Say Qi: Apple Embraces Wireless Charging

Say Qi: Apple Embraces Wireless Charging

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On September 12th, Apple opened their brand-new 2.8 million-square foot campus in Cupertino to the press- dubbed Apple Park – to announce the company’s latest products. Although personally, I’m most excited for the Apple Watch Series 3 with cellular and Apple Music, the biggest stars of the nearly two-hour show were the iPhone 8, the iPhone 8 Plus, and, of course – the iPhone X, Apple’s 10 year anniversary phone. From FaceID to animojis, Apple’s newest phones have the entire tech world abuzz. But there’s one advancement in these three smartphones that many have felt is long overdue: wireless charging.

 

Wireless charging has been supported in smartphones for quite some time – even going as far back as 2009 – but it seemed like Apple was holding out on incorporating wireless charging into their products due to lack of industry standardization. But all that seemed to change earlier this year when Apple joined the Wireless Power Consortium (WPC), an organization that helps develop industry standards in wireless charging. The WPC backs the Qi Standard, which works either through induction (where wireless chargers contain special magnets and coiled wires that pass electricity to your smartphone or other device via a mat) or resonant charging. The Qi Standard is used across many brands, including Samsung, Google, HTC, Blackberry, LG, Motorola, and Nokia. And now Apple.

 

At their September 12th Keynote, Apple announced that the new iPhone 8, 8 Plus and the iPhone X all support Qi wireless charging, which is huge news because it means that these smartphones will be compatible with non-Apple products and accessories, such as from Belkin and Mophie, as well as many wireless charging mats that have already been installed in hotel lounges, cafes, and airports around the world.

 

However, Apple wouldn’t be Apple if they didn’t offer sleek (and expensive) accessories. The company also announced that they plan to offer their own wireless charging pad beginning sometime next year. Called AirPower, this wireless charging mat will incorporate the Qi Standard and will have the ability to charge multiple devices at once, such as an iPhone, an Apple Watch, and the new AirPod case.

 

Apple finally introducing wireless charging into their products is a step forward in whole-home wireless connectivity, but the concept of these wireless charging mats are somewhat misleading since the mats themselves still have to be plugged into an outlet, and your device will have to have a physical connection to the mat (i.e. touching it) in order for your device to charge. So yeah, not totally wireless.

 

There are other, truly wireless charging solutions on the market, and we’ll discuss them in the next blog post.

Surround Sound Via Bluetooth? Not So Fast…

Surround Sound Via Bluetooth? Not So Fast…

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There was plenty of big tech news to come out of IFA this past September – from voice AI alliances, to the unveiling of Sony’s venture into the smart speaker realm – the end of 2017 has given us a glimpse into what innovations we can look forward to in 2018. A popular trend we noticed at IFA was the expansion of wireless technologies – from headphones, to speakers and smart phones – wireless capabilities are evolving from a simple point-to-point connection (Bluetooth) to more complex multi-room, multi-channel streaming over standard Wi-Fi. We found that the war between Bluetooth and Wi-Fi for wireless connectivity is still being fought, but some concessions have been made (for example, new Marshall Headphones Bluetooth speakers have added Wi-Fi for multi-room capabilities, signaling an acknowledgement of the limitations of Bluetooth.)

 

One headline in particular caught our eye during IFA regarding the Bluetooth capabilities in the new Moto X4 smart phone, which allows users to link the phone with up to four devices simultaneously. According to CNET, “[t]his is the first phone that lets you broadcast your music to multiple different Bluetooth devices at once. You can connect the phone to four different speakers or headphones — of any kind, as long as they have an A2DO profile — and play the music in sync across all four.” This technology is being lent to Motorola by French startup, Tempow, who specialize in multi-Bluetooth audio and hope to see their version of Bluetooth embedded into smart TVs in the near future to achieve “surround sound-like capabilities” in the living room.

 

The truth is, even with the added ability to connect to more than one device, Bluetooth still has too many drawbacks as a wireless standard to fuel the smart home of the future. For example, you’ll experience interruptions in your music if you get a call or text while using your phone as a source device; there are severe range limitations (around 30 feet), and it produces low quality sound (Bluetooth uses “lossy data compression,” which means that it encodes its data in inexact approximations and partial data discarding to represent its content. This creates a more garbled sound quality and makes Bluetooth audio devices more vulnerable to dropouts.)

 

Wi-Fi, on the other hand, has a much longer range than Bluetooth (roughly 100 feet inside, and up to 300 feet outside) so you can use one system throughout the entire home and extend it into your backyard if you place your router in a central location. Not only can Wi-Fi connect to more than four speakers at a time to create a real 5.1 surround sound system, it can support multi-room systems and multiple channels, which Bluetooth can not. This means that within your wireless home entertainment system, you can actually create a system of speakers, such as “left,” “right,” “center,” and “stereo.” You can also choose to play one speaker, multiple speakers, or all of your speakers at any given time, without always having to reconfigure the devices. Wi-Fi systems also tend to support superior sound quality because they have a wider bandwidth than Bluetooth and it uses a lossless codec, which Bluetooth does not. Therefore, Wi-Fi can support high resolution and lossless audio without significant lag. So for true surround sound in your living room, or anywhere else in your home, Wi-Fi is the best and only wireless standard option. For more information about the differences between Bluetooth and Wi-Fi, check out this blog post.

 

Tempow’s multi-Bluetooth technology in the new Moto X4 smart phone has gotten some people excited, especially when it comes to situations where Wi-Fi isn’t available, like at a park or the beach. But in the home, the overall limitations of Bluetooth as a wireless standard prevents it from achieving what Wi-Fi already does. Need we say more?

