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Who knew you can cool electronics by boiling water with it?
(Image credit: J K / Unsplash)
A research team from the University of Tokyo has devised a new cooling solution that uses water’s changing phases to make it more efficient at removing heat.SciTech Dailysays that water absorbs seven times the energy when it changes phase from liquid to gas (i.e., boiling the water), allowing it to capture and dissipate more heat versus the traditional method of using flowing water. However, since the coolant flows through tiny capillaries built directly into the chip, the steam would often have difficulty flowing through these narrow channels. This often makes it less efficient than traditional methods.
The researchers solved this issue using 3D microfluidic channels with a capillary structure and a manifold distribution layer. They discovered that the shape of the microchannels and how the coolant is distributed throughout the system significantly impact its thermal and hydraulic performance. By ensuring the continuous flow of water and steam, the team achieved a coefficient of performance (COP) of 100,000 — about ten times greater than what single-phase water cooling can achieve.
“Thermal management of high-power electronics devices is crucial for the development of next-generation technology, and our design may open new avenues for achieving the cooling required,” senior author Masahiro Nomura said. The deployment of this two-phase system could allow for more compact cooling solutions without needing to invent or use more exotic fluids.
Furthermore, it could address the thermal issues that high-performance computing faces, resulting in more powerful chips requiring less cooling power. This technology can also be used in other applications, like lasers, photodetectors, LEDs, and radar systems, and be applied in the automotive and aerospace industries. This system also has the potential to work passively, allowing the changing phases of the liquid to dissipate the heat through convection, letting it function without needing a pumping mechanism.
As our chips get smaller yearly, they also start generating more heat concentrated in such a small area. Because of this, we need innovation in cooling technology to keep up with semiconductor development. We’ve already seen a couple of novel active cooling solutions, like theFrore AirJet Mini Slimand theVentiva Ionic Cooling Engine. However, this two-phase system could potentially lead to innovations in passive cooling technology, giving us an effective option that fits in tight places and does not require power.
NNT’s drones flew in lightning-resistant cages and hope to, some day, tap and store the power of thunderclouds.
(Image credit: NTT Japan)
The Nippon Telegraph and Telephone Corporation (NTT) boasts that it has designed the world’s firstlightning triggering and guidancesystem that leverages flying drones (via machine translation). After successful trials earlier this year it is hoped that networks of these drones can be installed in cities and key infrastructure as a preventative protection measure.
Lightning damage isn’t as rare as many an old adage might suggest, according to the stats shared by NTT. Its PR bulletin says that every year in Japan there is 100B to 200B Yen (up to $1.4B) worth of damage caused by lightning – and then there is the human cost to consider. Meanwhile, conventional lightning rods don’t provide as wide coverage as desirable, or might be tricky to install (e.g. wind turbines).
With the above in mind NTT set up an experiment to see ifdronescan be used to prevent lightning damage. The firm used ground monitoring equipment to judge the danger of lightning in an area. And basically, when thunderclouds approached and electric field fluctuations observed, a drone was sent up to intercept.
These are not kamikaze drones – they are equipped with a lightning-resistant cage. In a test flight on Dec 13, 2024, a drone attached to a ground wire was flown to 300m altitude to approach a suspected thundercloud. NTT says it then observed a massive electrical pulse and claims that it achieved “the world’s first successful lightning induction using a drone.”
When the lightning struck the drone, it could continue to fly thanks to the cage protection (though it part melted). It is key that the drone could remain airborne after being zapped, says NTT and before this live trial it had successfully tested them at up to bursts of 150,000 Amps.
NTT intends to continue refining its lightning triggering and guidance drones. To augment the above study and trials it is looking at improving lightning location prediction accuracy. Moreover, there are plans to research and development into storing the lightning energy that is safely diverted.
From cables to power supplies, it pays to know the intricacies of the USB-C spec if you want the fastest charging.
