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WX3820H
H3C
New
1 Year
| Quantity: | |
|---|---|
In addition to 802.11a/b/g/n/ac AP management, the WX3800H series AC can work together with H3C 802.11ax based APs to provide wireless access speed several times faster than a traditional 802.11a/b/g/n/ac network. With 802.11ax large proximity which makes WLAN multimedia applications deployment a reality.
WX3800H series AC is developed based on the latest H3C V7 platform. The new system sports significantly improvements in performance and reliability over the previous version, and is able to run the increasingly complicated network applications in the enterprise market. V7 features the following advantages:
Multi-core control: V7 can adjust the ratio of control cores to the forwarding cores in the CPU to make the most out of CPU computing power and strike the balance between control tasks and forwarding tasks, while providing strong concurrent computing power
User mode multi-tasking: V7 adopts a completely new software privilege level system, where most network applications are executed in user mode, and allow each application runs a different task. Each task has its own dedicated resource and when a task fault occurs which will be isolated at its own space avoiding interruption of other tasks. This makes system run more securely and reliably
User task monitoring: V7 comes with task monitoring feature, in which all tasks are monitored. When a user task goes wrong, system will reload and application will quickly recover
New independent application upgrade: V7 supports independent application upgrade, where a single application module is upgraded instead of the whole operating system. This greatly reduces the number of system reboots compared with the previous version, keeping the upgrade secure and sustaining the network stability
WX3800H series AC adopts the latest high performance multi-core CPU. WX3840H AC CPU possesses 8 independent cores that can be virtualized to 32 logical cores, WX3820H series ACs have 4 independent cores that can be virtualized to 16 logical cores. The strong computing power allows the devices to handle more users, more concurrent transactions, decrease latency in order to improve user experience.
WX3800H series AC provides high port density for external access. This results in better unified wired and wireless access (integrated wired and wireless user management including user access, user authentication and billing management) and satisfy network construction and access requirements.
WX3820H provides 8 GE Combo and 2 10G SFP+ ports;
WX3840H provides 8 GE Combo, 2 10G SFP+ ports and 1 management port. The management provides out-of-band management capability
Item | WX3820H | |
Dimensions (WxDxH) | 440mm×420mm×43.6mm | |
Weight | 7.3kg (installed with dual power supplies) | |
Throughput | 8Gbps | |
Port | 8 GE+SFP combo 2 SFP+ 1 console | |
Power supplies | 1 AC power supply included, swappable power supply, 1+1 redundant backup (separately ordered) | |
Max power consumption | <300W | |
Operating and storage temperature | 0℃~45℃/-40℃~70℃ | |
Operating and storage relative humidity | 5%~95% | |
Safety Compliance | UL 60950-1 CAN/CSA C22.2 No 60950-1 IEC 60950-1 EN 60950-1/A11 AS/NZS 60950 EN 60825-1 EN 60825-2 EN60601-1-2 FDA 21 CFR Subchapter J | |
EMC | ETSI EN 300 386 V1.3.3:2005 EN 55024: 1998+ A1: 2001 + A2: 2003 EN 55022 :2006 VCCI V-3:2007 ICES-003:2004 EN 61000-3-2:2000+A1:2001+A2:2005 EN 61000-3-3:1995+A1:2001+A2:2005 AS/NZS CISPR 22:2004 FCC PART 15:2005 GB 9254:1998 GB/T 17618:1998 | |
MTBF | ≥38 years | |
Item | Feature | WX3820H | |
Basic functions | Number of managed APs by default | 0 | |
Size of license | 1/4/8/16/32/64/128/512/1024 | ||
Maximum number of managed APs | 512(Recommend local forwarding) 256(Recommend centralized forwarding) | ||
Maximum number of STA | 8192 | ||
802.11MAC | 802.11 Protocols | √ | |
Multi-SSID (Per RF) | 16 | ||
SSID hiding | √ | ||
11G protection | √ | ||
11n only | √ | ||
Use number limit | Supported: SSID based, per RF based | ||
Keep-alive | √ | ||
Idle | √ | ||
Multi-country code assignment | √ | ||
Wireless user isolation | Supported: VLAN based wireless users 2-layer isolation SSID based wireless user 2-layer isolation | ||
20MHz/40MHz auto-switch in 40MHz mode | √ | ||
Local forwarding | Local forwarding based on SSID+VLAN | ||
CAPWAP | Auto AP serial number entry | √ | |
AC discovery (DHCP option43, DNS) | √ | ||
IPv6 tunnel | √ | ||
Clock synchronization | √ | ||
Jumbo frame forwarding | √ | ||
