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There has been a lot of controversy over Apple’s new Lightning connector introduced with the iPhone 5 and refreshed iPod lineups. Perhaps the biggest source of frustration for users and accessory manufacturers alike is the inability, so far, to produce official third-party products using the new standard. Apple has yet to update accessory makers with changes to its ‘Made For iPad/iPhone/iPod (MFi)’ policies. This will apparently require approval of facilities manufacturing Lightning products, but according to reports, it will not come until at least next month.
For accessory makers wishing to produce unofficial Lightning products, that process has proven difficult thanks to chips Apple has built into the connector thought to include security features. Despite reports that the security features have already been reverse engineered, and one or two third-party products on the market using the original Lightning cables from Apple’s suppliers, we have yet to experience a flood of Lightning products available to consumers. We also did not know exactly what tech Apple is including in these chips, something that we get a better look at today courtesy of a detailed teardown from Chipworks.
Once inside, Chipworks found a TI chip labeled “BQ2025” (alongside a handful of others) that could possibly include security features. The chip isn’t listed on TI’s website, but four similar chips are:
However, TI does have published datasheets on the BQ2023, BQ2023, BQ2024, and BQ2026. These four chips are cataloged on TI’s website as battery fuel gauges, but they are not identical, with three of them being serial EPROMs and one of them being a battery monitor IC… All use a single wire SDQ interface (TI’s proprietary serial communications protocol), and all have some basic security features such as CRC generation. So, it is certainly likely that the BQ2025 does have some security implemented on it. It would also seem likely that it includes an SDQ
Another possibility is that the chip is being used to better conserve electricity. For example, the cable could stop drawing electricity once the connected iOS device is fully charged to provide the obvious benefit of saving power. According to research from Opower, the iPhone 5 costs a mere 41 cents annually to charge once per day. However, the focus might simply be a greener, more energy efficient product.
In terms of the security features, Chipworks noted this is “the first secure cable” it has seen with this type of security device. It also speculated that, in terms of Lightning connectors, “piracy is not a concern” for Apple:
The security does not come close to the herculean approaches that are used in (for example) today’s printer cartridges, but resembles the level of effort that cartridge manufacturers used to implement in the olden days. This is likely a calculated decision by Apple to keep costs to a minimum knowing that their core customer base prefers to shop in Apple stores or for brand name peripherals. In these places, piracy is not a concern. In other words, at this time the security is “just enough.” With future generations of Apple and non-Apple products, we may begin to see even stronger security and control if the market forces merit it.
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Do you know that most IoT products out there are simply not secure? Surprisingly, they are the main offenders responsible for the recent rise in cybercrime. A staggering 2.9 billion cyber incidents occurred in the first half of 2023 alone according to one report. And guess what the researchers identified as the leading cause? The proliferation of the Internet of Things (IoT) along with Windows SMB!
But don’t worry; we have the ideal answer to these issues. The future of secure IoT lies in chip-to-cloud technology, offering unparalleled decentralized protection to all your smart devices. Are you ready to join the revolution and take control of IoT security?
Let’s explore how chip-to-cloud IoT is emerging as a game-changing approach to creating a secure & interconnected digital world.What’s Wrong with Current IoT Security?
The IoT revolution is here, but so are the cyber threats that come with it. With an estimated 50 billion internet-connected devices worldwide by 2030, it’s crucial to address the current security shortcomings.
Here’s what’s wrong with the current approach to IoT security −
Lack of processing power − Most IoT devices cannot run onboard security tools, leaving them vulnerable to cyberattacks.
Default passwords − Adopters often neglect to change factory-default passwords, making it easy for hackers to guess and access sensitive information.
Inexperienced users − The relative immaturity of the technology can lead to inexperienced users misconfiguring networks and settings, creating potential vulnerabilities.
Malware infection − Despite limited computational power, IoT devices can still be infected with malware, offering hackers an unguarded backdoor into facility intranets and corporate networks.