USB Type-C is the most flexible connection for notebooks and smartphones. The most important of its many capabilities is as a charging socket for battery-powered devices. USB-Cshouldfinally make everything simple: One socket, one cable, one power supply for all devices – from computers to smartphones and tablets to headphones and other peripherals.
So much for the theory, which always sounds simple with USB. The reality is much more confusing.
Not every USB-C power supply is suitable for every device. Not all Type-C ports can be used to charge devices quickly or at all. And not every Type-C cable ensures reliable power transmission.
This guide will give you an overview of the technical possibilities of Type-C charging and recommends suitable power supply units for all devices. If you’d like to avoid all the background and simply know which cords as worth your hard-earned money, be sure to check out our roundup ofthe best USB-C cables. We perform hands-on tests that go far deeper than most other sources on the web.
There are many symbols that identify a USB-C port on a laptop as a charging port. In practice, however, you will usually only find the Thunderbolt lightning bolt (at the bottom) on the housing.
Almost all mobile devices can now be charged via USB Type-C: For smartphones, Apple was the last major manufacturer to switch from the proprietary Lightning connector to USB-C last year with the iPhone 15.
Apart from that, there are only very cheap bargain smartphones that still rely on micro USB as a charging port. The situation is similar for tablets, where market leader Apple already favored USB-C over Lightning three years ago with the iPad 9. You will also hardly find any devices without USB-C for headphones, ebook, readers, and mobile speakers.
Only laptops still have numerous models that do not use Type-C to charge the battery: These are often older model series from the entry-level range. More frequently, however, USB-C is not themainconnection for charging.
Although powerful gaming and multimedia laptops have USB-C, they also have a dedicated power connection with a higher charging capacity that fits the power supply unit supplied. Business laptops with a USB-C port and power supply unit often still have the hollow plug connection so that companies can continue to use power supply units from decommissioned models.b
A Type-C connection on a laptop also does not always handle power delivery. The only way to find out whether a Type C socket is capable of power delivery is to look at the technical data. A Type-C port with Thunderbolt supports charging in any case.
The triumph of Type-C is easy to explain, as the connection offers numerous advantages for users and manufacturers:
Cables can be connected quickly and easily because the symmetrical plug is twist-proof.
The socket takes up little space so that devices can be made lighter and flatter.
And as Type-C can handle data and video transmission as well as charging, ideally a single cable is all that is needed between the computer and peripherals, which keeps the desk tidy.
Whether a mobile device supports USB-C Power Delivery is usually stated in the technical data for the connections. If so, you can use a suitable power adapter for charging.
Devices can also be charged faster with USB-C: Power supply units for micro USB only deliver up to 10 watts, while chargers with a Type A connection usually deliver 15 to 18 watts. Type-C, on the other hand, supports the improved USB Power Delivery (PD) transmission protocol, which usually allows charging capacities of up to 100 watts and even up to 240 watts in the current version.
However, this does not apply to all Type-C connections, devices, and cables: Although everything fits together mechanically, not every combination has to provide the optimum charging power — for example, because different levels of the Power Delivery standard are supported or devices and power supply units do not implement the standard correctly.
USB-C and Power Delivery: How the charging technology works
The technical basis for charging via USB-C is the USB Power Delivery (USB PD) standard. It specifies voltage levels of 5 to 48 volts and currents of 3 or 5 amps in so-called “power profiles” or “power rules.” Depending on the power supply unit, power cable, and device, charging capacities of between 10 and 240 watts are possible.
A typical smartphone power supply unit with 30 watts, for example, offers power profiles for a charging capacity of 15, 27, and 30 watts, while a laptop power supply unit also offers power profiles for 45, 60, 65, or 100 watts.
Before transmission begins, the power supply unit (source) and consumer (sink) agree on the required voltage and current: The power supply unit first checks the cable to see whether it can transmit up to 3 or 5 amps and provides a basic voltage of 5 volts.
It then tells the consumer what other voltages it can supply. The consumer answers which one it needs so that both can agree on a suitable power profile.
