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Telephony Networking. Lesson 1: Telephony Essentials. Objectives. Describe the basic components of the telephone service Describe industry standards and protocols Identify the purpose and function of the central office Identify ways to connect to the central office

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Telephony networking

TelephonyNetworking


Lesson 1 telephony essentials

Lesson 1:Telephony Essentials


Objectives

Objectives

  • Describe the basic components of the telephone service

  • Describe industry standards and protocols

  • Identify the purpose and function of the central office

  • Identify ways to connect to the central office

  • Identify various types of trunks and signaling methods

  • Explain various digital signal hierarchy terms and issues

  • Discuss SONET and SDH

  • Describe the purpose of the primary reference source

  • Describe the functions and uses of various types of telephone cable and wiring plans

  • List the common call-processing steps


Telephony basics

Telephony Basics

  • Basic telephone service consists of:

    • Public switched telephone network (PSTN) – a system of interconnected lines and switches

    • Plain old telephone service (POTS) – standard telephony wires that carry analog data

  • The last mile – the POTS portion of the PSTN that connects to a home or business (usually 2.5 miles)

  • The local loop – the tip and ring wire in the RJ-11 connector that provide a complete circuit to the central office

  • On-hook condition – the line is not busy and is ready for a connection

  • Off-hook condition – the line is busy


Telephony basics cont d

Telephony Basics (cont'd)

  • Phone company terminology:

    • Local exchange carrier (LEC) – the local telecommunications company

    • Local access and transport area (LATA) – the area serviced by a LEC

    • Incumbent local exchange carrier (ILEC) – a telco already in business before the Telecommunications Act of 1996

    • Competitive local exchange carrier (CLEC) – a company that competes with LECs and ILECs

    • Interexchange carrier (IXC) – a company that carries long-distance calls between LECs in different LATAs


Industry standards and protocols

Industry Standards and Protocols

  • International Telecommunications Union (ITU) – manages worldwide telephony and networking standards

    • ITU-T series – standards documents labeledA through Z

    • Radio Equipment and Telecommunications Terminal Equipment directive – determines standards for wireless devices in the United Kingdom and Europe

  • Internet Engineering Task Force (IETF) – publishes Requests for Comments (RFCs) that provide information about standardized Internet protocols


The central office

The Central Office

  • Central office (CO) – switching location for local and long-distance calls

  • CO uses three types of switches:

    • Class 3 (also known as an IXC, remote or long-distance switch)

    • Class 4 (also known as a tandem switch)

    • Class 5 (also known as an end-office switch)

  • Pulse Code Modulation (PCM) – converts analog voice data to digital format, then back to analog

  • PCM uses two compression algorithms:

    • Mu-Law (used only in North America and Japan)

    • A-Law (the standard for all international circuits)


Co connections

CO Connections

  • Point of presence (POP) – an interexchange carrier that connects long-distance services to a local connection

  • Foreign Exchange Service (FX) – provides telephone services from a CO that is outside the local calling area

  • Private Branch Exchange (PBX) – enables an organization to create in internal telephone-numbering system

  • Centrex – enables an organization to provide a pool of lines (alternative to PBX)

  • Direct Inward Dialing (DID)/Direct Dialing Inward (DDI) – enables multiple telephone numbers to be used on a few lines


Trunks and signaling

Trunks and Signaling

  • Trunk – a direct communication line between two switching systems; used to establish end-to-end communications between customers

    • Ear and mouth (E&M) trunks – carry voice and data on one series of lines, and signaling on a separate set of lines

    • Analog loop-start trunks – use two wires (the tip and the ring) to act as conductors for the connection

    • Ground-start trunk lines – require that both ends of a connection detect ground before the tip and ring wires can create a loop

    • Digital trunk lines – signaling information and data are sent digitally

      • A and B bits – signaling bits that allow a line to determine when connected systems check for dial tone and whether a remote system is in an on-hook or off-hook condition


Digital trunks and the digital signal hierarchy

Digital Trunks and the Digital Signal Hierarchy

  • Digital signal hierarchy (DSH) – provides a standard for digital signal levels

  • Use DSH to purchase the required amount of network bandwidth to accommodate telephone and network connections

  • DSH levels are analogous to the T-carrier system

  • Digital signals use frames to carry data and addressing information:

    • Super frame

    • Extended super frame (the most common standard)


Sonet and sdh

SONET and SDH

  • Synchronous Optical Network (SONET)

    • High-speed, fiber optic networks organized in rings

  • Synchronous Digital Hierarchy (SDH)

