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Huawei CloudEngine S6730-H series full-featured 10 GE switches are Huawei's new-generation fixed switches ,to provide 10 GE downlink ports as well as 100 GE uplink ports.
Quick Specs
Figure 1 shows the appearance of Huawei S6730-H48X6C switch.
Table 1 shows the Quick Specs.
|
Product Code |
S6730-H48X6C |
|
Fixed ports |
48 x 10 Gig SFP+, 6 x 40/100 Gig QSFP28 |
|
Dimensions (W x D x H) |
442 mm x 420 mm x 43.6 mm |
|
Chassis height(U) |
1U |
|
Input voltage l |
• AC Power - Rated AC voltage: 100V to 240V AC; 50/60 Hz - Max. AC voltage: 90V to 290V AC; 45–65 Hz • DC Power - Rated DC voltage: –48V~–60V - Max. DC voltage:-38.4V DC~-72V DC |
|
Input current |
AC 600W:Max 8A DC 1000W:Max 30A |
|
Maximum power consumption |
274W |
|
Minimum power consumption |
97W |
Product Details
Figure 2 shows the front panel of Huawei S6730-H48X6C switch.
Note:
|
① |
Forty-eight 10GE SFP+ ports |
② |
Six 40GE/100GE QSFP28 optical ports |
Figure 3 shows the back panel of Huawei S6730-H48X6C switch.
Note:
|
① |
Ground screw |
⑦ |
Fan module slot 1 |
|
② |
SSD card slot |
⑧ |
Fan module slot 2 |
|
③ |
One console port |
⑨ |
Fan module slot 3 |
|
④ |
One ETH management port |
⑩ |
Fan module slot 4 |
|
⑤ |
One USB port |
⑪ |
Power module slot 1 |
|
⑥ |
One PNP button |
⑫ |
Power module slot 2 |
The Modules
Table 2 shows the recommended products.
|
Model |
Description |
|
eSFP-GE-SX-MM850 |
Optical Transceiver,eSFP,GE,Multi-mode Module(850nm,0.55km,LC) |
|
SFP-GE-LX-SM1310 |
Optical Transceiver,eSFP,GE,Single-mode Module(1310nm,10km,LC) |
|
eSFP-GE-ZX100-SM1550 |
Optical Transceiver,eSFP,GE,Single-mode Module(1550nm,100km,LC) |
|
SFP-GE-LX-SM1310-BIDI |
Optical Transceiver,eSFP,GE,BIDI Single-mode Module(TX1310/RX1490,10km,LC) |
|
SFP-GE-LX-SM1490-BIDI |
Optical Transceiver,eSFP,GE,BIDI Single-mode Module(TX1490/RX1310,10km,LC) |
|
LE2MGSC40DE0 |
Optical Transceiver,eSFP,GE,BIDI Single-mode Module(TX1310/RX1490,40km,LC) |
|
LE2MGSC40ED0 |
Optical Transceiver,eSFP,GE,BIDI Single-mode Module(TX1490/RX1310,40km,LC) |
|
SFP-GE-ZBXD1 |
Optical Transceiver,eSFP,GE,BIDI Single-mode Module(1570nm(Tx)/1490nm(Rx),80km,LC) |
|
SFP-GE-ZBXU1 |
Optical Transceiver,eSFP,GE,BiDi Single-mode Module(1490nm(Tx)/1570nm(Rx),80km,LC) |
|
SFP-GE-BXU1-SC |
1000Base,BIDI Optical Transceiver,SFP,GE,Single-mode Module(TX1490nm/RX1310nm,10km,SC) |
|
CWDM-SFPGE-1551 |
CWDM Optical Transceiver,eSFP,2.5G,Single-mode Module(1551nm,80km,LC) |
|
CWDM-SFPGE-1571 |
CWDM Optical Transceiver,eSFP,2.5G,Single-mode Module(1571nm,80km,LC) |
|
CWDM-SFPGE-1591 |
CWDM Optical Transceiver,eSFP,2.5G,Single-mode Module(1591nm,80km,LC) |
|
DWDM-SFPGE-1560-61 |
DWDM Optical Transceiver,eSFP,2.5G,Single-mode Module(1560.61nm,120km,LC) |
|
SFP-1000BaseT |
Electrical Transceiver,SFP,GE,Electrical Interface Module(100m,RJ45) |
|
SFP-10G-USR |
10GBase-USR Optical Transceiver,SFP+,10G,Multi-mode Module(850nm,0.1km,LC) |
|
OMXD30000 |
Optical Transceiver,SFP+,10G,Multi-mode Module(850nm,0.3km,LC) |
|
SFP-10G-iLR |
Optical Transceiver,SFP+,10G,Single-mode Module(1310nm,1.4km,LC) |
|
OSX010000 |
Optical Transceiver,SFP+,10G,Single-mode Module(1310nm,10km,LC) |
|
OSX040N01 |
