NE40E-X8A AC
Huawei Enterprise Router NE40E-X8A Integrated Chassis AC Components(Including 2 Fan Tray)
Huawei
3-5 days
Shenzhen Warehouse
- Description
- DATASHEET
- Packing info
- Parts & Interface board
- FAQ
- Comparison
- Download
- Reviews (1)
Description
NE40E-X8A overview
The NE40E series universal service router (USR), a high-end network product, features line-rate forwarding capability, a well-designed Quality of Service (QoS) mechanism, strong service-processing capability, and excellent expansibility and is usually deployed at the edges of Internet Protocol (IP) backbone networks, IP Metropolitan, Area Networks (MANs), Internet Data Centers (IDCs) networks and other large-scale IP networks.
The NE40E can provide comprehensive services for enterprises, and residential as universal edge devices. Based on distributed hardware forwarding and non-blocking switching technologies, the NE40E provides a maximum of 480G line cards to satisfy the increased demand for bandwidth.
NE40Es are mainly deployed on the edges of the large-scale IP network, IP backbone networks, IP bearer networks, and IP Metropolitan Area Networks (MAN).
NE40Es can be connected to NE5000Es, CX600s, and ME60s to provide complete and hierarchical IP network solutions.
Huawei NE40E-X series high-end full-service routers are designed based on a 2T hardware platform, providing the industry’s largest capacity 2T routing line card, a mature wide-area SDN solution, featuring high performance, low power consumption, and evolution, and an original IP hard pipe The technology meets the low-latency and high-reliability requirements of key services, and can be applied to enterprise WAN core nodes, large-scale enterprise access nodes, campus interconnection and aggregation nodes, and various large-scale IDC network egresses.
Based on the powerful Versatile Routing Platform (VRP), the NE40E features the following:
- Rich services
- Large capacity
- High performance
- High availability
NE40E-X8A Features
- Powerful Service Support
The NE40E satisfies the service requirements of IP/MPLS bearer networks, MANs, and backbone networks by providing support for a wide range of features and powerful service processing capabilities.
- Well-Designed QoS Mechanism
The NE40E provides high-quality QoS. With an advanced queue scheduling algorithm and congestion control algorithm, the NE40E can carry out accurate multi-level scheduling for data flows. This meets the quality requirements of different users and different levels of services. The well-designed traffic scheduling mechanism of the NE40E provides the following functions to ensure QoS.
- All-Round Reliability Solution
The NE40E provides reliability protection at different levels, including the equipment, network, and service levels. The NE40E can provide a multi-level reliability solution that completely meets the reliability requirements of different services. The NE40E lays the foundation for enterprise service reliability with a system availability of 99.999%.
- High-Accuracy 1588v2 Clock Solution
IEEE 1588v2 is a standard for the precision clock synchronization protocol for networked measurement and control systems. The 1588v2 standard defines the Precision Time Protocol (PTP), which can achieve time and frequency synchronization with an accuracy of sub-microseconds.
The 1588v2 standard enables time and frequency synchronization to meet the requirements of the G.813 template. Accuracy within 100 ns is insufficient to meet the needs of wireless and LTE networks. The time jitter among multiple nodes (less than 30 nodes) is less than 1 us, allowing for large-scale networking. External clock sources can be assigned different priorities. A device selects an external clock source as its reference clock source based on factors such as the priorities of external clock sources and the number of hops between itself and external clock sources. After the best external clock source fails, the device automatically selects the second-best
external clock source as its reference clock source. An NE switchover can be completed within 200 ns, ensuring the high reliability of clocks.
The NMS provides GUI-based clock management.
NE40E-X8A Slot Layout
Description of slot layout
Slot Name | Slot Quantity | Slot ID | Remarks |
---|---|---|---|
LPU | 8 | 1 to 8 | These slots hold LPUs. |
SRU | 2 | 9 to 10 | These slots hold SRUs. |
SFU | 2 | 11 to 12 | These slots hold SFUs. |
An interface is numbered in the format of slot number/card number/port number.
- Slot number: On the NE40E-X8A, the slots of LPUs are numbered from 1 to 8.