IT experts may attempt to isolate and hide IoT devices, but this doesn’t solve the fundamental issue of IoT security. It’s time to rethink how the chips in IoT products communicate with each other and the internet to create more robust security measures. With the right approach, we can secure the IoT revolution and unlock its full potential.IoT Security: The Importance of Chip-to-Cloud Connectivity
Amid the pandemic, Alibaba invested over $28 billion in cloud architecture to counter the surging demand for software businesses. As enterprises continue to transform and rely on connected and IoT devices, the implementation of enterprise computing based on the cloud plays a crucial role in enhancing connectivity technologies. However, without proper security measures, these devices are vulnerable to cyber threats, making chip-to-cloud connectivity vital for the future of IoT.Impeccable Control & Supervision
It is essential to secure the link to the cloud for IoT devices, but it’s not enough. Proper management and supervision of the devices are also crucial for optimal security. Chip-to-cloud technology is a unique solution that allows the creation of secure-by-design devices utilizing energy-efficient microchips to stay always connected to the cloud.Implementing Chip-to-Cloud Technology
Corporate giants like Amazon and Microsoft are leading the way in implementing chip-to-cloud technology to protect users from cyber threats. The deployment of processor-based security solutions such as the Pluton processor by Microsoft is already in use in Xbox and Azure. Still, rapid deployment is necessary to ensure the security of IoT devices.The Power of Microsoft Azure
Microsoft Azure’s implementation is a key player in chip-to-cloud technology. Azure Sphere in the cloud embeds a private key that enables asymmetric encryption and authenticates devices with paired public keys during manufacturing. Starbucks, an international coffee chain, has deployed Microsoft Azure in all its chains, embedding public secure keys within a secure MCU/MPU backed by its Pluton security subsystems.The Future of IoT Security
With the increasing demand for connected devices, the importance of chip-to-cloud technology in securing IoT devices is paramount. The integration of state-of-the-art security measures and proper management and supervision of devices will revolutionize IoT security and prevent cyber threats.How to Secure Your IoT Devices in the Post-Quantum Era
But fear not! Everyone tries hard to make their IoT devices safe & secure. The Quantum Random Number Generator (QRNG), a quantum-driven semiconductor design that can be incorporated into current manufacturing methods, is one such remedy.
Another option is to increase the amount of memory available for cryptography within the Root of Trust to at least 256kb, which should be secure enough for the post-quantum world.
Additionally, symmetric encryption, which doesn’t require keys to be sent in the open where quantum algorithms could potentially break them, is also a viable solution. With the implementation of symmetric crypto accelerators, your IoT devices can remain protected even in a post-quantum world.
Don’t let quantum computing leave your IoT devices vulnerable. Take steps to secure them now with these cutting-edge solutions!Conclusion
Security is crucial in the IoT environment, and the existing method is insufficient. The prevalence of linked gadgets has increased the possibility of cyber assaults. The solution lies in chip-to-cloud technology, which offers a decentralized approach to security that is unparalleled. The implementation of this technology will revolutionize IoT security and prevent cyber threats. We can make sure that our IoT devices are secure in the face of the developing quantum computing era with the help of the extra layer of post-quantum security solutions. It is time to take control of IoT security and join the revolution toward a more interconnected and secure digital world.
If Wall Street analysts went in for such things, J.P. Morgan’s Mark Moskowitz would have a sign saying “It’s the supply, stupid.” Moskowitz Thursday morning issued a note to investors, reducing his iPad sales forecast for the fourth quarter of 2012. No, it’s not due to flagging demand – the misconception dogging the Apple shares – but a shortage of tablets leading up to December.
“Our research indicates that near-term supply constraints impacted iPad sell-in activity during the seasonally-stronger holiday season,” Moskowitz told investors (via Cnet).
Translation: If Apple had more tablets available to sell during the Christmas period, it would have sold them all. To get the message through some of the more stubborn demand worry warts, he repeated his point. “Supply did not improve until early December,” he wrote. “In our view, it was a supply, not demand issue.”
What iPhone crisis? Apple has sold 219M of the iPhone 4, 4S and 5 , vs. Samsung’s 131M for the Galaxy S and Note cnet.co/Wi8m2n
— CNET News (@CNETNews) January 17, 2013
Unless you’ve been in a cave, you realize Moskowitz is just the latest analyst attempting to restrain anxiety over Apple’s health. A blurb published by the Wall Street Journal and based on the supply rumor published by Nikkei mentioning a slowdown in iPhone 5 supplier orders set off days of Apple losses.
Chart via NPD
And earlier today, the same Nikkei newswire is now saying that Apple’s tablet sales in Japan took a hit as more affordable Nexus 7 gained ground. Recently, a number of Apple watchers have explained demand for the new iPhone hasn’t wavered.
Indeed, a ChangeWave survey found 1 out of 2 smartphone consumers intend to buy an iPhone in the next three months. Likewise, the brief iPad supply problem was just a “blip”, according to the analyst.
Chart via ChangeWave Research.
Chart via ChangeWave Research.