Some multiple power supply units, such as this one from Ugreen, use the semiconductor material gallium nitride (GaN): this allows them to be built very compactly despite their high charging power.
Ideally, any USB-C power supply will charge the device with a Type-C charging socket with optimum performance and as quickly as possible. Even if the power supply does not completely fulfil the requirements of the device, it should provide a minimum charging power, even if the charging process then takes longer.
Conversely, it does not speed up the charging process to use a power supply unit that offers a higher output than the device requires because the consumer cannot call it up.
Since version 3 of USB PD, the power supply unit and consumer can adjust the voltage and current more dynamically. To do this, both must support the optional standard extension PPS (Programmable Power Supply Protocol).
The device can then request voltage and current from the power supply unit that deviate minimally from the prescribed power profiles: This speeds up the charging process, but can also ensure that the battery is less stressed during charging or that a smartphone or notebook receives the appropriate charging power in real time depending on the current system load.
Labels such as Fast Charge or Super Fast Charge 2.0 on Samsung smartphones and power supply units, for example, indicate support for PPS.
How to find out whether a power adapter fits the device
The easiest way to do this is to use the power adapter recommended by the manufacturer for charging. This is common for laptops, as new devices are supplied with a suitable power supply unit.
Smartphones and tablets now often do not come with a power adapter in the sales box: You can buy the right charger from the device manufacturer.
USB-C should make this investment superfluous and put an end to the confusion of power adapters that only fit one device. A power supply unit that can charge all your devices without any problems is therefore ideal.
To do this, the power supply and device must have a USB-C connection and support USB Power Delivery: You should be able to find this information in the technical data, often as an abbreviation such as “PD” or “PPS.” If the power supply unit or device does not support USB PD despite Type-C, charging can start, but only at 15 watts.
So that you can charge all devices with one power supply unit, it should have sufficient charging power for the most powerful device and suitable power profiles for devices with lower energy requirements.
A laptop is usually the device that requires the highest charging power: Ultra-mobile laptops usually need a power supply unit with 45 watts, standard laptops require 60 watts, and particularly powerful laptops 100 watts.
For smartphones, tablets, and portable speakers or headphones, on the other hand, 30 watts or less is sufficient.
To ensure that a USB-C power supply for the laptop charges other mobile devices, it should support power profiles for 15 and 27 watts via USB-PD.
With third-party power supplies, you will often find a list of other devices that can be charged with it in the technical data of a laptop power supply. If tablets such as Apple iPad Pro and smartphones — for example Samsung Galaxy S24 — are listed, the power supply is also suitable for smaller mobile devices.
If you want to use the power adapter that came with your laptop, check the manufacturer’s website for information on its output power: If you find information such as “9 volts – 3 amps,” the power adapter is suitable for smartphones and tablets. These values are usually also printed on the power supply unit under “Output.”
Conversely, notebooks can also be charged with a smartphone power supply unit: This is helpful when travelling if you only want to take the lighter mobile phone charger with you. The power supply unit should offer at least 27 watts of charging power and a voltage of 9 volts. This is sufficient for small and light laptops.
It is best to switch off the notebook when charging, because if it consumes more power during operation than the mains adapter supplies, the battery will be drained even when the charger is connected. However, many notebooks require 15 volts and most require 20 volts as the charging voltage. If your smartphone power supply delivers this, the notebook can also be charged with it – but usually only slowly.
The best cable for charging via USB-C
A good USB-C cable is crucial to ensure that the charging power from the power supply unit to the device is stable. The cables transmit a current of up to3 ampsas standard.
This is sufficient for mobile devices such as smartphones and tablets. Notebooks can also be charged with up to 60 watts using such cables – this is sufficient for small and lightweight laptops. For larger and more powerful laptops, however, charging will take longer depending on the battery size and operating load.
