DATASHEET DNX MODULE SETS DNX Module Sets Compatibility Matrix Module DNX-11 DNX-88 S-DNX Optical OC-3/STM-1 (Backplane Mode)    OC-3/STM-1/X (X-Link Mode)    1 Management System Manager Controller II    2 Expansion Node Manager    2 Expansion Expansion Cross-Connect    3 Expansion Link Controller    Broadband E3    Hybrid DS3    Narrow Band Octal T1/E1    Data Circuit/Packet eXchange (CPX)    DS0-DP    Octal High Speed Data    Router/8    Test Access    Protection PSX-5300 Protection Switch    1 For DNX-88 and S-DNX, used in Nest 2 through 8. Also used in DNX-11. 2 For Nest 1 of a DNX-88. 3 For Nest 2 through 8 of a DNX-88. DATASHEET OC-3/STM-1 Optical Module Set SPECIFICATIONS n T1/E1 Add/Drop on SONET/SDH Ring Model Number n Port Concentration (Service Platform) • MKT-006-50302: OC-3/STM-1 (X-Link or Backplane Mode) Application Module (Front) n DS0 and VT1.5 (DS1) / VC11 (DS1) / VC12 (E1) • MKT-006-50311: OC-3/STM-1 Intermediate Range (IR) Interface Module (Rear) • MKT-006-50341: OC-3/STM-1 Long Range (LR) Interface Module (Rear) Level Grooming Line Rate • 155.52 Mbps The DNX OC-3/STM-1 module set consists of a front- mounted application module and a rear-mounted interface Optical Connectors module working in concert. These modules provide optical • SC/UPC on rear interface card interfacing to DNX multiservice cross-connects. High-Speed Data Rates • 155 Mbps An optically-equipped DNX enables service providers to Format (OC-3) groom and concentrate traffic further out in the optical • Telcordia GR-253 (SONET) access network, on a platform that delivers high-density, Format (STM-1) cost-effective electrical interfaces in a protected fashion. • ITU-T G.707 (SDH) The OC-3/STM-1 module set operates as Path Terminating Line Code Equipment (PTE), with features that include 3/1/0 switching • Scrambled NRZ within any DNX system, embedded link system clocking, and Tributaries (OC-3) 1+1 and 1:1 Automatic Protection Switching (APS). • Up to 84 x VT1.5 Tributaries (STM-1) In a terminal mux application, using OC-3 or STM-1 • Up to 63 (VC12), Up to 84 (VC11), and Combination interfaces conserves valuable service platform ports. Free Run Accuracy When an OC-3/STM-1-equipped DNX interfaces to Add/ • ±20ppm Drop Multiplexers (ADMs) or other SONET/SDH-compliant systems, DS1/E1 traffic can be selectively added or dropped Receiver - Intermediate Reach • Detector Type: InGaAs PIN as required, preserving ADM slots at the POP. Interfacing • Sensitivity: Maximum -31 dBm; Typical -36 dBm with a voice/data service platform, rather than an ADM on a • Saturation: -8 dBm SONET/SDH ring, maximizes the core multiservice access Receiver - Long Reach concentration capabilities of the DNX. • Detector Type: InGaAs PIN • Sensitivity: Maximum -34 dBm; Typical -36 dBm When configured for OC-3 mode, the OC-3/STM-1 module • Saturation: -8 dBm* supports 155.52 Mbps operation with VT1.5 (DS1) granularity Transmitter - Intermediate Reach and interfaces equivalent to 84 DS1s per module set. When • Optical Source: MQW Laser • Wavelength Range: 1260-1360 nm configured for STM-1 mode, the OC-3/STM-1 module • Output Power: Maximum -8 dBm; Typical -11 dBm; Minimum -15 dBm similarly supports 155.52 Mbps operation with VC11 (DS1) • Distance: 15 km and VC12 (E1) granularity on an individual STM-0 payload Transmitter - Long Reach basis. Cross-connections to other DNX module sets can • Optical Source: MQW Laser be performed on a timeslot-by-timeslot DS0 or Clear T1/E1 • Wavelength Range: 1260-1360 nm basis. • Output Power: Maximum 0 dBm; Typical -3 dBm; Minimum -5 dBm • Distance: 40 km The OC-3/STM-1 module utilizes 1310nm Laser/Single Mode Loopbacks • Facility, Path Facility and Terminal Fiber (SMF), is available with either intermediate (nominal 15 km) or long (nominal 40 km) reach laser options, and BERT Tests 23 11 15 is equipped with SC interconnects. Alternative patch cord • 2 -1 Framed 2 -1 Framed/Unframed; 2 -1 Framed/Unframed 20 20 • 2 -1 Framed/Unframed; 2 -1 QRSS Framed/Unframed options are available. Alarms • LOS, LOF, OOF T1- Red LOS, LOF, Yellow, AIS, E1- LOS, OOF, RAI, AIS, Tributary- LOP, AIS, RDI Compliance • CSA/UL-60950-1, FCC Part 15 class A, ICES-003, CE Mark DATASHEET System Manager Controller II Module Set (SMC-II) SPECIFICATIONS n Internal Stratum 3 Clock with Holdover n Model Number Hitless Switchover between Online and Standby Module • MKT-006-02353: SMC-II Controller Module (Front) n Accepts Multiple BITS Clock Inputs • MKT-006-02018: SMC-IIA Interface Module (Rear) Internal Timing n Alarm Contact Closures • Stratum 3 Source n Supports 8 Concurrent Users External Timing • SMC-IIA: 64 Kbps or 1.544/2.048 Mbps Building Integrated Timing Supply The System Manager Controller II (SMC-II) controls operation (BITS) Inputs, Dual 3 Position Terminal Blocks, 133 ohm Impedence of the DNX system and the adjunct PSX-5300 Protection Alarm Control Switch. The SMC-II consists of a controller (front SMC-II) • LED Indicators on Front Bezel module and an interface (rear SMC-IIA) module, which are Alarm Cut Off both single slot cards. The controller module is half height, • Bezel-Mounted Push