Paradyne 9128 carrier-mount, and 9820-45M, 9820-2M, 9820-8M, 9623, 9788, 9128 standalone, 9720, 9783 Rbs

Page 87

3. Configuration Options

Only those DSX-1-to-Network assignments from page 1 are displayed on this page, from left to right and top to bottom in ascending order, by network and time slot.

When a CGA condition (LOS, OOF, or AIS) is declared for a T1 interface, the signaling bits being transmitted to the other T1 interface for the DS0 are forced to idle for two seconds (except for user-defined patterns which are transmitted immediately). This drops any call in progress. The signaling bits are then forced to the selected state (Busy or Idle), and remain in this state until the CGA condition clears. At this point, the received signaling bits from the T1 interface which formerly had the CGA condition are passed through to the other T1 interface.

NOTE:

Trunk conditioning will only occur on DS0s that are cross-connected to another T1 interface. All other DS0s remain unaffected by trunk conditioning.

Enter one of the values shown in Table 3-23, Signaling and Trunk Conditioning Values, in each of the fields on both the Network side and the DSX-1 side. Although you can choose any value for the DSX-1 side, the default value displayed is based on a typical setting that would be used with the corresponding Network side value. Typical pairs of values are shown in the table below. If you change the Network side value, the DSX side value is changed to the corresponding default value.

Table 3-23. Signaling and Trunk Conditioning Values (1 of 3)

Network Side

Meanings

DSX-1 Side

 

 

 

None

No signaling used on this DS0. Use this setting if

None

 

there is no voice signaling information being passed

 

 

on this DS0 (clear channel).

 

 

 

 

RBS (default)

Robbed Bit Signaling is used on this DS0, but no

RBS

 

trunk conditioning. Signaling bits will be passed to the

 

 

T1 interface to which this DS0 is cross-connected

 

 

when this T1 interface is not in CGA, but the signaling

 

 

bits will be all ones when CGA is present.

 

 

 

 

The following values configure the cross-connect for RBS, as well as perform the trunk conditioning. Although ABCD signaling bits for each setting are described, only AB bits are transmitted when the cross-connected T1 network interface is using D4 framing.

