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Huawei OSN 9800 U16 U32 U64 UPS Comparison

Huawei OSN 9800 is a next-generation high-capacity, intelligent, and converged optical and packet Optical Transmission Network (OTN) platform for 100G and beyond.

Huawei OptiX OSN 9800 U16

PN: AA31B034

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Based on industry-leading T-bit universal switching platform, Huawei OSN 9800 supports OTN, Virtual Circuit (VC) and Packet (PKT). A high level of integration and a modular design enable service access from 2 Mbit/s to 400 Gigabit Ethernet (GE), with transmission of 100G/200G/400G/800G per lambda, which can be seamlessly expanded to 1T/2T.

OSN 9800 includes OSN 9800 U (U16, U32, U64) , M series (M05, M12, M24), P series (P32, P32C) and OSN 9800 UPS, they have different performance and service slots capacity, this article will mainly introduce the comparison of OSN 9800 U16 U32 U64 and OSN 9800 UPS.

Parameter OSN 9800 U16 OSN 9800 U32 Standard OSN 9800 U64 Standard OSN 9800 UPS
Dimensions (H x W x D) 847 mm × 442 mm × 295 mm 1900 mm × 498 mm × 295 mm 2200 mm × 600 mm × 600 mm 397 mm × 442 mm × 295 mm
Cabinet ETSI 300/600 cabinets, such as N63B and N66B
19-Inch Cabinet
ETSI 300/600 cabinets, such as N63B and N66B The subrack is integrated into a cabinet, and no additional cabinet needs to be configured. ETSI 300/600 cabinets, such as N63B and N66B
19-Inch Cabinet
Number of Slots for Service Boards 14 32 64 DC power-supply chassis: 16
AC power-supply chassis: 15
Optical Switching Capability N/A N/A N/A 1 to 20-degree ROADM
Electrical Switching Capability 5.6 Tbit/s ODUk (k = 0, 1, 2, 2e, 3, 4, flex)
2.8 Tbit/s packet services
1.12 Tbit/s VC-4
80 Gbit/s VC-3/VC-12
12.8 Tbit/s ODUk (k = 0, 1, 2, 2e, 3, 4, flex)
12.8 Tbit/s packet services
5.12 Tbit/s VC-4
160 Gbit/s VC-3/VC-12
25.6 Tbit/s ODUk (k = 0, 1, 2, 2e, 3, 4, flex)
25.6 Tbit/s packet services
10.24 Tbit/s VC-4
160 Gbit/s VC-3/VC-12
N/A
Max. Number of Wavelengths DWDM:
Fixed grid: 120 wavelengths @50 GHz grid
Flexiable grid: configurable
DWDM:
Fixed grid: 120 wavelengths @50 GHz grid
Flexiable grid: configurable
DWDM:
Fixed grid: 120 wavelengths @50 GHz grid
Flexiable grid: configurable
DWDM:
Fixed grid: 96 wavelengths @50 GHz grid
Flexiable grid: configurable
Wavelength Range DWDM: 1524.50 nm to 1572.06 nm (super C-band)
CWDM: 1471 nm to 1611 nm (S+C+L Band)
DWDM: 1524.50 nm to 1572.06 nm (super C-band)
CWDM: 1471 nm to 1611 nm (S+C+L Band)
DWDM: 1524.50 nm to 1572.06 nm (super C-band)
CWDM: 1471 nm to 1611 nm (S+C+L Band)
DWDM: 1529.16 nm to 1567.13 nm (extended C-band)
CWDM: 1471 nm to 1611 nm (S+C+L Band)
Max. Rate Per Channel 400 Gbit/s (OTUC4) 400 Gbit/s (OTUC4) 400 Gbit/s (OTUC4) 400 Gbit/s (OTUC4)
Service Type SDH/SONET, Ethernet, SAN, OTN, Video SDH/SONET, Ethernet, SAN, OTN, Video SDH/SONET, Ethernet, SAN, OTN, Video SDH/SONET, Ethernet, SAN, OTN, Video
Line Rate 2.5 Gbit/s, 10 Gbit/s, 40 Gbit/s, 100 Gbit/s, 200 Gbit/s, 400 Gbit/s 2.5 Gbit/s, 10 Gbit/s, 40 Gbit/s, 100 Gbit/s, 200 Gbit/s, 400 Gbit/s 2.5 Gbit/s, 10 Gbit/s, 40 Gbit/s, 100 Gbit/s, 200 Gbit/s, 400 Gbit/s 2.5 Gbit/s, 10 Gbit/s, 40 Gbit/s, 100 Gbit/s, 200 Gbit/s, 400 Gbit/s
Supported Pluggable
Optical Modules
eSFP, SFP+, XFP, CFP, CXP, CFP2, QSFP28, SFP28, QSFP+, QSFP-DD eSFP, SFP+, XFP, CFP, CXP, CFP2, QSFP28, SFP28, QSFP+, QSFP-DD eSFP, SFP+, XFP, CFP, CXP, CFP2
QSFP28, SFP28, QSFP+, QSFP-DD
eSFP, SFP+, XFP, CFP, CFP2, QSFP+, QSFP28
Topology Point-to-point, Chain, Star, Ring
Ring-with-chain, Tangent ring, Intersecting ring, Mesh
Point-to-point, Chain, Star, Ring
Ring-with-chain, Tangent ring, Intersecting ring, Mesh
Point-to-point, Chain, Star, Ring
Ring-with-chain, Tangent ring, Intersecting ring, Mesh
Point-to-point, Chain, Star, Ring, Ring-with-chain
Tangent ring, Intersecting ring, Mesh
Equipment Level Protection Power redundancy
Fan redundancy
Cross-connect unit redundancy
Communication control and clock processing unit redundancy
Power redundancy
Fan redundancy
Cross-connect unit redundancy
Communication control and clock processing unit redundancy