- Card number: The cards of LPUs are numbered beginning with 0. If no card is on a board, the card number is set to 0.
- Port number: The ports of LPUs are numbered beginning with 0.
Device attributes
Product Type | Description | BOM | Model | Earliest Software Version |
---|---|---|---|---|
NE40E-X8A DC | NE40E-X8A Integrated Chassis DC Components(Including 2 Fan Tray) | 02350AFW | CR5B0BKP0871 | V800R006C20 |
NE40E-X8A AC | NE40E-X8A Integrated Chassis AC Components(Including 2 Fan Tray) | 02350AFX | CR5B0BKP0872 | V800R006C20 |
Components (front view)
1. Rack-mounting ear | 2. ESD jack | 3. Lifting handle | 4. Air intake frame (With air filter) |
5. LPU | 6. SRU | 7. SFU | 8. Switch module |
9. Power monitoring module (PMU) | 10 Power module (PM) | 11. Cabling tray | 12. Power module cover |
Item | NE40E-X8A AC |
Forwarding performance | 2800 Mpps (LPUF-240) |
Switching capacity | 25.16 Tbps (LPUI-1T) |
51.2 Tbps (LPUI-2T) | |
Cabinet installation standard | Can be installed in a standard 19″ 800 mm-deep cabinet. A Huawei 2.2 m-high N68E cabinet is used by default. |
Typical power consumption | [2T bundle]Can be installed in a standard 19″ 1000 mm-deep cabinet,part number is 02115109(CR5B0N610E60) |
4110 W (fully configured with LPUF-240s) | |
4770 W (fully configured with LPUF-480s) | |
6520 W (fully configured with LPUI-1Ts) | |
11100 W (fully configured with LPUI-2Ts) | |
Typical heat dissipation | 13334.6 BTU/hour (fully configured with LPUF-240s) |
15475.9 BTU/hour (fully configured with LPUF-480s) | |
21153.6 BTU/hour (fully configured with LPUI-1Ts) | |
36013.1 BTU/hour (fully configured with LPUI-2Ts) | |
DC input voltage | input voltage range: –40 V to –72 V |
input rated voltage: –48 V/ –60 V | |
AC input voltage | input voltage range: 180 V to 264 V |
input rated voltage: 200 V to 240 V | |
HVDC input voltage | input voltage range: 192 to 288V,264 to 400V |
input rated voltage: 240 V/380 V | |
MTBF | 22.32 years |
MTTR | 0.5 hours |
Availability | 0.999997443 |
Slot quantity | 12 |
Redundant MPUs | 0.042361111 |
Redundant Switch fabrics | 3+1 |
Redundant fans | [1T bundle] 3 assemblies in support for proper fan operation in case of a single fan failure for a short period at 40°C (104°F) |
[2T bundle] 3 assemblies in support for proper fan operation in case of a single fan failure for a short period at 40°C (104°F) | |
Redundant power supply | [1T bundle] DC: 5+1 |
[1T bundle] HVDC&AC: 4+1 | |
[2T bundle] DC: 7+1 | |
[2T bundle] HVDC&AC: 5+1 | |
Operating temperature | Long-term: 0°C to 45°C (32°F to 113°F) |
Short-term: –5°C to +55°C (23°F to131°F) | |
Remark: Restriction on the temperature variation rate: 30°C/hour (86°F/h) | |
Storage temperature | –40°C to +70°C (–40°F to +158°F) |