Optical Transceiver,SFP+,10G,Single-mode Module(1550nm,40km,LC) |
|
SFP-10G-ER-1310 |
Optical Transceiver,SFP+,10G,Single-mode Module(1310nm,40km,LC) |
|
SFP-10G-ZR |
10GBase-ZR Optical Transceiver,SFP+,10G,Single-mode Module(1550nm,80km,LC) |
|
SFP-10G-ZCW1551 |
Optical Transceiver,SFP+,10G,Single-mode Module(CWDM,1551nm,70km,LC) |
|
SFP-10G-ZCW1571 |
Optical Transceiver,SFP+,10G,Single-mode Module(CWDM,1571nm,70km,LC) |
|
SFP-10G-ZCW1591 |
Optical Transceiver,SFP+,10G,Single-mode Module(CWDM,1591nm,70km,LC) |
|
SFP-10G-ZCW1611 |
Optical Transceiver,SFP+,10G,Single-mode Module(CWDM,1611nm,70km,LC) |
|
QSFP-40G-SR4 |
40GBase-SR4 Optical Transceiver,QSFP+,40G,Multi-mode (850nm,0.15km,MPO) |
|
QSFP-40G-iSR4 |
40GBase-iSR4 Optical Transceiver,QSFP+,40G,Multi-mode (850nm,0.15km,MPO)(Connect to four SFP+ Optical Transceiver) |
|
QSFP-40G-eSR4 |
40GBase-eSR4 Optical Transceiver,QSFP+,40G,Multi-mode (850nm,0.3km,MPO)(Connect to four SFP+ Optical Transceiver) |
Compare to Similar Items
Table 3 shows the comparison.
|
Product Code |
S6730-H24X6C |
S6730-H48X6C |
|
Fixed ports |
24 x 10 Gig SFP+, 6 x 40/100 Gig QSFP28 |
48 x 10 Gig SFP+, 6 x 40/100 Gig QSFP28 |
|
Dimensions (W x D x H) |
442 mm x 420 mm x 43.6 mm |
442 mm x 420 mm x 43.6 mm |
|
Chassis height(U) |
1U |
1U |
|
Input voltage l |
• AC Power - Rated AC voltage: 100V to 240V AC; 50/60 Hz - Max. AC voltage: 90V to 290V AC; 45–65 Hz • DC Power - Rated DC voltage: –48V~–60V - Max. DC voltage:-38.4V DC~-72V DC |
• AC Power - Rated AC voltage: 100V to 240V AC; 50/60 Hz - Max. AC voltage: 90V to 290V AC; 45–65 Hz • DC Power - Rated DC voltage: –48V~–60V - Max. DC voltage:-38.4V DC~-72V DC |
|
Input current |
AC 600W:Max 8A DC 1000W:Max 30A |
AC 600W:Max 8A DC 1000W:Max 30A |
|
Maximum power consumption |
231W |
274W |
|
Minimum power consumption |
97W |
97W |
Get More Information
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S6730-H48X6C Specification |
|
|
Fixed ports |
48 x 10 Gig SFP+, 6 x 40/100 Gig QSFP28 |
|
Dimensions (W x D x H) |
442 mm x 420 mm x 43.6 mm |
|
Chassis height(U) |
1U |
|
Input voltage l |
• AC Power - Rated AC voltage: 100V to 240V AC; 50/60 Hz - Max. AC voltage: 90V to 290V AC; 45–65 Hz • DC Power - Rated DC voltage: –48V~–60V - Max. DC voltage:-38.4V DC~-72V DC |
|
Input current |
AC 600W:Max 8A DC 1000W:Max 30A |
|
Maximum power consumption |
274W |
|
Minimum power consumption |
97W |
|
Operating temperature |
• 0–1800 m altitude: -5°C to 45°C • 1800–5000 m altitude: The operating temperature reduces by 1°C every time the altitude increases by 220 m. |
|
Storage temperature |
-40-70℃ |
|
Operating altitude |
5000 m |
|
Noise (sound pressure at normal temperature) |
65dB(A) |
|
Surge protection specification
|
AC power interface: differential mode: ±6kV: common mode: ±6kV DC power interface: differential mode: ±2kV: common mode: ±4kV |
|
Power supply type |
600W AC Power 1000W DC Power |
|
Relative humidity |
5% to 95% (non-condensing) |
|
Fans |
4, Fan modules are pluggable |
|
Heat dissipation |
Heat dissipation with fan, intelligent fan speed adjustment |
|
MAC |
Up to 384K MAC address entries IEEE 802.1d standards compliance MAC address learning and aging Static, dynamic, and blackhole MAC address entries Packet filtering based on source MAC addresses |