Onkyo Announces Blackfire Powered CS-N575 Network Hi-Fi CD System

Onkyo Announces Blackfire Powered CS-N575 Network Hi-Fi CD System

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Onkyo has announced plans to ship their latest Network Hi-Fi CD System, the CS-N575, which features Blackfire Research’s own FireConnect Wireless Multi-room Audio technology. The CS-N575 is a compact Hi-Fi system that consists of two speakers and a stereo receiver with a built-in CD player, FM tuner, and the ability to stream your favorite music apps via Wi-Fi through Onkyo’s Next Generation Network Audio which supports Chromecast built-in and our very own FireConnect. The CS-N575 has built in Spotify, TIDAL, Pandora, Deezer, and TuneIn, and boasts a stunning LCD with a new JOG dial so you can control all your music from one place and view song information and album art.

 

With 20 W x 20 W stereo power and a new switching amplification system, The CS-N575 “delivers high speaker-driving power, maximizing sound pressure levels for better energy and punch over an expansive soundstage” (Onkyo). But the best part? With Blackfire’s FireConnect Wireless Multi-room Audio technology, your music can follow you from room to room – so the party never stops.

The Best Way to Avoid Buffering

The Best Way to Avoid Buffering

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A new neural network AI from MIT CSAIL has been making headlines recently for using machine learning to solve some issues associated with buffering. We’ve all experienced buffering before, either in the form of pixilation, long wait times while loading a video or audio file, and everyone’s favorite nemesis: the spinning pinwheel of death. Buffering occurs because it’s impossible for your computer (or TV) to receive data all in one lump for immediate playback. Therefore, data is broken up into smaller packets and sent to its destination, sequentially. So while you’re enjoying your favorite Spotify playlist played to wireless speakers throughout your home, or streaming the latest episode of Game of Thrones in your living room, your entertainment media will always be sent bit by bit. If all goes well, you’ll never notice this is even happening. But more often than not, you’ll experience some sort of indication of file buffering. If there isn’t enough bandwidth, you’ll either experience pixilation, longer buffering times, or drop outs because your network can’t transmit data fast enough to maintain a sufficient “buffer.”

 

Essentially, what MIT CSAIL’s AI, dubbed the “Pensieve” neural network, does is use machine learning to switch between pixilation and buffering so your videos aren’t over buffering when they don’t need to, or pixelating when they don’t need to. According to MIT, the neural network will tune itself over time based on a system of rewards and penalties, allowing streaming services to customise this for their content—with priorities for buffering or resolution. If the streaming service is able to predict that a user watching a video on a handheld device is about to walk into a poor connectivity area, the system will be able to reduce the streaming resolution sufficiently, creating enough of a buffer for (potentially) stutter-free streaming (livemint). This is all fine and good, but it’s essentially like putting a Band-Aid on a festering wound: it may cover up the problem, but it by no way solves the underlying issue.

 

The real problem with buffering lies with your WiFi network. Conventional WiFi runs on TCP (Transmission Control Protocol), designed in the 1960’s for transferring files down wired Ethernet lines – certainly not for streaming real-time video and wireless audio throughout the Smart Home. (For more information on the shortcomings of TCP, check out this blog post). As long as your WiFi runs on this outdated protocol, it doesn’t matter what techniques are being innovated to combat the annoyance of buffering – the cause of the issue still needs to be addressed, not the symptoms.

 

Blackfire Research understands this. That is why we developed Real-Time Packet Management (RPM), the Blackfire Research solution to buffering. For whole home, wireless audio, RPM uses a special multipoint, real-time feedback signal from each speaker to monitor the effects of noise on the audio data stream, allowing for a much shorter queue and much less buffering. RPM is part of the Blackfire Realtime Entertainment Distribution (RED) framework, a revolutionary new protocol designed to stream both HD 5.1 audio and 4K video, simultaneously, across multiple devices around your home- all over the standard WiFi – with precise synchronization, low latency for lip sync, and overall reliability.

 

RPM can be found in any Blackfire powered device. Partnering with Blackfire Research means you’re ahead of the pack, and most of all, one step closer to defeating your nemesis: that darn spinning pinwheel of death.

HTC Connect, Powered by Blackfire, in New HTC U11 Smartphone

HTC Connect, Powered by Blackfire, in New HTC U11 Smartphone

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HTC Connect, powered by Blackfire, is shipping in the latest HTC smartphones, including the HTC Bolt, the HTC U Ultra, and the HTC U11. Today, we’ll take a closer look at the HTC U11, the newest smartphone on the HTC roster, and the first smartphone with “hands-free” Amazon Alexa built-in.

 

So how does “hands-free” Alexa work on the HTC U11? The same way an Alexa voice-activated speaker, like an Echo or Dot, does: simply set your phone’s microphone to the “Always-On” setting, and voila! You’ve got Alexa in your pocket! Just like an Amazon voice control speaker you may have at home, there’s no need to press any buttons to wake it up. Just say “Alexa,” and and she will respond. You can have her look up today’s weather, or even turn your house lights on – whatever your home Alexa can do, your HTC U11 Alexa can do it too.

 

As mentioned, the HTC U11 features HTC Connect, powered by Blackfire, which can stream any local or web-based music or video via Wifi from an HTC smartphone to any Blackfire powered stereo device or entertainment system – no matter the brand – by swiping up the home screen with three fingers. With HTC Connect, you can create a wireless 5.1 surround sound system or stream different music to multiple speakers at the same time. (Check out this easy guide to help you wirelessly stream music from your HTC U11 smartphone to Blackfire compliant speakers.) Setting up a wireless home entertainment system has never been easier.

 

The HTC U11 comes in sapphire, Silver, Black, and Red. Get yours here.