Relative operating humidity | Long term: 5% to 85% RH, non-condensing |
Short term: 5% to 95% RH, non-condensing | |
Relative storage humidity | 5% to 95% RH, non-condensing |
Long-term operating altitude | <= 4000 m (13123.2 ft.) (For the altitude in the range of 1800 m to 4000 m [5905.44 ft. to 13123.2 ft.], the operating temperature of the NEU100 must decrease by 1°C [33.8°F] for every 220 m [721.78 ft.].) |
Storage altitude | Less than 5000 m (16404 ft.) |
Dimensions (H x W x D) | (21 U) 930 mm x 442 mm x 650 mm (36.61 in. x 17.40 in. x 25.59 in.) (Chassis main body) |
(21 U) 930 mm x 442 mm x 750 mm (36.61 in. x 17.40 in. x 29.53 in.) (Dimensions of the chassis body together with cable trays and front and back attachments) | |
[2T bundle](21 U) 930 mm x 442 mm x 941 mm (36.61 in. x 17.40 in. x 37.05 in.) (Dimensions of the chassis body together with cable trays and front and back attachments and noise reduction module) | |
Weight (empty) | DC: 68.1 kg (150.16 lb) (without filler panels) |
HVDC&AC: 63.7 kg (140.46 lb) (without filler panels) | |
Weight (full configuration) | [1T bundle] DC:209 kg (460.85 lb) |
[1T bundle]HVDC&AC:206.5 kg (455.33 lb) | |
[2T bundle]DC:242kg (533.51 lb) | |
[2T bundle]AC&HVDC:234.4kg(516.76 lb) |
Additional information
Weight | 70.0000 kg |
---|---|
Dimensions | 93.0000 × 45.0000 × 75.0000 cm |
Board Type | Item | Model |
power card | NE40E-X3 | CR52-PEMA(48 V DC Power Entry Module) |
CR5MPWRBX070(200 V AC to 240 V AC) | ||
NE40E-X3A | CR5B0PWRDC71(48 V DC Power Entry Module) | |
CR5B0PWRAC71(3000 W AC&HVDC Power Module) | ||
NE40E-X8 | CR5M000PEM60(48 V DC Power Entry Module) | |
CR5B0PWRBX60(220V) | ||
CR5B0PWRBX62(220Vac Single-Phase) | ||
NE40E-X8A | PDC-2200WB(PM2200W DC Power Supply) | |
PDC-2200WC(PM2200W DC Power Supply) | ||
PHD-3000WA(3000 W AC&HVDC Power Module) | ||
PAH-3000WA(3000 W dual-input AC&HVDC PM) | ||
NE40E-X16 | CR5M000PEM60(48 V DC Power Entry Module) | |
CR5B0PWRBX60(220V) | ||
CR5B0PWRBX62(220Vac Single-Phase) | ||
NE40E – X16A | PDC-2200WB(PM2200W DC Power Supply) | |
PDC-2200WC(PM2200W DC Power Supply) | ||
PHD-3000WA(3000 W AC&HVDC Power Module) | ||
PAH-3000WA(3000 W dual-input AC&HVDC PM) | ||
Switching control card | VSUF | CR5DVSUFD010 |
CR5DVSUF8010 | ||
CR5D00SPD010(SP-160) | ||
CR5D00SP8010(SP-80) | ||
Flexible Card | LPUF-50 | CR5DLPUF5070 |
CR5DLPUF507L | ||
CR5DLPUF5071 | ||
CR5DLPUF507M | ||
CR5D00C4CF70(P50) | ||
CR5D00C8CF71(P50) | ||
CR5D00C2CF70(P50) | ||
LPUF-51 | CR5DLPUF5170 | |
CR5DLPUF517E | ||
CR5DLPUF517B | ||
CR5D00P8UF70(P120) | ||
LPUF-52 | CR5DLPUF5270 | |
CR5D0EFGFA71(P101-A) | ||
LPUF-101 | CR5DLPUFA071 | |
LPUF-102 | CR5D00P8UF70(P120) | |
CR5D00T6XF70(P120) | ||
LPUF-101-B | CR5DLPUFA07B | |
