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ME60-X3 DC
Huawei ME60-X3 DC bundle includes assembly chassis ME0B0BKPD330, 2xME0D00MPUD72 main processing board, 2xDC power module
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Hardware Compatibility
Hardware Compatibility x
Backed up by our experienced pre-sales support team, and volume documentation, to avoid purchasing incompatible hardware.
Hardware Tested
Hardware Tested x
In order to avoid hardware malfunction, each equipment will be strictly tested before delivery and the test report will be packed inside equipment and delivered together. Learn more
License Available
License Available x
Equipment requires the license to perform a value-added function; licenses like PPPoE, NAT, Subscribers, etc. are available to our customers.
Software Compatibility
Software Compatibility x
Software compatibility test between active/standby system board, main control board and service board, mother/sub-card; system commissioning test to prevent all software conflicts.
Huawei ME60 System Test Procedure
To ensure Huawei router system we provided works well and customers can plug and play, hardware functionality, main control board version consistency, mother board and daughter board compatibility, all these clause will be tested by Thunder-link.com, befoDescription
Huawei ME60-X3 DC bundle including assembly chassis ME0B0BKPD330, 2xME0D00MPUD72 main processing board, 2xCR52-PWRB-DC DC power module
3 slots, 4U height, support 120G board
2*MPU, control and switch in one board
Support 100/10GE, GE/FE, STM-x
Support a maximum of 3x100GE ports, or 36x10GE ports
Support the maximum of 256K concurrent subscribers, 4096 subscribers come with the ME60 by default.
Hot backup technology, Integrated BRAS, routing, NAT, etc
Switching Capacity: 1.08 Tbit/s.
Forwarding Performance: 360 Mbit/s.
Product Feature:
· Large Capacity
Developed based on a 2T platform, with the industry’s largest capacity routing line cards (480G) plus large capacity Network Address Translation (NAT) service line cards (160G).
· High Reliability
Stable operation of services is guaranteed with device-, network-, and service-level reliability and innovative multiple-device hot backups.
· Full-Service Access
Unified platform for user access and management with full support for various access services, including IPoX, PPPoX, 802.1x, and web authentication.
Comparison of ME60 Seriese Router
| Basic Information | ||||
| Description | ME60-X8 | ME60-X8A | ME60-X16 | ME60-X3 |
| First supported version | V800R008C10 | V800R008C10 | V800R008C10 | V800R008C10 |
| Hardware Specifications | ||||
| Dimension(HxWxD,mm) | 620 x 442 x 650 (14U) | 934 x 442 x 650 (21U) | 1778 x 442 x 650 (40U) | 175 x 442 x 650 (DC 4U) 220 x 442 x 650 (AC 5U) |
| Weight(kg) | 43.2 kg (95.26 lb) | 78.9 kg (173.94 lb) | 94.4 kg (208.15 lb) | 15 kg (33.07 lb) |
| Typical power consumption (with configuration) [W] | 3220 W (fully configured with BSUF-240s) | 4110 W (fully configured with BSUF-240s) 4770 W (fully configured with BSUF-480s) 6520 W (fully configured with BSUF-1Ts) |
6210 W (fully configured with BSUF-240s) | 800 W (fully configured with BSUF-51s) 920 W (fully configured with BSUF-120s) 1239 W (fully configured with BSUF-241s) |
| Power supply mode | DC built-in | DC built-in | DC built-in | DC built-in |
| Switching capacity | 7.08 Tbit/s(BSUF-240) | 25.16 Tbit/s (BSUF-1T) | 12.58 Tbit/s(BSUF-240) | 1.08 Tbit/s |
