Business Grade 4G LTE Broadband for Work at Home

By: John Shepler

All of a sudden, everybody is working from home… or at least trying to. One of the big challenges is trying to get enough high speed, low latency bandwidth into a remote business or home office instantly. The more isolated your location, the tougher it gets. Well, thanks to the wide coverage of 4G LTE cellular broadband and high performance modem/routers, you can get the bandwidth you need fast, at low cost and with no long term commitment. Does that sound interesting?

The Secret is Wireless
Forget having wires or, worse, fiber run to your location. That’s not going to happen fast and it might cost you a small fortune in construction fees plus a multi-year commitment. For a situation that may only last a few months to a year, it’s tough to take on a contract like that. Fortunately, you don’t have to.

Wireless broadband is now just about everywhere with any population at all. Can you get a decent cell phone signal? Then you are pretty much assured of having broadband Internet access. The cellular phone system started out as a replacement for voice-grade landlines, but has morphed into a broadband Internet service that also supports phone calls. The current widely deployed iteration is 4G LTE. Signals are strong and bandwidth is similar to many cable services. All you really need is a way to connect.

Instant Desktop Broadband
Here’s a little secret that I use to backup my own cable broadband. Your iPhone will act as a personal hotspot. Just turn that feature on, select that network name on your desktop WiFi and enter the password the phone gives you. Voila! Your desktop computer in on the Internet. No wires needed.

This works great for short term outages, but if you are going to use this service day after day, there is always the nasty issue of data limits. You may have 20 GB on your wireless plan, but typical monthly use is more like 250 GB. Your cellular plan won’t cut it for the long term. You need something designed for business.

Business Grade Wireless
Instead of a cell phone, you need something that looks more like a WiFi router but with 4G LTE driving it instead of DSL or Cable. These are made by companies like CradlePoint with service from business broadband providers like For2Fi.

A single box has a 4G LTE modem with antennas and a WiFi signal router. Some models include firewalls, Ethernet ports, and even Power over Ethernet (PoE). Unlike a cell phone, you can add an external antenna to boost the signal in areas with weak coverage.

Enterprise Grade Service
Would unlimited usage (subject to 300 GB acceptable use policy) at 20 to 50 Mbps download and 5 Mbps upload with low latency and low packet loss work for you?

You will be able to do the usual web browsing and email, but also video conferencing, file collaboration, teams and unified communications as a service (UCaaS).

But what does this cost? It’s about what you’d pay for business grade cable broadband and likely less than a 1.5 Mbps T1 line (sometimes the only other solution in rural areas). That’s with no contract. You just pay as long as you use the service.

For businesses that are really on a budget, there is also a basic plan with 1, 5, and 10 GB plans at a bargain rate. If you go over the limit, you pay a fee per GB used.

Are you faced with having to suddenly support a scattered workforce with no time to install the usual connections and in locations that might not even support high speed wireline or fiber installations? Get up and running in days, not months with a flexible enterprise grade wireless broadband solution. Use the handy online form or call toll free 888-848-8749 now.

Gigabit Internet Near Your Business

By: John Shepler

No doubt about it, you need more broadband speed to conduct business than you ever have. Most businesses have an online presence now. The few that don’t still need the Internet for business processes and to offer WiFi hotspots for their customers. If yesterday’s connection solutions seem to have slowed to a crawl, you clearly need an upgrade. Gigabit Internet broadband could be exactly what you need now and for the foreseeable future.

Is Gigabit Internet Really Right for Me?
What you really need is invisible connectivity. No matter what you are doing, the speed of the line shouldn’t be getting in your way. In fact, you should completely forget about how you get to the Internet. It should just be there.

You probably need more speed than you think. Over the last 20 years, the “Internet” has evolved from email and some very simple HTML brochure-type websites to fully functional online operations. Many of your customers never set foot in your place of business anymore. They do everything online. It’s second nature. Their phone is really a web browser that is always in their pocket. Their desktop computer has relatively little boxed software anymore. Most everything is done online and in real time. Your phone system? Probably VoIP technology these days and more likely, integrated with a video conferencing system for unified communications.

How about your business processes? Do you keep manual books? How about customer or patient records? Your customer relationship management systems are all software based and most likely cloud based. In fact, fewer and fewer companies host their own data centers anymore. It’s all about the cloud and what isn’t cloud related is all about connecting to the outside world, especially customers and suppliers.

Making your connection invisible to you and your employees involves certain technical characteristics. The line must run fast enough. That’s speed or bandwidth. It also must respond quickly. That’s latency as much as speed. Long latency in the system means sluggish response. It must also be accurate and efficient in the sense that it doesn’t lose bits. That integrity is essential in the case of voice and video streams. Dropped bits garble conversations and make video distorted and even jerky. A high quality Gigabit Internet connection can go a long way to making all of this fairly easy to accomplish.

Your Gigabit Internet Connection
Is Gigabit Internet near you? Most likely, yes. Perhaps you checked around a few years ago and found nothing available. It’s highly likely that situation has changed. The demand for higher and higher speeds, especially 4G and 5G wireless broadband speeds, has resulted in a building boom for fiber optic and microwave circuits. In addition, new technology modems have enabled cable broadband systems to be able to deliver Gigabit speeds over their existing fiber and coaxial copper infrastructure.

Even if you don’t think you really need Gigabit speeds right now, you should seriously consider having that capability. You’ll need them sooner than you think. What you want is a DOCSIS 3.1 modem or a Gigabit Ethernet port to deliver your Internet connection. That way you can start out with, say 100 Mbps business broadband, and upgrade to as much as 1,000 Mbps, a Gigabit, later.

Know Your Broadband Types
You should know that there are two basic types of Internet broadband services. They are called dedicated and shared. Dedicated Internet Access has the highest prices, but is the most solid, reliable connection you can get. The "dedicated" name means the bandwidth is 100% dedicated to your use only. Whatever you don't use remains available when you need it. A dedicated connection also tends to be symmetrical, with upload and download speeds identical.

Shared connections, like what you get with cable broadband and 4G and 5G wireless, are far less costly, but are shared among multiple users. You many notice this as fluctuating line speed throughout the day. Shared connections also tend to be asymmetrical with download speeds about ten times upload speeds. Whether either of these characteristics matter depend on how you are using the service.

What Internet connection is best for your business? Find out now what Gigabit Internet broadband services are available near you.

How to Feed a Hungry WISP

By: John Shepler

We’re a wired nation, except when it comes to locations that are a bit off the beaten path. That includes farms, rural households, businesses beyond the city limits, new subdivisions and some industrial parks. While they may have telephone, thanks to universal service, the availability of broadband Internet access is less of a sure thing. This is where the wireless broadband supplier or WISP fills the gap.

Why WISPs?
WISP or Wireless Internet Service Provider is similar to a cell phone provider, except specializing in high speed Internet access. While even 4G cell service has fairly low usage limits, WISP services are much more generous and try to emulate the type of service you’d get from cable, telco or even fiber optic lines. The real cost to hooking up less populated areas is trenching cable bundles or flying them on utility poles. The WISP eliminates the wires and their associated cost. The tradeoff is that you generally need a small dish antenna and receiver outside to pick up the signal from the WISP tower.

Where Do WISPs Get Their Broadband?
While the WISP distributes broadband much like WiFi, the broadband they serve must come from somewhere. When the Internet was young, T1 lines did an excellent job of feeding the WISP, just like they did feeding cell towers out in the countryside. The beauty of T1 is that it can be sent virtually any distance over standard twisted pair telephone wiring. The downside is that the bandwidth is fixed at 1.5 Mbps per T1 line. Higher speeds can be accomplished by adding or bonding additional lines to double, triple or quadruple the speed. The practical limit is around 10 to 12 Mbps. Pricing goes up linearly as you add each line.

Higher Speed Copper Lines
A newer technology that also runs over twisted pair copper is Ethernet over Copper (EoC). This service offers higher speeds, say 20 or 30 Mbps or even higher. Transmission is distance limited, but EoC is now more available beyond the city limits. Cost is much more attractive per Mbps than T1, if moderate speeds are adequate for what you need.