LPUF-120 | CR5DLPUFB070 | |
CR5DLPUFB07B | ||
CR5DLPUFB07E | ||
CR5D00P8UF70(P120) | ||
CR5D00T6XF70(P120) | ||
LPUF-200 | CR5DLPUFE070 | |
CR5DLPUFE071 | ||
LPUF-240 | CR5DLPUFF070 | |
CR5D00TBXF70(P240) | ||
LPUF-241 | CR5DLPUFF170 | |
CR5D00TBXF70(P240) | ||
CR5D00T1NC70(P240) | ||
LPUF-241-E | CR5DLPUFF17E | |
CR5D0LBXFE7E(P241-E) | ||
CR5D0LAXFE70(P240-E) | ||
LPUF-480 | CR5DLPUFM070 | |
CR5DLPUFM071 | ||
CR5D00LFXF74(P480-A) | ||
CR5D0E2NFE70(P480-E) | ||
LPUF-481 | CR5DLPUFF273 | |
CR5D00E2NC79(P481-A) | ||
LPUF-1T1 | CR5DLPUFT070 | |
CR5DE4NE8V70(P1T) | ||
CR5D00EDYB70(P1T) | ||
Integrated Card | LPUS-51 | CR5D00L5XF72 |
CR5D00L4XF71 | ||
CR5D00EMGF73 | ||
CR5DL2XEFG72 | ||
LPUS-101 | CR5D00E2MC71 | |
CR5D0LAXFA72 | ||
LPUI-51 | CR5D0L5XFA71 | |
CR5D0L4XFA70 | ||
CR5D0EMGFA70 | ||
LPUI-51-E | CR5DL2XEFG7J | |
CR5D0L5XFA7J | ||
LPUI-52 | CR5D0EKGFA71 | |
LPUI-101 | CR5D00E2MC70 | |
CR5D0LAXFA71 | ||
LPUI-120 | CR5D0LBXFA70 | |
CR5D0E2MCA70 | ||
CR5D00E1NC76 | ||
CR5D00E1NC78 | ||
LPUI-200 | CR5D00D2NT70 | |
CR5D00E2NC76 | ||
CR5D00LEXF76 | ||
LPUI-240 | CR5D00E2NC70 | |
CR5D00LFXF70 | ||
CR5D00E2NC71 | ||
LPUI-241 | CR5DF1E2NB70 | |
CR5DF1E2NC70 | ||
LPUI-242 | CR5D0E2NBA70 | |
CR5D0EEXFA70 | ||
LPUI-242-G | CR5D0E2NBA72 | |
LPUI-402 | CR5DNKFEDY70 | |
CR5D0E4NBA70 | ||
LPUI-480 | CR5D00LMXF70 | |
CR5D00E4NC70 | ||
CR5D00D4NC70 | ||
LPUI-1T | CR5D00E8NC70 | |
CR5D00D8NC70 | ||
LPUI-2T | CR5D00EENB70 |
Q: Which chassis are included in the NE40E series?
A: NE40E series enterprise routers include NE40E-X3, NE40E-X3A, NE40E-X8, NE40E-X8A, NetEngine 40E-X8AK, NE40E-X16, NE40E-X16A. The numbers 3, 8, and 16 represent the number of service slots; The chassis of “A” is an upgraded model without “A”.
Q: Does the NE40E series support the PPPoE function?
A: If you need to use the PPPoE function, the ME60 router is the first choice, because it supports the BRAS PPPoE function by default.
Then if we use NE40E series routers, we can also activate the PPPoE function by obtaining a license.
Q: Is it possible to use PPPoE only by activating the license on the chassis?
A: In addition to the license activation required for the device, the license for the number of users needs to be loaded according to the number of subscribers; and the service cards also need to support the PPPoE license
Q: If I use IPoE, do I still need a user license instead of PPPoE?
A: IPoE does not require a license for the number of users.
Q: Do all interface cards need a PPPoE license?
A: No, if you don’t have to use the PPPoE function, then you don’t need a license; if you need the PPPoE function, the card with the letter “E” supports PPPoE by default, if the letter does not contain “E”, then you need to activate the PPPoE license.
