Multi-Tech Systems MVP120 manual 100

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Glossary

T

Tariff: The rate/availability schedule for telephone and ISDN services from a regulated service provider.

TCP/IP: A set of communication protocols that support peer-to-peer connectivity functions for both local and wide area networks. TCP/IP was developed by the US Department of Defense to link dissimilar computers across dissimilar and unreliable LANs.

T Carrier: The generic name for a digitally multiplexed carrier system. In the North American digital hierarchy, a T is used to

designate a DS (digital signal) level hierarchy. Examples: T1 (DS1) is a 1.544 M bps 24-channel designation. In Europe, T1 is called E1. The T Carrier system was originally designed for transmitting digitized voice signals, but has since been adapted for digital data applications.

T1: A digital transmission link capable of 1.544M bps. T1 uses two pairs of normal UTP, and can handle 24 voice conversations, each digitized at 64K bps. T1 is a standard for digital transmission in the U.S., Canada, Japan and Hong Kong. T1 is the access method for high-speed services such as ATM, frame relay, and SMDS. See also T Carrier, T1 line and FT1.

T1 Channel Tests: A set of diagnostics that vary by carrier, used to verify a T1 channel operation. Can include Tone, Noise Level, Impulse Noise Level, Echo Cancellors, Gain, and Crosstalk testing.

T1 Framing: To digitize and encode analog voice signals requires 8000 samples per second (twice the highest voice frequency of 4000 Hz). Encoding in an 8-bit word provides the basic T1 block of 64K bps for voice transmission. This "Level 0 Signal, as its called, is represented by "DS-0", or Digital Signal at Level 0. 24 of these voice channels are combined into a serial bit stream (using TDM), on a frame-by-frame basis. A frame is a sample of all 24 channels; so adding in a framing bit gives a block of 193 bits (24x8+1=193). Frames are transmitted at 8000 per second (the required sample rate), creating a 1.544M (8000x193=1.544M) transmission rate.

T1 Line: A digital communications facility that functions as a 24-channel pathway for data or voice. A T1 line is composed of two

separate elements: the Access element and the Long Haul element.

T1 Mux: A device used to carry many sources of data on a T1 line. The T1 mux assigns each data source to distinct DS0 time slots within the T1 signal. Wide bandwidth signals take more than one time slot. Normal voice traffic or 56/64K bps data channels take one time slot. The T1 mux may use an internal or external T1 DSU; a "channel bank" device typically uses an external T1 CSU.

Terminal: 1) The screen and keyboard device used in a mainframe environment for interactive data entry. Terminals have no "box", which is to say they have no file storage or processing capabilities. 2) An H.323 endpoint that provides for real-time, two-way communications with another terminal, gateway, or H.323 MCU. An H.323 terminal must provide audio and may also provide video and/or data.

Terminal Adapter (TA): An ISDN DTE device for connecting a non-ISDN terminal device to the ISDN network. Similar to a protocol converter or an interface converter, a TA connects a non-ISDN device between the R and S interfaces. Typically a PC card.

Tie line: A dedicated circuit linking two points without having to dial a phone number (i.e., the line may be accessed by lifting the phone handset or by pushing a button).

Time-Division Multiplexing (TDM): Division of a transmission facility into two or more channels by allotting the common channel to several different information channels, one at a time.

Time Slot: One of 24 channels within a T1 line. Each channel has a 64K bps maximum bandwidth. "Time slot" implies the time division multiplexing organization of the T1 signal.

Toll Call: A call to a location outside of your local service area (i.e., a long distance call).

Tone dialing: One of two methods of dialing a phone, usually associated with Touch-Tone® (push button) phones. Compare with pulse dialing.

Topology: Physical layout of network components (cables, stations, gateways, and hubs). Three basic interconnection topologies are star, ring, and bus networks.

Transmission Control Protocol (TCP): A communications protocol used in Internet and in any network that follows the US Department of Defense standards for internetwork protocol. TCP provides a reliable host-to-host protocol between hosts in packet- switched communications networks and in interconnected systems of such networks. It assumes that the Internet protocol is the underlying protocol.

Transport Layer: Layer 4 of the Open Systems Interconnection (OSI) model; provides reliable, end-to-end delivery of data, and detects transmission sequential errors.

Transport Protocol Data Unit (TPDU): A transport header, which is added to every message, contains destination and source addressing information that allows the end-to-end routing of messages in multi-layer NAC networks of high complexity. They are automatically added to messages as they enter the network and can be stripped off before being passed to the host or another device that does not support TPDU's.