Business Cable Broadband can provide hundreds of Mbps these days but has suffered from very limited deployment outside of metro areas. That has changed somewhat as the cable has been extended to outlying subdivisions and business parks. If you can get this service and the Cable Company is OK with using it for a WISP, the cost will be very attractive.

Fiber Optic Service
The new gold standard of bandwidth service is fiber optic lines. These used to be few and far between, but provider competition has made them far more common even in rural areas. You can thank 4G cellular for providing the incentive to trench fiber conduits into rural areas. Prices have come down dramatically with Ethernet over Fiber (EoF) services. These are highly reliable and easily scalable up and down in bandwidth to meet your needs. Bandwidths of 10 Gbps up to 100 Gbps are common now.

Microwave Transmission
Why not feed wireless with wireless? That’s not a crazy idea and is being used more and more as telco companies upgrade to 5G towers. Microwave is a point to point wireless service. You mount a small dish on your tower and point it toward the service provider. It’s like fiber but without the fiber.

SDN Combines Bandwidth
What if you need more bandwidth than any one supplier can provide? One option is to combine them using a technique called SDN or Software Defined Network, also known as SD-WAN or Software Defined Wide Area Network. The SDN controller manages traffic to get the best performance for each packet. You can combine T1, EoC, cable broadband, microwave, fiber optic lines and even satellite Internet to create a higher speed robust feed for your WISP tower.

Do you operate a WISP service or have one in the planning stage? Find out what bandwidths and pricing are available for your desired locations now. A friendly consultant will help you sort through the options.

Business Internet Service For Everyone

By: John Shepler

Unlike consumer Internet access, business Internet service has the reputation of being prohibitively expensive and sometimes hard to get, especially in rural areas. Much of that reputation goes back to a time when the incumbent telephone companies were the only provider available. Your choices were, indeed, limited and pricing could make your eyes bug out. Today’s deregulated environment has matured to the point where any business that needs and wants an Internet connection can get one… and at prices that won’t bust the budget.

Best Options for SOHO, Small Office, Home Office
The smallest businesses are the sole proprietors. Often, these are one person consultancies, remote workers, "gig" workers or web designers who work from home offices. When at the client, they’re carrying a laptop or tablet, plus a smartphone. Budgets are tight, so they want to minimize the cost of Internet access… just as long as it gets the job done.

The lowest cost option for bootstrap operations is residential cable broadband at the home office and 4G LTE cellular on the road. You can pair your tablet and laptop with your smartphone where WiFi is not available. It doesn’t get cheaper than this. Note: Contact your local Cable company for residential broadband.

If you have special requirements such as static IP addresses, any type of server or symmetrical bandwidth, you'll be needing to look at Internet services designed for commercial operations.

Professional Offices
When your business needs a commercial office, you’re probably supporting more than one person. Insurance sales agents, physicians, and any business that wants walk-in clients fits this category. You won’t be able to get residential broadband at a commercial address, but you can get basically the same service branded as “business broadband.” Cable is still an excellent option, with bandwidths up to 100 Mbps common and more than adequate to support a small team. You may even set up a guest WiFi network for clients or bundle television service for waiting rooms.

Higher Tech Offices
Businesses that are tech oriented support such niceties as in-house servers, call centers, and mission critical cloud applications. If you do as much or more uploading as downloading or run a server, cable broadband with its shared bandwidth may be too limiting. Better choices include dedicated Internet access provisioned on Ethernet over Copper at 10 to 50 Mbps or Ethernet over Fiber at 10 Mbps to 10 Gbps. Fiber gives you more options, but isn’t always available, even with construction costs added. Costs are at least several times higher than cable, but performance is more robust for sensitive applications like VoIP telephony and cloud access.

Retail
Most restaurants and bars find the business cable bundles of Internet, television and telephone compelling. It’s a package that is more than adequate and well priced. Special circumstances involve pop-up retail stores that show up just in time for holidays or are located at special events. Wireless 4G is a good fit here. This service works like a smartphone but is built into a special access point that includes a high performance antenna to ensure a strong signal. You can plug in a wired network or WiFi router depending on your needs.

Out In The Boonies
Rural businesses, including retail, agribusiness, machine shops, farms and ranches, gas stations, and so on have needs like their city counterparts, but no wires or fiber nearby. Wireless 4G may work if you can live with the usage limits, which are similar to phone services. If not, high speed satellite can be a better option. Bandwidths up to 100 Mbps are readily available with 1 Gbps coming. Location is unimportant as long as you can point the dish at the bird in the Southern sky with a clear view. The newer satellites have a lot more capacity, meaning that you can get much higher usage limits that fit the needs of many businesses. Pricing is similar to cable and lower speed fiber.

Is Anyone Still Using T1?
Because it was designed to work using the same cable as analog telephone service, you can still get T1 just about anywhere you can get a landline phone. The bandwidth is only 1.5 Mbps, but it is rock solid and reliable. T1 works for applications like credit card verification, email, and light web browsing. Performance is similar to 3G cellular. Prices on T1 lines have fallen so much in recent years that this legacy service is still a good choice in some circumstances.

More Options Than You Think
Are you a small business owner or or an IT consultant serving small clients? You may be surprised at the variety of Business Internet Service Options available now at the locations you need.

Broadband for the Bandwidth Starved

By: John Shepler

To say that we live in a connected society sounds like belaboring the obvious. It’s seems clear that everyone, and especially everyone in business, has pretty much claimed their piece of the bandwidth pie. But… not so fast. We’re not ALL connected the way we need to be. There are pockets of broadband wasteland out there that are still starved for bandwidth. If you find yourself in this situation, what hope is there?

Yes, Virginia, There IS Broadband
Earlier in the century, there were islands of broadband access and vast areas where dial-up access was all that was available. That situation has pretty much reversed. Today, there is almost nowhere you can’t get at least some broadband Internet access. It’s just a question of what type of broadband service is available and how much you are going to pay.

Fiber Optic - The Cadillac of Bandwidth
I’ve said it before and I’ll say it again. We’re heading toward an almost all-fiber world. There really isn’t anything else that has the capacity of glass fiber strands. Try sending 10 Gbps down a copper pair. That’s only going to happen within a building. That signal is certainly not going to make it across town. The same 10 Gbps is child’s play for fiber. One strand with one laser can provide that bandwidth. You can easily multiply that by 10 to 100 times using WDM or Wavelength Division Multiplexing.

Fiber Everywhere?
You might think it’s fiber, fiber everywhere and not drop to drink. Actually, it might be not a drop to be had. Fiber really is everywhere. That long country road? There’s a good chance there’s fiber buried in the utility right of way. Highways, railroads and pipelines are popular routes for fiber conduit. The reason most of this fiber is invisible is because there are few drops, or places to connect with all that fiber.

That’s changing. What’s happening is that both consumer and business applications have become more bandwidth intensive. The cloud? You don’t dial-up into the cloud. You better have a decent bandwidth connection or you’ll wish you kept those servers at home.

The Fiber - Mobile Connection
Another big driver is mobile broadband. Feature phones are pretty much extinct. Everybody has an iPhone or an Android. Now they’ve got to have a 4G LTE smartphone. The latest apps and streaming content demand 10, 20 or 30 Mbps of bandwidth. In the future, even that capacity will seem like dial-up.

What’s fiber got to do with mobile? What gets transmitted from the towers has to get to the towers in the first place. That’s where fiber comes in. The T1 lines that have traditionally fed 2G and 3G cellular don’t have the capacity for 4G and the 5G to come. Carriers have long since realized this and have have been in a building frenzy to get fiber to the towers. In-town that’s no big deal. Out in the boonies? It’s a major construction project. No matter, there is a lot of fiber going in the ground and connecting to cell towers here, there and everywhere.

The end result is two-fold. One, wireless broadband speeds are going up like crazy (wireless is becoming the fiber for portable and mobile applications). The other benefit is that the actual fiber is becoming available in many, many more locations.

What Fiber is Available?
The ancient standard in fiber optic connectivity is called SONET. It’s far from obsolete, since many if not most long haul networks run over SONET rings. SONET makes a great backbone, but it’s often not the best connectivity for business.