9000-A2-GB31-00

December 2002

3-55

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Contents FrameSaver SLV Copyright 2002 Paradyne Corporation All rights reserved Contents Contents Index Feature-Specific ConfigurationContents December Purpose and Intended Audience Document OrganizationSection Description Other FrameSaver model-specific documentation includes Product-Related DocumentsDocument Number Document Title FrameSaver SLV reference library containsVii Conventions Used Convention Used When UsedConfiguration Procedures Configuration Menu Example Configuration MenuConfiguration Option Area Description Configuration Option AreasMain Menu→ Configuration Accessing and Displaying Configuration OptionsConfiguration→PVC Connections Changing Configuration OptionsSaving Configuration Options Basic Configuration Main Menu→ Easy Install Using the Easy Install FeatureEasy Install Screen Example DDS Interface Service Type Possible Settings Frame Relay, Leased Line, PPP Easy Install Configuration Options 1Dslam Easy Install Configuration Options 2Time Slot Assignment Screen 9123, 9126 Easy Install Configuration Options 3Create a Dedicated Network Management Link Ethernet Management Options ScreenNetwork 1 Line Build Out 9520, 9520-ILM Easy Install Configuration Options 4Network 1 Line Framing Format 9123, 9126 Network 1 Line Coding Format 9123, 9126Network 1 Port Type 9820-2M, 9820-8M Easy Install Configuration Options 5Network 1 DSL Line Rate Mode 9720, 9783 DS0 Base Rate 9123, 9126784 Easy Install Configuration Options 6Network 1 DSL Line Rate 384Network 1 Channel Easy Install Configuration Options 7Configuration→Data Ports→DLCI Records Using RIP with FrameSaver SLV CSU/DSUsEntering System Information and Setting the System Clock Main Menu→ Control→System InformationIf the selection is Enter Main Menu→ Auto-Configuration Setting Up Auto-ConfigurationSelecting a Frame Relay Discovery Mode Main Menu→ Auto-Configuration→Frame Relay Discovery ModeDiscovery Mode Configuration Description Takes place Automatically Removing a Circuit Configuration Option Tables Configuration OptionsConfiguration Options System Frame Relay and LMI Options 1 Configuring the Overall SystemConfiguring Frame Relay and LMI for the System CSU/DSUs Main Menu→ Configuration→System →Frame Relay and LMISystem Frame Relay and LMI Options 2 System Frame Relay and LMI Options 3 LMI Status Enquiry N1 Possible Settings 1, 2, 3, 4 LMI Heartbeat T1 Possible Settings 5, 10, 15, 20, 25System Frame Relay and LMI Options 4 PPP Options Configuring PPP OptionsMain Menu→ Configuration→System→PPP Possible Settings Independent, Port-1FollowsNetField Setting After RfcCodePoints Selected Configuring Class of Service DefinitionsCode Points Assigned Class of Service DefinitionsClass of Svc Name Measure Latency & AvailabilityName Code Point DefinitionsCode Point Definitions Code PntSLV Type Available Settings Standard, COS 1-COS Configuring Service Level Verification OptionsMain Menu→ Configuration→System→Service Level Verification Service Level Verification Options 1SLV Timeout Clearing Event Threshold Service Level Verification Options 2Dlci Down on SLV Timeout SLV Timeout Error Event ThresholdService Level Verification Options 3 SLV Latency Clearing Event ThresholdSLV Packet Size bytes General System Options 1 Configuring General System OptionsMain Menu→ Configuration→System→General Test TimeoutGeneral System Options 2 General System Options 3 System Alarm RelayConfiguring Physical Interfaces Configuring the Network InterfaceMain Menu→ Configuration→Network→Physical T1 Network Physical Interface Options 1 T1 Network InterfaceNetwork Initiated PLB T1 Network Physical Interface Options 2Transmit Timing Network Initiated LLBESF Network Initiated Dclb Possible Settings Disable, V.54&ANSIT1 Network Physical Interface Options 3 Ansi Performance Report MessagesCircuit Identifier T1 Network Physical Interface Options 4T3 Network Interface T3 Network Physical Interface OptionsLine Build Out DDS Network Physical Interface Options 1 DDS Network InterfaceDDS Network Physical Interface Options 2 DSU Latching LoopbackRequire DSU Latching Loopback Preamble Channel Operating Rate Possible Settings AutoRate, 64, 128Idsl Network Interface 10. Idsl Network Physical Interface OptionsDSL Line Rate Kbps Line Rate Mode Possible Settings Hunt, AutoRate, FixedSdsl Network Interface 11. Sdsl Network Physical Interface Options12. Shdsl Network Physical Interface Options 1 Shdsl Network InterfacePort Type Synchronous Network Interface12. Shdsl Network Physical Interface Options 2 PSD MaskMonitor DSR Monitor CTSMonitor Rlsd 14. Hssi Network Data Port Physical Interface Options Hssi Network Interface15. V.35 Data Port Physical Interface Options 1 Configuring a User Data Port CSU/DSUsMain Menu→ Configuration→Data Ports→Physical Data Port Physical InterfacePort Base Rate Port Use Possible Settings Frame Relay, Synchronous Data15. V.35 Data Port Physical Interface Options 2 Max Port Rate15. V.35 Data Port Physical Interface Options 3 Transmit Clock SourceMonitor RTS 15. V.35 Data Port Physical Interface Options 4 Monitor DTRPort DTE Initiated Loopbacks Action on Network Yellow Alarm 15. V.35 Data Port Physical Interface Options 5Invert Transmit and Receive Data 15. V.35 Data Port Physical Interface Options 6 EIA-530-A/X.21/V.35 Data Port Physical InterfaceTransmit Clock Source 17. Hssi Data Port Physical Interface Options 1 Hssi Data Port Physical Interface17. Hssi Data Port Physical Interface Options 2 17. Hssi Data Port Physical Interface Options 3 Configuring the T3 User Port 9520-ILM Main Menu→ Configuration→T3 User Ports→ Physical18. T3 User Port Physical Interface Options Interface Status Configuring the DSX-1 Interface 9126Main Menu→ Configuration→DSX-1 19. DSX-1 Physical Interface Options 1Send All Ones on DSX-1 Failure 19. DSX-1 Physical Interface Options 220. Isdn BRI DBM Physical Interface Options 9126 Configuring the Isdn DBM Interface 9126, 9128Main Menu→ Configuration→ISDN→Physical Service Profile ID Spid 1 orSwitch Type