Button Switch Disables the External Alarms and the interface module is a full slot height. The SMC-II and SMC-IIA both use the same controller (front) module. Management Interfaces • Serial Port Craft Terminal Interface (RJ-11) • Internal Modem Interface (RJ-11) The SMC-II utilizes the dual communication busses on • 10/100BaseT LAN Interface (RJ-45) the DNX mid-plane to control modules within the nest Alarm Contacts and provide several methods for communicating with and • 9-Position Dry Contact Terminal Block Module (Socket and Terminal Block) controlling the DNX system. The intuitive VT100 terminal for Major, Minor and Critical Alarms interface offers direct or remote connectivity. Remote connections to the System Manager are made using the PSX-5300 Protection Switch Interface • Shielded DB-9 Connection Supporting Serial Asynchronous Data internal modem, Telnet, or SSH. Additionally, system devices and ports can be configured, monitored, diagnosed, and Supported Protocols provisioned using Simple Network Management Protocol • SNMP, Telnet, TFTP, SSH/SFTP (SNMP). MIB Support • RFC 1213, MIB II, Sycamore Networks Enterprise MIB The DNX supports up to three user-defined clock sources. These sources are derived from Network Synchronized Timing or Internal Timing. Network Synchronized Timing includes line timing provided by DNX channel cards or timing provided by a stand-alone source, such as a Timing Signal Generator. The internal timing source is a Stratum 3 clock, which is used as a reference to generate system-clocking signals. In the event of a reference clock failure, the DNX automatically selects an alternate input based on the source clock configuration setting. Any of the following optional channel cards can provide port timing: Octal T1/E1, Octal High Speed, HDS3 and OC-3/STM-1. When the internal timing source is used to deliver a timing reference to the DNX, the state of operation is called Free Run Mode. As with the requirements of Stratum 3 clock sources, there is a back-up mode for use in the event all defined clock sources are lost. This back-up mode is derived from Holdover timing, which facilitates redundancy switching and allows maintenance actions to be performed on the SMC-II without affecting service. External timing is provided via dual 64 Kbps composite clock inputs, and dual T1/E1 BITS clock inputs. DATASHEET Expansion Node Manager Module Set (XNM) SPECIFICATIONS n Internal Stratum 3 Clock with Holdover n Model Number Hitless Switchover between Online and Standby Module • MKT-006-04353: XNM Application Module (Front) n Accepts Multiple BITS Clock Inputs • MKT-006-02018: SMC-IIA Interface Module (Rear) • Both SMC-II and XNM Controller Modules use the SMC-IIA Rear Interface n Alarm Contact Closures Module n Internal Timing Supports 8 Concurrent Users • Stratum 3 Internal Timing with Holdover The Expansion Node Manager (XNM) controls operation Alarm Control of the DNX-88 system and the local adjunct PSX-5300 • LED Indicators on Front Bezel Protection Switch. The XNM is located in Nest 1, the same Alarm Cut Off chassis as the Expansion Cross-Connect modules, and • Bezel-Mounted Push Button Switch Disables the External Alarms provides the management interfaces to external devices. Management Interfaces It also communicates with Nests 2 through 8 via the XCC • Serial Port Craft Terminal Interface (RJ-11) and XLC modules that make up the remainder of the • Internal Modem Interface (RJ-11) seven chassis that comprise the node. The XNM provides • 10/100BaseT LAN Interface (RJ-45) distributed intelligence in a fault tolerant configuration – with Alarm Contacts the simplicity of managing a single network element. • 9-Position Dry Contact Terminal Block Module (Socket and Terminal Block) for Major, Minor and Critical Alarms In this third-generation module set, increased FLASH Supported Protocols memory supports the numerous connections possible in the • SNMP, Telnet, TFTP, SSH/SFTP expansion node environment. An additional communication MIB Support path is available to support a 1 Mbps supervisory channel • RFC 1213, MIB II, Sycamore Networks Enterprise MIB between the XNM and XCC modules. The XNM consists of a half-height Controller (front) module and a full slot height interface (rear) module, both single slot cards. When the internal timing source is used to deliver a timing reference to the DNX, the state of operation is The XNM utilizes dual communication busses on the local called Free Run Mode. As with the requirements of DNX midplane to control modules within the nest and provide Stratum 3 clock sources, a back-up mode is available several methods for communicating with and controlling the for use if all defined clock locations are lost. The back-up DNX system. The intuitive VT100 terminal interface offers mode is derived from Holdover timing, which facilitates direct or remote connectivity. Remote connections to the redundancy switching and allows maintenance to be System Manager can be made using the internal modem or performed on the SMC-II without affecting service. by Telnet. System devices and ports can also be configured, External