    • Fiber ring networks used internationally

    • Essentially the same as SONET


Sonet and sdh cont d

SONET and SDH (cont'd)

The basic measure of SONET speed is the Synchronous Transport Signal level 1 (STS-1) frame, which travels at 51.84 Mbps


Sonet and sdh cont d1

SONET and SDH (cont'd)

The basic unit for SDH is the Synchronous Transport Module (STM)-1 frame, which travels at 155.52 Mbps


Sonet and sdh cont d2

SONET and SDH (cont'd)

Benefits of using SONET/SDH

  • You can use multiplexors and routers to combine different data lines and streams onto one line

  • One heterogeneous network can communicate with another distant heterogeneous network via one fiber optic ring


The primary reference source

The Primary Reference Source

  • Primary reference source (PRS) – a network of hyper-accurate clocks used to precisely time digital connections

  • PRS strata

    • Stratum 1 – extremely accurate but very expensive

    • Stratum 2 – used by long-distance providers

    • Stratum 3 – used by the CO

    • Stratum 4 – used by PBXs

  • Timing types

    • Asynchronous – no timing information is shared

    • Synchronous – a common system clock is used for all trunk lines and networks involved

    • Plesiosynchronous – a number of PRS clocks are used for all networks involved


Cabling and wiring

Cabling and Wiring

  • Service wire center – houses one or more local switching systems

  • Main distribution frame (MDF) – the main interface between the telco's lines and all internal lines

  • Patch panel – interconnects voice and data lines with RJ-11 and/or RJ-45 connectors

  • Intermediate distribution frame (IDF) – connects the MDF and a user's telephone handset

  • Combined distribution frame (CDF) – same as MDF and IDF but also houses connections from incoming lines and lines from inside equipment

  • Minimum point of entry (MPOE) – the point at which phone lines first enter your facility

    • Network interface device (NID) – terminates the connections from the central office

    • Load coil – device that improves voice transmission

    • Bridge tap – cable used to extend the loop


Call processing steps

Call-Processing Steps

  • Placing a call

    • Call setup – the connection is built between the local loop and the CO

    • Call connection maintenance – the connection is established and maintained

    • Call completion – breaking the connection

  • Common analog transmission impairments

    • Loss – parts of the transmission are dropped

    • Echo – parts of the conversation are repeated

    • Noise – unwanted energy that interferes with the signal

    • Crosstalk – parts of another conversation are heard

  • Echo cancellation in hybrid networks

    • When two-wire and four-wire networks are connected, a hybrid network is created, which can result in echo

    • An echo canceller balances the ohm levels between the lines, thereby eliminating the echo


Summary

Summary

  • Describe the basic components of the telephone service

  • Describe industry standards and protocols

  • Identify the purpose and function of the central office

  • Identify ways to connect to the central office

  • Identify various types of trunks and signaling methods

  • Explain various digital signal hierarchy terms and issues

  • Discuss SONET and SDH

  • Describe the purpose of the primary reference source

  • Describe the functions and uses of various types of telephone cable and wiring plans

  • List the common call-processing steps


Lesson 2 investigating the local loop

Lesson 2:Investigating the Local Loop


Objectives1

Objectives

  • Explain the importance of a demarcation point in telephony

  • Identify signaling types used in the local loop

  • Use numbering standards, including the North American Numbering Plan (NANP) and United Kingdom standards

  • Explain how the local loop is wired

  • Wire RJ-11 and RJ-12 connectors

  • Wire BT-431A and BT-631A connectors

  • Wire a wall jack and a line jack unit


Inside the demarcation point

Inside the Demarcation Point

  • Minimum point of entry (MPOE)

    • The telco's demarcation point

    • The point where telco equipment ends and inside local loop wiring begins

  • Drop wire – the line from the telephone pole to the MPOE

  • Station wire – the line inside the MPOE


Getting to the local loop

Getting to the Local Loop

  • Global numbering plans

    • ITU Recommendation E.164 establishes standards for numbering plans

    • Telephone numbers should not exceed 15 characters

  • North American Numbering Plan (NANP)

    • Numbers are 10 digits long


Getting to the local loop cont d

Getting to the Local Loop (cont'd)

  • Area code jeopardy and relief

    • Realignment – move areas from one area code to another

    • Split – create a new area code

    • Three-way split – create two new area codes out of one area code

    • Overlay – assign a new area code in the same geographic area as an existing area code

  • Specified Numbering Scheme (SNS)

