Zhone Technologies Network Device IP Routing Server Card Specifications, Uni Dce, Uni Dte, Nni

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Zhone Technologies, Inc.

IMACS Product Book, Version 4

 

 

 

 

Table 24—IP Routing Server Card Specifications

 

Input/Output

4 maximum (1 10-BaseT Ethernet, 3 Frame Relay Wide-Area Network)

 

LAN Traffic I/O

10BaseT, 10Base2

 

Frame Relay Traffic I/O

T1, E1, fT1, fE1, V.35, RS422, EIA530

 

Frame Relay Port types

UNI DCE, UNI DTE, NNI

 

MTU

1500 bytes

 

Traffic Bandwidth

4Mbps Full Duplex

 

Total Buffer Space

4 Mb DRAM

 

Performance

3500 Packets Per Second

 

No of PVCs

128

 

 

Routing Table

512 entries (up to 128 static entries)

 

ARP Table

100 entries (LRU)

 

Card Capacity

Maximum 3 per IMACS

 

Management

RFC 1315 DTE MIB, Frame Relay Service MIB, SNMP Alarm Traps per

 

 

RFC 1215

 

Connectivity

SNMP or TELNET

 

LMI Options

Q.933 Annex A, ANSI T1.617 Annex D, LMI (Gang of 4), None

 

Information Rates

CIR = 0 to 2048 Kb/s, Bc = 0 to 2048 Kb, Be = 0 to 2048 Kb

 

Congestion Handling

FECN, BECN

 

DCE Parameters

N392, T391, N393 all configurable

 

DTE Parameters

N392, T391, N393, N391 all configurable

 

IP subnet Topologies

Point-to-point, hub-and-spoke, fully/ partially meshed subnets, and

 

 

unnumbered IP interfaces.

7. Low-Bit Rate Voice Server

The LBRV (Low Bit Rate Voice) Server card allows for the compression of 64Kbps digital voice channels into 8Kbps (plus overhead) digital sub-channels, and subsequently for the sub-channels to be multiplexed over one, two or three composite transmission paths over Wide Area Network (WAN) links. The LBRV Server can accept voice inputs from either analog voice ports (such as FXS, FXO, E&M) or from T1/E1 WAN links through the IMACS.

Each LBRV / ACELP (G.729) voice compression server card supports up to three composite transmission paths at speeds of 64k, 128k or 192k, by using one, two or three WAN time slots, respectively. The composite transmission paths use HDLC protocol as the transport mechanism. Users assign voice channels to one, two or three transmission paths based on the need to route those channels through the network. The composite transmission paths can be routed directly to WAN cards or to the Frame Relay Server. When routed to a Frame Relay Server (FRS), the FRS provides a FRAD function for the compressed voice frames. No Frame Relay sub-addressing is supported, so all voice channels within each composite transmission paths from the ACELP will be treated as a single PVC.

There are two models of the LBRV server cards: 830060 (8 port) and 831060 (16 port) capacities. A single IMACS chassis we can support up to 3 LBRV cards for compression of a maximum of 48 voice ports.

The LBRV card performs DTMF recognition and re-construction. This means the integrity of DTMF does not suffer from the compression/decompression processes. The LBRV card does not support MF signaling between switches. The following is a list of the Zhone Technologies LBRV key benefits:

Simple topologies including Point-to-Point, Star and Mesh LBRV performs a compression and transport function. It does NOT perform voice switching and call routing.

High density of channels and high volume of traffic.

LBRV solution is competitive with high volumes of traffic. There should be many (24+) voice channels in one location.

High reliability in mission-critical installations.

