Today’s blog post is another excerpt from Home Theater for the Internet Age and covers more topics that often confuse both new and old hi-fi and home theater fans alike: Ethernet (hard wired, high-bandwidth computer and hi-fi gear networking), separates, and the role of a broadband internet router in a modern home theater.
- Part 1: Volume and zero dB, updating firmware, disadvantages of Blu-ray
- Part 2: Speaker resistance and analog vs. digital amps in AV receivers
- Part 3: PCM vs. bitstream and Blu-ray player upscaling/upconversion
- Part 4: THX certification, DLNA network access, and distortion and THD
- Part 5: HDMI (including cable length and controversial expensive cables)
- Part 6: Closed-back vs. open-back around-ear headphones
- Part 7: Understanding your room and room dynamics
- Part 8: Room correction, speaker position, and more room dynamics
From Chapter 3: Components
Ethernet is a standard for connecting computers and home theater components to your home network. Unlike wi-fi, which is a wireless communications standard, it is a wired scheme that operates over special cabling. Like its cousin wi-fi, Ethernet enables audio and video to be streamed from the internet or a part of your network to your home theater. In terms of audio and video components (specifically receivers, Blu-ray players, and streaming media boxes), Ethernet is a valuable feature that provides a better connection than wi-fi, but may involve more expensive installation of cabling in your home. (For more info, see the Ethernet section of the Connection Types chapter.)
Personally, I’d seriously consider skipping components that lack Ethernet. Why? Simply because it’s the best way to connect the pieces of your home theater to your local network and the internet, especially for streaming high-definition video. The media formats of today—and tomorrow—all flow more smoothly when transported via Ethernet instead of interference-prone wi-fi.
From Chapter 5: Connection Types
As you learned in the Components chapter, Ethernet is a wired connection technology from the computer networking world that is used in other types of components, such as home theater and home automation equipment. It supports relatively high speeds, has been around for decades, and is very reliable. Many, but not all, receivers and all major streaming media boxes feature Ethernet ports. This connectivity standard operates over special cabling called CAT5 and CAT6 (the current and most robust standard) and can reach lengths of more than 300 feet (100 meters).
Sometimes labeled “LAN” on a device’s back panel, Ethernet isn’t only reliable, it’s the fastest connection available. In a typical home network, Ethernet is roughly two to 20 times faster than wi-fi (when measuring real-world data throughput)! Although most components don’t take advantage of this speed, future standards—like true 4K video—will benefit from it. Another superiority over wi-fi is the lack of sensitivity to radio interference (such as from cordless phones and microwaves). In addition, Ethernet is much less prone to hacking or unwanted eavesdropping than wi-fi. Ethernet is simply the best connection option for computers and home theater equipment.
In most homes, wi-fi is obviously used by all mobile devices (iPod Touches, smartphones, tablets, and laptops). But your receiver never moves, so it doesn’t need the mobile flexibility provided by wi-fi. It does, however, need a fast, solid internet connection—and especially benefits from one that’s much more immune to interference and several magnitudes faster than its wi-fi cousin (helpful when streaming high resolution audio or video without interruptions or buffering).
For these reasons, I decided to connect my receiver and other home theater components to my home network (and the internet) using Ethernet. Because my components aren’t consuming wi-fi bandwidth, they aren’t competing with the mobile devices in my home. If you’ve already gone to the installation expense or invested DIY time to run CAT6 cable from your home’s internet router to your home theater components, there’s no reason to not supply Ethernet to all of your devices.
Splitting Ethernet with a Switch
Sharing a single cable drop with multiple home theater components can be done easily and inexpensively using an Ethernet switch. Similar to a USB hub, this device simply splits and manages the incoming Ethernet signal from a single cable into multiple feeds (some switches provide five ports, while others offer eight or more). There are a few speed standards supported by Ethernet switches. It’s recommended that you get the fastest possible switch to help future-proof your system. This would be a gigabit switch, which is very affordable, with entry-level models costing only about $35. With even higher definition TV right around the corner, data consumption will only increase exponentially.
A friend of mine was recently shopping for a receiver. He had been plugging his cable box and Blu-ray player directly into his TV. He purchased a Chromecast dongle, but his TV features only two HDMI ports, both of which were occupied. Thus, he was forced to purchase a receiver to accommodate his three HDMI inputs (of course, he’s pumping much better sound to his speakers in the process). Instead of paying more for a receiver that featured wi-fi—he was on a tight budget—we simply ensured that the receiver had an Ethernet port. This allowed him to save $120 by purchasing a model lacking wi-fi—while at the same time delivering a considerably faster and more reliable internet connection to his receiver.
For non-mobile devices and when practical, always choose Ethernet over wi-fi.
From Chapter 3: Components
One thing this book doesn’t deal with in detail is what in the audiophile world is called separates. These are specialty components that handle specific tasks within your home theater, primarily multichannel amplification or surround processing. These are both tasks assumed by a standard AV receiver, although typically—by audiophile standards—at a lower quality level than can be delivered by separates.
It’s hard to argue with the benefit of different power supplies and avoiding any electrical crossover or interference between separate components. It is, in both theory and actual listening reality, an approach that’s superior to that of integrated receivers. But, as with all areas of life, common sense should prevail. There are poor examples of separates on the market, as well as integrated receivers that produce incredible sound and video with robust power (and better value).
