Zhone Technologies Network Device Foreign Exchange Office FXO Card, Characteristics, PCM Coding

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Zhone Technologies, Inc.

IMACS Product Book, Version 4

 

 

 

 

 

 

 

 

 

 

Characteristics

 

 

 

Nominal Transmit TLP

Software configurable, -10.0dB to +5.0dB, steps of 0.1dB

 

 

Nominal Receive TLP

Software configurable, -10.0dB to +2.0dB, steps of 0.1dB

 

 

2-Wire Return Loss

>28 dB Echo, >20 dB singing (against 600 ohm, in series with 2.16 uF

 

 

 

with additional 25 ohm resistor between tip and ring)

 

 

PCM Coding

Software configurable, A-Law, A-Law inverted, u-Law

 

 

Transhybrid Loss

Echo: 20dB, SRL-LO: 12dB, SRL-HI: 12 dB

 

 

Standards Conformance

 

 

 

AT&T TR43801

Digital Channel Bank Requirements and Objectives - November 1982;

 

 

Bel1Core TR-NWT 000057

Functional Criteria for Digital Loop Carrier System - January 1993

 

 

BellCore GR-63-CORE

Network Equipment-Building System (NEBS) Requirements: Physical

 

 

 

Protection

 

 

ITU-T G.712

(11/96) - Transmission Performance Characteristics of Pulse Code

 

 

ITU-T Q.552

Modulation (replaces G.712, G.713, G.714 and G.715)

 

 

Transmission Characteristics of 2 -wire analog interface of a Digital

 

 

 

Exchange

 

 

FCC Part 68

Requirements for Connection of Terminal Equipment Systems and

 

 

 

Protective Apparatus to the Telephone Network

 

 

FCC Part 15

Subpart 15

 

 

UL 1459

UL Standard for Safety, Telephone Equipment

 

2. Foreign Exchange Office (FXO) Card

The IMACS supports only one variant of Foreign Exchange Office (FXO) card:

813960/813970 FXO Card provides eight 2-wire analog ports with terminating impedance of 600 ohms.

FXO cards can be installed in any of the User Slots of the IMACS chassis. FXO cards encode the incoming analog voice signals into 64 Kbps PCM format before transmission onto the network. A Ringing Generator is required if one or more FXO ports in a system are programmed to operate in Manual Ringdown (MRD) mode. In addition, a physical jumper must be set on the FXO card for each port programmed for MRD operation. Each FXO card provides a single 50-pin female AMPHENOL connector (RJ27X).

All port parameters are software configurable on a port-by-port basis. The Mode setting specifies whether the port is to be used for standard Foreign Exchange Office, Foreign Exchange Software Defined Network, Dial Pulse Terminate, or Manual Ring Down (MRD). As described above, the MRD mode also requires the setting of physical jumpers. The Signal setting specifies Loop Start, Loop Start with Forward Disconnect, Ground Start, R2, and Immediate R2 operation. In “fxodn” and “dpt” modes, the user may also specify the wink duration time and wink delay from 0.1 seconds to 9.9 seconds in 0.1-second increments. The PCM Coding options supported include “∝ - Law”, “A-Law” and inverted A-Law. The user may select the Trunk Conditioning mode (“busy” or “idle”) that should be applied towards the attached equipment should the WAN facility that the port is connected to fail. In addition, both the Transmit (Tx) and Receive (Rx) TLP levels can be set in increments of 0.1 dB. The Tx TLP range is from -10.0 dB to +5.0 dB. The Rx TLP range is from -10.0 dB to +2.0 dB.

The user may also specify, on a port-by-port basis, whether to use North American ANSI standard ABCD signaling (which is the default) or ITU (CCITT) ABCD signaling by turning the signaling conversion setting “on” or “off.” The trans-hybrid balance may be specified as one of eight values (known as “set1” through “set8”) as well as for a customized user-specified terminating impedance (“user”). All eight values are identical and are set for a terminating impedance of 600Ω ± 2.15∝ F in the case of the Model 813960 FXO cards.

Software-initiated testing and diagnostics supported on FXO cards include the setting of both analog and digital loop backs towards the network and generating a Digital MilliWatt signal on a port-by-port basis. A robust set of Test functions allow the user to monitor and set the state of