|
VLAN |
4K VLANs Guest VLANs and voice VLANs GVRP MUX VLAN VLAN assignment based on MAC addresses, protocols, IP subnets, policies, and ports VLAN mapping |
|
ARP |
Static ARP Dynamic ARP |
|
IP routing |
Static routes, RIP v1/2, RIPng, OSPF, OSPFv3, IS-IS, IS-ISv6, BGP, BGP4+, ECMP, routing policy Up to 256K FIBv4 entries Up to 80K FIBv6 entries |
|
Interoperability |
VLAN-Based Spanning Tree (VBST), working with PVST, PVST+, and RPVST Link-type Negotiation Protocol (LNP), similar to DTP VLAN Central Management Protocol (VCMP), similar to VTP |
|
Wireless service |
AP access control, AP domain management, and AP configuration template management Radio management, unified static configuration, and dynamic centralized management WLAN basic services, QoS, security, and user management CAPWAP, tag/terminal location, and spectrum analysis |
|
Ethernet loop protection
|
RRPP ring topology and RRPP multi-instance Smart Link tree topology and Smart Link multi-instance, providing millisecond-level protection switchover SEP ERPS (G.8032) BFD for OSPF, BFD for IS-IS, BFD for VRRP, and BFD for PIM STP (IEEE 802.1d), RSTP (IEEE 802.1w), and MSTP (IEEE 802.1s) BPDU protection, root protection, and loop protection |
|
MPLS |
MPLS L3VPN MPLS L2VPN (VPWS/VPLS) MPLS-TE MPLS QoS |
|
IPv6 features |
Neighbor Discover (ND) PMTU IPv6 Ping, IPv6 Tracert, IPv6 Telnet ACLs based on source IPv6 addresses, destination IPv6 addresses, Layer 4 ports, or protocol types Multicast Listener Discovery snooping (MLDv1/v2) IPv6 addresses configured for sub-interfaces, VRRP6, DHCPv6, and L3VPN |
|
Multicast |
IGMP v1/v2/v3 snooping and IGMP fast leave Multicast forwarding in a VLAN and multicast replication between VLANs Multicast load balancing among member ports of a trunk Controllable multicast Port-based multicast traffic statistics IGMP v1/v2/v3, PIM-SM, PIM-DM, and PIM-SSM MSDP Multicast VPN |
|
QoS/ACL |
Rate limiting in the inbound and outbound directions of a port Packet redirection Port-based traffic policing and two-rate three-color CAR Eight queues on each port DRR, SP, and DRR+SP queue scheduling algorithms WRED Re-marking of the 802.1p and DSCP fields of packets Packet filtering at Layer 2 to Layer 4, filtering out invalid frames based on the source MAC address, destination MAC address, source IP address, destination IP address, TCP/UDP source/destination port number, protocol type, and VLAN ID Queue-based rate limiting and shaping on ports |
|
Security |
Hierarchical user management and password protection DoS attack defense, ARP attack defense, and ICMP attack defense Binding of the IP address, MAC address, port number, and VLAN ID Port isolation, port security, and sticky MAC MAC Forced Forwarding (MFF) Blackhole MAC address entries Limit on the number of learned MAC addresses IEEE 802.1X authentication and limit on the number of users on a port AAA authentication, RADIUS authentication, and HWTACACS authentication NAC SSH V2.0 HTTPS CPU protection Blacklist and whitelist Attack source tracing and punishment for IPv6 packets such as ND, DHCPv6, and MLD packets IPSec for management packet encryption ECA Deception |
