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• Snmp Management Software
• Snmp Management Information Base

ZTE NetNumen N31 NMS. Unified network management for all ZTE NGN products including soft switch series. SNMP (V1, V2C, V3). ZTE GPON SNMP management. Huawei GPON OLT Configuration GPON Solution Huawei GPON OLT Configuration: how to configure ONT in OLT & some basic troubleshooting. Step by step configuration guideline.

ZTE ZXA10 C300 GPON OLT Specification:

Today i will discuss about ZTE ZXA10 C300 GPON OLT Specification. ZTE ZXA10 C300 GPON OLT is the world’s first future-proof and largest capability optical access platform, is developed with mass optical access roll-out as well as economy in mind. Its powerful functions and high performance make mass FTTx roll-out easier than ever before. It provides the stable technology and service platform for full-service access and management such as HSI, VoIP, TDM, IPTV, and mobile back-haul.

Main Parameters:

• 10U high, vertical plug card,front access
• 19-inch rack with 21 slot
• System Capacity: 14 service card slots(GPON/EPON/P2P/10G EPON/XG-PON1)
• Up to 16384 GPON subscribers access
• Up to 16×10GE uplink
• Physical transmission distance: 20Km~60Km
• Management interface: CLI ( Telnet or RS232), SSH, SNMP V1/2/3, SNMP proxy

Key Features:

• Compatible with ITU G.984.x
• Support ITU-T G.987.x and G.988
• Support Optical Laser Supervising (OLS)
• Physical reach: 20~60km
• GPON Transceiver power: Class B+ and Class C+
• XGPON Transceiver power: N1, N2, E1 and E2
• Support Type B and Type C protection
• Support SR-DBA and NSR-DBA
• Downstream and upstream FEC
• Support AES128 encryption
• Support SCB (Single Copy Broadcast)
• Full G.984.4 OMCI Stack
• Support migration to NG PON2
• 4K VLAN number, IEEE 802.1q, 1:1/N:1 VLAN, VLAN translation, VLAN Stacking (QinQ )
• VRF, ARP agent/ proxy
• STP/RSTP/MSTP
• Link aggregation IEEE 802.3ad
• DHCP server, DHCP Relay ( option 60/82), DHCP proxy, DHCPv6 L2/L3 relay agent
• IPv4 and IPv6 dual stack
• 1588v2, 1PPS+TOD, SynE, BIT/HZ
• L3 routing: IPv4/6 Statistic routing, OSPFv2, BGPv4, RIP V1/V2, ISIS
• L2- L4 flow classification and ACL
• IGMP V1/2/3, IGMP/MLD snooping/proxy/router
• 256 Multicast VLANs
• IGMP pre-join and fast leave

Supported Cards:

• Control & Switch Card:
  • SCXN: Type N control and switch card, 480G switching capacity
  • SCXL: Type L control and switch card, 960G switching capacity
  • SCTM: Type T control and switch card, 2.56T switching capacity

• Subscriber Cards:
  • GTGO/GTGH – 8/16 ports GPON line card
  • GTXO – 8 ports XG-PON1 line card
  • FTGK – 48 ports P2P/24 ports GE/FE optical Ethernet interface card
  • CTUB – 32-channel E1 unbalanced CES interface card
  • CTLA – STM-N CES interface card

• Common Cards:
  • CICK/CICG – Common interface card
  • PRWG – Power supply card

• Ethernet uplink cards:
  • GUFQ – 4 ports GE/FE optical interface Ethernet uplink card
  • GUSQ – 2 ports GE optical and 2 ports GE/FE electrical interface Ethernet uplink card
  • XUTQ – 4 ports 10GE optical interface Ethernet uplink card
  • HUTQ – 2 ports 10GE and 2 ports GE optical interface Ethernet uplink card
  • HUVQ – 2 ports 10GE/GE and 2 ports GE/FE optical interface Ethernet uplink card(Sync-E)

Shelf Dimension:

• 10U(9U card + 1U fan)
• IEC19 shelf: 443.7 mm x 482.6 mm x 270 mm (Height x Width x Depth)
• ETSI 21 shelf: 449.2 mm x 535 mm x 270 mm (Height x Width x Depth)

Shelf Configuration:

• 19-inch: 2 main control switching cards + 14 line cards + 2*4.5U uplink cards + 2 power cards + 1 clock/environment detecting general public interface card(optional)
• 21-inch: 2 more line cards compared with the 19-inch frame

Line Card Interface:

• GPON//P2P/XG-PON1 line card, E1/T1 /STM-1 /STM-4

Uplink Interface:

• 10GE/GE/FE/E1/T1 /STM-1 /STM-4

Power Supply:

• -48 V (DC) or -60 V (DC)

⇒Management Information Base

⊗MIB is a set of objects to be managed, and it defines a series of attributes of managed objects:

√Object IDentifier

√Access permission of object

√Data type of object

⊗Structure of Management Information stipulates how to organize and defines the managed objects

√SMIv2 (RFC2578)

√SMIv1 (RFC 1155)

⇒MIB Structure

⊗MIB is saved as a tree structure

√The nodes of the tree represent for the managed target, and they can be identified by a path from the root: OID

⇒OID

⊗ It is a unique symbol for object in MIB

Snmp Management Software

√OID allocation scheme ensures that OID will not have collision

⊗ OID is composed of a series of integers, indicating the position of nodes in MIB

⊗ Once MIB is issued, OID will be bound to the defined object

√MIB nodes cannot be removed, and you can set the state to “obsolete”

√It is not recommended to change the MIB nodes repeatedly

MIB Example⇒

Address:

Object ID = 1.1

Object Instance = 1.1.0

Value of Instance = 130.89.16.2

Name:

Object ID = 1.2.1

Snmp Management Information Base

Object Instance = 1.2.1.0

Value of Instance = printer-1

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