March 2001

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Contents Imacs Product Book Intentionally Left Blank Table of Contents Section Title Server Cards Imacs System Testing and DiagnosticsManagement Channel Concentrator MCC Internet Protocol Router Low-Bit Rate Voice ServerImacs Product Overview Imacs Features and Benefits WAN Imacs Architecture OverviewCPU WAN Imacs System Bus ArchitectureWAN Buses User BusesCard Type Summary Server BusesCPU Card Interface CardVoice Card Power Supply RedundancyData Card Server CardWAN Card Redundancy CPU Card RedundancyAdpcm Redundancy System Synchronization and ClockingMCC MIB Imacs System ManagementNetwork Frame RelayT1/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 Imacs 800 Universal Enclosure-Front ViewImacs 900 Universal Enclosure Imacs 800 Universal Enclosure-Rear ViewImacs 600 Front Load Enclosure Imacs 900 Universal EnclosureImacs Dimensions Chassis Height Width Depth Model Physical and Environmental CharacteristicsImacs 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 Operational Modes LED IndicatorsCode Storage Maximum number of WAN linksInterface Cards Page YES Interface Card SpecificationsWAN Ports Node Port DOC CS03 EIA RS232-CPage E1 Signal Format T1 Signal FormatHDB3 Performance and Test OptionsEtsi ETR WAN Card Hardware SpecificationsForeign Exchange Station FXS Card Specification Short Loop Long LoopVF Transmission Foreign Exchange Office FXO Card CharacteristicsPCM Coding Transhybrid LossVF Transmission Characteristics M Card Delay Specification Universal Imacs P-Phone Application Phone Station and Office Line CardsVoice Transmission Status IndicatorsSubscriber and Central Office Interface-Transmit Channel KHz Signaling Specifications 2W Port CharacteristicsSealing Current Source Sealing Current SinkTR-008 Application Voice Channel Bank ApplicationT1-E1 Conversion Imacs Using TR-008Data Card Types Type of Card Description Imacs Data Modules and ApplicationsData Card Types Page Applications HSU CardCAD/CAM Imacs and HSU Application ExamplePoint to MultiPoint One-Way Video and Audio Using HSUs Performance Statistics Dial CapabilitySRU Card Imacs Synchronous Data SignalingAsynchronous Data Standards CompatibilityFrad Card Imacs Frad Card Application Imacs w/ FradDiagnostics Frad Card SpecificationsModel 823160 Frad Card DlciOCU-DP Card Models OCU-DP CardPage Model Number Number of Ports Physical Interfaces OCU-DP SpecificationsImacs BRI Terminal Extension Application BRI CardBRI Card Models Imacs BRI Card In a Leased Line or Idsl ApplicationPage Procedural Characteristics Remote NTU Configuration OptionsModel 8262 manual settings Software Configurable OptionsOff or On per port Models 826361 and 826171 only BRI Card SpecificationsDesign Standards for Model Lult LuntBnR IP Concentrator Card Imacs Using the 822860 For Network ManagementPortMaster Integrated Office Router PM-IOR B7R IP Concentrator Card Specifications External PortsOptions port Internal PortsUDP, Icmp Technical SpecificationsTCP/IP, IPX Alarm Cards Adpcm Voice Compression Server Alarm Card Specifications Model 840160, 840260Ports 840160 840260 840360 Model 8403 BuzzerT1/E1 PBX-to-PBX Trunk ApplicationBRI-U BRI-ST Automatic Call Distribution ApplicationWireless Base Station Application Imacs In a Wireless Base Station ApplicationIsdn Primary Rate Interface PRI Server Adpcm Server Card SpecificationsRemote Login Nfas Non-Facility Associated SignalingFractional PRI Provisioning Switch 23B+D on T1 30B+D on E1 Customer 3 5B+DCustomer 1 10B+D 7B+D Isdn Video Conferencing and Video BroadcastCodec Video T1/E1 Integrated Isdn Access with SinaVideo 25bis/DTR Data Backup and Bandwidth on DemandDialing Dialing RouterPRI to FXS Termination Local Routing Routing Capabilities Call RoutingDefault SwitchBi-directional Default Routing Alternate RoutingDpnss Trunk Routing Management Channel Concentrator MCC ServerMCC In a Multilevel Concentration Application ACS-FRS Advanced Communication Server Frame Relay Server Frame Relay Server SpecificationsFECN, Becn Frame Relay Switch Port Savings Frame Relay Access and Concentration ServerFrame Relay and Internet Service Provisioning Imacs Using Frame Relay Server CardsIdsl Service Provisioning Frame Relay and Internet Services Using IMACS’ Frad ServerGrooming and Concentration in Cellular Networks Idsl Service ProvisioningFrame Switch Mobile Switch Office Channelized DS1s = 96 DS0sMobile Base Station Frame Relay DS1sFrame Relay Concentration at Corporate Headquarters Legacy Adaptation to ATM Interactive Distance Learning/Tele-Medicine Migrating Legacy Networks to ATMInteractive Distance Learning Application ATM Server SpecificationsATM I/F ATM Server Card SpecificationsON/OFF CBR, VBRMaximum Byte Size Internet Protocol RouterSnmp Support Standards SupportApplication Ethernet LAN Uses of IPRIPR-2 IPR-3Private Intranet Deployment Bundled Service DeploymentIP Routing Server Specifications Private Intranet Deployment Using IP Routing Server CardUNI DCE, UNI DTE, NNI IP Routing Server Card SpecificationsMTU Call Center Application Backhauling Voice Application Lbrv In a Call Center ApplicationSwitch T1/E1 Extending Voice Access ApplicationCentral VoiceMail Server T1/E1 NX64K Leased Line T1/E1Letter Meaning Password ProtectionImacs System Parameters Port Status SummaryIntegral Test Capabilities Imacs Diagnostic Capabilities Status and Alarm ManagementBit Error Rate Tester Bert Patterns Supported WAN DiagnosticsIn-Band Loop back Code Generation In-Band Loop back Code DetectionDiagnostic Capabilities of Voice Ports Voice DiagnosticsBert Direction Statistics Gathered By BertDiagnostic Capabilities of Data Ports Data DiagnosticsControl Lead Handling Data Systems Equipped With Cross-Connect OptionSingaling 64Kbps Nx64Kbp Toward WAN1 Yes Toward WAN264Kbps Nx64Kbp Data SingalingBert Direction Voice Single Data Super-rate Without Tones Supported Voice Single Data Super-rate WithoutToward WAN Voice Single Data Super-rate Without Benefits of Built-In DiagnosticsBuilt-In Diagnostics Example T1 Line Performance Monitoring Imacs Performance MonitoringFrame Relay Performance Monitoring DDS Line Performance MonitoringATM Performance Monitoring Conclusion