T1 Voice

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T1 voice is available in many forms: local voice, long distance voice, local PRI, long distance PRI, SIP over a private network, SIP over the public internet, VoIP over the internet, VoIP over a private network, voice over an MPLS network, channelized integrated or dynamic integrated. (For more about T1 voice, please click here)

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T1 voice service providers:

ACCAT&T

AirespringBroadskyCavalier

CovadLevel3Megapath

NewedgeNetwork InnovationsNuvox

One CommunicationsPaetecPNG

QwestTelepacificTelnes

Time Warner TelecomUCNXO

Wyoming T1 voice Search


Coverage Area

Unlike DSL and other broadband technologies that are limited to only densely populated areas, T1 service is available just about anywhere with a phone line. T1, also known as DS1, uses repeaters to boost up the signal strength of the transmission - allowing it to travel up to 50 miles away from the nearest Central Office location.

We have T1 voice in the following Wyoming Counties :

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  4. An independent consultant will contact you to discuss the details of the T1 connection, confirm pricing, and assist you with the signup process.
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Local T1 Voice

Local voice T1 provides 24 local voice channels (telephone lines) over a T1 circuit. With local T1 voice you can usually access long distance service for better than retail per minute rates.

Long Distance T1 Voice

A long distance T1 voice circuit provides extremely competitive per minute rates because the long distance T1 circuit by-passes the local provider. The customer is not required to pay the local provider for transferring the call to a long distance provider. The down side of using long distance T1 is that because the local provider is by-passed, local calls cannot be made for free. Long distance T1 voice is often preferred by businesses like nationwide call centers which make a high volume of long distance calls. With long distance T1, nationwide long distance calls can be as low as a penny a minute.

Local and Long Distance T1 Voice PRI

Local and long distance PRI share the same benefits and limitations mentioned above for analog local and long distance voice T1s. A few differences between analog voice and PRI are that PRI dedicates one channel for call administration. This leaves 23 channels per t1 for voice traffic rather than 24. The administration channel enables PRI service to have more robust features than analog, such as DID (direct inward dial) numbers and better caller ID. A PRI card is required in order for a PBX to facilitate PRI service. A new PRI card costs between $1000 and $2500.

T1 Voice SIP

SIP (session initiation protocol) is a relatively new technology that bridges the gap between voice and IP applications. SIP, with a modern IP-PBX, eliminates the need for expensive PRI cards to configure voice packet compatibility with the PSTN (public switched telephone network). The elimination of the need for PRI configuration also improves packet efficiency.

T1 Voice Virtual DIDs

Another advantage of SIP is virtual DIDs. Virtual DIDs allow companies to have a local presence (local phone number) in other geographic locations, including other countries of the world. For example, a company in Los Angeles could have local phone numbers in New York, Houston, Seattle and London.

T1 Voice VoIP

VoIP (voice over internet protocol) voice traffic can be transmitted over the public internet, across the secure network of a telecom provider, or via the private MPLS network of a multi-location business.

T1 Voice, VoIP Over the Internet

VoIP over the internet has its limitations because CoS (Class of Service) packet prioritization cannot be enforced on the public internet. The result of this is that voice traffic is competing with all other internet traffic at each relay. This lack of CoS can often result in latency and packet loss. High latency and packet loss often results in poor voice quality. These issues are virtually non-existent with VoIP over private network telecom provider.

T1 Voice, VoIP Over the Closed Network of a Telecom Provider

With this option, the provider keeps all voice traffic on their private network, until this traffic reaches the PSTN (Public Switched Telephone Network). This allows the provider to ensure that voice traffic receives top priority at each network relay, and more routine, less latency sensitive applications receive lower priority, while a call is in progress. The result of these measures is virtually perfect call quality. All major telecom providers now routinely utilize VoIP technology voice transmission.

T1 Voice, VoIP Over the MPLS WAN of a Multi-Location Business

With VoIP over the private MPLS (Multiprotocol label switching) network of a multi-location business, CoS is ensured by the provider, so call quality is excellent in these situations as well. An advantage for businesses with VoIP over an MPLS network is that all location-to-location calls within this network are free.