Power redundancy
Fan redundancy
Cross-connect unit redundancy
Communication control and clock processing unit redundancy
Power redundancy
Fan redundancy
System control and communication board redundancy
Network level protection (OTN) Client 1+1 protection
Intra-board 1+1 protection
LPT
ODUk SNCP
OSUflex SNCP
Tributary SNCP
Client 1+1 protection
Intra-board 1+1 protection
LPT
ODUk SNCP
OSUflex SNCP
Tributary SNCP
Client 1+1 protection
Intra-board 1+1 protection
LPT
ODUk SNCP
OSUflex SNCP
Tributary SNCP
Optical line protection
Intra-board 1+1 protection
Client 1+1 protection
SW SNCP
LPT
Network Level Protection (Packet) ERPS, LAG, LPT, MC-LAG, LMSP
MC-LMSP, MRPS, PW APS/FPS, MC-PW APS, Tunnel APS
ERPS, LAG, LPT, MC-LAG, PW APS/FPS, MC-PW APS, Tunnel APS ERPS, LAG, LPT, MC-LAG, PW APS/FPS, MC-PW APS, Tunnel APS N/A
Network Level Protection (OCS) LMSP
Ring MSP
SNCP
LMSP
Ring MSP
SNCP
LMSP
Ring MSP
SNCP
N/A
Network Level Protection (EoS) LAG, DLAG, LCAS, LPT, STP/RSTP, BPS, PPS LAG, DLAG, LCAS, LPT, STP/RSTP, BPS, PPS LAG, DLAG, LCAS, LPT, STP/RSTP, BPS, PPS N/A
Synchronization Synchronous Ethernet
IEEE 1588v2
ITU-T G.8275.1
Synchronous Ethernet
IEEE 1588v2
ITU-T G.8275.1
Synchronous Ethernet
IEEE 1588v2
ITU-T G.8275.1
Synchronous Ethernet
IEEE 1588v2
ITU-T G.8275.1
ASON Optical-Layer ASON
Electrical-Layer ASON
Optical-Layer ASON
Electrical-Layer ASON
Optical-Layer ASON
Electrical-Layer ASON
Optical-Layer ASON
TSDN Online Service Provisioning
Survivability Analysis
BOD
IP and Optical Collaboration
Online Service Provisioning
Survivability Analysis
BOD
IP and Optical Collaboration
Online Service Provisioning
Survivability Analysis
BOD
IP and Optical Collaboration
Online Service Provisioning
Survivability Analysis
BOD
IP and Optical Collaboration
Submarine Features Supports application of extended C band in submarine scenarios. Supports application of extended C band in submarine scenarios. Supports application of extended C band in submarine scenarios. Supports application of extended C band in submarine scenarios.
Nominal Working Voltage -48 V/-60 V DC -48 V/-60 V DC -48 V/-60 V DC -48 V/-60 V DC
110V AC/220V AC
Temperature Long-term operation: 5°C (41 °F) to 40°C (104 °F)
Short-term operation: -5°C (23 °F) to 50°C (122 °F)
Long-term operation: 5°C (41 °F) to 40°C (104 °F)
Short-term operation: -5°C (23 °F) to 45°C (113 °F)
Long-term operation: 5°C (41 °F) to 40°C (104 °F)
Short-term operation: -5°C (23 °F) to 45°C (113 °F)
Long-term operation: 5°C (41 °F) to 45°C (113 °F)
Short-term operation: -5°C(23 °F) to 55°C (131 °F)
Humidity Long-term operation: 5% to 85%
Short-term operation: 5% to 90%
Long-term operation: 5% to 85%
Short-term operation: 5% to 90%
Long-term operation: 5% to 85%
Short-term operation: 5% to 90%
Long-term operation: 5% to 85%
Short-term operation: 5% to 90%

For a new network, the OptiX OSN 9800 are usually used as electrical subrack and optical subrack. For a capacity expansion network, the 9800 supports multiple expansion modes, as shown in below figure, the following are the three main expansion modes:

  1. Node expansion: At a node, add OptiX OSN 9800 as electrical subrack and optical subrack, and interconnect the node with the OptiX OSN 8800 node on the network.
  2. Capacity expansion: At a node, add an electrical OptiX OSN 9800 subrack to work with existing electrical and optical OptiX OSN 8800 subracks to expand the electrical-layer capacity of the node.
  3. Grooming capability enhancement for optical line amplifier (OLA) sites: At an OLA site, an electrical OptiX OSN 9800 subrack is added to work with an existing optical OptiX OSN 8800 or 6800 subrack to enhance the electrical grooming capability of the OLA site.

OSN9800

Compared with Huawei OSN 8800, OSN 9800 is new and current market price is high, so customers still choose OSN 8800 for their WDM transmission network due to limited budget and more experienced OSN8800 technicians. Anyway, if you want to know OSN 9800, includes products, price and technical support, you can contact supports@thunder-link.com.

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