| Forwarding Performance | 2880 Mpps | 5760 Mpps | 5760 Mpps | 360 Mpps |
| Number of slots | 11 | 12 | 22 | 5 |
| Number of service board slots | 8 | 8 | 16 | 3 |
| Redundant MPUs | 1:1 | 1:1 | 1:1 | 1:1 |
| Redundant Switch fabrics | 2+1 | 3+1 | 3+1 | / |
| Redundant power supply | 2+2 | [400G bundle] 3+1 [1T bundle] 5+1 |
4+4 | 1+1 |
| Functions | ||||
| Interface Types | 100 GE-WAN/LAN
10 GE-WAN/LAN GE/FE |
|||
| BRAS | User access protocols: PPPoE, IPoE, 802.1X, and ND access
User authentication protocols: PAP, CHAP, MSCHAP, RADIUS, and HWTACACS User billing protocols: RADIUS, HWTACACS, and COPS User authorization protocols: RADIUS, HWTACACS, COPS, and COA |
|||
| QoS | Provides a well-designed HQoS mechanism
Provides advanced scheduling and congestion avoidance technologies, accurate traffic policing and shaping, and complex rule definition and fine-grained flow identification Supports MPLS HQoS and ensures QoS for MPLS VPN, VLL, and PWE3 services Supports DiffServ- and MPLS TE-based DS-TE, eight class types (CTs), and TE-tunnel-based QoS Supports a maximum of 768K flow queues per slot |
|||
| Value-added Services | Supports Destination Address Accounting (DAA), which helps carriers identify services based on destination network segments and perform separate accounting for different services on IP carrier networks
Supports Enhanced Dynamic Service Gateway (EDSG), which identifies various user services based on traffic destination addresses and implements independent rate limit, accounting, and management for each service |
|||
ME60 Board Type
| Motherboard | Flexible Board | Integrated Board | Versatile Service Unit |
| BSUF-51 ME0DBSUF5170 |
BP51 ME0D0L5XXE7F ME0D0L5XXB7F ME0D0L2XXE7H ME0D0L2XXB7H ME0D0L2XFH7H ME0D0EFGFE7H ME0D0EFGFB7H |
MSUF-51 ME0DMSUF5170 |
VSUI-400 ME0DVSUIK071 ME0DVSUIK073 ME0DVSUIK070 ME0DVSUIK072 |
| BSUF-100 ME0DBSUFA070 |
BP52 ME0D0L5XXE7E ME0D0L2XXE7E ME0D0EFGFE7E |
BSUI-51 ME0DL2XEFG7E ME0D0L5XXE70 |
VSUF-160 ME0DVSUFD070 |
| MSUF-100 ME0DMSUFA070 |
BP100 ME0D0L5XXB7H ME0D0L6XXB7H ME0D0L5XXE7H ME0D0L5XFH7H ME0D0L1NXB7H ME0D0E1NDB70 ME0D0E1NCB70 |
MSUI-51 ME0D0L5XXM70 |
VSUF-80 ME0DVSUF8070 |
| BSUF-240 ME0DBSUFF070 |
BP120 ME0D0L5XXE8E |
BSUI-52 ME0D0L5XXE71 ME0DL2XEFG8E ME0D0EKGFB70 |
|
| BSUF-241 ME0DBSUFF073 |
BP240 ME0D2L1NXB7H ME0D0LAXFB7H ME0D0LAXFH7H ME0D0LBXXB7H ME0D0E1NDB71 ME0D0E1NCB71 ME0D0LAXFE7H |
BSUI-120 ME0D0LAXXH71 |
|
| MSUF-240 ME0DMSUFF070 |
BP241 ME0D0LBXFE7E ME0D0L6XFE7E ME0D00L1NC7E |
BSUI-200 ME0D0L2NCB70 |
|
| BSUF-480 ME0DBSUFM071 ME0DBSUFM070 |
BP480 ME0M0LEXFB70 ME0M0E2NFB71 ME0M0E2NCB72 ME0M0E2NCB70 |
MSUI-240 ME0D0LFXFA70 |
|
| MSUF-480 ME0DMSUFM071 ME0DMSUFM070 |
BSUI-242 ME0D0EFXFB70 ME0DE4VE2N70 |
||
| BSUI-400 ME0D0L4NCB71 ME0D0L4NCB70 |
|||
| BSUI-402 ME0D0E4NBB70 ME0D0EKXFB70 |
|||
| MSUI-480 ME0D0LMXFA70 ME0D0LMXFA71 |
ME60 License Overview
Commonly Used Licenses for ME60 Series Router
Related Articles
Comparison of Huawei ME60-X3 and ME60-X8 Router
ME60 NAT Board VSUF-80 and VSUF-160 Comparison
Comparison between Huawei NetEngine NE8000 M1A Router and ME60-X3 BRAS Router
ME60-X8 SRU SFU units introduction and comparison
Tech Specs
| Item | Description |
| Switching Capacity | 1.08 Tbit/s |
| Forwarding Performance | 360 Mbit/s |
| Number of Slots | 5 slots, including 3 LPUs and 2 SRUs |
| Interface Types | 100 GE-WAN/LAN
10 GE-WAN/LAN GE/FE |
| Processing unit(MHz) | Dominant frequency: 800 |