Assign basic AP network parameter through AC | Supported: Static IP, VLAN, connected AC address | ||
L2/L3 connection between AP and AC | √ | ||
NAT traversal between AP and AC | √ | ||
Roaming | Intra-AC, Inter-AP L2 and L3 roaming | √ | |
Inter-AC, Inter-AP L2 and L3 roaming | √ | ||
GW features | NAT | √ | |
PPPoE | √ | ||
DDNS | √ | ||
IPSEC VPN | √ | ||
SSL VPN | √ | ||
GRE | √ | ||
Access control | Open system, Shared-Key | √ | |
WEP-64/128, dynamic WEP | √ | ||
WPA,WPA2,WPA3 | √ | ||
TKIP | √ | ||
CCMP | √(11n recommended) | ||
SSH v1.5/v2.0 | √ | ||
Wireless EAD (End-point Access Domination) | √ | ||
Portal authentication | Supported: Remote Authentication, external server | ||
Portal page redirection | Supported: SSID based, AP Portal page push | ||
Portal by-pass Proxy | √ | ||
802.1x authentication | EAP-TLS, EAP-TTLS, EAP-PEAP, EAP-MD5, EAP-SIM, LEAP, EAP-FAST, EAP offload (TLS, PEAP only) | ||
Local authentication | 802.1X, Portal, MAC authentication | ||
LDAP authentication | 802.1X and Portal EAP-GTC and EAP-TLS supported by 802.1X login | ||
AP location-based user access control | √ | ||
Guest Access control | √ | ||
VIP channel | √ | ||
ARP attack detection | Supported: Wireless SAVI | ||
SSID anti-spoofing | SSID + user name binding | ||
AAA server selection based on SSID and domain | √ | ||
AAA server back up | √ | ||
Local AAA server for wireless user | √ | ||
TACACS+ | √ | ||
QoS | Priority mapping | √ | |
L2-L4 packet filtering and traffic classification | √ | ||
Rate limit | Supported with granularity of 8Kbps | ||
802.11e/WMM | √ | ||
Access control based on user profile | √ | ||
Intelligent bandwidth limit (equal bandwidth share algorithm) | √ | ||
Intelligent bandwidth limit (user specific) | √ | ||
Intelligent bandwidth guarantee | Supported: Free flow for packets coming from every SSID When traffic is not congested, and guarantee a minimum bandwidth for each SSID when traffic is congested | ||
QoS Optimization for SVP phone | √ | ||
CAC(Call Admission Control) | Supported: based on user number/bandwidth | ||
End-to-end QoS | √ | ||
AP upload speed limit | √ | ||
In addition to 802.11a/b/g/n/ac AP management, the WX3800H series AC can work together with H3C 802.11ax based APs to provide wireless access speed several times faster than a traditional 802.11a/b/g/n/ac network. With 802.11ax large proximity which makes WLAN multimedia applications deployment a reality.
WX3800H series AC is developed based on the latest H3C V7 platform. The new system sports significantly improvements in performance and reliability over the previous version, and is able to run the increasingly complicated network applications in the enterprise market. V7 features the following advantages:
Multi-core control: V7 can adjust the ratio of control cores to the forwarding cores in the CPU to make the most out of CPU computing power and strike the balance between control tasks and forwarding tasks, while providing strong concurrent computing power
User mode multi-tasking: V7 adopts a completely new software privilege level system, where most network applications are executed in user mode, and allow each application runs a different task. Each task has its own dedicated resource and when a task fault occurs which will be isolated at its own space avoiding interruption of other tasks. This makes system run more securely and reliably
User task monitoring: V7 comes with task monitoring feature, in which all tasks are monitored. When a user task goes wrong, system will reload and application will quickly recover
New independent application upgrade: V7 supports independent application upgrade, where a single application module is upgraded instead of the whole operating system. This greatly reduces the number of system reboots compared with the previous version, keeping the upgrade secure and sustaining the network stability
WX3800H series AC adopts the latest high performance multi-core CPU. WX3840H AC CPU possesses 8 independent cores that can be virtualized to 32 logical cores, WX3820H series ACs have 4 independent cores that can be virtualized to 16 logical cores. The strong computing power allows the devices to handle more users, more concurrent transactions, decrease latency in order to improve user experience.
WX3800H series AC provides high port density for external access. This results in better unified wired and wireless access (integrated wired and wireless user management including user access, user authentication and billing management) and satisfy network construction and access requirements.