To charge these laptops at optimum speed via USB-C, you need a cable that can transfer5 amps. The fast charging functions of some smartphones and tablets also require an appropriate cable – for example, Super Fast Charging from Samsung.
Many smartphones can be charged faster: However, you need the right power adapter and the right USB-C cable for this, both of which support the PPS standard or a higher current transfer of 5 amps.
These cables contain a chip, the so-called e-marker: It contains information about the capabilities of the cable, such as the maximum power supply capacity, voltage, and current values and supported charging protocols.
It outputs this information when the power supply unit and consumer negotiate the optimum charging power via USB-PD to ensure that the charger delivers the appropriate voltage and current values for the cable and the connected device.
Most manufacturers usually describe the corresponding cables as “100 watt cables.” You will also often find a reference to the e-marker chip in the technical data.
In addition to power transfer, USB-C also supports data and image transfer — if you want to use a cable for all applications, you must pay attention to this in its description: These multifunction cables are usually slightly more expensive than pure charging cables. Cables for Thunderbolt are guaranteed to support all USB-C transmission types.
You can‘t tell how well a charging cable transmits data: In theory, longer cables are more susceptible to voltage loss and limit the flow of current due to a higher resistance. Thicker cables are supposed to ensure more stable transmission.
In practice, however, you cannot use this as a rule of thumb: The quality of a cable depends on its internal workmanship.
A basic tip:Buy cables for higher charging capacities from well-known suppliers such as Anker, Belkin, or Ugreen. They are reliable and usually cheaper than the corresponding offerings from the laptop or smartphone manufacturer.
Chargers with multiple ports: One power supply for all devices
A single power supply unit is usually not enough for a large number of devices: You often want to charge different devices at the same time via USB-C. This is why there are power supply units with several USB-C and USB-A ports, which can be used to charge a notebook, smartphone, and headphones in parallel, for example. This is also useful when travelling if you only have one socket available on the train, for example.
When making your choice, you should first consider how many devices you want to charge at the same time and on which ports: Multiple power supply units are available with numerous connection combinations, so you should always be able to find a suitable model.
Devices with two USB-C ports cost from around $20, while prices with three Type-C ports start at around $40. In most cases, the power supply units also have a charging port with a Type A connection in addition to the USB-C outputs.
You also need to decide what maximum charging power the multi power supply should have: Up to 45 watts is sufficient for a smartphone and headphones. If you also want to charge a laptop, at least 60 watts is recommended.
USB power supply units with multiple connections:
Manufacturer
Manufacturer Product
Price (Euro)
max. charging power (watts)
Number of type C
Number of type A
Anker
Prime (GaN)
80
100
2
1
Armature
735 (Nano II)
35
65
2
1
Armature
735 Prime (GaN)
50
65
2
1
Armature
323
20
32
1
1
Belkin
Boost Charge Pro
40
65
2
–
Ugreen
Nexode Pro Mini (GaN)
100
160
3
1
Ugreen
Nexode (GaN)
30
65
2
1
Ugreen
Nexode (GaN)
55
100
3
1
Ugreen
Nexode Pro Mini (GaN)
45
65
2
1
It is important to know how the power is distributed over the individual ports: The maximum charging power specified by the manufacturer usually applies to all ports together, only for the combination of certain ports or only if only one port is occupied.
For example, if you choose a 65-watt power supply because you also want to charge your laptop, it will usually only deliver this charging power if a single USB-C port is occupied. If you charge another device on the second Type-C port, the power is then divided between 45 watts on one port and 20 watts on the other – the laptop will then charge more slowly.
If all the ports on a three-port power supply are occupied by consumers, the power on a single port can drop even further. In addition, not all type C connections on the power supply unit have to deliver the same charging power: for example, the laptop may only receive up to 65 watts at port 1. If you connect it to port 2, it will only receive up to 45 watts.
You should therefore look for the technical data for a model on the power supply provider’s website before buying: Well-known manufacturers such as Ankeror Belkin list the charging power that the individual ports offer with single or multiple connections.