The newer standard is called Carrier Ethernet. It’s an extension of the Ethernet that runs on your LAN. Because they are on the same technical standard, you simply plug your LAN into the Carrier Ethernet WAN and your network connects across town, to another state or around the world. Connect to the Internet using fiber and you have high speed access to your employees, suppliers and customers.

Carrier Ethernet comes in two flavors. Ethernet over Copper is the low speed standard. It runs on twisted pair copper and is good for 10 Mbps or so. Ethernet over Fiber starts at 10 Mbps and goes up to 10 Gbps and beyond. That’s the advantage of fiber Ethernet. It’s pretty hard to run out of bandwidth no matter how big your company grows.

Another advantage is scalability. You can start out at 10 Mbps and go to 100 Mbps or 1000 Gbps any time you want. The fiber can handle it. If you install a fast enough port, chances are that you won’t even have to replace equipment. Just call your provider and request a bandwidth increase.

What If There Still Is No Fiber?
Don’t write off fiber until you’ve gotten a new set of quotes. The fiber footprint for every carrier is changing daily. Just because you got turned down last year doesn’t mean you are still in the middle of nowhere. But… sometimes you still are.

For smaller or less bandwidth demanding businesses, such as small retailers and some farms and ranches, the trusty T1 line may still get the job done. You get a solid 1.5 Mbps up and down. That’s certainly good enough for email, much casual web browsing, and even online ordering. Video? Not so much. But, maybe that isn’t your critical need.

The beauty of T1 lines is that they are available nearly everywhere you can get a landline phone. They can also be bonded to double or triple your bandwidth. In some cases, 10 Mbps is entirely possible. That’s about the limit. Prices per line are a fraction of what they used to be, so you might find T1 is your most affordable option.

Can We Ditch The Wires?
Wireless is also more of an option than it used to be. Those same cell towers that are powering 4G smartphones can also feed a fixed receiver at your location that will give you broadband over your LAN. Today, most businesses are within good signal range of at least one cell tower.

For a lot of applications, bandwidth won’t be your problem. Usage will be. Wireless is a scarce resource, so even the so called “unlimited” plans have “fair usage” limits. If you go over, you’ll pay overage charges or have your service rate limited or cut off. Even so, many businesses are still not Internet-intensive and can get their online jobs done without going over, say, 10 GB per month.

Bird Is The Word
If you are so out in the woods that nothing else will work, there’s always satellite. Yes, you do need to be able to peek through the trees to see the southern sky. Yes, you do need to power the satellite equipment. If neither of those is a big problem, you can get broadband service for sure.

Satellite broadband used to be something of a joke. Bandwidth was pitiful and usage limits were paltry. Newer generations of bigger, higher power satellites have made a lot of those problems go away. You can get decent broadband levels, although nowhere near fiber capability. Still, 5 to 15 Mbps is reasonable for many businesses. Like cellular, there are usage limits on satellite and 10 GB per month is not untypical, although there are higher usage plans available. Once again, this is for web access and email, not video streaming.

The other issue you should be aware of is latency. The big birds are flying some 23,000 miles up there and it takes even a radio wave a half-second or more to get up, down and back again. Latencies of 500 mSec to 1 Sec or more mean that telephone calls over satellite are more like two-way radio conversations. You have to wait your turn. The same is true for video conferencing. Expect other cloud services to be similarly sluggish over geosynchronous satellite broadband.

What Flavor of Broadband Will Satisfy Your Bandwidth Appetite?
Options available to many locations include fiber, T1, cellular wireless and satellite. One of these should be usable for your applications. In many cases, you have more than one choice. Sometimes even cable broadband or high speed fixed point to point fixed wireless service are additional options. How do you know what’s available? It starts with a no-obligation quote from multiple service providers that you can request in just a minute or so.



Note: Products with the humorous theme "I Definitely Need More Bandwidth" shown on this page are available through the Gigapacket Zazzle Store.

When Broadband is Hard to Find

By: John Shepler

If your business is located downtown in a major metro area, the idea of network and telecom services being hard to find seems a little odd. You probably have at least a couple of competitive providers vying for your business, as well as the local telephone company. Your challenge is to find the best deal on connectivity, trunk lines and cloud services. There are likely options available that you don’t even know about.

If you are located in a rural area or working from a home office, this wealth of opportunity may be missing. You may feel that nothing is available or you are stuck with a single option that’s a real stretch for your budget. Actually, there may be more bandwidth options available than you think.

T1 Lines are Readily Available
Businesses with their own commercial addresses have it the easiest. They can almost always get at least some traditional telecommunications services. These include POTS phone service and T1 lines. Both use the same twisted pair copper cables that connect nearly every building.

T1 started out as a telephone trunking service, but has been used for dedicated private lines and Internet access for decades. Each T1 line provides 1.5 Mbps in both the upload and download directions. Today that’s pretty low-end broadband, but it’s more than sufficient for credit card verification, email and simple Web access. You can also run backups to the cloud and connect with headquarters.

Boosting T1 Bandwidth
Not enough bandwidth? T1 lines can be bonded together to create a larger data pipe. Two bonded lines gives you 3 Mbps, 4 lines offer 6 Mbps and so on up to 10 or 12 Mbps. Bonded T1 is highly reliable and readily available. You might find it a bit pricey because there is no economy of scale. Two lines cost 2x one line. Even so, out in the boonies T1 and bonded T1 is likely well worth the cost. That cost has dropped precipitously in the last few years, by the way. If you haven’t taken a look at T1 lately you may be surprised by the value. Even so, expect to spend a couple hundred dollars a month or more for T1 service.

Broadband From Space
Another service almost universally available is two-way satellite or VSAT. Many small retail locations use satellite for their transaction processing and connectivity to HQ. Satellite bandwidth has been similar to T1 at a somewhat lower cost. More advanced satellites now offer bandwidths of 10 Mbps or more for a higher price. The thing to know about satellites is that they can connect anywhere in the country with a clear view of the southern sky. You can even power the equipment “off the grid.” Limitations are that bandwidth is shared and you are generally limited in the amount of data you can upload or download each month. Latency is also high, making the service hard to use for VoIP telephony. Compare that with dedicated line services that offer low latency and have no usage limits.

Broadband From Cell Towers
If your needs are modest, you may get by with 3G or 4G fixed wireless. This is a fancier “all office” version of a smartphone hotspot. If you can get smartphone broadband at your location, this service should work for your office or store. Just know that usage is limited and sometimes involves overage charges. It’s great for transaction processing and simple Internet usage, but not for heavy video usage and software downloads.

What’s Available for the Home Office?
SOHO (Small Office Home Office) users generally choose DSL or Cable broadband because of the low cost with decent performance. It’s not uncommon to get all the speed you need for $50 or so. You won’t find anything like those prices with T1 or bonded T1 lines. That’s because the bandwidth is shared among many customers and is a “best effort” rather than guaranteed availability service.

I often get inquiries from home office users who can’t get or don’t “like” their cable or DSL choices, but are shocked at the cost of more reliable and higher performing business telecom services. Are there any other options available?

You, too, can get two-way satellite service. You may be quite happy with it or be frustrated by the latency (time delay hesitation), usage limits, and interruptions during bad weather. It depends on what you are doing.

Fixed Wireless for SOHO Use
How about fixed wireless? If you can get good cellular service, you might consider something like a “Mi-Fi” hotspot that creates a WiFi hotspot using bandwidth on your 3G or 4G LTE cellular plan. This lets you use your desktop and laptop computers, tablets and other Internet devices on the same Internet access available from your smartphone. Once again, this is “light duty” service that is great for limited or emergency usage, but not for consistently heavy traffic.

Other Wireless Options
Another option that’s available in some areas but not others is non-cellular fixed wireless. These are WISPs or Wireless Internet Service Providers. Generally, these companies install a small dish or antenna on your home or office building and give you a wired connection for your router. You’ll need to look for these locally, as they are typically local enterprises not connected with nationwide providers. You also need to be within line of sight from their tower or towers and not too far away.

Call for Fiber… Maybe
How about fiber optic service? Verizon, Google and other companies have been building out fiber systems in select locations around the country. If you are lucky enough to be within one of these service footprints, you can get a lot of bandwidth for the money with FTTP (Fiber to the Premises).