T1 Voice On an Integrated Circuit

Integrated T1 provides more than one application like VoIP over a closed network of a telecom provider, video conferencing, location-to-location networking and commercial internet, over a single bandwidth pipe. Integrated T1 allows smaller and medium sized businesses, with limited budgets to enjoy several applications which at one time could only be afforded by large companies.

T1 Voice and Channelized Integrated

Channelized service was the predominant integrated technology prior to the arrival dynamic integration. Channelized integrated service is static, in that applications assigned to each channel of a t1 circuit is fixed. With channelized service, there was much bandwidth wasted, because when an application was not used, the bandwidth assigned for that application could not be reassigned in real-time to other applications which would operate more effectively with additional bandwidth.

T1 Voice and Dynamic Integrated

With the maturity of dynamic bandwidth allocation, bandwidth is now reassigned and prioritized in real-time, to ensure that bandwidth for applications that are not being used, can burst to applications which are being used. For example, when a phone line is in use, a certain amount of bandwidth is dedicated to that call. As soon as the call has ended the bandwidth goes right back to the internet side of the integrated circuit.

To check prices and availability for any of the services listed above, please use the pricing tool at the top of this page. Its free, real-time, easy to use and there is no obligation. (Click here to return to top of page)

For details on any T1 related service, click on the service listed below.

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 MPLS Facilitates Convergence

Written by: Dennis Green - Nov 20, 2008

With the emergence of multiprotocol-label-switching (MPLS), great strides have been achieved toward the goal of telecom convergence. In the past, telecom applications such as voice, internet, networking, and video conferencing have been treated as separate, commonly each needing their own source of bandwidth. This was expensive, because it is often far more costly to provide several relatively small bandwidth pipes, then it would be to provide one large pipe. Generally speaking, the larger the pipe, the less cost per megabit per second (mbps). Other issues which were frequent with a lack of convergence were that it was common for providers to specialize in one application, but not all. For this reason, it was required for businesses to be forced to deal with multiple providers, to obtain multiple types of service. Also, the business (customer) would need staff who could specialize in each application. For example, staff that specialized in coordinating the company phone system, staff that specialized in setting up internet access, and staff who specialized in setting up wide area and local networks (WANs and LANs). With a lack of convergence, capital costs were much higher as well. I.e., separate routers for connections to the WAN and LAN, separate routers for the internet, and separate equipment for connecting to the public switched telephone network.

With convergence, this is all improving for the business owner. Now, it is possible to obtain a completely managed system, which includes voice, internet, free long distance service, free toll free service, and soon to come, networking all on one bandwidth pipe, provided by one provider. This results in less expense for bandwidth, fewer company staff resources required to manage, and less expense for each application. With the emergence of dynamically allocated bandwidth, far greater efficiency is being achieved in bandwidth utilization as well. For example, not only can you have both voice and internet on the same T1, but you can now utilize all bandwidth for internet, when the phones are not in use.

At this point, MPLS is most affecting the convergence of communication within the communication network of each company. With MPLS, companies can now converge all applications, such as company location-to-location voice, routine data transfer, and video conferencing into one network. All can be transferred over one pipe, with any-to-any connectivity. With MPLS, class of service (CoS) prioritizes these applications so that those which are more sensitive to packet loss and latency receive priority over applications such as routine data transfer. For example, routine data transfer would not be allowed to compete directly with voice traffic. Routine data traffic is not sensitive to minor packet loss or latency, and therefore would be given a lower priority than voice or video traffic.

Converting from an out-dated frame relay or point-to-point network to a fully managed MPLS based network is an extremely painless process. In most cases, all installation is free, equipment and configuration is managed by the telecom provider, and the telecom provider takes full responsibility for monitoring the network 24 hours a day, seven days a week, and providing all maintenance for the network. All of this is usually provided for far less than the monthly cost of the existing network.

For free availability and quotes for MPLS, please use the short pricing tool at the top of this page, or on our home page. It is free, easy to use, and without obligation. (Click here to return to top of page)