timing is provided via four source connectors monitored, diagnosed, and provisioned using Simple on the SMC-IIA rear card. These inputs allow the DNX to Network Management Protocol (SNMP). use a 64 Kbps or 1.544/2.048 Mbps composite clock from a stand-alone reference. The DNX supports up to three user-defined clock sources: Network Synchronized Timing, Internal Timing, or Port Timing. Network Synchronized Timing includes line timing provided by DNX channel cards or by a stand-alone source, such as a Timing Signal Generator. The internal timing source is a Stratum 3 clock, which can be used as a reference to generate system-clocking signals. In the event of a reference clock failure, the DNX automatically selects an alternate input based on the source clock configuration setting. Port timing can be provided by any of the following optional channel cards if located in the local Nest 1: Octal T1/E1, Octal High Speed, DS3, and OC-3/STM-1. DATASHEET Expansion Cross-Connect Module Set (XCC) SPECIFICATIONS n Purpose-Built for the DNX-88 Model Number n Non-Blocking 3-1-0 Cross-Connect for the Entire DNX-88 • MKT-006-04115: XCC Expansion Cross-Connect (Front) Eight-Nest Node • MKT-006-04015: XCC Expansion Cross-Connect (Rear) n Communication Channel and Timing Reference Physical Interface • Seven pairs of receptacles for cabling up to seven redundant pairs of XLCs The Expansion Cross-Connect (XCC) module set provides or OC-3/STM-1s (maximum cable length 20 feet) non-blocking 3-1-0 cross-connect resources for the entire Electrical Interface eight-nest node that comprises a DNX-88 system. The XCC • IEEE 1596 also supplies the communication channel between Nest 1 Transport and Nests 2 through 8 for configuration statistics and alarms, • Proprietary Framing and the timing reference for Nests 2 though 8. Diagnostic • Integrated 2047 BERT (Automatic monitoring of link status) The XCC front card contains the processor subsystem and provides backplane access for traffic originating and/ Switching Capacity or terminating within Nest 1. The rear card contains the • 1.2 Gbps Non-Blocking Buss cross-connect fabric and eight link interfaces. Seven of the Environment link interfaces are externally cabled to the other seven DNX • 0° to 55°C Temperature nests that make up the node. The eighth interface operates • 10% to 90% RH (Non-Condensing) between the front and rear cards and connects the cross- Redundancy connect fabric to the local DNX backplane. • 1+1 Compliance The cross-connect fabric of the XCC module set can • FCC Part 15 class A, ICES-003, CSA/UL-60950-1, EN60950, EN55022, establish DS0 and DS1 level connections between any EN55024, EN 300-386 DS0, DS1, or group of DS0s in any nest within the node; and handles various types of connections, including voice or data full duplex, broadcast master, and listeners. The concept of a connection with a DNX-88 node is a source- destination relationship. The DNX-88 source connection is created between the port of interest (DS1, E1, DS3, OC-3/ STM-1, etc.) and the Expansion Link Card (XLC). The XLC card directly maps backplane timeslots to the X-link interface destined for the XCC. The XCC module set supports 1+1 module redundancy. DATASHEET Expansion Link Controller Module Set (XLC) SPECIFICATIONS n Purpose-Built for the DNX-88 Model Number n Connects to the XCC Rear Interface Module • MKT-006-04215: XLC Expansion Link Controller (Front) Physical Interface n Each XLC Terminates Two X-Link Interfaces that Connect • One Pair of RJ-45 Receptacles to the XCC Electrical Interface The DNX-88 expansion node Nests 2 through 8 uses an • IEEE 1596 Expansion Link Controller (XLC) module to connect to the Transport XCC rear interface module located in the Node Manager • Proprietary Framing Nest 1. Each XLC module terminates two X-link interfaces Diagnostic that provide the connection to the XCC. Data from the links is • Integrated 2047 BERT (Automatic monitoring of link status) mapped directly onto the local DNX midplane, where the data Environment is then connected to the service-bearing modules (e.g., Octal • 0° to 55°C Temperature T1/E1, etc.). • 10% to 90% RH (Non-Condensing) Redundancy The XLC also performs other functions, such as adapting • 1+1 supervisory messages from the X-link format to the DNX midplane format. These messages (configuration, statistic, Compliance and alarm information relevant to the local nest) are then • FCC Part 15 class A, ICES-003, CSA/UL-60950-1, EN60950, EN55022, EN55024, EN 300-386 forwarded to the System Manager Controller II for further processing. In addition, the XLC extracts timing information Options embedded within the X-link and distributes it to other • Supports OT1/EI functionality when OT1/E1 rear card is installed modules within the local nest. In order to preserve application slots for service bearing interfaces, the XLC utilizes the existing DNX Octal T1/E1 rear interface module. The slot now serves a dual function – forwarding backplane traffic to the XCC and delivering additional network interfaces. The XLC supports optional 1+1 redundancy. DATASHEET E3 Broadband Module Set SPECIFICATIONS