The desired power supply should definitely support USB-C Power Delivery and preferably also PPS!
Many manufacturers advertise more expensive models with the abbreviation “GaN”: This stands for the semiconductor material gallium nitride, from which, for example, the voltage converters in corresponding power supplies are made: They work very efficiently without overheating, which enables small power supply units with a high charging capacity.
After months of teasers, previews, and select rollouts, Microsoft’sCopilot Visionis now available to try for all Edge users in the U.S. The flashy new AI tool is designed to watch your screen as you browse so you can ask it various questions about what you’re doing and get useful context-appropriate responses. The main catch, however, is that it currently only works with nine websites.
For the most part, these nine websites seem like pretty random choices, too. We have Amazon, which makes sense, but also Geoguessr? I’m pretty sure the point of that site is to try and guess where you are on the mapwithout any help. Anyway, the full site list is as follows:
Wikipedia
Tripadvisor
Williams Sonoma
Amazon
Target
Wayfair
Food & Wine
OpenTable
Geoguessr
CEO of Microsoft AI Mustafa Suleyman announced the release on Bluesky yesterday and shared a few of his favorite use cases.
Usually, when you want to ask Copilot a question, you have to write out the paragraphs of context yourself, and aside from being slow and annoying, this can also be pretty difficult if you’re trying to ask about something you don’t know much about.
With Copilot Vision, instead of trying to describe what you’re looking at or what you’re talking about, the AI model can see itright on your screen.
So, according to Suleyman’s examples, you can search for “breathable sheets” on Amazon and ask Copilot if any of the results are made from appropriate fabrics. Copilot can point the right ones out to you or give you examples of breathable fabric to search for.
On the Food & Wine recipe website, Copilot can help you go hands-free while you cook by answering your questions and reading out parts of the recipe to you. This works because the whole experience is designed to work through voice — you speak directly to the AI and the AI speaks back.
According to one of the videos on theCopilot Vision page, however, it looks like you can type out questions too and receive written responses.
Microsoft is taking things very slowly and carefully with this feature, almost certainly because it wants to avoid triggeringanother backlashlike it did with Recall. The limited number of compatible sites is connected to copyright issues, and the company makes sure to stress that the feature is “opt-in,” doesn’t record your screen, is only on when you turn it on, and deletes the data as soon as you end a session.
If you thought ads were intrusive before, you haven’t seen anything yet.
LGhas recently signed a multi-year agreement with a company called Zenapse with an aim to leverage “emotional intelligence to deliver more meaningful and measurable brand experiences across 200 million LG Smart TVs globally.”
To make ads more meaningful, Zenapse uses a CTV (Connected TV) platform called “ZenVision” that watches along with the content being played on the screen to better understand the emotional state the viewer might be in.
LG can then use this information to group users into specific subsets and target them ads based on their emotional intelligence. This information becomes psychographic data. Unlike demographic data, which is simpler concepts like age, location, etc, psychographic data gets more personal, diving deep into your psyche and psychological mindset.
Using this data, ZenVision can better “optimize predictions” and thus target you ads that might satisfy your needs a whole lot more. Not only that, but Zenapse and LG can then sell that information to third parties.
As reported byStreamTV Insiderand onZenVision’s own website, data groups include abstract personality definers like “social connectors,” “wellness seekers,” “goal-driven achievers,” “digital adopters,” and many more.
Zenapse’s AI goes a step further and specifies the user’s general proclivities, lumps those users together and pushes ads based on these key factors. It’s notjustyour emotions being targeted, but your goals, principles, political affiliations, and more all wrapped up into one generalized market segment.
How does it work? The AI uses a combination of facets to better derive this data, including its own sophisticated algorithms, existing information on the particular on-screen content (like the script or genre), and even ACR (automatic content recognition) data collated by LG sets on their own.