Finding Home Office Broadband
If you are have a home office, you can try checking for DSL/Cable services or 3G/4G cellular wireless. You can also do an Internet search for satellite broadband from Dish Network, DIRECTV and others. Look locally for non-cellular fixed wireless.

Finding Business Location Bandwidth
If your business has a commercial location, then the Telarus GeoQuote search on Megatrunks.com is for you. This service gives you instant pricing for T1 lines, DS3 bandwidth, Ethernet over Copper, fiber optic and business grade Cable broadband. A quick inquiry will also get you quotes on VSAT and high capacity fixed wireless services appropriate for your business locations.


Note: Photo of Monument Valley courtesy of Josep Renalias on Wikimedia Commons.

Business DSL Alternatives

Business DSL has been popular with small businesses because of its ready availability and low monthly cost. It works just great for some businesses and not so good for others. Some are out of luck completely. The service is just not available to them. Here’s a bit of explanation and some alternative ideas for companies that either can’t get business DSL or don’t like the way it works.

Business DSL is similar to residential DSL. It comes in on ordinary twisted pair telephone wiring. Usually this is just a single pair like a phone line. In fact, it is a phone line. This means that DSL is delivered by your telephone company. They own the copper and are the only ones who can connect to it. Often, though, they will lease out copper pairs to competitive carriers that also offer business DSL service.

One thing that often distinguishes business DSL from residential service is that the home variety is priced at bargain basement prices because it uses the same wires as your landline telephone. Filters are installed so that the low frequency voice signal and the higher frequency digital signal don’t interfere. Business DSL lines are often used only for the digital connection. The telephones have their own separate network.

Some things that business owners don’t like about DSL are the shared rather than dedicated bandwidth, relatively low speeds, outages that don’t get quick repairs and asymmetric bandwidth (for the ADSL variety).

If you’ve been disappointed with what you can get in DSL performance or can’t get DSL at all, consider these alternatives.

For about the same or a little more money, you can get either 3G wireless broadband or Cable broadband. Cable is like DSL on steroids. The much higher bandwidth can make up for shared and asymmetric bandwidth. Like DSL, Cable is distance limited and only available if the cable happens to pass near your business location. Forget DSL or Cable if you happen to be located in the countryside.

Wireless is now an option for businesses in rural and metropolitan areas. WISPs or Wireless Internet Service Providers offer what amounts a giant WiFi hotspot. In order to get a far enough reach, special antennas are needed at each business location. Another flavor of wireless service is fixed microwave wireless. This is business grade service only available mostly in downtown business districts. The provider installs a small antenna on the roof of your building and an Ethernet jack in your office. Bandwidths range from 1 to 45 Mbps for standard service and 50 to 100 Mbps for high speed options. You typically need a line of sight path within 6 miles of the provider’s tower.

There is a type of wireless service that is nationally available and usually doesn’t require outside antennas. This is 3G cellular using the same towers and signals as smartphone cellular. These towers offer strong signals for most businesses, especially if high performance indoor antennas and modems are employed. The 3G service is similar to many DSL service speeds. Now 4G is becoming available, with bandwidth similar to Cable.

One more wireless service that you can get even if there is no cellular service is satellite. All you need is a dish on the roof with a clear view of the southern sky. Prices and bandwidth are competitive with DSL, Cable and 3G. It’s good for many applications, but not VoIP or video conferencing. The latency or time delay is just too long going to and from the satellite.

Consider T1 and Ethernet over Copper if you want high reliability professional wireline connections with low latency. T1 is the classic telecom service. What’s changed is that it is now available nearly everywhere you can get landline phone service and prices are a fraction of what they were a few years ago. Bandwidth is competitive with many DSL services and this is symmetrical dedicated bandwidth. It also comes with a service level agreement that ensures your line will get the highest priority if a rare outage occurs.

Ethernet over Copper (EoC) has emerged recently as a competitor for T1. It is also dedicated rather than shared bandwidth, symmetrical with equal upload and download speeds, and service level agreements. EoC offers higher bandwidths that T1 that often rival the best you can get from Cable. Like T1, prices may be double what you pay for Cable or DSL, but the bandwidth is rock solid and highly reliable.

Are you dissatisfied with your current bandwidth options or simply want to see if you can get a better deal? If so, get complementary competitive business bandwidth options and prices to know the opportunities available for your business location.

Options For Network Connectivity

Rare is the company that doesn’t need outside connections to its network. The issue is what type of connection will give you the most bang for your buck. Let’s have a look at the latest options that are attractive for small, medium and large enterprises.

Outside network connections break down into categories. Are you looking for something to get you across town? Those are the Metropolitan Area Networks (MAN). How about something that will take you to another state, across the country or overseas? Those are the Wide Area Networks (WAN). Perhaps all you want is a broadband connection to the Internet. No problem. Internet access is readily available for business users. There’s much more to choose from than in the consumer marketplace. The tradeoff is that you'll be paying something more than consumer prices.

Many metro and wide area network services are more alike than different. What you are probably seeking is a dedicated point to point service or a multipoint mesh network. Point to point private lines have been the domain of the telecom industry using standards developed for digital telephony. T1 lines are classic. They give you dedicated bandwidth of 1.5 Mbps in both the upload and download directions. When T1 is not enough, you can bond T1 lines together to incrementally increase bandwidth up to about 10 or 12 Mbps. At that point most companies jump to T3 (DS3) service at 45 Mbps and then SONET fiber services, starting with OC-3 at 155 Mbps.

There’s a new service widely available today that fills in the gap between T1 & T3 and costs less as well. This is Ethernet over Copper or EoC. Ethernet over Copper actually starts at 2 or 3 Mbps and has become a strong competitor to T1 lines. You can get twice the bandwidth with EoC for the same price as T1. The other advantage of EoC is that bandwidth levels increment smoothly past 10 Mbps. You can easily get 15, 20, 25, 30 or up to 45 Mbps. That lets EoC take on T3 / DS3 services with better pricing. In some areas, EoC goes right up to 100 Mbps Fast Ethernet and beyond. Those levels aren’t so widely available as of yet.

Another advantage of what’s called Carrier Ethernet is that you can get multipoint service as well as point to point. This is great for interconnecting multiple business locations in town or around the country. Each location needs an Ethernet over Copper connection. The service provider sets up the mesh network per standards of the Metro Ethernet Forum (MEF), an industry standards group.

There is also a competitor to SONET fiber optic services called Ethernet over Fiber (EoF). It works the same as EoC, but runs on fiber rather than twisted pair copper. The advantages are high bandwidth levels up to 10 Gbps and better pricing than traditional SONET telecom services.

When it comes to interconnecting multiple locations, especially foreign sites, MPLS networks have become the network connectivity option of choice. Why? Because these networks are already installed and running to many locations you want to go. What you need are on-ramps in the form of last mile connections. They can be as simple as T1 lines or EoC links. You can also install fiber optic lines to get higher bandwidth levels. MPLS can give you point to point, point to multi-point, or meshed network connections. Because the core network is already in place, pricing is very attractive compared to dedicated private lines that require engineering time and effort.

In addition to copper and fiber, fixed wireless connectivity is more available than ever. That’s thanks to the buildout of 3G and 4G networks by the cellular carriers. You can get business grade fixed wireless on these networks with bandwidth similar to T1 lines for such activities as credit card verification and network backup. Prices are very attractive, since the cellular carriers bore the cost of construction and paid for it from consumer smartphone data and voice contracts.

What sort of connection or connections do you need to connect your company network to suppliers, customers and your own operations? Compare network connectivity options and pricing for copper, fiber and wireless services to see what has become available recently.

High Speed Internet For Business

Not many years ago high speed Internet access was hard to come by, even for businesses. Prices were high and service options were few. That’s all changed dramatically. Now there are multiple broadband options for your business even if you are located out in the boonies. Let’s take a look at a range of high speed Internet connections divvied up by low, medium and high bandwidth.

Most businesses don’t need a gazillion bits per second, even though they might fancy carrier level bandwidth services. One thing that’s always been true and is likely to stay that way is that the higher the bandwidth, the higher the price. It’s true that within bandwidth categories there can be quite a price differential. You can also get a lot more bandwidth if you elect for shared vs dedicated service. However, that shared bandwidth varies all over the place while dedicated services are rock solid.