|
Reliability |
LACP E-Trunk Ethernet OAM (IEEE 802.3ah and IEEE 802.1ag) ITU-Y.1731 DLDP LLDP BFD for BGP, BFD for IS-IS, BFD for OSPF, BFD for static routes |
|
VXLAN |
VXLAN functions, VXLAN L2 and L3 gateways, BGP EVPN VXLAN configuration using NETCONF/YANG |
|
SVF |
Acting as the parent node to vertically virtualize downlink switches and APs as one device for management Two-layer client architecture ASs can be independently configured. Services not supported by templates can be configured on the parent node. Third-party devices allowed between SVF parent and clients |
|
iPCA |
Marking service packets to obtain the packet loss ratio and number of lost packets in real time Measurement of the number of lost packets and packet loss ratio on networks and devices |
|
Management and maintenance
|
Cloud-based management Virtual cable test SNMP v1/v2c/v3 RMON Web-based NMS System logs and alarms of different severities GVRP MUX VLAN NetStream Telemetry |
| Характеристики | |
| ARP | Static ARPDynamic ARP |
| Chassis height(U) | 1U |
| Dimensions (W x D x H) | 442 mm x 420 mm x 43.6 mm |
| Ethernet Loop Protection | RRPP ring topology and RRPP multi-instanceSmart Link tree topology and Smart Link multi-instance, providing millisecond-level protectionswitchoverSEPERPS (G.8032)BFD for OSPF, BFD for IS-IS, BFD for VRRP, and BFD for PIMSTP (IEEE 802.1d), RSTP (IEEE 802.1w), and MSTP (IEEE 802.1s)BPDU protection, root protection, and loop protection |
| Fans | 4, Fan modules are pluggable |
| Fixed ports | 48 x 10 Gig SFP+, 6 x 40/100 Gig QSFP28 |
| Heat dissipation | Heat dissipation with fan, intelligent fan speed adjustment |
| Input current | AC 600W:Max 8ADC 1000W:Max 30A |
| Input voltagel | • AC Power- Rated AC voltage: 100V to 240V AC; 50/60 Hz- Max. AC voltage: 90V to 290V AC; 45–65 Hz• DC Power- Rated DC voltage: –48V~–60V- Max. DC voltage:-38.4V DC~-72V DC |
| Interoperability | VLAN-Based Spanning Tree (VBST), working with PVST, PVST+, and RPVSTLink-type Negotiation Protocol (LNP), similar to DTPVLAN Central Management Protocol (VCMP), similar to VTP |
| IP Routing | Static routes, RIP v1/2, RIPng, OSPF, OSPFv3, IS-IS, IS-ISv6, BGP, BGP4+, ECMP, routing policyUp to 256K FIBv4 entriesUp to 80K FIBv6 entries |
| iPCA | Marking service packets to obtain the packet loss ratio and number of lost packets in real timeMeasurement of the number of lost packets and packet loss ratio on networks and devices |
| IPv6 features | Neighbor Discover (ND)PMTUIPv6 Ping, IPv6 Tracert, IPv6 TelnetACLs based on source IPv6 addresses, destination IPv6 addresses, Layer 4 ports, or protocol typesMulticast Listener Discovery snooping (MLDv1/v2)IPv6 addresses configured for sub-interfaces, VRRP6, DHCPv6, and L3VPN |
| MAC | Up to 384K MAC address entriesIEEE 802.1d standards complianceMAC address learning and agingStatic, dynamic, and blackhole MAC address entriesPacket filtering based on source MAC addresses |
| Management and Maintenance | Cloud-based managementVirtual cable testSNMP v1/v2c/v3RMONWeb-based NMSSystem logs and alarms of different severitiesGVRPMUX VLANNetStreamTelemetry |
| Maximum power consumption | 274W |
| Minimum power consumption | 97W |