LG Ad Solutions made theannouncement on Tuesday, however there’s very little details about the longevity of the agreement, which TVs might suffer from the agreement, or how much LG spent to leverage Zenapse’s tech.
Based on what we know about it so far, though, Zenapse’s ZenVision sets a terrifying new precedent in on-screen advertising and gets so much more dystopian the deeper you dive into the rabbit hole.
Google is already well-acquainted with Zenapse, with Google Ads, Google for Startups, and Google Cloud all having strategic deals with the AI firm.
While LG might just be the first to implement it,Googleis already well-acquainted with Zenapse, with Google Ads, Google for Startups, and Google Cloud all having strategic deals with the AI firm.
Though only speculation, it probably won’t take long before ZenVision finds its way onto Google TV — if it hasn’t already. Google TV commands nearly 270M TVs and it’s leveraged by everything from thebest budget TVsbyHisenseandTCLto some of thebest OLED TVsout of Sony.
As stated, Zenapse is ushering in a whole new era of TV advertising and if you thought things couldn’t get worse, think again.
…And maybeturn off ACR on your TVwhile you still have the chance.
Officially announced at CES 2025, HDMI 2.2 is the next-generationHDMI standardthat promises to double available bandwidth for higher resolution and refresh rate support, and will require a new cable to support these new standards. It will also bring with it advanced features for improved audio and video syncing between devices.
But the new cable isn’t coming until later this year, and there are no signs of TVs supporting the new standard yet. Here’s everything you need to know about HDMI 2.2.
The standout feature of HDMI 2.2 is that is allows for up to double the bandwidth of existing Ultra High Speed HDMI cables using theHDMI 2.1 protocol. HDMI 2.2 is rated for up to 96 Gbps, opening up support for native 16K resolution support without compression, or native 4K 240Hz without compression. Throw DSC on and it should support monitors up to 4K 480Hz or 8K in excess of 120Hz.
While there aren’t any consumer TVs or monitors that support such resolutions and refresh rates at this time, it could be that the protocol finds use in future augmented and virtual reality headsets.
HDMI 2.2 will also support Latency Indication Protocol (LIP), which will help make sure audio is synchronized with video, especially in configurations that include an external A/V system.
To support the new resolutions and refresh rates, you’ll need to use a new HDMI 2.2 certified Ultra96 cable design. The new cables will be backwards compatible with all previous HDMI versions, but will only run at the maximum supported speed of the lowest link in the chain. So an HDMI 2.2 cable plugged into a port that is only compatible with HDMI 2.0 speeds will not be able to use the full bandwidth of the cable.
HDMI 2.1 was a major innovation for the HDMI standard when it was ratified in 2017, but it was only in 2020 and 2021 when we started seeing real products using the design. It almost tripled the bandwidth over HDMI 2.0, and finally made HDMI capable of true 4K 120Hz support which was super important for this latest generation of games consoles.
HDMI 2.1 also introduced a range of new features. These included:
Dynamic HDR support.
Display Stream Compression 1.2 support.
Enhanced audio return channel (eARC) support.
Variable refresh rates.
Quick media switching.
Quick frame transport.
Auto low latency mode.
HDMI 2.2 is much lighter on features, merely introducing the new LIP protocol, but that will still have its uses. Like HDMI 2.1, though, HDMI 2.2’s bandwidth uplift is dramatic, and indeed by gigabits per second, the largest in the standard’s history. Doubling HDMI 2.1 from 48 Gbps to 96 Gbps makes HDMI 2.2 the most capable video and audio transmission standard, even eclipsing DisplayPort 2.1 and USB4, both of which can only reach 80 Gbps.
It is however, still weaker than thenew standard out of China known as GPMI.
When is HDMI 2.2 available?
HDMI 2.2 was officially unveiled in January 2025, and will officially launch in the first half of the year. The HDMI Forum who manages its ongoing development has suggested the new Ultra96 cables will be released before the end of the year, but we may not see devices that support HDMI 2.2 until sometime in 2026.