While a steadfast supply-side analyst, Moskowitz doesn’t appear to have his head planted firmly in sand. Instead, he expects the iPad will become a greater revenue source for Apple as iPhone demand eventually cools somewhat.
Recently, we reported on some Wall Street observers who believe Apple could this year or in 2014 reinvent the living-room television, creating such a new line of products.
According to J.P. Morgan, the global smartphone market will grow 30.5 percent in 2013 while the iPhone’s market is expected to grow at a slower rate: 28.6 percent. Strategy Analytics earlier counted a billion smartphones in use and accounting and consulting firm Deloitte forecast that global smartphone shipments will exceed a billion units in 2013 as the total smartphone installed base tops an astounding two billion users.
Still, Moskowitz says purveyors of iPhone doom-and-gloom are participating in “bear mongering”. What some view as a weakening of demand for the Apple handset is actually a sign of higher profits fueled by a more efficient supply chain.
If Apple can show a forty percent gross margin on the iPhone 5, the analyst believes most “bear mongering” will fade away.
The analyst forecasts Apple will announce sales of 47.9 million iPhones during the holiday quarter, 25 million of those iPhone 5 units.
Apple will release its first quarter financial report Wednesday, January 23. Perhaps that will silence some of the gloomier predictions depressing the markets.
If a cell phone can essentially see, hear, and detect movement like a person, shouldn’t it start to think like a person, too? That’s the basis of Qualcomm’s Zeroth processor, designed to emulate millions of the billions of neurons within the human brain.
A version of the Zeroth has already been built into a robotic platform that learns by being encouraged—quite literally, “good robot”—rather than being traditionally programmed, Qualcomm executives said.
For years, technologists have talked about personal assistants, pieces of code that pull in data and try to coalesce them into information that’s relevant and useful. Qualcomm’s Zeroth could form the hardware foundation upon which future personal assistants are built.
In a few years, Qualcomm envisions the Zeroth sitting alongside a future Qualcomm Snapdragon, Lewis said.
Snapdragon chips power a number of high-end smartphones and tablets, including the Samsung Galaxy S4, the Galaxy Note 3, the Google/Asus Nexus 7, and the HTC One mini, among others.
Conventional microprocessors were originally designed serially: to execute one instruction, than the next, than the next. That led to ever-increasing clock speeds, to execute those instructions as fast as possible.
Then other improvements were introduced: wider bus speeds, allowing the processor to chew on more data at any given time, and finally parallelism, which gave rise to the multicore chips that are now common today. The latter technology allows a microprocessor to process an instruction on one core while another processes a separate task simultaneously.
Massively parallel processors are seen as the future, if only because they can work on a multitiude of tasks at once. That’s how the human brain operates: processing the vast amount of data our eyes, ears, skin, nose, and mouth produce, building the sensory experience of a morning brunch on the patio of a mountain cabin, for example.
Instead of transistors and circuits, however, the brain uses a series of neurons to pass information. So-called cognitive computing is being worked on by IBM and Google, as well as national initiatives both within the United States, and separately within the European Union. Measuring the power of a neural network is usually dependent on the parameters or connection forged between the individual components; Lewis said that Zeroth was scaable to 10 million neurons and beyond—still a fraction of the hundreds of billions of neurons within the brain itself.
Qualcomm’s neural-processing units pass data in very small “spikes” of information, Lewis said, rather than the 32- or 64-bit chunks most processors are used to. But run in parallel, these small spikes of data can transmit large amounts of information—and, Qualcomm hopes, run cool enough to serve as a coprocessor of a phone or a data center.
The problem with dealing with parallel processors is that the notion of programming them is relatively new, while programming in a serial fashion is well understood. To help solve this problem, Qualcomm plans to release a tool chain next year. “The quick-start guide shouldn’t say, step one—earn a degree in neuroscience. Step two, program the chip,” Lewis said.
Qualcomm also built a version of the Zeroth chip into a small wheeled robot that the company trained to move around a small playfield, stopping at certain squares along the way, as shown above. The robot wasn’t ordered to move to specific squares, but when it did so, being told “Good robot” helped teach it what it was supposed to do.
And that same model could be used to “train” a future cell phone. “A cell phone is kind of like a robotic device,” Lewis said. “It lacks arms and legs, but it’s a robot in everything but name.”
As we head into the new year, I’ve been pondering ways Apple could improve macOS and iOS deployments in my school. Back in October, I wrote about the fact that Google was soon to be adding an LDAP feature to its G-Suite product. At the time, we didn’t know how the pricing would end up for K–12, but in the weeks since, we’ve learned that it’s free. In case you aren’t aware of what LDAP is, it’s a way for applications to lookup to another directory for populating user accounts in another. It keeps IT departments (and users) from maintaining multiple user buckets.