n Supports 16 E1s per E3 Model Number n Supports Full or Fractional E1 Payloads • MKT-006-40301: E3 Application Module (Front) • MKT-006-40311: E3 Interface Module (Rear) n 3-1-0 Cross-Connect (Clear E1) Physical Interface • E3: Female BNC 75 ohm 5% n Comprehensive Diagnostics (Loops and BERTs) • E1: Integral to Switch Fabric Electrical Interface For service providers managing global networks, the feature- • E1: Integral to Switch Fabric rich E3 module set for the DNX-11 and DNX-88 provides a cost-effective solution for linking legacy broadband E3 with Line Rate wider broadband STM-1. High-speed cross-connections • E3: 34.368 Mbps 20 ppm • E1:Integral to Switch Fabric enable faster, more efficient broadband and narrowband grooming for fractional and full link E1 services – and Line Coding enhance the profitability of providing new Internet and voice • E3: B3ZS • E1: HDB3 services to end-users. Framing Compliance with the ITU-T G.751 standard for framing • E3: E1-3 and multiplexing format ensures seamless international • E1: Transparent, Framed, CAS, CRC interconnection. The E3 multiplexes/de-multiplexes 16 E1s Loopbacks into a single E3 data stream, with the single E3 port providing • E3: Line, LIU, Local, Payload, Backplane E13 framing and HDB3 line coding. The E3 also offers • E1: Line, Local, Payload integral loopbacks and BERT diagnostics, and supports BERT Tests performance monitoring, per G.826. • E3: 2^15-1 Framed; 2047 Framed • E1: 2047 Framed/Unframed; 2^20 Framed/Unframed; 2^23 Framed/ Unframed; 2^15 Framed/Unframed; QRSS Framed/Unframed By allowing cross-connections at the E1 and the DS0 signaling levels, an E3-equipped DNX provides a more Alarms effective solution for grooming E1 signals. Alternative • E1: RAI, MFRAI, AIS, SEF, Framing Error, CRC, TX Slip, RX Slip applications such as standalone transmultiplexers and Compliance narrowband multiplexers cannot match its efficiency. • CE Mark, FCC Part 15 class A, ISES-003, ITU-T G.703, ITU-T G.704, ITU-T G.706, ITU-T G.775, ITU-T 732, ITU-T 737, ITU-T 751, ITU-T 796, ITU-T An E3-equipped DNX provides: 826, ITU-T 823, ITU-T 921, NEBS Level 3, CSA/UL-60950-1 • A scalable gateway solution for efficient conversion of multi-national traffic • An answer to the growing need for grooming and concentration between wireless base stations and MSC locations o Consolidating bandwidth reduces access line costs o Conserving switch ports further reduces costs and allows the ports to be used for revenue- generating traffic • Carrier broadband access across the network, and the ability to diagnose other network equipment (through the DNX) o Advantages of VC12 mapping within the STM-1, and ability to cross-connect E1s to the end user DATASHEET Hybrid DS3 Broadband Module Set SPECIFICATIONS n 3-1-0 Clear Capable Model Number n End-to-End Monitoring Eliminates Truck Rolls • MKT-006-45301: Hybrid DS3 Application Module (Front) • MKT-006-45311: Hybrid DS3 Interface Module (Rear) n Mixed DS1/E1 Configurations for Intercontinental Physical Interface Applications • T3: Female BNC 75 ohm • DS1/E1: Integral to Switch Fabric n Enhanced Diagnostics Support Multiple Loopbacks and Electrical Interface One-Time BERT Capability • T3: ANSI T1.404 • DS1/E1: Integral to Switch Fabric The Hybrid DS3 module set is a second-generation DNX product with significant feature enhancements, including Line Rate enhanced diagnostic capabilities and support for multiple • T3: 44.736 Mbps 20 ppm • DS1/E1: Integral to Switch Fabric DS1 and E1 configurations in the same DS3 facility. Line Coding Available features include ITU-T G.747 DS1/E1 compliance • T3: B3ZS • DS1/E1: Integral to Switch Fabric and the ability to pass associated framing information transparently for 3-1-0 cross-connects. In addition, Framing comprehensive monitoring and integral diagnostics • T3: M13/C-Bit capabilities, plus automatic module protection, ensure • DS1: ESF, SF (D4), Transparent • E1: Framed, CRC, CAS, Transparent maximum service levels are maintained. Loopbacks The Hybrid DS3 module suits any CLEC, ISP, or wireless • T3: Line, LIU, Local • DS1/E1: Line, Local, Payload, Remote carrier using DS3 facilities. The module can be configured for 28 DS1s, 21 E1s, or a mixture of DS1s and E1s on the same BERT Tests DS3 link. The ability to mix DS1 and E1 on the same link • T3: 2^15-1 Unframed • DS1/E1: 2047 Framed/Unframed; 2^20 Framed/Unframed; 2^23 complies with international standards and improves flexibility Framed/Unframed; 2^15 Framed/Unframed; All Ones; All Zeros; QRSS for global carriers. Diagnostic capabilities of the Hybrid DS3 Framed/Unframed include an unframed 2^15-1 T3 BERT that tests the whole Alarms pipe; and all links can be put in loopback or pass BERT at • T3: LOS, LOF, LCV one time. • DS1/E1: Red (T1)/Multiframe, Yellow/RAI, AIS, TX Slip, RX Slip Compliance The Hybrid DS3 provides a more efficient and scalable • ANSI T1.103, ANSI T1.107, ANSI T1.403, AT&T 54016, CE Mark, FCC backhaul solution. As the market space for fractional T1 Part 15 class A, ISES-003, ITU-T G.703, ITU-T G.704, ITU-T G.706, ITU-T increases, an M13 multiplexer wastes unused