The low end of the bandwidth range is dominated by wireline and wireless services. Twisted pair copper is a popular delivery medium because it is almost always available in the form of multi-pair wiring installed by the telephone company. Any copper pairs not being used to carry telephone calls are available for data.

T1 is the traditional data connection for business locations. It is a dedicated bandwidth solution with symmetrical 1.5 Mbps x 1.5 Mbps available at all times. There are generally Service Level Agreements (SLAs) that guarantee uptime, bandwidth and other parameters like jitter and latency. Pricing starts at around $300 per month, sometimes less for a multi-year lease. Out of the way locations may find that pricing is higher for T1 lines.

Ethernet over Copper (EoC) is fast moving in as a direct competitor to T1. It uses the same multiple copper telco pairs but a different modulation scheme that is more efficient. T1 can be run just about any distance. EoC bandwidth is highly dependent on how close you are to the central office. Bandwidths from 2 to 30 Mbps are common, with 3 Mbps around the same price as a T1 line. A very popular EoC service upgrade is 10 x 10 Mbps for businesses that find T1 lines too restrictive and bonded T1 lines too expensive.

There are two other copper-based high speed Internet technologies. One is DSL, a shared bandwidth service that uses twisted pair copper and is relatively inexpensive. The other is Cable broadband, with bandwidths as high as 100 Mbps download and 10 Mbps upload for about what you pay for a T1 line. Both DSL and Cable are asymmetrical bandwidth (higher download than upload speeds) and are offered without SLAs. The big attraction is lower costs, especially for businesses like quick serve restaurants that want to offer free WiFi and have email and Web access for the office. Availability is limited. Cable is pretty much only in-town where the main cable has already been run.

The other way to go is wireless. Many franchise operations use VSAT or Very Small Aperture Terminal satellite antennas. These are a bit larger than the ones used to pick up satellite TV and are set up for two-way data transmission. Recently, 3G and 4G fixed wireless broadband has become a strong competitor for both VSAT and copper wireline solutions. The cost is about half the price of T1 for similar performance, with rural service often available. VSAT can be installed anywhere that you have power and a clear view of the southern sky.

The middle portion of the bandwidth spectrum, say from 10 Mbps to 100 mbps is dominated by bonded T1 lines at the low end, Ethernet over Copper throughout the range, and fiber optic services at the high end. DS3 or T3 lines running at 45 Mbps are the legacy service and are still very popular. In downtown metro areas, you may be able to get high speed fixed wireless in this bandwidth range. Cable is becoming a competitor with 50 Mbps and 100 Mbps services displacing both copper and fiber when symmetrical and dedicated bandwidth aren’t mandatory and you can live without service level agreements.

High bandwidth Internet access over 100 Mbps is now a battle between SONET and Ethernet fiber optic services. SONET is the incumbent, but tends to be higher cost. Ethernet is the newer service, often lower in price but not as generally available. Ethernet is also more granular in its bandwidth and easier scaled up for businesses that are on a fast growth path. Both SONET and Ethernet can give you as much bandwidth as you need and can afford, up to 10 Gbps and higher.

What Internet service option is best for your business? Get high speed Internet prices and availability for a wide range of options, with complementary consulting to help you pick the right solution for your needs.

How Maestro Smart Antenna Improves Fixed Wireless

Accel Technologies, a division of Accel Networks, is introducing a game changer into the fixed wireless space. It’s their new Maestro smart antenna system. What Maestro looks to do is make 3G and 4G fixed wireless broadband more competitive with more expensive business connectivity solutions, such as T1, MPLS, VSAT, Frame Relay and point to point microwave services.

So, what is this Maestro and what’s so smart about it? Like all other smart devices, Maestro incorporates active technology improve performance. In this case, the improvement is to an inherently passive element, the RF antenna. Antennas are used for all electronic communications. They can be as simple as a foil trace on a circuit board to a multi-element Yagi beam antenna. Satellite dishes are antennas, or antennae if you prefer. So are long wires used with short wave radios or vertical tower arrays for directional AM radio broadcasts.

The thing that’s important about antennas is that they are the first point of contact with any incoming signal and the last element involved in outgoing signals. An antenna can be any random length conductor or it can be a finely tuned system. Most antenna designs are “cut” to a particular size that resonates with the frequencies you are using. The right antenna length greatly improves transmission and reception. You can tune antennas by adding other passive elements, capacitors and inductors. By adding more elements or creating a parabolic reflector (satellite dish) the gain of the antenna is increased. Gain is like amplification. It gives you a stronger signal. As a passive device, you can’t get something for nothing. That gain in a particular direction comes at the expense of reduced sensitivity in other directions. For most applications that’s an additional advantage. A directional antenna reduces pickup of otherwise interfering signals coming from other directions.

Now, take a look a the antenna on your wireless router. Looks like a little black vertical stick, doesn’t it? Is it a particular length selected for the frequencies involved? Yes. Is it directional? No. A vertical “whip” antenna radiates and receives equally in all horizontal directions, although not so well in vertical directions. That’s nice if you want to blanket an area for reception, like a WiFi hotspot. You need broad coverage if you have users scattered all over or moving from place to place.

Now, how about an antenna to connect with a fixed wireless service? Is a simple whip antenna good enough? It is if you have a very strong signal. But what if you are just far enough away from the tower that you don’t have 5-bar coverage? In the case of smartphones and USB modem aircards, you take what you get or do without. These devices are designed to be nomadic, so they have to have universal coverage that brings with it mediocre pickup performance. However, if your business location is fixed and the towers are fixed, you can do better with an antenna that optimizes for the transmission path.

This is what Maestro is all about. It’s a high technology patent pending design that includes eight antennas, three switchable filter banks and an embedded LNA (Low Noise Amplifier) that adjusts to maintain the highest carrier to noise ratio for the 3G or 4G service you are using. Maestro has over 500 discrete setting options to fine-tune for optimum performance.

Why go to all this trouble? Accel Networks has specialized in leveraging the near-universal availability of cellular broadband service across the US and Canada. We think of cellular as a way to get broadband for our mobile phones, but it can also be used as a fixed location broadband service. It sometimes doesn’t work so great within buildings because those itty-bitty antennas on USB dongle adaptors and MiFi boxes can’t deliver a strong enough signal. Put a decent antenna ahead of ahead of the transmitter/receiver and you’ll have a robust signal that won’t go dead or reduce connection speed.

Maestro will be available in about a month from this writing. Accel expects that its introduction for 3G and 4G fixed wireless broadband service will challenge other solutions that businesses have employed to get high speed Internet access. These include VSAT satellite dishes on the roof, T1 lines, DSL and Cable that may or may not be available, frame relay and even microwave fixed wireless systems. Most businesses, especially small retail stores and offices, don’t need massive bandwidth. They need basic connectivity for credit card verification, email and website access. A 3G or 4G cellular service can provide the bandwidth, reliability and latency they require at a substantial cost savings. Accel has over 6,000 installations now that prove just that. With Maestro, many more locations will be able to gain these benefits.

Is your business located in an area where broadband service is hard to come by or unreasonably expensive? Check availability and pricing for fixed wireless broadband. You may be pleasantly surprised by how affordable it is and how well it works.

Fixed Wireless Moving To 4G

There are a couple of faces to fixed wireless broadband for business. First is the licensed microwave services that you’ll find downtown in major cities. The coverage is limited to a few thousand feet with strict line of sight requirements. Bandwidth is high, but availability is very limited.

The other approach is to piggy-back on the 3G cellular broadband services that already blanket the country. This approach offers lower bandwidth, similar to a T1 line, but is available just about anywhere you can get a cell phone signal. That has made it perfect for rural locations, temporary stores and small businesses that need a broadband connection fast.

Accel Networks has been a leader in 3G fixed wireless in the United States and Canada. Their winning approach has been in contracting with multiple wireless providers and creating a proprietary hardware solution that is plug-and-play for the user. Your equipment package comes pre-programmed for the optimal carrier signal available at your location. The Maestro antenna system ensures a solid RF link. All you need to do is connect to the serial or Ethernet connection and you are ready to go in as little as 3 days from order placement.