March 2001

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Contents Imacs Product Book Intentionally Left Blank Table of Contents Imacs System Testing and Diagnostics Section Title Server CardsManagement Channel Concentrator MCC Internet Protocol Router Low-Bit Rate Voice ServerImacs Product Overview Imacs Features and Benefits Imacs Architecture Overview WANCPU WAN Imacs System Bus ArchitectureUser Buses WAN BusesServer Buses Card Type SummaryCPU Card Interface CardPower Supply Redundancy Voice CardData Card Server CardCPU Card Redundancy WAN Card RedundancyAdpcm Redundancy System Synchronization and ClockingImacs System Management MCC MIBFrame Relay NetworkT1/E1 Frame Relay Imacs Management Using FDL/SA4Router Each FDL is mapped to a separate DS0 FDL over ESFImacs 38.4 kbps Slip Terminal Server Concentrator Node Page M card with 2713 Hz Loop back Module# Imacs 800 Universal Enclosure-Front View Imacs 800 Universal EnclosureImacs 800 Universal Enclosure-Rear View Imacs 900 Universal EnclosureImacs 900 Universal Enclosure Imacs 600 Front Load EnclosurePhysical and Environmental Characteristics Imacs Dimensions Chassis Height Width Depth ModelImacs Minimum Clearances 600 800 900 Power SuppliesImacs Compliance With Regulatory Standards Model 8903 Power Supply 120 VAC Model 8908 Power Supply, 105/240 VAC Model 8905 Power Supply, 120/240 VACRing Generator Page CPU Cards LED Indicators Operational ModesCode Storage Maximum number of WAN linksInterface Cards Page YES Interface Card SpecificationsWAN Ports Node Port EIA RS232-C DOC CS03Page T1 Signal Format E1 Signal FormatHDB3 Performance and Test OptionsWAN Card Hardware Specifications Etsi ETRForeign Exchange Station FXS Card Specification Short Loop Long LoopVF Transmission Characteristics Foreign Exchange Office FXO CardPCM Coding Transhybrid LossVF Transmission Characteristics M Card Delay Specification Phone Station and Office Line Cards Universal Imacs P-Phone ApplicationVoice Transmission Status IndicatorsSubscriber and Central Office Interface-Transmit Channel 2W Port Characteristics KHz Signaling SpecificationsSealing Current Source Sealing Current SinkVoice Channel Bank Application TR-008 ApplicationImacs Using TR-008 T1-E1 ConversionImacs Data Modules and Applications Data Card Types Type of Card DescriptionData Card Types Page HSU Card ApplicationsCAD/CAM Imacs and HSU Application ExamplePoint to MultiPoint One-Way Video and Audio Using HSUs Dial Capability Performance StatisticsSRU Card Imacs Signaling Synchronous DataAsynchronous Data Standards CompatibilityFrad Card Imacs w/ Frad Imacs Frad Card ApplicationFrad Card Specifications DiagnosticsModel 823160 Frad Card DlciOCU-DP Card OCU-DP Card ModelsPage OCU-DP Specifications Model Number Number of Ports Physical InterfacesBRI Card Imacs BRI Terminal Extension ApplicationImacs BRI Card In a Leased Line or Idsl Application BRI Card ModelsPage Remote NTU Configuration Options Procedural CharacteristicsModel 8262 manual settings Software Configurable OptionsBRI Card Specifications Off or On per port Models 826361 and 826171 onlyDesign Standards for Model Lult LuntImacs Using the 822860 For Network Management BnR IP Concentrator CardB7R IP Concentrator Card Specifications External Ports PortMaster Integrated Office Router PM-IOROptions port Internal PortsUDP, Icmp Technical SpecificationsTCP/IP, IPX Alarm Cards Alarm Card Specifications Model 840160, 840260 Adpcm Voice Compression ServerPorts 840160 840260 840360 Model 8403 BuzzerPBX-to-PBX Trunk Application T1/E1Automatic Call Distribution Application BRI-U BRI-STImacs In a Wireless Base Station Application Wireless Base Station ApplicationAdpcm Server Card Specifications Isdn Primary Rate Interface PRI ServerNfas Non-Facility Associated Signaling Remote LoginSwitch 23B+D on T1 30B+D on E1 Customer 3 5B+D Fractional PRI ProvisioningCustomer 1 10B+D 7B+D Isdn Video Conferencing and Video BroadcastCodec Video T1/E1 Integrated Isdn Access with SinaVideo Data Backup and Bandwidth on Demand 25bis/DTRDialing Dialing RouterPRI to FXS Termination Routing Capabilities Call Routing Local RoutingSwitch DefaultBi-directional Default Routing Alternate RoutingManagement Channel Concentrator MCC Server Dpnss Trunk RoutingMCC In a Multilevel Concentration Application ACS-FRS Advanced Communication Server Frame Relay Server Frame Relay Server SpecificationsFECN, Becn Frame Relay Access and Concentration Server Frame Relay Switch Port SavingsImacs Using Frame Relay Server Cards Frame Relay and Internet Service ProvisioningFrame Relay and Internet Services Using IMACS’ Frad Server Idsl Service ProvisioningIdsl Service Provisioning Grooming and Concentration in Cellular NetworksMobile Switch Office Channelized DS1s = 96 DS0s Frame SwitchMobile Base Station Frame Relay DS1sFrame Relay Concentration at Corporate Headquarters Legacy Adaptation to ATM Migrating Legacy Networks to ATM Interactive Distance Learning/Tele-MedicineATM Server Specifications Interactive Distance Learning ApplicationATM Server Card Specifications ATM I/FON/OFF CBR, VBRInternet Protocol Router Maximum Byte SizeSnmp Support Standards SupportUses of IPR Application Ethernet LANIPR-2 IPR-3Bundled Service Deployment Private Intranet DeploymentPrivate Intranet Deployment Using IP Routing Server Card IP Routing Server SpecificationsUNI DCE, UNI DTE, NNI IP Routing Server Card SpecificationsMTU Call Center Application Lbrv In a Call Center Application Backhauling Voice ApplicationExtending Voice Access Application Switch T1/E1Central VoiceMail Server T1/E1 NX64K Leased Line T1/E1Password Protection Letter MeaningImacs System Parameters Port Status SummaryImacs Diagnostic Capabilities Status and Alarm Management Integral Test CapabilitiesWAN Diagnostics Bit Error Rate Tester Bert Patterns SupportedIn-Band Loop back Code Generation In-Band Loop back Code DetectionVoice Diagnostics Diagnostic Capabilities of Voice PortsBert Direction Statistics Gathered By BertDiagnostic Capabilities of Data Ports Data DiagnosticsControl Lead Handling Systems Equipped With Cross-Connect Option DataSingaling 64Kbps Nx64Kbp Toward WAN1 Yes Toward WAN2Data Singaling 64Kbps Nx64KbpBert Direction Voice Single Data Super-rate Without Tones Supported Voice Single Data Super-rate WithoutBenefits of Built-In Diagnostics Toward WAN Voice Single Data Super-rate WithoutBuilt-In Diagnostics Example Imacs Performance Monitoring T1 Line Performance MonitoringDDS Line Performance Monitoring Frame Relay Performance MonitoringATM Performance Monitoring Conclusion
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