DS0s. If each G.747, ITU-T G.775, NEBS Level 3 DS0 is viewed as a revenue stream, this represents potential income that is not being capitalized. An additional inefficiency of an M13 multiplexer is the need to lease another T3 span when the 29th T1 span is added. The Hybrid DS3, being a 3-1-0 enabler, saves a network operator from adding another DS3 prematurely, producing recurring cost savings that favorably impact the bottom line. DATASHEET Octal T1/E1 Narrowband Module Set SPECIFICATIONS n End-to-End Monitoring Model Number n Enhanced Diagnostics - Multiple Loopbacks and BERT • MKT-006-20108: Octal T1/E1 Application Module (Front) Patterns • MKT-006-20118: Octal T1/E1 with APS Application Module (Front) • MKT-006-20008/20028: Octal T1/E1 Interface Module (Rear) n G.826 Statistics and Performance Monitoring Physical Interface • 50 pin, RJ48M, 100(T1)/120(E1) ohm n Line Build-Outs for Long and Short Haul Electrical Interface n A-law to µ-law Conversion • ITU-T G.703 Line Rate The Octal T1/E1 module set supports up to eight ports per • 1.544 Mbps/2.048 Mbps single slot width, simultaneously terminating both T1 and Line Coding E1 signals on the same card to provide cost-effective A-law • AMI/B8ZS to µ-law conversion. Performance monitoring statistics and Framing extensive diagnostics and testing capabilities can be exposed • T1: ESF, SF (D4), Transparent on a link basis. • E1: Framed, CRC, CAS, Transparent Redundancy The Octal T1/E1 module supports eight links that are per- • Device Level N+1 link user-configurable for T1 or E1 mode and the associated • Link Level 1+1 and 1:1 (requires Octal T1/E1 with APS Front Module) framing. The framing modes are SF (D4) and ESF for T1 links, Loopbacks G.704 with/without CRC and with/without CAS for the E1 • Line, Local, Payload, Remote, Smartjack counterpart. Additional diagnostics include integral BERT and loopback diagnostics for in-network testing. The Octal T1/ BERT Tests E1 provides the ability to monitor ABCD signaling bits at the • 2047 Framed/Unframed • 2^15 Framed/Unframed individual link level for voice applications. • 2^20 Framed/Unframed • 2^23 Framed/Unframed The Octal T1/E1 offers high density T1 or E1 interface • All Ones deployment with an optional N+1 sparing strategy. Remote • All Zeros test access is not compromised by density, enabling service • QRSS Framed/Unframed providers to quickly validate service outages without having Alarms to dispatch service personnel. • Red (T1)/Multiframe, Yellow/RAI, AIS, TX Slip, RX Slip Compliance • AT&T 54016, AT&T 62411, CE Mark, FCC Part 15 class A, FCC Part 68, ISES-003, ITU-T G.703, ITU-T G.704, ITU-T G.826, NEBS Level 3, CSA/ UL-60950-1 DATASHEET Circuit/Packet eXchange (CPX) Module Set SPECIFICATIONS n Consolidates Circuit/Packet Processing Functions Model Number n Enables Cost-Efficient Migration from TDM to IP • MKT-006-30221: CPX Application Module (Front) • MKT-006-30028: CPX Interface Module (Rear) n Supports Industry-Unique Test Access for IP CPX Module Set n Maximizes Network Reliability and Scalability • Double slot width: Application Module (front card) and Interface Module (rear card) n Increases Provisioning Speed and Flexibility Virtual Port Capacity • 32 PPP links, 8 ML-PPP bundles, 1024 DS0, 32 T1/E1 The Circuit/Packet eXchange (CPX) module set adds a unique IP forwarding engine to DNX-11/88 Multiservice Switch Port Interfaces Cross-Connect platforms, which offers a higher level • 8 10/100BaseT, fixed or auto-negotiate speed and duplex of integration than linking disparate devices (digital Connection Method cross-connect, external router, and standalone hub). By • 8 individual RJ-45 receptacles for 10/100BaseT, single terminal screw consolidating circuit/packet traffic, eliminating physical WAN strip x3 for alarm contacts interfaces, and integrating Ethernet switch functionality, CPX Alarm Contact Inputs enables a seamless transition from TDM to IP technology • 3 NO/NC connections for integrated alarming in both fixed line and mobile networks, while reducing operational cost and complexity. LAN Protocols • IP filtering, forwarding The CPX/DNX solution provides a single chassis solution WAN Protocols that supports both circuit and packet traffic grooming. The • PPP and ML-PPP module supports 32 WAN links, with up to 32 DS0s per IP Test Access link, which can be set up as PPP links or grouped together • Multi-port Ethernet MonE/F, IP SplitE/F to create up to 8 Multi-Link Point-to-Point Protocol (ML/ PPP) bundles; and is fully interoperable with Ethernet/PPP- Compliance compliant routers and signaling elements (STP and SCP). • NEBS Level 3 design, FCC Part 15 class A, CSA/UL-60950-1, EU, RoHS, CSA, CE Channelized IP filtering and forwarding functions directly interconnected to a cross-connect fabric distinguish CPX from any competition. CPX also extends the carrier-grade reliability of DNX platforms to Ethernet/IP, with an industry- first implementation of MonE/F Ethernet test access and support for IP SplitE/F provisioning and monitoring. The ability to groom TDM and Ethernet/IP traffic onto shared T3/E3 or OC-3/STM-1 facilities in a single