What do you get in the way of performance. You have a static or dynamic IP address on a PCI compliant private Layer 2 connection. Typical 3G data rates average 1 Mbps download by 512 Kbps upload. A service level agreement assures you of 99.9% availability. Coverage includes 99% of all retail locations in the US, Canada and Puerto Rico.

As good as 3G fixed wireless is, businesses are pressing for more bandwidth. Fixed wireless providers are following the cellular upgrade path from 3G to 4G as it is fielded. Accel Networks has launched their 4G service with a proprietary antenna and embedded modem technology. Speeds are expected to increase to 6 Mbps download and 2 Mbps upload with under 100 mSec of latency.

How long until you can upgrade from 3G to 4G? The industry changeover is expected to be completed within the next two years. It will depend on where you are located as to how quickly you can install 4G fixed wireless broadband.

If you’ve been following the consumer smartphone upgrades from 3G to 4G, you know that there are a competing technologies. The ultimate is LTE (Long Term Evolution), a GSM technology that looks like it will become the universal standard. That includes a switchover for CDMA carriers like Verizon. In the mean time, carriers are performing intermediate upgrades to their existing networks to squeeze out a little more bandwidth. Why? It’s quite expensive to install new circuit cards in every cellular base station to change the technology of the signals being transmitted. Simple evolutionary upgrades often involve only a software upgrade to existing hardware. T-Mobile is taking this approach with an upgrade from HSPA to HSPA+ prior to full deployment of LTE.

The other limitation to higher speed cellular deployment is backhaul. This is the connection between the cell tower and the centralized switching equipment. Up till recently, T1 lines were used for cellular backhaul. They offer 1.5 Mbps in both upload and download directions and are both highly reliable and available anywhere twisted pair telephone wire exists. That’s just about everywhere, including out in the boonies. Bonding T1 lines can increase bandwidth by adding two, four, six or more T1 lines in parallel. That’s good to about 12 Mbps. After that, you need either microwave backhaul or fiber optic connection.

Fiber optic is the way to go if at all possible. The bandwidth is nearly unlimited and you only pay for the construction costs once. The problem is that there are several hundred thousand cell towers sites that need to be upgraded to fiber. In remote locations, fiber is nowhere nearby and needs to be brought-in. Even in the cities, there is a cost and time involved to upgrade each cell. That, plus the cost of the hardware and labor for site just to switch to LTE limits how fast the carriers can move. Even so, cellular broadband is so lucrative that billion dollar investments will continue to flow until the job is completed.

Will fixed wireless work for your business situation? If so, prices are very attractive for both 3G and 4G fixes wireless broadband solutions. Check pricing and availability to see if you really need those landline connections after all.

Gigabit WiFi For Video Streaming

WiFi hotspots, routers and access points have been deployed to such an extent that WiFi really is the default wireless connection. Bluetooth range is way too short. WiMax never deployed far enough, wide enough or fast enough. Cellular 3G and 4G are only valuable when you are away from WiFi access, since bandwidth is limited and overages are painful. Recent reports show that most tablets never use the built-in 3G wireless. WiFi is a replacement for cellular broadband, but it’s also becoming a replacement for wires.

Think about it. How much trouble and how expensive is it to string Ethernet cables through a home or office? Most people don’t have the skill or determination to snake wires through the walls of their two story home and don’t dare to try to wire an apartment. That means you are stuck with being in the same room as your DSL or Cable modem. Inexpensive WiFi routers got rid of that cable limitation. Now many PCs and printers come with WiFi access so that you can place them anywhere you want.

The other big tether is the television coax or HDMI cable. If you want to connect video, you have to string wires. The standard means for that has been RG-6 or RG-59 coax. But HD outputs are now HDMI, so your old coax is limited to SD video. That’s assuming you were able to get coax installed in every room you wanted.

Complicating matters now is that traditional video sources, such as satellite and DVD, are merging with the Internet. Many TVs, Blu-ray players and games now come with Ethernet jacks. You still need an Ethernet cable, but now it’s for video broadband not just web browsing. Or... do you?

Video is a need screaming for a wireless solution. The legacy WiFi 802.11b&g versions clearly are not up to the task. WiFi 802.11n does much better, but has trouble finding a clear path through the crowded 2.4 GHz ISM band. It's also pressed for enough bandwidth to support all things video. The solution? It’s an enhancement to WiFi-N called WiFi 802.11ac.

What’s better about WiFi-AC compared to WiFi-N? Most importantly, it pushes wireless bandwidth above the Gbps level. Total capacity of an 8 antenna system will reach almost 7 Gbps when this technology is fully developed. That should be enough to keep up with the rapid advancement of HD and 3D streaming video devices and become the way to eliminate Ethernet, HDMI and coaxial cabling in the home and office.

How does 802.11ac achieve this performance? First of all, it completely abandons the crowded 2.4 GHz band and uses the lesser populated 5 GHz band exclusively. That cuts out a lot of interference. Next, the transmission channels are widened to achieve more data carrying capacity. Channels are 40 MHz maximum in 802.11n. These are expanded to 80 MHz minimum and 160 MHz optional for the new standard.

WiFi-N introduced MIMO or Multiple Input Multiple Output antenna technology. MIMO is a way for transmitters and receivers to deal with scattering radio waves and interference by intelligently analyzing the received signals to determine which ones are valid. It’s a little like being able to tell which direction a sound originates by using two ears rather than one. Beamforming compensates for phase shift of multiple received signals to increase the total signal level. This allows higher bandwidth over a longer range.

A more complex modulation scheme is being introduced in 802.11ac called 256 QAM. The term QAM refers to Quadrature Amplitude Modulation. It uses both amplitude and phase shift to send data over two combined carriers differing by 90 degrees, called quadrature. Each combination of phase and amplitude represents one digital number. 802.11n used 64 QAM to send 6 bits per symbol. 256 QAM sends 8 bits per symbol, a third more efficient in use of the spectrum.

When will be see 802.11ac equipment on the market? Probably near the end of this year or the beginning of next. Broadcom recently announced the first chipset to support the protocol. They are dubbing it “5G WiFi” to emphasize the considerably higher performance from previous wireless standards, similar to how cellular carriers use 2G, 3G and 4G to describe their generations of technology.

4G Wireless Broadband Options

Wireless broadband is on an upward path to take over many of the applications that have long been the domain of wireline technologies. Wireless has the convenience of portability and mobility. What’s held back deployment and more powerful applications is the limited availability and speed of wireless connections. The move to 4G wireless looks to be a potential solution.

4G or fourth generation wireless doesn’t have a strict definition, but it is roughly stated as the bandwidth typical of Cable broadband or Ethernet over Copper business connections. With this level of transmission speed and a city-wide reach, 4G wireless can take over service for desktop as well as mobile devices.

One might throw WiFi into the 4G category. The bandwidth for a, b, g, and n WiFi technologies fall into the right bandwidth category. However, WiFi is a short distance system. It works well within and nearby particular locations, such as homes, offices, restaurants, hotels, airports and even park benches. But you can’t get in your car and drive away with a WiFi connection. It will disappear as soon as you leave the parking lot. In a way, WiFi is more of a PAN or Personal Area Network like Bluetooth.

The higher power wireless technologies, including 2G & 3G are associated with cellular phone service. These are based on using networks of fixed transmitters and receivers arranged as cells with signals that fill-in the coverage between towers. The trick of turning this system into a metropolitan or wide area network is to coordinate the handoff of an existing wireless connection as the user moves from cell to cell.

The most popular wireless technology right now is 3G. It offers bandwidths similar to T1 lines and basic DSL of around 1.5 Mbps on average in metropolitan areas. You may get two or more times this speed if you happen to be near a tower with few users. This is more than adequate for many mobile uses, such as Web browsing, email and viewing video clips on smartphone screens.

Beyond limited speed, 3G also suffers from limited bandwidth availability. It shares channels with cellular telephone on the same towers. Those channels were originally sized to support expected voice traffic. They’ve been overwhelmed by the higher bandwidth requirements of Internet data traffic. That’s why carriers are so insistent on bandwidth caps.