    • Enables people in the U.K. to make calls using a uniform formula


Signaling types

Signaling Types

  • Three types of signaling:

    • Rotary/pulse or multi-frequency (MF) – used on rotary dial phones

    • Dual tone multi-frequency (DTMF) – generated by touch-tone pads on all standard phones

    • Digital – does not process audible tones


Rj 11 connectors and wiring

RJ-11 Connectors and Wiring


Rj 11 connectors and wiring cont d

RJ-11 Connectors and Wiring (cont'd)

  • Telephone jacks constitute a tip and ring

  • Tip

    • The "transmit" wire

    • The positive side of the circuit (in relation to the ring)

  • Ring

    • The "receiving" wire

    • The negative side of the circuit (in relation to the tip)


Rj 12 modular connector

RJ-12 Modular Connector


Rj 11 wall connector wiring

RJ-11 Wall Connector Wiring


Bt 431a connectors

BT-431A Connectors


Bt 631a connectors

BT-631A Connectors


Line jack units

Line Jack Units

  • Three types of line jack units

    • Master

    • PBX master

    • Secondary

  • Master line jack units contain:

    • A 26-amp surge protector

    • A 1.8 uf, 250-volt capacitor

    • A 470-ohm service resistor

    • Six terminals designed to accept wiring from the wall


Wall jack wiring diagram

Wall Jack Wiring Diagram


Summary1

Summary

  • Explain the importance of a demarcation point in telephony

  • Identify signaling types used in the local loop

  • Use numbering standards, including the North American Numbering Plan (NANP) and United Kingdom standards

  • Explain how the local loop is wired

  • Wire RJ-11 and RJ-12 connectors

  • Wire BT-431A and BT-631A connectors

  • Wire a wall jack and a line jack unit


Lesson 3 infrastructure issues and standards

Lesson 3:Infrastructure Issues and Standards


Objectives2

Objectives

  • List common telephony connectivity and safety issues

  • Identify safety procedures

  • Explain safety standards

  • Determine the proper cabling procedures for specific environments

  • Identify various cable terminations

  • Wire an RJ-45 connector

  • Explain the importance of plenum cabling

  • Explain the necessity of securing equipment


Common telephony issues

Common Telephony Issues

  • Quality assurance and business continuity

    • Uptime – the length of time a device has remained operational

    • Mean time between failure (MTBF) – the predicted amount of time a device will function before it requires maintenance or replacement

    • Return on investment (ROI) – the calculations made to ensure that equipment will result in company profitability

  • Telecommunications reliability and safety issues:

    • Extreme temperatures

    • Vibration and shock

    • Humidity

    • Fire

    • Noise

    • Altitude


Common telephony issues cont d

Common Telephony Issues (cont'd)

  • Electromagnetic compatibility

    • Electrostatic discharge (ESD) – An uncontrolled buildup of electrical current

    • Radio frequency interference (RFI) – A signal that causes another device to operate improperly

    • Electromagnetic interference (EMI) – interference produced by electromechanical devices

  • Solutions for electrical issues:

    • EMI suppression filters

    • Capacitors

    • Inductors

    • Line filters

    • Shielding

    • Ensuring proper humidity

  • Personnel safety concerns and procedures


Network equipment building system

Network Equipment Building System

  • Network Equipment Building System (NEBS)

    • Protects people and property

    • Ensures operational continuity in the telephony industry

  • NEBS sets standards for the operation of telephony equipment with respect to:

    • Earthquake zones

    • Operating conditions and transport conditions

    • Levels of contaminants

  • NEBS standards documents

    • GR-63-CORE (Physical Protection)

    • GR-1089-CORE (Electromagnetic Compatibility and Electrical Safety)


Standards bodies

Standards Bodies

Standards bodies provide telephony standards

  • Independent Committee for the Supervision of Standards of Telephone Information Services (ICSTIS)

  • International Organization for Standardization (ISO)

  • Independent Testing Laboratory (ITL)

  • European Telecommunications Standards Institute (ETSI)

  • Federal Communications Commission (FCC)

  • Telecommunications Industry Association (TIA)

  • Electronic Industries Alliance (EIA)

  • British Standards Institute (BSI)


Proper cabling procedures

Proper Cabling Procedures

When pulling cable:

  • Avoid sharp bends in the cable

  • Take care to eliminate sharp edges in conduits and other areas where cable might get worn or cut