platform with pay-as-you-grow scalability greatly enhances applications flexibility. Fixed line network operators can use CPX for consolidating network management traffic with user data traffic alongside TDM circuit data onto a single transport medium. The DNX/CPX solution delivers carrier-grade circuit reliability and high-performance packet processing in a single, integrated system, allowing a rapid response to traffic growth with little or no additional equipment or rack space. Mobile network operators can use CPX to converge data control network (DCN) traffic from individual base stations and associated equipment within the site onto a shared, IP transport, and combine traffic from multiple base stations for long-distance backhaul to the MTSO. SS7 network operators can scale high-growth links to Sigtran while leaving low-speed and T1 SS7 links in place; and leverage the carrier-grade transport network by carrying Sigtran traffic over bundled T1 links using enhanced ML-PPP. DATASHEET DS0-DP Data Module Set SPECIFICATIONS n 4-Wire Data Interface for Office Use Model Number n High Density Alternative to Channel Banks in a • MKT-006-10508: DS0-DP Application Module (Front) Manageable Grooming Platform • MKT-006-10058: DS0-DP Interface Module (Rear) n Developed to/Certified Interoperable with Tekelec Eagle Physical Interface STP (EILA Module) • One RJ-48M (50 pin) Electrical Interface n Byte Clocked Timing to Maintain Internetwork Operations • TR-TSY-000 458 The Digital Signal Level 0-DataPort (DS0-DP) module set Line Rate offers network operators a cost effective solution for the • 64 or 56 Kbps transmission of SS7 information. A DNX configured with the External Timing DS0-DP module enables easier access to the STP (Signaling • 64 Kbps Building Integrated Timing Supply (BITS) Composite Clock with Transfer Point) by replacing channel banks, cross-connect Byte Synchronization, 3 Position Terminal Blocks, 133 ohm Impedance switches, and CSUs, which greatly improves management Loopbacks and connectivity. • Local toward 4-w Drop BERT Tests Consisting of an application and interface module working in • All Ones to Drop concert, the DS0-DP module supports up to 8 DS0-DP ports • 511 to Drop operating at 64 or 56 Kbps data rates, all with integral BERT • 2047 to Drop and loopback diagnostics. The interface is a single 50-pin • QRSS to Drop • All Ones to Network female telco connector with the wrap harness, shield ground • 511 to Network screws, and a 3-position terminal block for interfacing to the • 2047 to Network byte clock. • QRSS to Network Compliance • CSA 22.2-950, FCC Part 15 class A, FCC Part 68, NEBS Level 3, CSA/UL-60950-1 DATASHEET Octal High Speed Data Module Set (OHSD) SPECIFICATIONS n IAD Feature Set in a Scalable Multiservice Cross-Connect Model Number n Diverse Competitive Wireline and Wireless Solution • MKT-006-10828: OHSD Application Module (Front) • MKT-006-10838: OHSD Interface Module (Rear) n Second Generation, Feature-Rich DNX Data Port Physical Interface n Comprehensive Support for Legacy and Emerging Data • 8 Ports Applications Electrical Interface • EIA-232 (DB-26), EIA-422 (DB-26), EIA-422 (DB-26), EIA-449, EIA-530 The Octal High Speed Data (OHSD) module set supports (DB-26), EIA-530-A (DB-26), ITU-T V.35 (DB-26), ITU-T X.21 (DB-26), a diverse mix of data applications that address the ITU-T X.27 evolving needs of competitive network service providers, Line Rate emerging wireless carriers, and corporate enterprises. A • 9.6 Kbps (DS0-A), 48 Kbps, Nx56/64 Kbps front application module and rear interface module provide individual connectivity for industry standard data interfaces Clocking Modes operating between 9.6 Kbps and 2.048 Mbps. A number of • Internal, Internal/External, External (+ Reference) optional cable assemblies are available to facilitate customer Loopbacks installations. • Local: Port/Backplane • Remote: V.54/OCU-NL Data applications are typically not the forte of traditional • Local: Port/Backplane digital cross-connect systems (DCS), particularly at higher • Remote: V.54/OCU-NL (+ DTE LL/RL Controls) speeds. In contrast, an Integrated Access Device (IAD) often BERT Tests provides a strong complement of high-speed data options. • 511; 2047; All Ones; All Zeros; QRSS However, the total network capacity an IAD can support Alarms tends to be very limited. OHSD features include: • Red (FIFO Errors, TX, Clock, Carrier drop on failure, Configuration) n Single slot-width, DNX application (front) and interface Compliance • FCC Part 15 class A, CSA/UL-60950-1 (rear) module n Eight software-selectable, independent synchronous DCE such as door security alarming, to the Mobile Telephone ports Serving Office (MTSO) or Mobile Switching Center (MSC). n This configuration is reproduced for each base station EIA-530, EIA-530-A, EIA-422, EIA-232, ITU-T V.35 or within a given service area. At the MTSO/MSC, traffic ITU-T X.21 interfaces is directed to the proper data or voice systems and/or n networks. SS7 Common Channel Signaling information Eight individual DB-26 female connectors (optional cables can be transported to the appropriate