Possible Settings NI-2, ATT4ESS, ATT5ESS 21. Isdn PRI DBM Physical Interface Options 9128 1Local Phone Number 21. Isdn PRI DBM Physical Interface Options 9128 2 Line Build Out LBO Possible Settings 0.0, -7.5, -1521. Isdn PRI DBM Physical Interface Options 9128 3 Link Name Setting Up Isdn Link Profiles 9126, 9128Main Menu→ Configuration→ISDN→ISDN Link Profiles 22. Isdn Link Profile Options 1Maximum Link Rate Kbps 22. Isdn Link Profile Options 2Outbound Phone Number Inbound Calling ID 1 orAlternate Outbound Phone Number Assigning Time Slots/Cross Connections22. Isdn Link Profile Options 3 Caller Identification MethodAssigning Time Slots to the Network Interface Value MeaningPPP Assigning DSX-1 Time Slots to the Network Interface DSX-1 to Network Time Slot Assignment Screen Example DSX-1 Signaling Assignments and Trunk Conditioning RBS Idle PLAR3idle Synchronous Data Port Assignment Screen Example Clearing Assignments Configuring Frame Relay for an Interface 24. Interface Frame Relay Options 1LMI Frame Relay DS0s Base Rate 24. Interface Frame Relay Options 2Traffic Policing LMI Parameters24. Interface Frame Relay Options 3 Configuring PPP for an Interface Main Menu→ Configuration→Network/Data Ports → PPP25. Interface PPP Options Manually Configuring Dlci Records 26. Dlci Record Options 1Dlci Number CIR bps 26. Dlci Record Options 226. Dlci Record Options 3 Committed Burst Size Bc BitsExcess Burst Size Bits Outbound Management Priority Backup Group Possible Settings A, B, C, . . . Z, None26. Dlci Record Options 4 Dlci PriorityVPI,VCI Number Configuring Circuit Records for the Network InterfaceMain Menu →Configuration →Network →Circuit Records 27. Circuit Records Options 19783 0 9788 0 27. Circuit Records Options 227. Circuit Records Options 3 Excess Burst Size Be Bits9783 9788 28. Network ATM Options Configuring ATM for the Network InterfaceMain Menu→ Configuration→Network →ATM Cell Delineation Error Event ThresholdSource Dlci Configuring PVC ConnectionsMain Menu→ Configuration→PVC Connections 29. PVC Connection Options 1Primary Destination Dlci 29. PVC Connection Options 2Source Edlci Primary Destination LinkAlternate Destination Dlci 29. PVC Connection Options 3Primary Destination Edlci Alternate Destination LinkAlternate Destination Edlci 29. PVC Connection Options 4Configuring the IP Path List Main Menu→ Configuration→IP Path List Static30. IP Path List Setting Up Management and Communication Options 31. Node IP Options 1 Configuring Node IP Information31. Node IP Options 2 TS Access Management Link 31. Node IP Options 3Management MTU Size TS Management Snmp Validation 31. Node IP Options 432. Management PVC Options 1 Configuring Management PVCs32. Management PVC Options 2 Payload ManagedSet DE Primary Dlci 32. Management PVC Options 3Primary Edlci 32. Management PVC Options 432. Management PVC Options 5 Alternate DlciAlternate Edlci Encapsulation 32. Management PVC Options 6Snmp Management Configuring General Snmp ManagementName 1 Access 33. General Snmp Management Options 1Configuring Telnet and/or FTP Session Support Name 2 Access33. General Snmp Management Options 2 Telnet Login Required 34. Telnet and FTP Session Options 1Telnet Session 34. Telnet and FTP Session Options 2 Number of Managers Configuring Snmp NMS Security35. Snmp NMS Security Options 1 NMS IP ValidationConfiguring Snmp Traps and Trap Dial-Out 35. Snmp NMS Security Options 236. Snmp Traps and Trap Dial-Out Options 1 Link see -38, Communication Port Options 36. Snmp Traps and Trap Dial-Out Options 2Link Traps Possible Settings Disable, Up, Down, Both 36. Snmp Traps and Trap Dial-Out Options 3Enterprise Specific Traps Rmon Traps Possible Settings Network, Ports, DBM, All, None36. Snmp Traps and Trap Dial-Out Options 4 Dlci Traps on Interfaces Filter Selection FieldTrap Disconnect Dial-Out Delay TIme Min36. Snmp Traps and Trap Dial-Out Options 5 Trap Dial-OutIP SLV Availability Traps 36. Snmp Traps and Trap Dial-Out Options 6Alternate Dial-Out Directory Latency Traps37. Ethernet Management Options 1 Configuring Ethernet ManagementProxy ARP 37. Ethernet Management Options 2Configuring the Communication Port 38. Communication Port Options 1Character Length Stop Bits Login Required38. Communication Port Options 2 Parity38. Communication Port Options 3 103RIP 38. Communication Port Options 4Configuring the Modem Port 38. Communication Port Options 539. Modem Port Options 1 39. Modem Port Options 2 10639. Modem Port Options 3 10739. Modem Port Options 4 Configuring the Criteria for Automatic Backup Main Menu→ Configuration→Auto Backup Criteria40. Auto Backup Criteria Options 1 Backup Allowed Day To nnnn 40. Auto Backup Criteria Options 2When Auto Backup Allowed Backup Allowed Day From nnnnFeature-Specific Configuration AT Command String To configure the modem to Setting Up an External ModemValid characters include For Setting Up an Internal ModemSetting Up Call Directories for Trap Dial-Out Main Menu→Control→Modem Call DirectoriesSetting Up to Use the Modem PassThru Feature Setting Up Dial Backup Setting Up the DBM Physical InterfaceMain Menu→Configuration→ISDN→Physical If you select Then Setting Up Automatic Backup ConfigurationConnections? PVC Connections? Following prompt When Appears If you selectCriteria for Automatic Backup in , Configuration Options Main Menu→Configuration→ISDN→Link Profiles For Originating a Backup Call For Answering a Backup CallModifying Isdn Link Profiles Main Menu→Configuration→Auto-Backup Criteria Restricting Automatic Backup and Configuring Backup TimersAssigning DLCIs to a Backup Group Configuring the DBM Interface to Send Snmp TrapsMain Menu→Control→Change Operating Mode PVC Backup Over the Network InterfaceSetting Up Back-to-Back Operation Changing Operating ModeFeature-Specific Configuration 9000-A2-GB31-00 December Feature-Specific Configuration December ATM ARPRTS DBMDTR RlsdIdsl DTEEIR DSLIP SLV IsdnHssi IN-5 NMS IN-6SLV Snmp NMSIP Slip PVCIN-8 IN-9 IN-10
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and 9820-45M, 9123, 9623, 9783, 9720 specifications