Multi-Tech Systems, Inc. MultiVOIP User Guide

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Contents User Guide User Guide Contents Modem-Based LAN-Based Telnet Web Management Chapter Introduction to the MultiVOIP Introduction to the MultiVOIP Installation Preview of This GuideTypical Application Remote SalesGatekeeper Proprietary Phone Book Introduction to the MultiVOIP Boot Front Panel DescriptionEthernet Voice/FaxPower Connector Ethernet ConnectorCommand Connector Phone ConnectorSpecifications Chapter Installation Installation Overview of the Installation ProcessInstalling the Software and Configuring Your MVP120 Unpacking and Cabling the MultiVOIPOther Safety Warnings Telecom Safety WarningUnpacking Your MVP120 Cabling Procedure Cabling Your MVP120Chapter Installing the MVP120 Software Installing the MVP120 Software Installing the MVP120 Software Installing the MVP120 Software Chapter Configuring the Master MultiVOIP Configuring the Master MultiVOIP IP Protocol Default Setup dialog box displaysConfiguring the Master MultiVOIP Configuring the Master MultiVOIP Configuring the Master MultiVOIP Registering with a Gatekeeper Phone Directory Configuring the Master MultiVOIP Configuring the Master MultiVOIP Building a Proprietary Phonebook Directory Configuring the Master MultiVOIP Configuring the Master MultiVOIP Configuring the Master MultiVOIP Configuring the Master MultiVOIP Chapter Configuring the Slave MultiVOIPs Configuring the Slave MultiVOIPs Page Configuring the Slave MultiVOIPs Configuring the Slave MultiVOIPs Configuring the Slave MultiVOIPs Configuring the Slave MultiVOIPs Chapter Deploying the Voip Network Remote Site Administrator Deploying the Voip NetworkChapter Using the MultiVOIP Software Using the MultiVOIP Software Before You BeginMVP120 Configuration Changing Channel Parameters Interface TabVoice/Fax Tab Billing/Misc Tab Regional Tab Changing the Phone Directory Database Proprietary Phone Directory Database Using the MultiVOIP Software Gatekeeper Phone Directory Database Page Changing IP Parameters Viewing Call Progress Applications Setup Viewing Statistics IP StatisticsSnmp Statistics Viewing Logs Viewing Log Entry DetailsReports Viewing Channel TotalsUpgrade Procedures Upgrade SoftwareUsing the MultiVOIP Software Manual Upgrade Procedure Chapter Remote Configuration and Management Remote Configuration and Management Modem-BasedRemote Configuration and Management LAN-Based Remote Configuration and Management Voice over IP Configuration Phone Directory ConfigurationTelnet MultiVOIP Telnet Server MenuWeb Management Chapter Warranty, Service, and Technical Support Warranty, Service, and Technical Support Multi-Tech Systems, Inc. Warranty & Repairs PoliciesWarranty Repair Procedures for U.S. and Canadian CustomersRepair Procedures for International Distributors 763 717-5631, or email mtsrepair@multitech.comService Ordering AccessoriesRecording MVP120 Information Technical SupportAbout the Internet Appendixes Appendix a TCP/IP Description Appendix a TCP/IP Description Internet Protocol IP Command Port Cable Appendix B Cabling DiagramsLAN Cable Remote Configuration Cable Pin MaleAppendix C Regulatory Information Class a StatementFax Branding Statement FCC PartFCC Part 68 Telecom Canadian Limitations Notice EMC, Safety and Terminal Directive ComplianceRinger Equivalence Number Glossary Glossary Glossary Glossary Page Glossary Page Higher speeds Page Glossary Page RS-232-C pin DB-25, signals for 100 101 Index Cabling the MVP120103 104

MVP120 specifications

Multi-Tech Systems MVP120 is an advanced communication device designed to enhance various applications across industries. It is a part of the Multi-Tech's MVP (MultiVoIP) product line, which is renowned for its versatility and robustness in VoIP (Voice over Internet Protocol) solutions. The MVP120 provides businesses with an efficient way to convert traditional analog voice signals into digital formats suitable for transmission over the Internet or other digital networks.

One of the main features of the MVP120 is its support for up to 12 voice channels. This capability allows multiple calls to be managed simultaneously, making it an ideal choice for businesses with high call volumes. The device offers a seamless integration with existing telephony systems, enabling users to retain their current infrastructure while benefiting from the added advantages of VoIP technology.

The MVP120 utilizes advanced Voice over IP protocols, including SIP (Session Initiation Protocol), which facilitates the establishment, management, and termination of voice sessions over the internet. SIP compatibility enhances interoperability with various service providers and existing communication systems, ensuring a flexible and scalable solution for businesses of all sizes.

Another noteworthy characteristic of the MVP120 is its built-in T.38 fax support. This enables the transmission of fax documents over IP networks, ensuring reliable delivery even in environments where traditional fax machines may experience disruptions. This feature is particularly beneficial for organizations that still rely on fax communication while transitioning to more modern digital systems.

Security is a primary concern in today’s digital environment, and the MVP120 addresses this with comprehensive protocol support, including SRTP (Secure Real-time Transport Protocol) and TLS (Transport Layer Security). These technologies ensure that voice communications remain secure and private, protecting sensitive information from potential threats.

The MVP120 is also designed with user-friendly management and configuration in mind. It features a web-based interface that makes it easy for administrators to set up and manage the device remotely. This simplifies the deployment process and minimizes downtime, allowing businesses to maintain operational continuity.

In essence, the Multi-Tech Systems MVP120 stands out as a powerful tool for businesses seeking to embrace the benefits of VoIP technology while maintaining reliable communication through traditional means. Its combination of voice channels, protocol support, fax capabilities, and security features make it an excellent choice for modern enterprises aiming to enhance their communication systems.