlus, Realme, LG, Sony, Motorola, ASUS, Lenovo, ZTE, Nubia, iQOO, and more have all released 5G phones.

In 2019, 5G phones were restricted to the flagship tier as only the Snapdragon 855 had the necessary modem support. In 2020, thanks to the Snapdragon 765, 5G can now be find in upper mid-range phones as well. At the end of this year, we should start seeing the first lower mid-range phones powered by the 5G Snapdragon 690 as well. It will take quite a bit longer for the technology to proliferate in budget phones, as expected.

The current state of the 5G ecosystem and future outlook

Last year, the 5G ecosystem was immature and unfinished. It was relegated to phones costing above $1,000. In 2020, the ecosystem has matured a lot in terms of device availability, the quality of 5G networks, the quality of 5G modems, and the scale of the networks themselves. Some of the first-generation 5G phones were so immature that bizarre situations developed. The Sprint variants of the OnePlus 7 Pro 5G, the Galaxy S10, and the LG V50 ThinQ can no longer connect to any 5G network because of T-Mobile’s merger with Sprint. The first-generation mmWave 5G phones that launched on T-Mobile can’t connect to the carrier’s nationwide low-band network. Carriers use different network bands, so device makers have to incorporate the most number of bands they can to have unlocked phones compatible with all networks.

Source: Ericsson

The immaturity of 5G has meant that some device makers are launching separate 5G and 4G variants of their phones. The 4G variants of these phones are almost certain to be outdated from a network connectivity perspective as soon as a 5G network launches in the particular region where they are being sold. 5G phones have different variants for different regions. The OnePlus 8 Pro’s Indian variant, for example, supports only a single 5G band, which may not even be used in a commercial Indian 5G network.

All of this is region-dependent. If you’re living in the Indian subcontinent, none of this matters to you right now because no carrier has rolled out a 5G network yet. Countries like India have yet to even hold 5G trials, although Jio is optimistically proclaiming it will roll out a 5G network in 2021. Vast regions of the world such as South Asia, Africa, Eastern Europe, East Asia, and South America have yet to experience 5G.

In particular, the mass population of any region won’t experience 5G until it’s available in lower mid-range and budget phones, because budget and lower mid-range phones are the ones that sell in the highest volumes. That’s yet to happen. The course of that story will start in 2021, and will continue in the years ahead. We will keep our eyes on the interesting developments in this space.

Conclusion

5G is a complex subject. In this article, we have only scratched the surface of the different sub-topics of 5G. Other sub-topics not covered here include the potential of 5G as a home broadband replacement, the power efficiency of 5G modems, the impact of 5G on flagship smartphone pricing, the cost structure of 5G services, and much more. Future articles will attempt to detail each of the aforementioned topics, and will go deeper into the topics that we have briefly explained.

A lot has been written about 5G, and a lot more will continue to be written about it until it is inevitably succeeded by the next wireless generation. There will be a lot of debates about the need and efficacy of 5G. There will be a lot of marketing jargon. There will be a lot of upselling. The industry has converged around 5G because there is a lot of money to be made here. Like it or not, it seems 5G is here to stay.

References

1. What is 5G? – Qualcomm
2. Ericsson – 5G device availability report – June 2020
3. GSMA – The 5G Guide

The post The Definitive Guide to 5G: Everything you need to know about 5G appeared first on xda-developers.

from xda-developers https://ift.tt/313vOdB
via IFTTT