There are a couple of different approaches to 4G wireless. The one taken by the cell phone companies is to view 4G as an upgrade to their 3G systems. There are two differing cellular system that co-exist. One is a US-centric system called CDMA that is used by Verizon, Sprint and others. The other is a more global standard called GSM that is used by AT&T and T-Mobile.

Right now, AT&T and T-Mobile have upgraded their 3G networks to a faster version of the same thing called HSPA+ that delivers up to 6 to 8 Mbps. Verizon has moved to a 4G technology called LTE that offers downloads of 5 to 12 Mbps. Sprint has gone with another 4G technology called WiMAX that delivers downloads in the 3 to 6 Mbps speed range.

As wireless continues to evolve, 4G is expected to move into two camps. LTE is the technology most discussed as a truly universal standard. WiMAX deployment actually predated LTE and has installations worldwide. Both LTE and WiMAX have technical upgrade paths that can boost download speeds to over 100 Mbps and even 1000 Mbps. This is competitive with many fiber services and ensures that 4G wireless will be with us for a long time.

One thing we’re also seeing with 4G wireless is the use of lower frequency bands that can more easily penetrate buildings. These bands came from the re-deployment of those channels from UHF TV as part of a federal auction. Clear offers 4G fixed and mobile wireless service with a telephone option over WiMAX in over 80 cities nationwide. Right now, this service offers unlimited broadband service.

Business Internet Access Companies

Consumers have variety of ways to gain access to the Internet. Businesses have equivalents to these, plus a some others not available to residential users. Let’s take a look at what’s available for companies with their own business addresses.

The most popular consumer broadband services are DSL and Cable for fixed locations and 3G for mobile use. 4G wireless is starting to become available, with CLEAR promoting it for both fixed and mobile use. Out in the boonies, Satellite broadband brings in a signal that you can’t get with wires. The fastest service, fiber optic, is deployed in selected areas by Verizon’s FiOS. It should also be noted that there are still consumers embracing dial-up access either because of cost or a very limited need for the Internet.

Businesses also have DSL, Cable, 3G and 4G mobile services, and Satellite Internet available to them. Like the consumer versions, you get a price break by sharing a bandwidth pool with other users. That means that the speed you’ll experience at any given time depends on how many other users are on the service and what they are doing.

There are a couple of features that interest business users much more than consumers. One is symmetrical bandwidth. Shared resource Internet access solutions typically offer much higher download speeds than upload speeds. That’s because most people are primarily reading web pages or downloading material such as books, music or movies. A limited upload speed is all you need to send commands to the servers providing this content. Businesses, however, often own the servers as well as use them. If you are sending material up to a server or another user as much as you are receiving such material, then a symmetrical bandwidth evens things out. Symmetrical DSL (SDSL) is typically available to business users but not consumers.

Businesses may also want static IP addresses. These are needed if you are running a server, so that other users on the Internet can easily find it through the DNS system. Normal consumer connections use dynamic IP addresses that are assigned from a pool owned by the Internet Service Provider and change from time to time. Most users have no ideal what IP address they are using and couldn’t care less as long as it works. IT managers, however, may well want static IP addresses for the servers, VoIP and VPN systems on their networks.

Many businesses may find that shared bandwidth causes way too much performance variation for their needs. The solution is dedicated bandwidth services that are generally available for business addresses but not residential users or home offices. These services include T1 lines, Ethernet over Copper, DS3, Ethernet over Fiber, SONET and Fixed Wireless. As business services, these dedicated Internet access solutions also have symmetrical bandwidth with equal upload and download speeds.

The other thing that should be noted about dedicated business bandwidth services is that they often come with SLAs or Service Level Agreements. Unlike the “best effort” offers for consumer grade broadband, a service level agreement spells out performance parameters and remedies if those are not met. Often, the commitment is for availability plus performance characteristics such as jitter, latency and packet loss.

Does your company need new or expanded Internet connectivity, or are you simply interested in seeing if better pricing is available at the bandwidth level you already have? If so, get pricing and availability of bandwidth solutions from a variety of business Internet access companies.

Broadband Business Internet Service Options

Nearly every business today is connected to the Internet or soon will be. Even those mom and pop operations that still use the mechanical credit card machines will soon use electronic card verification, email and at least a brochure website. Businesses that are already seasoned users of the Web are looking to upgrade their bandwidth to support a move to cloud services. Let’s compare and contrast the various options you have for a broadband Internet connection.

Business Internet broadband services generally fall into two categories. They are shared and dedicated connections. Shared connections are similar in design to residential broadband services. The fact that the bandwidth is divvied up among many users lowers the cost for all. Dedicated services allocate a certain bandwidth to your connection and it does not vary regardless of what other users are doing. These services also tend to come with SLAs or Service Level Agreements that spell out technical parameters and availability commitments.

Shared bandwidth services include Cable Broadband, DSL, 3G and 4G Wireless, and two-way Satellite Internet. What they all have in common is that the actual bandwidth you’ll see varies with the number of other users and what they are doing. These services are sold as speeds “up to” a certain number of Mbps. That means what it says. You may get the full speed the connection is capable of or you may get a tenth of that at any given time.

These variations may or may not bother you. If you are running enterprise VoIP or bandwidth sensitive business processes, your variable connection may not support the performance you have in mind. On the other hand, if you use the Internet at work the same way you use it at home for email, Web browsing, or accessing pre-recorded audio and video, you may be quite satisfied with the service and delighted with the cost savings. Some services, like 3G wireless and Satellite are often used to support electronic credit card machines in lieu of using a phone line.

Dedicated Internet access connections, such as T1 lines and Ethernet over Copper, have rock solid bandwidth and generally excellent latency, jitter and packet loss characteristics. These are the same lines that you would use to interconnect business connections on a private line service. As Internet connections, they have one termination at your location and the other at your Internet service providers location.

Dedicated Internet access supports Web and email servers. The also support multiple users accessing the Internet and VPNs (Virtual Private Networks). If you are going to stream content to Internet users, you’ll want a DIA (Dedicated Internet Access) connection from the server to the Internet.

Ethernet over Copper (EoC) has become very popular as both a private line and DIA connection. You can often get twice the bandwidth you could with a T1 line costing the same price. Like T1, EoC is provisioned over twisted pair copper telco wiring to keep construction costs down.

Larger companies and those with demanding applications such as video transport move up to fiber optic services, such as OC3 to OC768 SONET and Ethernet over Fiber (EoF) 100 Mbps Fast Ethernet, 1 Gbps GigE and 10 Gbps 10GigE bandwidth services. All of these are dedicated services with service level agreements.

How do you decide which broadband service is right for your business? Perhaps the best way is to compare prices, availability and features for the range of Broadband Business Internet Service options available for your location. Most business grade broadband services are available only for business locations and not residences, despite similarities with consumer Internet services.

Internet Bandwidth Connections For Business

Internet access can be divided into three categories. Consumer residential broadband, dedicated business bandwidth, and 3G/4G mobile. Mobile broadband serves both individuals and business users. But fixed wireline is either business or consumer, but not truly both.

Why is that? There’s as cost vs performance decision that separates the two. Consumer services, and that includes home based businesses, are not even classified as telecom services. They have a designation as “information services.” What that does is keep them relatively unregulated with few commitments to the customer. In return, costs are kept low so that they are affordable by most households.

Business bandwidth is a regulated telecom service with high performance expectations. Unlike consumer connections, your business line services have a dedicated bandwidth level that is available 100% of the time. You can use that line up to its full capacity without bandwidth caps.

Business bandwidth also tends to be symmetrical. That is, you get the same bandwidth in both directions. An example is 10 x 10 Mbps Ethernet. What that means is that you get 10 Mbps in both the upload and download directions. Contrast that with consumer DSL, Cable and wireless services that favor the download direction by a large margin. That’s because most consumers download far more data than they upload. Business use tends to be more balanced.

Business bandwidth services are designed to be highly reliable. After all, the telecom companies and network carriers use the same line services themselves. Many come with an SLA or Service Level Agreement. That document defines the performance and availability of the line. If it goes down, it gets fast attention from the service provider. Most outages are restored in a matter of hours or less. There is no such commitment for consumer services. It’s a “best effort” arrangement with multi-day outages undesirable but not unknown.