As you might guess, separates can get alarmingly expensive. If you want to research separates on your own, check out Anthem, Bryston, Classé, Emotiva, Integra, Marantz, NAD, Parasound, and Rotel. With the exception of Emotiva and (sometimes) NAD, get ready for sticker shock. Even Yamaha joined the game in 2014 with a $6,000 pre-processor and power amplifier pair.
If I was buying separates today, I’d probably go with Rotel, NAD, or Emotiva. I like Rotel’s Class D digital amps and its reputation for clean, refined audio with a wide soundstage. I love NAD’s understated grey matte finish and its legacy for audiophile-quality sound at all volume levels. I also enjoy Emotiva’s engineering philosophy and how the company throws tons of watts at its separates (although other companies offer classier, more refined component styling). The company’s wattage-per-dollar ratio is off the charts. Unlike most separates manufacturers, Emotiva’s prices won’t motivate your spouse to begin Googling ways to kill you in your sleep.
Broadband Internet Router
From Chapter 3: Components
I know, I know, this is a book about home theater, not computers. But with so many streaming services delivered to your home theater via the internet, having a weak router can be more frustration than pleasure. Dropouts when listening to streaming music and freezes for buffering while watching internet video aren’t any fun (somewhat destroying the suspension of disbelief during engaging movies). While problems like this can’t be completely avoided due to internet traffic and server hiccups (issues completely outside your control), they can sometimes be dramatically decreased with a good dual-band router.
Think of a high-end router as serving the role of an internet traffic cop who not only likes to increase the speed limit, but also optimizes your network for the increasingly media-based data pulled down by your increasingly device-filled household.
Not convinced of the importance of wi-fi in your home? Consider that Roku uses wi-fi even in its remote controls, while Nest sells a wi-fi-enabled smoke detector to complement its wi-fi-based smart thermostat. There are even various models of door locks and LED light bulbs on the market that require wi-fi to configure and operate. From your display panel and AV receiver to your laptop or your child’s iPod Touch, the quality and reliability of your wi-fi connection has never been so important, affecting every member of your family—and even your guests who bring their own mobile devices.
Better router models provide several advantages, including stronger amplifiers and dedicated antennas to enhance signal strength, range, and overall data speed. Consider that YouTube and Netflix together make up more than 55% of the overall volume of data consumed on the internet. In other words, most of the data streamed online is video—and sometimes HD video in Dolby Digital surround sound. This video consumes a lot of bandwidth, more than any other type of data on your network or the internet.
Also consider that this data isn’t consumed in short bursts, like traditional computer-based internet use involving a web browser or mobile apps for social networks like Facebook, Twitter, or Instagram. Watching a two-and-a-half hour movie on Netflix or Apple TV requires not only good bandwidth, but a data stream that’s consistently reliable. Now recognize that there might be two, or even three, simultaneous video streams from the internet entering your home at certain times of the day (such as after school or work, during the evening, or on weekends). This is when most readers begin to understand the sheer volume of media streaming that occurs in their home and the pivotal role played by their wi-fi router.
When you sign up for internet service, there’s a good chance that your ISP, or internet service provider, will provide you a combination modem/router that includes basic wi-fi capabilities. This is the device that is both bringing the internet into your home via coaxial, twisted pair (telephone), or fiber optic cabling and then, as a second step, wirelessly broadcasting it to your home via a wi-fi signal. Any internet-connected device in your home relies on your router for the upload and download of all data.
The Free One Sucks
For companies like AT&T, Cox, Comcast, and Time Warner to make money, they obviously must keep overhead as low as possible. This means that the modem/wi-fi router box they provide with their ISP accounts isn’t the best available. Not by a long shot. Regardless of the inherent quality of these freebies, they aren’t giving you the best experience possible. With so many mobile and home theater devices in your home demanding a robust and full-time wi-fi connection—and typically streaming bandwidth-hungry audio or video—the role of your router is more important than ever.
Buy Dual Band
First, be sure to purchase a wi-fi router that’s dual-band. This will include support for both 2.4 GHz and 5 GHz devices, essentially putting them on different networks and boosting the bandwidth provided to all devices by helping prevent bottlenecks and streamlining data flows.
A benefit of a dual-band router is that you’re guaranteed to have the latest wi-fi standard, 802.11ac (sometimes called gigabit wi-fi). This gives you the fastest wireless connectivity, helping provide the best possible performance, especially with new devices that enter your household that probably support this standard. Routers from ASUS, Cisco, D-link, Linksys, and Netgear are recommended because of their quality, affordability, and long track records with consumers and enterprises.
Buying the best router possible for your home in 2014 is a $130-$280 endeavor. Check out the $200 Netgear Nighthawk R7000 (my personal pick and a PC Magazine’s Editors’ Choice, pictured above), the $130 ASUS RT-N65U or $220 RT-AC68U, or the $230 Linksys EA6900 (another PC Magazine Editors’ Choice recipient). Also consider the top-shelf $280 Linksys WRT1900AC. Another nice contender is the $175 TRENDnet TEW-818DRU (street prices will typically be lower on most models). Not chump change, but by the end of the operation you’ll know you have the fastest, most reliable, and most manageable wi-fi on the block.
Curt Robbins is author of the following books from Amazon Kindle:
- Home Theater for the Internet Age ($9.95)
- Understanding Personal Data Security ($4.99)
- Understanding Home Theater ($4.99)
- Understanding Cutting the Cord ($4.99)
- Understanding Digital Music ($4.99)