internal STP available) systems and/or outsourced to a third-party CCS network n provider. To facilitate collection and dissemination of 9.6 (DS0-A format), 48, Nx56 and Nx64 Kbps to 2.048 router-based traffic, a Router 8 (CHR) module is available Mbps data rates for the DNX platform. n Multiple port timing modes, plus system clocking The OHSD module can benefit an enterprise trying to reference support take advantage of the new competitive multi-services n arena by deploying its own or carrier-provided premises Application-specific control signal selection and equipment. In this application, the DNX functions monitoring primarily as an IAD rather than a DCS. In a corporate network spanning a campus setting with a separate n Integral local/remote loopback and multi-pattern BERT disaster recovery site, data applications are typically diagnostics plentiful and diverse. Router and videoconferencing traffic is groomed and mapped as required to serve The ability to effectively groom backhaul links and manage the evolving needs of the corporation. In addition, the remotes sites has become a critical success factor for reconfiguration capabilities of the DNX can be used to Cellular/PCS providers. In a typical wireless services redirect mission-critical data via pre-allocated back-up infrastructure, in addition to the underlying voice traffic, a DNX links in the event of a system, facility, or network failure. transports digital SS7 Common Channel Signaling (CCS) information and router-based CDPD data and site telemetry, DATASHEET Router/8 Module Set SPECIFICATIONS n Channelized IP/IPX Routing with Direct 1-0 Cross- Connect Integration Model Number • MKT-006-30211: Router/8 Application Module (Front) n Eight Port 10/100BaseT Switch Functionality • MKT-006-30018: Router/8 Interface Module (Rear) n Frame Relay Support on a Single WAN Interface for up to Virtual Port Capacity 256 Virtual Circuits • Up to 32, 56 or 64 kbps channels, or a lesser number of Nx56/64 where the total value of N is <=32 n 32 Virtual WAN Interfaces Operating at Nx56 and Switch Port Interfaces Nx64 Kbps • Ethernet 10/100BaseT, IEEE 802.3, auto-negotiate speed, duplex and cross-over n Three External Alarm Contact Inputs Connection Method n Network Address Translation (NAT), IP/IPX Filtering, • Eight individual RJ-45 receptacles for 10/100BaseT, Single terminal screw OSPF, Data Compression, and DHCP strip x3 for alarm contacts Alarm Contact Inputs The Router/8 module set consists of an application • 3 NO/NC configurable contacts capable of sink or source current module and interface module, which offers a higher level LAN Protocols of integration than using disparate devices (DCS, external • TCP/IP, Novell IPX, IP, RIP, RIP2, IPX RIP, IPX SAP, concurrent bridging of all router, and standalone hub). This module consolidates packet others traffic from up to 32 distinct paths, reduces cost through WAN Protocols the elimination of physical WAN interfaces, and integrates • PPP, Multi-Link PPP, OSPF, SLIP, LAPB, Frame Relay, Ethernet switch functionality. (LMI, Q.933A, T1.617A) The Router/8 is compatible with other Ethernet/PPP/ SNMP MIBS Supported Frame Relay compliant routers. IP routing functions directly • RFC 1213 MIB II, RFC 1315/2115 Frame Relay DTE, RFC 1406 DSI Interface, Sycamore Enterprise MIB interconnected to a cross-connect fabric distinguishes the Router/8 Module from competing products. Routed data Compliance traverses the backplane and leverages other module sets in • EN 55022, EN 60950, FCC Part 15 class A, IC, ICES-003, CSA/UL-60950-1 the product portfolio as physical WAN interfaces. Wireless Service Providers can use the Router/8 to manage individual base stations and associated equipment within the site; and to consolidate traffic from neighboring base stations at the IP layer for long-distance backhaul to the MTSO. Competitive Local Exchange Carriers (CLECs), Internet Service Providers (ISPs), and Integrated Communications Providers (ICPs) can deploy the Router/8 module in remote collocation facilities as part of a remote management strategy. This enables remote provisioning and diagnostic control of the DNX and other collocated equipment, without the expense and delays of dispatching service personnel to the remote facility. DATASHEET Test Access Data Module Set SPECIFICATIONS n Independent Test Ports for Sending Loopback Codes Model Number n Latching OCU, CSU, DSU, V.54, Smart Jack Loops • MKT-006-60224: Test Access Application Module (Front) • MKT-006-10034: Test Access Interface Module (Rear Optional) n Non-Intrusive (Monitor) Testing for Source or Destination DNX Module Set The Test Access Module (TAM) of the DNX Multiservice • Single slot width, non-redundant application and interface modules Cross-Connect provides four test ports to send DDS Interface Latching Loopback codes at only 56/64 Kbps. Each of • Operational mode is fixed as DCE emulation these ports has network buss connections that function Connection Method independently of each other. • EIA-232, EIA-530, ITU-T V.35 (4 x DB-25) Loopbacks The TAM is a non-intrusive test device when monitoring the • Local, Remote, V.54, Latching DSU, Latching CSU, Latching Smartjack source or destination. It is an intrusive device when testing NE1, Latching Repeater split source or split destination. It can also execute and/ BERT Tests or monitor test patterns at 48 Kbps to 2.048 Mbps. The • 2047 interface module provides the electrical interface for four • All Ones high-speed ports that can be configured independently for • All Zeros RS-232, V.35, or RS-422 at the system console. Each port Compliance has a DB-25 female connector for termination to the attached • ANSI T1.107B, AT&T TR 62310, FCC Part 15 class A, TA-TSY-00077, device. CSA/UL-60950-1 The TAM’s DS0-level testing (DDS) within the DS1 is especially useful when trying to isolate a problem without affecting other users on the T1. Test patterns can be generated internally or by test equipment connected to the interface. DATASHEET PSX-5300 Protection Switch SPECIFICATIONS The PSX-5300 Protection Switch adds redundant circuit protection and enhanced system alarming and system Model Number cooling features to DNX-11, DNX-88, and S-DNX cross- • MKT-006-05300: PSX-5300 Protection Switch connects. It provides N+1 redundancy on electrical interfaces • MKT-006-05203: PSX Controller Module • MKT-006-05208: PSX -48 VDC Power Supply Module including T1/E1, DS3, and E3. With this protection in place, • MKT-006-05209: PSX Broadband Primary Module DNX systems switch to a standby module – with minimal • MKT-006-05210: PSX Broadband Redundant Module downtime and without user intervention – if a primary module • MKT-006-05204: PSX Narrowband Primary Module becomes non-operational. The standby module automatically • MKT-006-05206: PSX Narrowband Redundant Module assumes the configuration and cross-connection maps of Physical Interface the primary module at switchover. This increases service • Broadband: Female BNC 75 ohm availability and minimizes the number of emergency truck rolls • Narrowband: 50-pin, RJ-48M 100(T1)/120(E1) ohm required to maintain and restore network elements. • Controller: Shielded DB-9 Connection Supporting Serial Asynchronous Data The three rack unit PSX-5300 chassis stacks cleanly atop the Equipment Heat Dissipation DNX-11 chassis, and within its 11 slots, can support up to • 13.1 Watts/sq.-ft/ft. one narrowband (10+1) and two broadband (6+1 and 3+1) BTU/Hour Maximum protection groups, depending on the configurations. • 140 BTU/hr maximum Additional PSX-5300 product highlights include: Dimensions • 431.8 mm W x 355.6 mm D x 133.4 mm H (17” x 14” x 5.25” ); 3 RU n Circuit Protection for DNX-11, DNX-88, and S-DNX height systems – increases transmission network resiliency by Weight protecting critical narrowband and broadband interfaces • 27.5 lbs. (Loaded) in DNX networks on an N+1 basis. Mounting • Rackmount (19” or 23”) 23” ordered as Center or Flush Mount n Additional System Alarming – includes alarm indicators for fan failures, power supply failures, and user- Power configurable threshold crossing temperature alarms. • -40 VDC to -60 VDC, Max. 48 Watts Easily accessed, both via menu and SNMP interfaces, Chassis these alarms help ensure a rapid response to failures. • Rear mounting interface modules, front mounting fan assembly Environment n Additional System Cooling – improves temperature • 0° (32°F) to 50°C (122°F) Temperature control via an integral auto-sensing fan assembly. The • 0% to 90% Humidity (Non-Condensing) three-speed cooling system automatically senses the Compliance temperature and changes fan speeds accordingly. Fan • CB Scheme, CE, CTR 12/13, FCC Part 15 class A and Part 68, IC, speed can also be controlled via menu (low, medium, or IC CS-03, IC ICES-003, NEBS Level 3, CSA/UL-60950-1 high), and an auto alarm notifies operations if fan speeds drop. The PSX-5300 has one common logic controller slot and two 48 VDC power supply slots. All of the redundant and primary modules are hot swappable (including power supply). The common logic controller serves as the interface between the PSX-5300 and the DNX-11 System Manager Controller (SMC) IIA Module. Note: Use of a DNX SMC-IIA rear interface module is required with the PSX-5300 Protection Switch. A PSX-5300 should be installed for cooling purposes on each nest containing a CPX module. DATASHEET Sycamore Networks, Inc. • 220 Mill Road • Chelmsford, MA 01824-4144, USA • Phone: 978-250-2900 • Fax: 978-256-3434 • www.sycamorenet.com Sycamore Networks, Inc. (NASDAQ: SCMR) is a leading provider of intelligent bandwidth management solutions for fixed line and mobile network operators worldwide. From multiservice access networks to the optical core, Sycamore products enable network operators to lower overall network costs, increase operational efficiencies, and rapidly deploy new revenue-generating services. Sycamore assumes no responsibility for the accuracy of the information presented, which is subject to change without notice. Sycamore and Sycamore Networks are trademarks or registered trademarks of Sycamore Networks, Inc. in the United States and/or other countries. Copyright © 2012 Sycamore Networks, Inc. All Rights Reserved. ISO 9001:2008 MCD152-0612