How does this impact Apple? Well, they’ve taken a different approach when it comes to populating data. For K–12 districts, they’ve started offering student information system (SIS) sync. They only support a few at this time, though. While Apple’s approach is a modern take on this problem (LDAP is legacy technology), I don’t think they’ve gotten all the way there yet.Enable G-Suite and Office 365 Single Sign-On
While companies like JAMF are building solutions to help with on-boarding, I think Apple could improve these even further by offering out of the box automated set up with Google and Microsoft’s identity solutions.
What I’d like to see is a web portal to create managed Apple IDs based on my G-Suite directory. When users get new devices, they will log in to G-Suite on the first screen using their corporate email login. The device would set up automatically (logging you in to the email app, downloading/logging into corporate apps, etc.), and it would also log you into iCloud and enable backups.
While it seems like pigs might be flying to see G-Suite and Microsoft logins during the macOS and iOS set up experience, for corporate deployments, these services are where all things begin.Enable Identity Sync with Apple School Manager
While this has been rumored (and leaked on an Australian Apple IT page for a few hours), allowing the sync with G-Suite and Office 365 with managed Apple IDs through Apple School/Business Manager would make Apple’s products even easier to deploy. Right now, Apple School Manager is limited to syncing to a couple of Student Information Systems, but the fact remains that G-Suite and Office 365 are still the primary profiles that are built first for students and staff. So even if it can sync with an SIS, enterprises are left out in the cold.
These managed Apple IDs could be used to purchase apps from the Mac App Store, sign into services like iCloud Drive Desktop and Document (perhaps with additional control for retention policies), and more. An iCloud account is essential to a great macOS and iOS experience, and making it easier to create/manage them would go a long way.Enable Dual iCloud Login
Everything on iOS is heavily tied to iCloud, which is excellent for personal accounts. For employees who are using iOS in the business environment, it can become difficult to keep personal data and corporate data separate.
I can imagine a system where IT managers, from the MDM console, can dictate what pre-loaded apps store data in a personal iCloud vs. a work iCloud/managed Apple ID. This feature could even extend to iMessage/eSim cards as well. I could see where iMessages sent to a personal Apple device have a set of policies vs. a corporate one (deletion protocols, etc.). I’ll likely expand on this idea in a future article as I think there is a lot of opportunity for Apple here.
Check out 9to5Mac on YouTube for more Apple news:
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In the supposed Age of Wireless our desks, TVs, living rooms and whole houses remain a viper’s nest of trailing, tangled, tense cables. Nowhere are these wires more massed than where you heap your device chargers for phone, tablet, camera, power banks, and other wall chargers. There’s probably a knotty pair of old earbuds in there, too.
In our house, this is a drawer in the kitchen once reserved for handy items such as corkscrews (yes, things to take out actual real corks) and foil cutters, non-standard cutlery and cocktail sticks. What days they were.
Now when said drawer is opened it’s like the scene in Raiders of the Lost Ark when Indy is thrown down into the Well Of Souls, writhing with snakes. Fighting through the knotty cables to the corkscrew requires a rolled up sleeve and several minutes of fighting through USB, Lightning, Micro USB, Mini USB, and proprietary charging cables. Sometimes I even come across a FireWire 400 cable, which is then hastily pushed to the back of the drawer again.
Manufacturers hardly help. Fitbit, for example, has a different charging cable for nearly every one of its activity trackers. And all of them are non-standard and proprietary.
Most new devices today have moved to USB-C as a standard connection, although Apple keeps its Lightning for iPhone connections. Older devices use the non-reversible USB-A connection, and some even stick with the horribly fiddly micro-USB.
All this means we have too many cables hanging around, sometimes literally trying to trip us up.
So how do you tame this pit of charger cables?Fewer cables, less clutter
First, reduce the numbers. Throw out any chargers or cables no longer attributed to anything useful in the house. That BlackBerry charger, for instance.
Then ask yourself if you really need seven microUSB cables? Two Lightning should be enough for most iPhone houses, and a couple of USB-A and USB-C if you need both. Consign the others to landfill or better still find somewhere or someone to recycle them. Many of us can’t bear to throw all this tech stuff away and so in it goes to that bag of cables in the eaves of the loft that you dig through every five years when a neighbour pops around wondering if you have a power brick that would fit her old DVD player.