That’s the optimistic take, too. HDMI 2.1 was ratified and launched in 2017, but it wasn’t until 2020/2021 where we started seeing displays making full use of it.HDMI 2.2 could in theory take even longer.
At the time of writing there isn’t a great call for more advanced cable standards in the living room. While PC gaming does have a possible use for higher bandwidth cables to enable higher resolution and refresh rate gaming, most high-end PCs aren’t managing 200+ FPS at 4K — and they have DisplayPort 2.1 support, anyhow. Indeed, most still play at lower resolutions. While in the living room, 4K at 120Hz is the standard for the major games consoles. Without a new generation of Xbox or PlayStation to drive up to TV refresh rates, there isn’t much point in supporting more.
HDMI 2.1 cables can have labels like UHD, or 8K on them, but otherwise look the same as any other HDMI cables.Cable Matters
There are 8K TVs which could conceivably offer 120Hz or higher refresh rates, but games consoles and TVs can’t manage that anyhow, so again, little benefit. There are also no plans for 8K Blu-rays which could use the additional bandwidth for higher bit-rate video or greater HDR metadata.
HDMI 2.2 is likely to be the future of connecting all sorts of devices and has the bandwidth and features to compete with the best alternatives elsewhere, but it’s likely not going to become mainstream for some time to come.
What is aperture in photography? Here’s what you need to know – and how it affects your images
Learning photography often feels like a never-ending list, but one of the first and easiest concepts that I picked up when I first started is called aperture. But what is aperture in photography? Aperture is a setting that controls how much or how little light comes into the lens. By controlling the aperture, photographers can make a photo brighter or darker, like opening or closing a curtain to let more sunshine into a dark room.
But while aperture is one of three camera settings that influenceexposure, or how light or dark a photograph is, light isn’t the only thing that aperture controls. When I first learned what aperture was, I assumed that I could just keep the aperture wide open all the time to let in the most light. However, I quickly learned that that assumption led to photos that were never quite sharp enough.
It seems that VRR support will no longer be a feature at launch
(Image credit: Nintendo)
Nintendo has quietly removed the mention of VRR support from some of its regional Switch 2 websites
The US, Canada, and Japan websites no longer feature the mention of VRR support
As of writing, the UK website still mentions VRR, but could still be removed
Nintendo has quietly removed any mention of variable refresh rate (VRR) support from some of its regionalSwitch 2websites, suggesting the console may not offer the feature after all.
That’s according to Digital Foundry’s Oliver Mackenzie (viaVGC), who spotted that the US website has been updated since theNintendo Switch 2 Direct, and no longer mentions VRR support for docked play.
Now it reads: “Take in all the detail with screen resolutions up to4Kwhen you connect the Nintendo Switch 2 system to a compatible TV using the dedicated dock. The system also supportsHDRand frame rates up to 120 fps on compatible TVs.”
It’s not just the US website that has been updated, but theCanadaandJapansites too.
As of writing, theUKsite still mentions that the Switch 2 “supports HDR, VRR, and frame rates up to 120 fps on compatible TVs,” but Nintendo may be in the process of removing it from all its regional sites.
It’s unclear why Nintendo has made changes, but Mackenzie theorises that VRR support may not be available at launch. However, the Switch 2 in handheld looks like it will still offer VRR thanks toNvidia G-Sync, which will ensure “ultra-smooth, tear-free gameplay.”
Everything we needed to know about theSwitch 2’s specswas revealed during the Direct earlier this month, where it was also confirmed that the console will have a bigger screen, from 6.2 inches to 7.9 inches, 256GB of internal storage, and a mouse function for its magnetic Joy-Con controllers.
The iPhone 6S (above) is now officially ‘vintage’ – despite not looking radically different to today’s iPhones
Apple has just labeled the iPhone 6S as “vintage”
The same designation has been applied to the 2018 Mac mini
This means repairs are more limited should something go wrong
Are you still using aniPhone 6Sor a2018 Mac mini? If you are, we’ve got some bad news:Applehas just declared both products to be “vintage” on itsvintage and obsolete products page, which means you’ll get much more limited service and repairs for them if anything goes wrong.