  • Make sure that wiring does not interfere with mechanical equipment

  • Avoid passing wire close to fluorescent lights

  • Ensure that you are using the right type of cable for a particular job


Choosing the proper cable

Choosing the Proper Cable

  • American Wire Gauge (AWG) standard

  • Standard gauges

    • 22 AWG – floor or wall cable

    • 24 AWG – backbone and drop cable

    • 26 AWG – drop cable and devices that pass data between similar devices (daisy chaining)

  • The EIA/TIA 568 standard is the most commonly used for twisted pair cabling


Ibm cabling standard

RJ-45 connector – an eight-pin modular cable ending used in Ethernet networks

Crossover cabling – allows two systems to communicate without the use of an intermediary device, such as an Ethernet hub

IBM Cabling Standard


Serial cable termination

Serial Cable Termination

  • Data terminating equipment (DTE) – a serial device that transmits and receives data digitally

  • Data communications equipment (DCE) – a device that is attached to a communications line and is capable of altering a signal in transit

  • RS-232 – a standard that enables DTE and DCE devices to communicate

  • Universal Asynchronous Receiver-Transmitter (UART) – translates parallel communication into serial

  • Additional ITU communication standards

    • V.24 through V.90


Pvc vs plenum cabling

PVC vs. Plenum Cabling

  • Plenum – the space above a dropped ceiling or behind a wall

  • UTP or STP cables have a polyvinyl chloride (PVC) jacket (emits toxic gas when burned)

  • When installing cable in a plenum:

    • Encase UTP or STP cable in a protective metal conduit

    • Use plenum cabling (has a Teflon jacket that inhibits burning)


Securing equipment

Securing Equipment

  • Physically secure telephony equipment using brackets

  • Isolate power sources by grounding them properly

    • PBX grounding: a steel rod 6 feet (2 meters) underground to which you attach the PBX ground lead


Summary2

Summary

  • List common telephony connectivity and safety issues

  • Identify safety procedures

  • Explain safety standards

  • Determine the proper cabling procedures for specific environments

  • Identify various cable terminations

  • Wire an RJ-45 connector

  • Explain the importance of plenum cabling

  • Explain the necessity of securing equipment


Lesson 4 troubleshooting

Lesson 4:Troubleshooting


Objectives3

Objectives

  • Identify common troubleshooting tools

  • Use a line test handset (butt set)

  • Use a tone and probe kit

  • Use a digital multimeter

  • Use a line tester

  • Discuss how to troubleshoot analog lines

  • Discuss how to troubleshoot digital lines

  • Discuss telephony power issues


Troubleshooting terms

Short (continuity)

Open (open fault)

Terminator

Cross

Polarity

Split

Line imbalance

Loopback testing

End-to-end testing

Troubleshooting Terms


Troubleshooting tools

Troubleshooting Tools

  • Telephone line test set

    • Also called a butt set or handset

    • Used to test line quality

    • Used to check line polarity

    • Used to determine loss of current

  • End-to-end and loopback testing

    • A butt set is used to generate tones and frequencies to test lines

  • Can use analog butt sets to listen to digital communications by going into "data safe mode"


Troubleshooting tools cont d

Troubleshooting Tools (cont'd)

  • Tone and probe kit

    • A tone generator emits tones across a wire

    • A probe listens on the other end of the wire for tones emitted by the tone generator

  • Uses

    • Identify open circuits

    • Locate short circuits

    • Identify breaks in a cable

    • Test polarity of a line

    • Determine line voltage

    • Identify lines that are causing crosstalk

    • Find a single conducting wire in a bundle of wires

    • Provide talk battery power to test a line with no dial tone


Troubleshooting tools cont d1

Troubleshooting Tools (cont'd)

  • Multimeter

    • Measures resistance, current and voltage in an electrical circuit


Troubleshooting tools cont d2

Troubleshooting Tools (cont'd)

  • Punchdown tool

    • Inserts wires in 66 and 110 punchdown blocks

  • Line tester

    • Determines if a short exists in a line

  • Laptop computer

    • Connects to a telephony network and uses packet sniffers to troubleshoot lines

  • Additional devices

    • ABS

    • DTMF decoder

    • Acoustic coupler

    • Modular breakout adapter


Troubleshooting analog lines

Troubleshooting Analog Lines

  • PBX and ground-start analog lines

    • At the PBX, use a butt set to isolate crosstalk to determine if the problem is within or outside the building