| BootROM(MB) | 2 |
| SDRAM(GB) | 4 |
| NVRAM( KB) | 512 |
| Flash(MB) | 16 |
| CF card(GB) | 2 |
| BRAS | User access protocols: PPPoE, IPoE, 802.1X, and ND access
User authentication protocols: PAP, CHAP, MSCHAP, RADIUS, and HWTACACS User billing protocols: RADIUS, HWTACACS, and COPS User authorization protocols: RADIUS, HWTACACS, COPS, and COA |
| L2TP | Maximum number of sessions supported: 64K per slot and 128K per device Maximum number of tunnels supported: 16K per slot, 16K per LAC device, and 48K per LNS device |
| IPv4 | Supports the static routing protocol and dynamic routing protocols, such as RIP, OSPF, IS-IS, and BGP-4. All ports support line-rate forwarding even in complex routing environments, for example, when route flapping occurs |
| IPv6 | IPv4/IPv6 dual stacks
A variety of IPv4-to-IPv6 transition technologies: Manually configured tunnels, IPv6 over IPv4 tunnels, GRE tunnels, IPv4 over IPv6 tunnels, and IPv6 Provider Edge (6PE) IPv6 static routes and dynamic routing protocols, such as BGP4/BGP4+, RIPng, OSPFv3, and IS-ISv6 IPv6 neighbor discovery, PMTU discovery, TCP6, ping IPv6, tracert IPv6, socket IPv6, static IPv6 DNS, IPv6 DNS server, TFTP IPv6 client, and IPv6 policy-based routing Network Address Translation IPv6-to-IPv4 (NAT64), NAT44 and Dual-Stack Lite (DS-Lite) Internet Control Message Protocol Version 6 (ICMPv6) Management Information Base (MIB), User Datagram Protocol Version 6 (UDP6) MIB, TCP6 MIB, and IPv6 MIB |
| MPLS/MPLS VPN | MPLS TE and MPLS/BGP VPN in compliance with RFC 2547bis
Inter-AS Option A, inter-AS Option B, and inter-AS Option C Integration with Internet services Martini MPLS L2VPN and Kompella MPLS L2VPN VPLS and VLL Heterogeneous interworking Multicast VPN |
| Layer 2 Features | Protocols such as IEEE 802.1Q, IEEE 802.1ad, IEEE 802.1D, IEEE 802.1w, and IEEE 802.1s
VLAN aggregation (super VLAN) Filtering list based on MAC addresses and ports |
| Reliability | Protection mechanisms such as IP/LDP/VPN/TE/VLL FRR, IP/TE automatic rerouting, fast convergence of IGP/BGP/multicast routes, VRRP, load balancing among IP-Trunk links, BFD, MPLS/Ethernet OAM, and routing protocol/port/VLAN damping
PW redundancy, E-Trunk, E-APS, and E-STP In-service patching for smooth software upgrade Passive backplane Redundancy backup for key components such as route processing modules, SFUs, and power modules to guard against a single point of failure Switching between components that hot back up each other, Graceful Restart (GR), NSF, NSR, and ISSU Hot swapping for all components Intra- or inter-CGN service chassis 1+1 and 1:1 hot backup |
| QoS | Provides a well-designed HQoS mechanism
Provides advanced scheduling and congestion avoidance technologies, accurate traffic policing and traffic shaping, and complex rule definition and fine-grained flow identification Supports MPLS HQoS and ensures QoS for MPLS VPN, VLL, and PWE3 services Supports DiffServ- and MPLS TE-based DS-TE, eight Class Types (CTs), and TE-tunnel-based QoS Supports a maximum of 768K flow queues per slot |
| Value-added Service | Supports Destination Address Accounting (DAA), which helps carriers identify services based on destination network segments and perform separate accounting for different services on IP bearer networks
Supports Enhanced Dynamic Service Gateway (EDSG), which identifies various user services based on traffic destination addresses and implements independent rate limit, accounting, and management for each service |