The Paradyne 9820-8M, 9788, 9128 standalone, 9128 carrier-mount, and 9820-2M are critical components in telecommunications networks, designed to enhance data transmission and improve connectivity. Each model offers unique features and capabilities that cater to various requirements in both enterprise and service provider environments.

The Paradyne 9820-8M is a multi-service access platform that provides high-speed connectivity for voice, video, and data transmission. It supports multiple protocols, enabling seamless integration into existing infrastructures. Key features include a modular design that allows for scalability and easy upgrades, ensuring that organizations can adapt to evolving demands. Its advanced error correction and QoS (Quality of Service) features ensure reliable performance, even in challenging network conditions.

The Paradyne 9788 serves as a versatile platform for both digital and analog communications. It excels in the delivery of broadband services, supporting T1/E1 lines and providing robust mechanisms for data transmission. This model emphasizes redundancy and resilience, with built-in protection switching capabilities that maintain service continuity during faults or maintenance activities. Its compact design makes it an ideal solution for environments with space constraints.

The 9128 standalone model is aimed at customers requiring an easy-to-deploy solution for point-to-point connections. This model offers critical features such as an intuitive user interface, comprehensive diagnostics, and monitoring capabilities that facilitate system management. It also supports diverse network topologies, making it suitable for various deployment scenarios.

In contrast, the 9128 carrier-mount version is engineered for organizations needing to manage multiple connections within a central office or remote site. This model is specifically designed to be mounted in standard telecom racks, optimizing space utilization while maintaining high performance. Its robust hardware allows for excellent thermal management and environmental resilience.

Lastly, the Paradyne 9820-2M combines versatility with high-performance capabilities, making it a reliable choice for service providers. It features dual-channel support, enabling simultaneous transmission and providing a cost-effective solution for high-capacity data needs. With enhanced security features, including encryption capabilities, the 9820-2M ensures that sensitive information transmitted across networks is protected against unauthorized access.

Collectively, these Paradyne models exemplify advanced telecommunications technology, offering scalability, resilience, and high performance. Their diverse features cater to the unique demands of various users, from enterprise networks to service providers, facilitating the continual evolution of communication technologies.
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