Now invest in some charger cables that feature more than one charging end. This could halve the number of cables to tame.
Buy a 2-in-1 or 3-in-1 cable solution for charging and syncing data to smartphones and tablets. These can be equipped with different types of USB and Apple Lightning connectors—great for Android or other Micro USB and Apple Lightning devices such as the iPhone and iPad. Anker’s Powerline II 3-in-1 Cable features an old-school USB-A connection at one end and a choice of microUSB, USB-C and Lightning connectors on the other—available in either white or black.Go wireless
Free up desk space from cable clutter with a wireless keyboard and wireless mouse, although these require charging so you’ll need those cables listed above, but they can be kept hidden away until you need them. Using them will also free up USB ports on your computer or dock, which can be used for other devices—hidden from view, we hope.Charge multiple devices with one cable
Multi-device wireless chargers can reduce cable usage.
Wireless charging can reduce cable clutter with a multi-device charger that requires just one cable to the wall socket. Pictured above, the Twelve South HiRise 3 can wirelessly charge a MagSafe iPhone, Airpods and Apple Watch all at the same time, and with just one cable. See more of the same in Macworld’s Best MagSafe Chargers roundup.
If you can consolidate all your gadget charging in one place, consider a charging station that can handle multiple devices, such as this 7-in-1 Charging Station from KKM.
AmazonUse shorter cables
Long cables are useful when you need the reach, but they are just a nuisance when they are snaking over your desk or tabletop.
Using cables of a length that is the closest fit to your needs will radically help calm cable clutter.
In our feature choosing the best short cables, you’ll find the shortest USB, Lightning, HDMI, Ethernet and other cables we can find.Color code or label your cables
Sometimes it’s difficult to remember which cable on your desk is attached to which device or which port in your computer or TV. If you can buy cables in different colors, this can help you quickly identify which cable does what.
Of course, you need to remember which color does what, so a more identifiable solution is to attached a label to each cable, stating exactly what their purpose is: TV power, phone charger, and so on. I also sometimes write the device name (“TV”, “Printer” etc) onto the top of the plug to save me working back from the plug to the powered device.
UGReen and AnkerLose the plugs, too
Unless you’re charging straight from a computer you’ll need a wall charger for all those cables.
It makes sense to buy a charger with more than one USB port. Some of our favorite chargers are from UGreen and Anker, which both offer multiport desktop and wall chargers to save you from having to plug too many things into your wall.
A wall charger plugs straight into the wall socket, as the name suggests. A desktop charger features a cable to the wall socket, giving you more flexibility for positioning. So you can charge a bunch of devices but have just one cable to the wall.
These are also great for taking away on your travels, rather than carrying multiple chargers.
Look for the right USB port. USB-A is the older version, but many devices now require a reversible USB-C port for their cables.
The neat Power Strip DigiNest Cube power extender from Ugreen (from Amazon US / Amazon UK) features not just two USB-A and two USB-C ports but three AC power sockets. It’s neater than a long power strip extension, and takes up just one wall plug. At 65W it’s powerful enough to charge a mid-sized laptop, plus phones and tablets.
Read our roundups of the best USB phone chargers and best iPhone chargers.
Another option is to change your power socket wall plates (above) to include not just the two standard plug sockets but USB slots too. Reputable merchants such as Walmart (US), Home Depot (US) or Screwfix (UK) sell them for around $20/£20.
Most of tehse still feature USB-A ports so look around for ones with USB-C if that’s what you’re after.Pack cables away
Now you’ve cut back on the number and length of your wild charger cables, you need to tame and cage them. We tested a bunch of cable tidy organisers, and here are our favorites.
Consider an under-shelf storage drawer that clips under a cupboard shelf. This can store all your cables and chargers away from sight but still keep everything close at hand. The neatest we’ve found is from fancy kitchen accessory maker Joseph Joseph, which sells one for under $20/£20—also available from Amazon.Tech bags and cases
Pack your chargers and cables into a neat bag or case—perfect for traveling but also convenient around the home and office.
It’s likely that your laptop, for instance, doesn’t just require a charging cable but a dongle or USB hub, and your phone needs to travel with a power bank for top-up charging on the move.
The Rolls Royce of tech-gear bags is premium bag specialist Troubadour—maker of top-class backpacks, briefcases and duffle bags. They’re not cheap, but they are luxury.