NE40E-X8A Comparison
Item | NE40E–X3 | NE40E–X8 | NE40E–X16 | NE40E–X3A | NE40E–X8A | NE40E–X16A |
---|---|---|---|---|---|---|
Forwarding performance |
|
2800 Mpps (LPUF-240) | 5600 Mpps (LPUF-240) | 900 Mpps (LPUF-200) | 2800 Mpps (LPUF-240) | 5600 Mpps (LPUF-240) |
Switching capacity | 1.08 Tbps | 7.08 Tbps (LPUF-240/LPUI-240) | 12.58 Tbps (LPUF-240/LPUI-240) | 2.76 Tbps |
|
|
Typical power consumption |
|
3220 W (fully configured with LPUF-240s) | 6210 W (fully configured with LPUF-240s) | 1120 W (fully configured with LPUF-200s) |
|
|
Typical heat dissipation |
|
10447 BTU/hour (fully configured with LPUF-240s) | 20147.9 BTU/hour (fully configured with LPUF-240s) | 3633.8 BTU/hour (fully configured with LPUF-200s) |
|
|
DC input voltage |
|
|
|
|
|
|
AC input voltage |
|
|
|
|
|
|
MTBF | 27.44 years | 21.91 years | 21.66 years | 22.85 years | 22.32 years | 22.33 years |
MTTR | 0.5 hours | 0.5 hours | 0.5 hours | 0.5 hours | 0.5 hours | 0.5 hours |
Availability | 0.99999792 | 0.999997395 | 0.999997365 | 0.999997502 | 0.999997443 | 0.9999974444 |
Slot quantity | 5 | 11 | 22 | 5 | 12 | 22 |
Processing unit |
|
|
|
|
|
|
Flash |
|
|
|
|
|
|
SDRAM |
|
|
|
|
|
|
Storage |
|
|
|
|
|
|
Redundant MPUs | 1:1 | 1:1 | 1:1 | 1:1 | 1:1 | 1:1 |
Redundant Switch fabrics | None | 2+1 | 3+1 | None | 3+1 | 3+1 |
Redundant fans | The device can work properly for a short time at 40ºC if a single fan fails. |
|
|
The device can work properly for a short time at 40ºC if a single fan fails. |
|
|
Redundant power supply | 1+1 | 2+2 | 4+4 | 1+1 |
|
|
Operating temperature |
|
|
|
|
|
|
Storage temperature | -40 °C to 70 °C (-40°F to 158°F) | -40 °C to 70 °C (-40°F to 158°F) | -40 °C to 70 °C (-40°F to 158°F) | -40 °C to 70 °C (-40°F to 158°F) | -40 °C to 70 °C (-40°F to 158°F) | -40 °C to 70 °C (-40°F to 158°F) |
Relative operating humidity |
|
|
|
|
|
|
Relative storage humidity | 5% to 95% RH, non-condensing | 5% to 95% RH, non-condensing | 5% to 95% RH, non-condensing | 5% to 95% RH, non-condensing | 5% to 95% RH, non-condensing | 5% to 95% RH, non-condensing |
Long-term operating altitude | ≤ 4000 m (If the altitude is between 1800 m and 4000 m, the device operating temperature must decrease by 1 ºC each time the altitude increases by 220 m.) | ≤ 4000 m (If the altitude is between 1800 m and 4000 m, the device operating temperature must decrease by 1 ºC each time the altitude increases by 220 m.) | ≤ 4000 m (If the altitude is between 1800 m and 4000 m, the device operating temperature must decrease by 1 ºC each time the altitude increases by 220 m.) | ≤ 4000 m (If the altitude is between 1800 m and 4000 m, the device operating temperature must decrease by 1 ºC each time the altitude increases by 220 m.) | ≤ 4000 m (If the altitude is between 1800 m and 4000 m, the device operating temperature must decrease by 1 ºC each time the altitude increases by 220 m.) | ≤ 4000 m (If the altitude is between 1800 m and 4000 m, the device operating temperature must decrease by 1 ºC each time the altitude increases by 220 m.) |
Storage altitude | Lower than 5000 m (16404 ft) | Lower than 5000 m (16404 ft) | Lower than 5000 m (16404 ft) | Lower than 5000 m (16404 ft) | Lower than 5000 m (16404 ft) | Lower than 5000 m (16404 ft) |
Dimensions (H x W x D) |
|
|
|
|
|
|
Weight (empty) |
|
25.8 kg (56.89 lb) (56.90 lb) | 69.6 kg (153.47 lb) (excluding the boards and filler panels) | 26 kg (57.33 lb) |
|
|
Weight (full configuration) |
|
136 kg (299.88 lb) | 279 kg (615.2 lb) |
|
|
|
Luis –
Great quality, router work well.