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MN5000 series
The MN5000 series is a new product based on pseudo wire over MPLS-TP technology. It has been developed to overcome the data traffic consuming at most carrier’s bandwidth in current SDH/SONET based infrastructure. As a convergence transport technology, the MN5000 series is the key fact for today’s metro network carriers and services providers. Equipped with enhanced data service processing capability and powerful network management function, the MN5000 can provide all-round network solutions at the access layer and aggregation layer of a Metropolitan Area Network (MAN), enormously reducing the operation cost.

Key features:

•    MPLS-TP BASED
•    MULTI SERVICE SUPPORT
•    CARRIER CLASS DESIGN
•    SMALL FOOTPRINT
•    FULL PROTECTIONS
•    QUALITY OF SERVICE

MN5100E

PACKET TRANSPORT NETWORK SOLUTION

Construct Packet Transport Network with MN5100E

The MN5100E is a new product based on pseudo wire over MPLS-TP technology; it has been developed to overcome the data traffic consuming at most carrier’s bandwidth in current SDH/SONET based infrastructure. As a convergence transport technology, the MN5100E is the key fact for today’s metro network carriers and services providers. Equipped with enhanced data service processing capability and powerful network management function, the MN5100E can provide all-round network solutions at the access layer and aggregation layer of a Metropolitan Area Network (MAN), enormously reducing the operation cost. While MN5100E will mainly be positioned as User Provider Edge (UPE) at metro network, NEC also introduces the MN5200/MN5300, which can be applied in both UPE and Network Provider Edge (NPE) solutions. For more detailed information on MN5200/MN5300, please refer to its documentation data.


LAYER ARCHITECTURE

With MN5100E, the Ethernet, TDM (E1/T1) or ATM payload is transported over the Pseudowire layer, where the payloads can be encapsulated and multiplexed/de-multiplexed into a single MPLS-TP tunnel. MPLS-TP layer provides the transport tunnel for the traffic been transferred across the IP/MPLS core network. The architecture of MN5100E is described in the figure bellow:

Technical Summary

HARDWARE

DIMENSIONS: 44.5(H) x 440(W) x 245(D) mm (1U)
WEIGHT: 4kg (full)
TEMPERATURE: 0oCto50oC
POWER SUPPLY: -48V DC
Max.POWER CONSUMPTION:  Less than 50W ( fully loaded)
HUMIDITY: 5% to 95% non-condensing

 

INTERFACE
TYPE
 PORTS
per MODULE		MAX. PORTS
per CHASSIS
 10 GE(*) 2 2
 STM-1 POS 2 (OPCE) 2
 GE 6 (OPCE) 22
  8 (CGF08) 22
 FE 6 (OPCE) 22
  8 (CGF08) 22
 ATM STM-1 2 (OPCE) 2
 SDH STM-1 2 (OPCE) 2
  E1/T1 16 (OPCE) 16

(*) Future release

DATA PACKET PROCESSOR

PACKET PROCESSING CAPACITY
44Gbps full duplex switching fabric

MPLS-TP FEATURES

4K MPLS label per MN5100E Chassis (Shared by PW/LSP)
EXP-Inferred-PSC LSPs (E-LSP)
Label-only-Inferred-PSC LSPs (L-LSP)
Per platform Label space support
Bi-directional MPLS-TP trail and Uni-directional MPLS-TP trail
Diff-Serv support:

  • 2 service levels for TDM (E1/T1, SDH/SONET)
  • 4 service levels for ATM
  • 8 service levels for Ethernet

MPLS OAM including protection switching
Virtual Circuit Connection Verification (VCCV)
LSP Ping/TraceRoute
EMS/SNMS manually controls the setup and the release of PW and LSP


PROTECTION SCHEME

Hardware redundancy:
1+1 power supply Input
Network Protection:1+1 Linear MSP (ITU-T G.841 Annex B) for STM-1 (ATM or SDH)
 1:1 Linear MSP for STM-1 (ATM or SDH)
 1+1 Linear protection for LSP; 1:1 Linear Protection for LSP

 

TIMING/SYNCHRONIZATION
 
FE/GE/10GE interface: Synchronization Ethernet, line timing and SSM (control frame) transmission
Free run: ±4.6ppm (ITU G.813)
Holdover: ±0.05ppm(better than ITU G.813: ±0.37ppm) within 24 hours
Provide sync signal for 3G Base Station: External timing output; Traceable STM-1 ATM interface as line timing source
Provide 1pps+tod time input and output
Any FE/GE/10GE interface support 1588V2

NETWORK MANAGEMENT   SpectralWave MN9200(NMS), LCT (Local Craft Terminal)

STANDARDS & RECOMMENDATIONS

IETF  RFC 3031, RFC 3916, RFC 3985, RFC 4197, RFC 4553, RFC 4842, RFC 4717, RFC 4816, RFC 4448
ITU-T  G.8110, G.8110.1, Y.1711, Y.1720
IEEE  1588V2, 802.1ag, 802.3ah
 

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