| MPLS | MPLS L3VPNMPLS L2VPN (VPWS/VPLS)MPLS-TEMPLS QoS |
| Multicast | IGMP v1/v2/v3 snooping and IGMP fast leaveMulticast forwarding in a VLAN and multicast replication between VLANsMulticast load balancing among member ports of a trunkControllable multicastPort-based multicast traffic statisticsIGMP v1/v2/v3, PIM-SM, PIM-DM, and PIM-SSMMSDPMulticast VPN |
| Noise (sound pressure at normal temperature) | 65dB(A) |
| Operating altitude | 5000 m |
| Operating Temperature | • 0–1800 m altitude: -5°C to 45°C• 1800–5000 m altitude: The operating temperature reduces by 1°C every time the altitude increases by 220 m. |
| Power supply type | 600W AC Power1000W DC Power |
| QoS/ACL | Rate limiting in the inbound and outbound directions of a portPacket redirectionPort-based traffic policing and two-rate three-color CAREight queues on each portDRR, SP, and DRR+SP queue scheduling algorithmsWREDRe-marking of the 802.1p and DSCP fields of packetsPacket filtering at Layer 2 to Layer 4, filtering out invalid frames based on the source MAC address,destination MAC address, source IP address, destination IP address, TCP/UDP source/destinationport number, protocol type, and VLAN IDQueue-based rate limiting and shaping on ports |
| Relative humidity | 5% to 95% (non-condensing) |
| Reliability | LACPE-TrunkEthernet OAM (IEEE 802.3ah and IEEE 802.1ag)ITU-Y.1731DLDPLLDPBFD for BGP, BFD for IS-IS, BFD for OSPF, BFD for static routes |
| Security | Hierarchical user management and password protectionDoS attack defense, ARP attack defense, and ICMP attack defenseBinding of the IP address, MAC address, port number, and VLAN IDPort isolation, port security, and sticky MACMAC Forced Forwarding (MFF)Blackhole MAC address entriesLimit on the number of learned MAC addressesIEEE 802.1X authentication and limit on the number of users on a portAAA authentication, RADIUS authentication, and HWTACACS authenticationNACSSH V2.0HTTPSCPU protectionBlacklist and whitelistAttack source tracing and punishment for IPv6 packets such as ND, DHCPv6, and MLD packetsIPSec for management packet encryptionECADeception |
| Storage temperature | -40-70℃ |
| Surge protection specification | AC power interface: differential mode: ±6kV: common mode: ±6kVDC power interface: differential mode: ±2kV: common mode: ±4kV |
| SVF | Acting as the parent node to vertically virtualize downlink switches and APs as one device formanagementTwo-layer client architectureASs can be independently configured. Services not supported by templates can be configured onthe parent node.Third-party devices allowed between SVF parent and clients |
| VLAN | 4K VLANsGuest VLANs and voice VLANsGVRPMUX VLANVLAN assignment based on MAC addresses, protocols, IP subnets, policies, and portsVLAN mapping |
| VXLAN | VXLAN functions, VXLAN L2 and L3 gateways, BGP EVPNVXLAN configuration using NETCONF/YANG |
| Wireless service | AP access control, AP domain management, and AP configuration template managementRadio management, unified static configuration, and dynamic centralized managementWLAN basic services, QoS, security, and user managementCAPWAP, tag/terminal location, and spectrum analysis |
Теги: S6730-H48X6C Huawei