| Multicast | IGMP v1, IGMP v2, and IGMP v3
Static multicast Multicast routing protocols, such as PIM-SM, PIM-SSM, MSDP, and MBGP Multicast CAC Interoperability between multicast protocols Multicast policies for multicast routing protocols and multicast forwarding Multicast QoS Two-level multicast replication on the SFU and LPU to achieve optimal multicast service performance |
| Security | ACL-based packet filtering
URPF GTSM DHCP snooping ARP attack defense DoS attack defense MAC address limit MAC-IP binding SSH SSHv2 |
| Maximum Power Consumption(W) | 920 (BSUF-100) |
| Operating Environment | Long-term operating temperature: 0°C to 45°C
Short-term operating temperature: –5°C to 55°C Long-term operating humidity: 5% to 85% Short-term operating humidity: 0% to 100% Operating altitude: Equal to or below 4,000m |
| Dimensions(mm) | 175 (H)x 442 (W) x 650 (D) |
| Empty chassis Weight(kg) | 21 |
| Full Configuration Weight(kg) | 42 kg (100G) |
Additional information
| Weight | 42.0 kg |
|---|---|
| Dimensions | 65.0 × 44.2 × 17.5 cm |
| Features |
Hardware Compatibility, Hardware Tested, License Available, Software Compatibility |
Q&A
Q: How Is the Slot Layout on ME60-X3?
A:
Q: Does the CF Card on the ME60 Support Hot Swap?
A: All CF cards on the MPU/SRU do not support hot swap. In the ME60-X8 and ME60-X16 chassis, the CF cards support hot swap after the offline buttons of CF cards are pressed. CF card cannot be supported on the X3 models of the ME60.
Q: How can I use CGN service on ME60 router?
A: CGN service require specific boards to be used, such as VSUF-80, VSUF-160, VSUI-400, etc.
Q: What Services Does the E1 Interface on the ME60 Support?
A: The E1 interface supports the following services:
- TDM E1 transparent transmission (CESop/SATop)
E1 frames are transparently transmitted on the PSN network. That is, the E1 frames on the inbound interface are encapsulated into PWE3 packets, and then are added with MPLS labels before traversing the PSN network. Then, the remote end decapsulates the PWE3 packets into E1 frames and sends the E1 frames to the line side.
- ATM Cell Relay
ATM cells are transparently transmitted on the PSN network. That is, the E1 frames are parsed into ATM cells. The ATM cells are then encapsulated into PWE3 packets and are added with MPLS labels before traversing the PSN network.
- Multiple ATM E1 interfaces can be configured as an IMA group interface.
- If PWE3 emulation services are not adopted, the E1 channel can be configured with common PPP/HDLC/MP to bear IP services.
The preceding configurations can be configured on different E1 interfaces of a sub-card. That is, one sub-card can support all the preceding services.
Q: What Are the Differences Between the Common Flexible Cards and Flexible Cards-E in ME60?
A: Flexible Cards-E have rear TM chips and support user-side HQoS. Common flexible cards do not support HQoS.
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Reviews (4)
4 reviews for ME60-X3 DC
Why Thunder-link.com
Altamirano
Ecuador
Thunder-link.com engineer help us do ME60-X3 configuration via anydesk, very professional, thanks.
Muñoz
Panama
What are the relationships between UNRs and address pools after PPPoE users go online from an ME60?
Stephen
Pakistan
How many users ME60-X3 can handle?
Maturana
Colombia
Does the CF Card on the ME60 Support Hot Swap?