Business Internet bandwidth is also called “dedicated” access. The dedicated term means that you and you alone have use of that much bandwidth. That may seem obvious, but do you realize that consumer broadband services are called “shared” and not dedicated? What the service provider does is purchase a large dedicated line service and then share that bandwidth among the user base. How much bandwidth you have at any given time is a function of how much your neighbors are also using. Bandwidth slowdowns during peak usage times are to be expected. This is why consumer bandwidth is sold as “up to” a certain Mbps.

Popular Internet bandwidth connections for business are T-Carrier, SONET and Ethernet. T-Carrier includes the popular T1 lines that offer 1.5 Mbps bandwidth and are available just about anywhere you can get telephone service. SONET is the big brother of T-Carrier. It is a fiber optic service with designations such as OC-3, OC-12, and OC-48. Ethernet can be provided on either copper or fiber. Ethernet over Copper is available in metropolitan areas at bandwidths up to 45 Mbps. Most popular are 3 Mbps and 10 Mbps Ethernet over Copper. They typically offer more Mbps for your bandwidth dollar, where available. Ethernet over Fiber offers near limitless bandwidth, although 100 Mbps Fast Ethernet, 1000 Mbps Gigabit Ethernet and 10 Gbps Ethernet are popular standard line speeds.

Are you frustrated by a poorly performing Internet connection or just want to compare pricing to ensure that you are getting the most for your money? If so, get competitive pricing and availability for business Internet bandwidth services now.

Why Ethernet Broadband For Business?

When we think of broadband, what generally comes to mind is DSL, Cable Internet or cellular wireless services. But these are light duty or consumer-grade bandwidth services. Why might you become frustrated with such broadband services in business and is there an attractive alternative?

First, let’s take cellular wireless. It goes by the name 3G and, increasingly, 4G. The problem with both 3G and 4G coming from cell towers is that there is a very limited amount of bandwidth available and it has to be fairly apportioned to all the users who want it.

Smartphones gobble up bandwidth at an eye-popping rate. Get enough smartphones or netbook aircards in a particular area and the whole network can be brought to its knees. That’s why most carriers now have monthly bandwidth limits with steep overage penalties. Satellite and some 4G carriers take a different approach. Instead of charging for overage, they throttle down bandwidth for heavy users. If you use too much in a given period, they slow down your access to give others a chance.

While out and about, cellular broadband may be your best bet simply because service is so readily available compared to everything else. If the cells are too congested, you can find a WiFi hotspot and likely get better throughput there.

If you want or need wireless broadband service for an office with multiple users, consider a fixed wireless option designed for business. They’re mostly available in large metropolitan areas. If you can get this service, you’ll be hooked up quickly and have generous amounts of bandwidth at your disposal. An outdoor antenna is installed on your building to a strong signal for reliable service.

DSL and Cable broadband were designed for consumers. The carriers bend over backwards to keep the price low so that most consumers can afford the service. But they achieve that by having everyone share the available bandwidth. Your service might offer “up to 10 Mbps” of download bandwidth. Whether or not you get anywhere near that depends on what your neighbors are doing online. When everybody starts heavily accessing the Internet, the line speed for each user slows and sometimes slows to a crawl.

Businesses that need reliable, dependable and fast Internet service often find themselves frustrated at keeping up productivity on services that cater to people downloading music and videos at home. The classic solution is the T1 line. T1 lines are dedicated, in the sense that you have full use of the available 1.5 Mbps bandwidth. T1 is highly reliable, gets fast repair service if anything ever does go wrong and is “unlimited” in that you can run it full speed 24/7 all month. If you need more bandwidth, you can “bond” more T1 lines up to about 10 Mbps both upload and download.

The one thing that makes businesses sometimes hesitate at installing one or more T1 lines is that the cost is several times what you pay for those consumer services. Even though the cost is well worth it when you consider the lost business or productivity that results from flaky Internet service, there is now an even better option for business use. That service is Ethernet broadband.

Ethernet broadband is a high speed dedicated wireline service that can be provided to your business location on either copper wiring or fiber optic cable, depending on bandwidth. Popular speed options are 3 and 10 Mbps for smaller businesses, 100 to 1000 Mbps for medium size operations, and 1 Gbps and up for large corporations. Your line speed is scalable, so you can generally have it increased up to the full capacity of the installed port with only a phone call to your provider.

Best of all, Ethernet is often the best value for your broadband dollar. A 3 Mbps Ethernet connection is often about the same price as a 1.5 Mbps T1 line. A 10 Mbps Ethernet service is easily affordable by most businesses.

Would you be interested in switching to highly reliable, high speed Ethernet services if the price were attractive? Why not check out Ethernet broadband service prices right now? See how much bandwidth you can get for your budget.

MiFi Points The Way to Wireless Transition

Verizon Wireless just made an amazing announcement. They will be selling the Apple iPad in their stores. But aren’t Apple and AT&T exclusive partners? Indeed. So, why is Verizon selling a product that won’t work on their network? ...Or will it?

Yes, it will. How Verizon accomplished this clever feat of engineering points the way to the future of wireless broadband. Actually, not the future future. Just the immediate future. Call it the era of wireless transition.

Wireless technology has pretty much developed along two lines. One is the telecom carriers, including AT&T, Verizon, Sprint and T-Mobile. There are other players in the cellular wireless game, but they are simply private branded versions of the big four within the US. What characterizes the major carriers is that their offerings are proprietary. What works on AT&T won’t work on Verizon Wireless, and vice versa.

The other wireless path is an industry standard known a WiFi. It comes in flavors such as a, b, g, and n. But unlike telecom carrier services there is enough commonality and backwards compatibility that pretty much any WiFi device will work on pretty much any wireless router, hotspot or access point.

What Verizon has cleverly done is marry the two lines. They can’t get into the iPad through the front door, so the come in the back door. How? Very simple. They use an interface device to convert cellular to WiFi. That device is the MiFi. The Verizon MiFi is a little box about the size of a pack of cards. Inside is a cellular radio, a WiFi radio, a battery and some circuitry to make it all work. All you do is push a button to turn it on and the converter works automatically. It allows up to 5 wireless devices to gain access to the Verizon 3G wireless network as if they were Verizon-enabled to begin with.

The Verizon iPad will consist of an Apple iPad and a Verizon MiFi bundled together. They are separate pieces of equipment, but the MiFi will slip into your pocket or bag so it isn’t intrusive. At first blush, it may seem like having to carry around two pieces of equipment instead of just one is a big disadvantage for Verizon compared to AT&T. But Verizon may get the last laugh after all. The MiFi provides 3G connectivity for your iPad, but it also provides 3G connectivity for your other devices that don’t have their own 3G service built-in. That includes your laptop computer, netbook, games, and even your Apple iPod. If you had to buy separate 3G service for each device, you’d go broke. But one MiFi can serve whatever gadgets need connectivity, as long as they are WiFi enabled.

Verizon isn’t the only one with a MiFi. Novatel, maker of the MiFi, offers an unlocked version for GSM carriers AT&T and T-Mobile. There’s a MiFi specifically for Virgin Mobile. Sprint goes one further with their Sierra Wireless Overdrive 3G/4G Mobile Hotspot. It works on both the Sprint 3G Mobile Broadband network and its 4G WiMAX network. CLEAR offers a similar 3G/4G converter called Clear Spot.

Even these converters are transitional technology. Smartphones, starting with the Droid X by Motorola and Samsung Epic, have the cellular to WiFi hotspot capability built-in. This is likely to become a standard feature on smartphone designs, as WiFi and Bluetooth are the industry standard wireless technologies. WiFi has the greater transmission range.

Down the road a few years, the tide of wireless seems to be going in the direction of standardizing on LTE as a 4G standard. Cellular phone may give way to VoIP over LTE. At that point it will be hard to tell the difference between a mobile phone, a smartphone and a digital device like a tablet computer. Perhaps a single smart radio chip will provide universal wireless connectivity. Just pick your carrier and sign up for a service plan after you buy the device. The wireless transition era will be complete.