Multi-Tech Systems MVP120 manual RS-232-C pin DB-25, signals for

Page 99

Glossary

Router: A device that connects two networks using the same networking protocol. It operates at the Network Layer (Layer 3) of the OSI model for forwarding decisions.

Routing Information Protocol (RIP): A distance vector-based protocol that provides a measure of distance, or hops, from a transmitting workstation to a receiving workstation.

RS-232-C: pin DB-25, signals for

An EIA standard for a serial interface between computers and peripheral devices (modem, mouse, etc.). It uses a 25- or a 9-pin DB-9 connector. The RS-232 standard defines the purposes, electrical characteristics and timing of the each of the 25 lines.

RS-422:The EIA standard for a balanced interface with no accompanying physical connector. RS-422 products can use screw terminals, DB-9, various DB-25, and DB-37 connectors.

RS-530:The EIA standard for the mechanical/electrical interface between DCEs and DTEs transmitting synchronous or asynchro- nous serial binary data. RS-530 provides for high data rates with the same connector used for RS-232; however, it is incompatible with RS-232.

S

Serial Port: The connector on a PC used to attach serial devices (those that need to receive data one bit after another), such as a mouse, a printer or a modem. This consists of a 9- or 25-pin connector that sends data in sequence (bit by bit). Serial ports are referred to as "COMx" ports, where x is 1 to 4 (i.e., COM1 through COM4). A serial port contains a conversion chip called a "UART" which translates between internal parallel and external serial formats.

Service: The requirements offered by an RPOA to its customers to satisfy specific telecommunications needs.

Severely Errored Seconds (SES): Refers to a typical T1 error event where an error burst occurs (a short term, high bit-error rate

that is self-clearing). Per the ITU-T (CCITT) G.821: any second in which the BER is less than 1x10-3.

Signaling: The process of establishing, maintaining, accounting for, and terminating a connection between two endpoints (e.g., the user premises and the telco CO). Central office signals to the user premises can include ringing, dial tone, speech signals, etc. Signals from the user's phone can include off-hook, dialing, speech to far-end party, and on-hook signals. In-band signaling techniques include pulse and tone dialing. With common channel signaling, information is carried out-of-band.

Simple Network Management Protocol (SNMP): TCP/IP protocol that allows network management.

Simultaneous Voice Data (SVD): A technology for letting a user send data via a modem, and use a handset to talk to another user at the same time over the same connection. The alternative, making a second call, can be expensive or even impossible. The uses for SVD are telecommuting, videoconferencing, distant learning, tech support, etc.

Stop Bit: One of the variables used for timing in asynchronous data transmission. Depending on the devices, each character may be trailed by 1, 1.5, or 2 stop bits.

Superframe (D4): A T1 transmission format that consists of 12 DS1 frames, or 2316 bits. A DS1 frame consists of 193 bit positions. A frame overhead bit is in the first position, and it is used for frame and signaling phase alignment only.

Subscriber Loop: See "Local loop".

Switched 56: A circuit-switched (full duplex digital synchronous data transmission) service that lets you dial a number and transmit data to it at 56K bps. It is a relatively low cost service, widely used in North America for telecommuting, videoconferencing and high speed data transfers. Many phone companies are (or will be) phasing out Switched 56 in favor of ISDN service.

Switched Virtual Circuit (SVC): A type of data transmission where the connection is maintained only until the call is cleared.

Switched Line: In communications, a physical channel established by dynamically connecting one or more discreet segments. This connection lasts for the duration of the call after which each segment may be used as part of a different channel. Contrast with leased line.

Switched Network: A network in which a temporary connection is established from one point via one or more segments.

Synchronous Data Link Control (SDLC): A discipline conforming to subsets of the Advanced Data Communications Control Procedures (ADCCP) of the American National Standards Institute (ANSI) and High-level Data Link Control (HDLC) of the Interna- tional Organization for Standardization, for managing synchronous, code-transparent, serial-by-bit information transfer over a link connection. Transmission exchanges may be duplex, or half-duplex over switched or nonswitched links. The configuration of the link connection may be point-to-point, multipoint, or loop.

Synchronous Transmission: The transmission of data which involves sending a group of characters in a packet. This is a common method of transmission between computers on a network or between modems. One or more synchronous characters are transmitted to confirm clocking before each packet of data is transmitted. Compare to Asynchronous Transmission.

Systems Network Architecture (SNA): The description of the logical structure, formats, protocols, and operational sequences for transmitting information units through, and controlling the configuration and operation of networks.

Multi-Tech Systems, Inc. MultiVOIP User Guide

99

Image 99
Contents User Guide User Guide Contents Modem-Based LAN-Based Telnet Web Management Chapter Introduction to the MultiVOIP Introduction to the MultiVOIP Preview of This Guide InstallationRemote Sales Typical ApplicationGatekeeper Proprietary Phone Book Introduction to the MultiVOIP Voice/Fax BootFront Panel Description EthernetPhone Connector Power ConnectorEthernet Connector Command ConnectorSpecifications Chapter Installation Unpacking and Cabling the MultiVOIP InstallationOverview of the Installation Process Installing the Software and Configuring Your MVP120Telecom Safety Warning Other Safety WarningsUnpacking Your MVP120 Cabling Your MVP120 Cabling ProcedureChapter Installing the MVP120 Software Installing the MVP120 Software Installing the MVP120 Software Installing the MVP120 Software Chapter Configuring the Master MultiVOIP IP Protocol Default Setup dialog box displays Configuring the Master MultiVOIPConfiguring 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 Deploying the Voip Network Remote Site AdministratorChapter Using the MultiVOIP Software Before You Begin Using the MultiVOIP SoftwareMVP120 Configuration Interface Tab Changing Channel ParametersVoice/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 IP Statistics Viewing StatisticsSnmp Statistics Viewing Log Entry Details Viewing LogsViewing Channel Totals ReportsUpgrade Software Upgrade ProceduresUsing the MultiVOIP Software Manual Upgrade Procedure Chapter Remote Configuration and Management Modem-Based Remote Configuration and ManagementRemote Configuration and Management LAN-Based Remote Configuration and Management MultiVOIP Telnet Server Menu Voice over IP ConfigurationPhone Directory Configuration TelnetWeb Management Chapter Warranty, Service, and Technical Support Repair Procedures for U.S. and Canadian Customers Warranty, Service, and Technical SupportMulti-Tech Systems, Inc. Warranty & Repairs Policies Warranty763 717-5631, or email mtsrepair@multitech.com Repair Procedures for International DistributorsOrdering Accessories ServiceTechnical Support Recording MVP120 InformationAbout the Internet Appendixes Appendix a TCP/IP Description Appendix a TCP/IP Description Internet Protocol IP Appendix B Cabling Diagrams Command Port CableLAN Cable Pin Male Remote Configuration CableFCC Part Appendix C Regulatory InformationClass a Statement Fax Branding StatementFCC Part 68 Telecom EMC, Safety and Terminal Directive Compliance Canadian Limitations NoticeRinger Equivalence Number Glossary Glossary Glossary Glossary Page Glossary Page Higher speeds Page Glossary Page RS-232-C pin DB-25, signals for 100 101 Cabling the MVP120 Index103 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.