  • Securing connections with a punchdown tool

    • Poorly closed connections or improperly set lines can cause line noise

  • Checking for line noise

    • Use a digital multimeter to measure for AC voltage

    • AC voltage > 1 volt = improper grounding


Troubleshooting digital lines

Troubleshooting Digital Lines

  • Improper clocking configuration

    • Voice and data lines must be precisely synchronized using the CO's PRS

    • Use a butt set to check for improper clocking

  • Check the Service Profile Identifier (SPID)

    • No connection will occur if the SPID is missing or incorrect

    • SPID = area code + 7-digit phone number +ISDN number

  • Check for proper termination

  • Be aware of different ISDN voice-encoding standards


Troubleshooting digital lines cont d

Troubleshooting Digital Lines (cont'd)

  • Consider signal-to-noise ratio

  • Test equipment for digital networks

    • Signal/spectrum analyzer

    • Multimeter

    • Oscilloscope

    • Network analyzers

    • Time domain reflectometer (TDR)

    • Service-specific test set


Telephony power issues

Telephony Power Issues

  • Grounding/earthing

    • When connecting telephony and LAN-based equipment, ensure that all systems have only one ground path

    • Use an earth loop tester to avoid grounding problems

    • Ensure that power is connected properly at the electrical termination device (circuit breaker)

  • Physical security

    • Place all equipment in a dedicated server or CTI room

  • Telephones and ring voltage

    • REN value determines the ringing voltage

    • -90 v AC charge needed to ring a standard analog telephone


Summary3

Summary

  • Identify common troubleshooting tools

  • Use a line test handset (butt set)

  • Use a tone and probe kit

  • Use a digital multimeter

  • Use a line tester

  • Discuss how to troubleshoot analog lines

  • Discuss how to troubleshoot digital lines

  • Discuss telephony power issues


Lesson 5 analog and digital signaling

Lesson 5:Analog and Digital Signaling


Objectives4

Objectives

  • Describe signaling categories and audible progress tones

  • Compare and contrast in-band and out-of-band signaling

  • Describe analog signaling in regard to E&M,loop-start and ground-start trunks

  • Describe digital signaling, including T1 and ISDN lines

  • Describe the nature and functions of Private Integrated Services Networks (PISNs)

  • Discuss Signaling System Seven (SS7)

  • Describe Computer-Telephone Integration


Signaling categories

Signaling Categories

  • Signaling categories:

    • Supervision – detects changes to a particular line

    • Addressing – responsible for routing signals to the correct switch

    • Alerting – audible alert signals

    • Call progress – signals that maintain calls

  • Audible call progress tones:

    • Dial tone

    • Busy signal

    • Receiver off hook too long

    • Nonexistent number


In band and out of band signaling

In-Band andOut-of-Band Signaling

  • In-band signaling

    • The process of allowing the control signal to share the same path as the voice and data

  • Out-of-band signaling

    • The process of using a separate channel for signaling purposes


Analog signaling

Analog Signaling

  • Ear and mouth (E&M) signaling

    • Separate signaling wires for voice and data


Analog signaling cont d

Analog Signaling (cont'd)

  • Grounding on E&M lines

    • Immediate start

    • Wink start

    • Delay-dial start

  • Reducing E&M trunk glare with wink starting


Loop start analog trunk signaling

Loop-Start Analog Trunk Signaling


Ground start analog trunk signaling idle and outgoing calls

Ground-Start Analog Trunk Signaling(Idle and Outgoing Calls)


Ground start analog trunk signaling incoming calls

Ground-Start Analog Trunk Signaling(Incoming Calls)


Digital signaling

Digital Signaling

  • T1 lines and in-band signaling

    • Channelized T1 – 24 channels of 56 Kbps for voice and data

    • Unchannelized T1 – 1.536 Mbps for voice and data

  • Bit robbing

    • The practice of using the least significant portions, or bits, of a data or voice channel for signaling

    • The T1 Superframe (SF) robs the A and B bits for signaling

    • The Extended Superframe (ESF) has four bits (A, B, C and D), though only A and B are used


Digital e m signaling

A and B bit settings for sending and receiving switches:

Idle – A and B bits are set to 0 for both switches

Call initiation – switch A sets bits A and B to 1; switch B sets bits A and B to 0

Call completion – both switches have the A and B bits set to 1

Digital E&M Signaling


Digital ground and loop starts

Digital Ground and Loop Starts

  • When an FXS is idle:

    • The CO's A and B bits = 1

    • The PBX's A bit = 0; the B bit = 1

  • When a digital loop-start line is in an idle state:

    • The A bits for the CO/FXO and PBX/FXS = 0

    • The B bits for the CO/FXO and PBX/FXS = 1

  • When an FXS or PBX makes an outgoing call:

    • The CO/FXO's A bit = 0; the B bit = 1

    • The PBX/FXS's A bit = 1; the B bit = 1


Integrated services digital network isdn

Integrated Services Digital Network (ISDN)

  • ISDN can carry voice, FAX, imaging or data communications

  • Two types of ISDN:

    • ISDN Basic Rate Interface (BRI) – Two 64-Kbps channels for voice or data; one 16-Kbps channel for signaling

    • ISDN Primary Rate Interface (PRI) – 23 64-Kbps channels for voice or data; one 16-Kbps channel for signaling

  • B channel (bearer channel) – carries voice or data

  • D channel (delta channel) – carries signaling

  • H channel – combined B channels


Isdn protocols

ISDN Protocols

  • I.430 – explains how the ISDN interface uses the physical and data link layers of the OSI/RM (Layers 1 and 2, respectively)

  • ISDN interfaces must use reference points between the telco and the end station:

    • U interface

    • S interface

    • T interface

    • Network Termination Equipment (NTE)

    • Terminal adapter

    • Terminal equipment


Isdn protocols cont d

ISDN Protocols (cont'd)

  • High Level Data Link Control – Link Access Protocol D Channel (HDLC – LAPD)

    • Used in ISDN connections to provide signaling

    • LAPD operates solely in the D channel of an ISDN line

    • LAPD provides flow control and data reliability

  • Q.931 and Q.932

    • Q.931 manages how a session is begun and ended

    • Q.932 makes it possible to modify connections that are already under way


Private integrated services network pisn

Private Integrated Services Network (PISN)

PISN, showing connections via two different PINX types


Private integrated services network pisn cont d

Private Integrated Services Network (PISN) (cont'd)

  • A PISN consists of the following:

    • End nodes – provide specific services, including voice and data

    • Transit (transport) nodes – provide routing services to ensure that calls and network requests arrive at the proper destination


Pisn signaling methods

PISN Signaling Methods

  • Digital Private Network Signaling Scheme (DPNSS) – a collection of protocols that enable PBX-to-PBX communication over ISDN lines

  • Tromboning – a problem that occurs when a second connection is opened unnecessarily to accommodate a call that is being re-transferred back from one PINX to another

  • QSIG – the de facto standard for PISNs connected by PINX equipment through ISDN lines

    • QSIG basic services – enable PISN elements to establish voice and data calls

    • QSIG supplementary services – help control remote PINXs built by different manufacturers

    • Additional network features (ANF) – signaling enhancements that help handle calls


Pisn signaling methods cont d

PISN Signaling Methods (cont'd)

  • QSIG basic call (QSIG BC)


Q and c reference points

Q and C Reference Points

  • Q reference point – the point at which a logical PINX interface communicates with a remote PINX

  • C reference point – the physical interface between a PINX and a trunk line


Signaling system seven ss7

Signaling System Seven (SS7)

  • Signaling System Seven (SS7) – a packet-switched network protocol used by telcos in calls that pass between switches

  • High Level Data Link Control (HDLC) – a protocol that divides signaling data into discrete packets

    • HDLC allows three categories of stations (entities) to communicate:

      • Primary – initiates and controls communication

      • Secondary – responds to communication

      • Combined – controls and responds to communication

HDLC frame


Signaling system seven ss7 cont d

Signaling System Seven (SS7) (cont'd)

  • SS7 elements:

    • Service Switching Point (SSP)

    • Signaling Transfer Point (STP)

    • Service Control Point (SCP)

  • SS7 message types:

    • Initial Address Message (IAM)

    • Address Complete Message (ACM)

    • Answer Message (AM or ANM)

    • Release Message (REL)

    • Release Complete (RLC)


Computer telephone integration cti

Computer-Telephone Integration (CTI)

CTI – the ability for telephony networks and data networks to share data


Summary4

Summary

  • Describe signaling categories and audible progress tones

  • Compare and contrast in-band and out-of-band signaling

  • Describe analog signaling in regard to E&M, loop-start and ground-start trunks

  • Describe digital signaling, including T1 and ISDN lines

  • Describe the nature and functions of Private Integrated Services Networks (PISNs)

  • Discuss Signaling System Seven (SS7)

  • Describe Computer-Telephone Integration


Telephony networking

Telephony Networking

  • Telephony Essentials

  • Investigating the Local Loop

  • Infrastructure Issues and Standards

  • Troubleshooting

  • Analog and Digital Signaling


  • Login