WX3820H provides 8 GE Combo and 2 10G SFP+ ports;
WX3840H provides 8 GE Combo, 2 10G SFP+ ports and 1 management port. The management provides out-of-band management capability
Item | WX3820H | |
Dimensions (WxDxH) | 440mm×420mm×43.6mm | |
Weight | 7.3kg (installed with dual power supplies) | |
Throughput | 8Gbps | |
Port | 8 GE+SFP combo 2 SFP+ 1 console | |
Power supplies | 1 AC power supply included, swappable power supply, 1+1 redundant backup (separately ordered) | |
Max power consumption | <300W | |
Operating and storage temperature | 0℃~45℃/-40℃~70℃ | |
Operating and storage relative humidity | 5%~95% | |
Safety Compliance | UL 60950-1 CAN/CSA C22.2 No 60950-1 IEC 60950-1 EN 60950-1/A11 AS/NZS 60950 EN 60825-1 EN 60825-2 EN60601-1-2 FDA 21 CFR Subchapter J | |
EMC | ETSI EN 300 386 V1.3.3:2005 EN 55024: 1998+ A1: 2001 + A2: 2003 EN 55022 :2006 VCCI V-3:2007 ICES-003:2004 EN 61000-3-2:2000+A1:2001+A2:2005 EN 61000-3-3:1995+A1:2001+A2:2005 AS/NZS CISPR 22:2004 FCC PART 15:2005 GB 9254:1998 GB/T 17618:1998 | |
MTBF | ≥38 years | |
Item | Feature | WX3820H | |
Basic functions | Number of managed APs by default | 0 | |
Size of license | 1/4/8/16/32/64/128/512/1024 | ||
Maximum number of managed APs | 512(Recommend local forwarding) 256(Recommend centralized forwarding) | ||
Maximum number of STA | 8192 | ||
802.11MAC | 802.11 Protocols | √ | |
Multi-SSID (Per RF) | 16 | ||
SSID hiding | √ | ||
11G protection | √ | ||
11n only | √ | ||
Use number limit | Supported: SSID based, per RF based | ||
Keep-alive | √ | ||
Idle | √ | ||
Multi-country code assignment | √ | ||
Wireless user isolation | Supported: VLAN based wireless users 2-layer isolation SSID based wireless user 2-layer isolation | ||
20MHz/40MHz auto-switch in 40MHz mode | √ | ||
Local forwarding | Local forwarding based on SSID+VLAN | ||
CAPWAP | Auto AP serial number entry | √ | |
AC discovery (DHCP option43, DNS) | √ | ||
IPv6 tunnel | √ | ||
Clock synchronization | √ | ||
Jumbo frame forwarding | √ | ||
Assign basic AP network parameter through AC | Supported: Static IP, VLAN, connected AC address | ||
L2/L3 connection between AP and AC | √ | ||
NAT traversal between AP and AC | √ | ||
Roaming | Intra-AC, Inter-AP L2 and L3 roaming | √ | |
Inter-AC, Inter-AP L2 and L3 roaming | √ | ||
GW features | NAT | √ | |
PPPoE | √ | ||
DDNS | √ | ||
IPSEC VPN | √ | ||
SSL VPN | √ | ||
GRE | √ | ||
Access control | Open system, Shared-Key | √ | |
WEP-64/128, dynamic WEP | √ | ||
WPA,WPA2,WPA3 | √ | ||
TKIP | √ | ||
CCMP | √(11n recommended) | ||
SSH v1.5/v2.0 | √ | ||
Wireless EAD (End-point Access Domination) | √ | ||
Portal authentication | Supported: Remote Authentication, external server | ||
Portal page redirection | Supported: SSID based, AP Portal page push | ||
Portal by-pass Proxy | √ | ||
802.1x authentication | EAP-TLS, EAP-TTLS, EAP-PEAP, EAP-MD5, EAP-SIM, LEAP, EAP-FAST, EAP offload (TLS, PEAP only) | ||
Local authentication | 802.1X, Portal, MAC authentication | ||
LDAP authentication | 802.1X and Portal EAP-GTC and EAP-TLS supported by 802.1X login | ||
AP location-based user access control | √ | ||
Guest Access control | √ | ||
VIP channel | √ | ||
ARP attack detection | Supported: Wireless SAVI | ||
SSID anti-spoofing | SSID + user name binding | ||
AAA server selection based on SSID and domain | √ | ||
AAA server back up | √ | ||
Local AAA server for wireless user | √ | ||
TACACS+ | √ | ||
QoS | Priority mapping | √ | |
L2-L4 packet filtering and traffic classification | √ | ||
Rate limit | Supported with granularity of 8Kbps | ||
802.11e/WMM | √ | ||
Access control based on user profile | √ | ||
Intelligent bandwidth limit (equal bandwidth share algorithm) | √ | ||
Intelligent bandwidth limit (user specific) | √ | ||
Intelligent bandwidth guarantee | Supported: Free flow for packets coming from every SSID When traffic is not congested, and guarantee a minimum bandwidth for each SSID when traffic is congested | ||
QoS Optimization for SVP phone | √ | ||
CAC(Call Admission Control) | Supported: based on user number/bandwidth | ||
End-to-end QoS | √ | ||
AP upload speed limit | √ | ||