It has three high-class tech cases, starting with the $80/£70 Buddy Case, which is great for packing your tech essentials either for tidiness at home or the office or for travel. Each can fit easily in a backpack or suitcase, and are lightweight and compact but can still hold a lot of tech. The Buddy Case (6.5-x-5.5-x-2.4 inches) opens flat for easy access, and features a fast-access exterior pocket with magnetic closure. Elastic pockets keep everything organised, and there’s even space for a pen pocket down. Its 1.5-liter capacity should be enough to hold a laptop/phone charger, earbuds, cable and power bank.
If you need to carry more gear: multiple cables, adapters, chargers and mouse, for example, then Troubadour’s $95/£85 Caboodle Tech Case (9-x-6-x-3.5 inches) offers twice the capacity (3l), as well as a zipped exterior pocket, internal dividers and two-way elasticated pockets.
Slightly larger and featuring even more interior pockets, the $105/£95 Rig Case (10-x-5.5-x-4 inches) has a 3.3l capacity, and opens via a double zipper with hidden magnets, with a zipped exterior pocket, central divider with pockets and even more elastic pockets on the sides.
All three are made from waterproof vegan leather and recycled nylon with a waterproof lining.
A deep lower compartment in the UGreen Travel Case will store bulkier items such as chargers.
UGreen makes some of our favorite tech accessories, and also a quality compact hard case to fit a bunch of them in. The water-resistant UGreen Travel Case measures 8-x-5.1-x-2.8 inches and features a double-layer design, with a deeper lower layer for cahrgers and cables and a zipper mesh pocket for smaller items such as memory cards. A soft velvet inner lining means your gadgets shouldn’t get scratched if you pack them properly. Double zippers allow the case to be opened easily, and a portable carrying handle cleverly folds back out of the way when not being used. It costs $23 or £17 from Amazon.
Ugreen also sells a slimmer travel case, measuring 9.6-x-6.9-x-2 inches, which can carry a tablet and numerous cables and small accessories; $23 or £22.
At the cheaper end of the market, Amazon has plenty of options for cable organizer bags, such as JETech’s Electronics Accessories Organizer Hard Carrying Case, which costs just $15 or £10. The durable hard case should protect your electronic accessories against water, and knocks and drops while travelling. Double metal zippers, mesh pocket, slots, velvet shock-absorbing pad and anti-skid elastic straps ensure that your tech goodies stay in place. It’s not as spacious as the Troubadour cases but there’s enough room to store your phone, cables, slim power bank and memory cards.
The Evri Travel Pouch (above) is designed to organize and store your electronic accessories while you’re on the move. It features nine storage pockets, water-resistant zips and ballistic nylon material, an exterior zippered compartment, removable mesh pockets and carry handle. It’s not just for cables but all the bulky power bricks, banks and adapters required these days just to leave your house without everything not working after a few hours. It costs $35 or £31.
Keep longer cables constrained
CableCreationCable ties, clips and tidies
Staggling cables create messy desks and trip hazards on floors. And long cables are the worst for this. They need to be controlled, organized and hidden from sight where possible.
A cable tidy will do the trick, such as these reusable velcro ties from CableCreation, $10/£10 at Amazon.
Cable ties are great when you have plenty grouped together, such as behind your TV set. They can also bunch up cables that are too long and stray into view.
For long-term cable grouping, you can use one of the plastic cable ties that you see kidnappers using to tie up hostages’ hands in TV cop shows.
Amazon US and Amazon UK have cable ties in all lengths and colors. Even if you only need a few around the house, you usually have to buy them by the hundred, which means more clutter somewhere else, but they are super cheap so just share them with friend and family—the perfect neighborly gift.
Even a simple binder clip can reduce a long cable into something more manageable, and can come in different colors for easier identification, and in different sizes depending on the thickness and length of the cable you are trying to constrain.
You can also tidy cables by affixing grips to your dek, car dash, kitchen wall or wherever the cables are messy. Clips can stop cables from slipping behind bedside tables and desks. We like the Soulwit Barrel-Shaped Cable Holders, which come in multipacks and in white or black.
When cables are less hidden, some cable tubing is often a neater solution—such as this one from D-Line. Cable tubes can be cut to the required length. A slit along the tube makes it easy to add or remove cables.
If your devices are connected to a power extender, consider a cable box, which should be a tidier solution than a bunch of dusty, different color plugs on display. These can be bought in a variety of colors and materials, and you could consider painting it in the same color as the wall it will sit beside.
A cable box will also keep dust and other debris from messing up your plugs. Too much dirt can end up being a potential fire hazard around electrical equipment.
Again Amazon US and Amazon UK have plenty of options, as does the Container Store.
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