Communications System Owner Manual

ManualsBrandsAT&T ManualsNetwork RouterDEFINITY 7400 series

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Table Of Contents

Table of Contents
ABOUT THIS DOCUMENT
- PREREQUISITE SKILLS AND KNOWLEDGE
- DOCUMENT ORGANIZATION
- HOW TO MAKE COMMENTS ABOUT THIS DOCUMENT
1. INTRODUCTION TO CONNECTIVITY
- TRANSMISSION TYPES
- TRANSMISSION STATES
  - VOICE TRANSMISSION
    - Entering the Switch
    - Exiting the Switch
  - DATA TRANSMISSION
- MULTIPLEXED COMMUNICATION
- TRUNKING
2. COMMUNICATION SYSTEM NETWORKING (em AN OVERVIEW
- TYPES OF NETWORKS
- NETWORK EVOLUTION
- SOFTWARE CAPABILITIES
- NETWORK CALL PROCESSING
- NETWORK ADMINISTRATION
- PRIVATE NETWORK TRUNKS
- NETWORKING FEATURE PARAMETERS
3. TANDEM TIE TRUNK NETWORKS
- INTERACTIONS WITH OTHER NETWORKS
4. MAIN-SATELLITE/TRIBUTARY (MS/T) NETWORKS THROUGH THE UDP OR MULTIPREMISES PACKAGES
- MS/T CONFIGURATIONS
  - Main-Satellite Configuration
  - Main-Tributary Configuration
- MS/T FEATURES
- ENGINEERING CONSIDERATIONS
- INTERACTIONS
5. ELECTRONIC TANDEM NETWORK (ETN) THROUGH THE ETN AND PNA PACKAGES
- ETN CONFIGURATIONS
- ETN TRUNKS
  - Access and Bypass Access Tie Trunks
  - Off-Net Trunks
- FEATURES
- ETN INTERACTIONS WITH OTHER NETWORKS
- ENGINEERING CONSIDERATIONS
6. DISTRIBUTED COMMUNICATIONS SYSTEM (DCS)
- DCS CLUSTERS
- DCS LINKS
  - Tie Trunks
  - Signaling Links
- DCS SIGNALING LINK CONNECTIONS
- TRANSPARENT FEATURES
- ENGINEERING CONSIDERATIONS
- ADMINISTRATION CONSIDERATIONS
7. DATA CONNECTIVITY - AN OVERVIEW
- DATA COMMUNICATIONS VARIABLES
- SPECIAL DATA FEATURES
8. DATA COMMUNICATIONS CAPABILITIES
- DTE CONNECTIONS
- LOCAL AREA NETWORK CONNECTIONS
- PUBLIC AND PRIVATE DATA NETWORK CONNECTIONS
  - PUBLIC DATA NETWORKS
    - Packet-Switched Public Data Networks
    - Circuit-Switched Public Data Networks
  - PRIVATE DATA NETWORKS
    - Terrestrial Private Data Network Links
    - Satellite Private Data Network Links
- TELEMARKETING HOST CONNECTIONS
  - THE ISDN GATEWAY
  - THE INTEGRATED TELEMARKETING GATEWAY
- DATA NETWORK ADMINISTRATION
9. DATA COMMUNICATIONS CONFIGURATIONS
- DSC AND PSC CONNECTIONS
- SNA NODE CONNECTIONS
- CONNECTIONS THROUGH PUBLIC OR PRIVATE DATA NETWORKS
A. RELATED DOCUMENTS
B. SYNCHRONIZATION OF DIGITAL FACILITIES
- THE NEED FOR SYNCHRONIZATION
- SYNCHRONIZATION HIERARCHY
- CHANGES TO THE SCS SOFTWARE MADE AVAILABLE VIA SOFTWARE PATCHES
- NETWORK SYNCHRONIZATION AND ENGIINEERING
- AVAILABILITY OF SYNCHRONIZATION SOURCES
- CONCLUSIONS ON SYNCHRONIZATION
- USE OF GENERIC 2 AS A SYSTEM CLOCK REFERENCE
- USE OF GENERIC 1 AS A SYSTEM CLOCK REFERENCE
C. TRUNKING TERMS AND CAPABILITIES
D. COMMUNICATIONS PROTOCOLS
- OSI MODEL
- STANDARD PROTOCOLS
- AT&T PROTOCOLS
E. LEAD DEFINITIONS
F. NETWORKING FEATURES - AVAILABILITY MATRIX
ABBREVIATIONS
GLOSSARY
INDEX

5-2 ELECTRONIC TANDEM NETWORK (ETN) THROUGH THE ETN AND PNA PACKAGES

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The characteristics of a hierarchical network (see ﬁgure 5-1) are:

• Each tandem switch has an assigned level (upper and lower).

• Each lower level switch connects to an upper level switch.

• Upper level switches are interconnected.

• A routing plan that prevents circular call routing.

The characteristics of a symmetrical network are:

• Tandem switches are of an equal level.

• All routes (trunk groups) are high usage.

• Circular call routing is prevented by limited tandem-to-tandem routing to the ﬁrst several routes.

In ﬁgure 5-1, the hierarchical ranking of switches is shown. The ranking allows an orderly routing of on-

net access calls. The switching portion of the network is represented in ﬁgure 5-1 by the upper-level and

lower-level tandem switches connected by intermachine tie trunks. The tandem switches can accept

voice/data calls from any connected point and pass the calls to another connected point. The upper-level

switches handle heavy call volumes and the lower-level switches handle lighter volumes. Lower-level

switches can be administered to overﬂow to upper-level switches.

ETN TRUNKS

The trunks that connect the switches within the private network are named according to function. That is,

names like intermachine (intertandem), access, bypass access, and off-net denote functional (type of

routing) rather than hardware differences. (See the Trunking section of chapter 1 and administrative

details.) As its name implies, an intermachine tie trunk interconnects two tandem switches. It can be 1-

way incoming, 1-way outgoing, or 2-way. Intermachine tie trunks are further classiﬁed as primary high-

usage, intermediate high-usage, or ﬁnal, depending on how blocked calls overﬂow from one trunk group to

another. How calls overﬂow is administered by designating routing patterns and trunk group preferences in

AAR.

The routing characteristics for intermachine tie trunks are as follows:

• Primary high-usage (PHU) intermachine tie trunks — These trunks serve ﬁrst-choice trafﬁc only. That

is, they do not receive any overﬂow trafﬁc, but calls that they cannot handle may overﬂow to

intermediate or ﬁnal trunk groups.

• Intermediate high-usage (IHU) intermachine tie trunks — These trunks serve ﬁrst-choice trafﬁc and

receive overﬂow trafﬁc from primary high-usage trunk groups. They direct any overﬂow trafﬁc to ﬁnal

trunk groups.

• Final intermachine tie trunks — These trunks accept ﬁrst-choice trafﬁc and also receive overﬂow trafﬁc

from primary and intermediate high-usage trunk groups. They do not redirect calls that they cannot

handle to any other trunk group. Depending on how the trunk is administered, when a call is blocked,

the caller receives busy or intercept tone or the call is placed in queue.

Refer to ﬁgure 5-2 for the types of overﬂow routing.