The iPhone 6S andiPhone 6S Pluswere released in 2015 and came with a few notable milestones. They were the first iPhones to come with Apple’s 3D Touch tech, while they were also the last to featureheadphone jacks.
In addition, Apple strengthened the chassis of the devices to prevent the kind of ‘bendgate’controversy that befell the iPhone 6. The iPhone 6S was last offered for sale by Apple in 2018.
The 2018 Mac mini, meanwhile, was the last Mac mini to come with anIntelprocessor rather than anApple silicon chip(the first of which – the M1 – debuted in 2020). And it was the first (and so far only) Mac mini to come in a space gray finish.
The 2018 Mac Mini (above) has joined the iPhone 6S on Apple’s perilous ‘vintage’ list
Other than taking many of us on a trip down memory lane, this news has some practical implications for those who are still running an iPhone 6S or 2018 Mac mini.
Apple labels a product as “vintage” when at least five years have passed since the company last offered it for sale. Products that last went on sale seven or more years ago are designated as “obsolete.”
Now that the iPhone 6S and Mac mini have been declared “vintage,” that means your repair options are more limited. You can get them fixed at Apple Stores and Apple Authorized Service Providers (AASPs), but only if the required parts are available. Third-party shops might be able to repair your device if Apple or its AASPs won’t.
The next step – declaring a product to be “obsolete” – means that Apple Stores and AASPs generally will not repair your device, with Apple declining to provide replacement parts. In that case, you have no option but to either rely on a third-party repair shop or upgrade your device.
So, if you are still using an iPhone 6S or 2018 Mac mini, you’ve still got a little longer before Apple stops offering repairs. That said, with these devices getting long in the tooth – and products like theiPhone 16andM4 Mac minioffering far better performance – now might be a good time to look at upgrading to one of thebest iPhonesandbest Macsyou can get.
Snipping Tool feature now in testing will sort you out in a jiffy
Windows 11 is powering up the Snipping Tool in testing right now
A new feature allows you to copy all the text from an image straight away
There’s no need to take a screenshot first, as was previously the case, so this is a neat time-saver
Microsoftis making it even easier forWindows 11users to be able to extract text from images (or any content) on the screen.
Windows 11 already has this OCR-powered (Optical Character Recognition) ability, as you may be aware, but at the moment, it’s necessary totake a screenshot first with the Snipping Toolbefore you can extract text from that image.
With a new update for the Snipping Tool that’s just been released (which was leaked previously), you don’t need to grab a screenshot to perform text extraction any longer – although bear in mind this is still in testing at this point (so may still be wonky).
AsNeowin reports, with previewversion 11.2503.27.0of the Snipping Tool, you can simply hit theWindows + Shift + Skeys together, and this will pop up the capture bar for the tool.
However, instead of having to create a snip (screenshot), the ‘text extractor’ option will be right there in the bar, so you can just click that, with no need to save a screen grab first.
Essentially, this is directly integrating the ability to extract text from images (or any screen content) into Windows 11, with no additional steps needed, mirroring the functionality present in Microsoft’sPowerToys suite of tools(for advanced Windows users) – and it’s definitely going to be appreciated by folks who use this capability.
It’s obviously less of a hassle than having to clear the hurdle of actually grabbing a screenshot, if all you’re interested in doing is copying all the text that’s currently visible on your monitor.
I sayallthe text, but that’s only what happens if you use the ‘Copy all text’ option provided. If you just want a specific portion of text, you can manually select and extract only those words (it’s also possible to remove line breaks if you want).
Microsoft is slowly expanding Windows 11’s OCR powers, and you may recall that late last year, thePhotos app got Optical Character Recognition built into pull text from images directly within the application.
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