Gigabit optical SFP port

In some cases, a 100-meter cable length is not enough to connect remote external access points. The WA6620X series access points feature a Gigabit SFP optical port, eliminating the need for optical modems, which are an additional point of failure.

Supports OFDMA technology

WA6620X series wireless access points support Orthogonal Frequency Division Multiple Access (OFDMA) technology, that is, access points can further divide wireless channels, use different subchannels to simultaneously transmit data to multiple terminals, which reduces latency, associated with conflicts for wireless interface resources on the part of several users, characteristic of traditional protocols. This improves quality of service for applications that require low latency, such as voice and video in multi-user scenarios.

Spatial multiplexing

WA6620X series wireless access points support spatial multiplexing technology. Access points are able to simultaneously monitor and regulate transmit power by identifying unrelated messages that can lead to interference from adjacent channels when multiple users operate, and also significantly increase the efficiency of use of frequency spectrum resources.

Target Wake Time (TWT)

The WA6620X series wireless access points support TWT technology, which allows access points to uniformly schedule the wake-up and sleep periods of terminals. This not only reduces conflicts between terminals, but also reduces the number of unnecessary wake-ups of the terminal, which has a positive effect on its power consumption.

DL/UL MU-MIMO technology (Wi-Fi 6)

H3C’s WA6620X access points support DL/UL MU-MIMO, the most important feature of the 802.11ax standard. . DL/UL MU-MIMO technology allows the access point to transmit data simultaneously to several devices, which significantly increases the efficiency of data exchange and the quality of connections.

Built-in Bluetooth module

The WA6620X access points from H3C have a built-in Bluetooth module for connecting a console at a distance of up to 10 meters, which reduces the amount of additional work during installation and maintenance of equipment, simplifies troubleshooting and provides support for iBeacon parameter negotiation.

Cellular Coexistence Function (CCF)

H3C implements built-in hardware filters that minimize the impact of interference from 3G/4G cellular networks.

Anchor access controller mode

Mode Anchor Access Controller (Anchor AC) is designed for networks of any size, including small and medium enterprise networks. In anchor access controller mode, the access point can act as a virtual controller for the entire network.

Cloud management

Points H3C cloud-managed access points are designed based on the Cloudnet platform, which allows administrators to manage cloud access points directly, such as viewing the status of cloud access points in real time and downloading configurations from the cloud to cloud access points. This significantly increases the efficiency of the network, increases its security and stability.

Access to the intelligent cloud and optimal cost of ownership of a wireless network

WA6620X access points are 802.11ax compliant and support a maximum wireless data rate of 2.4 Gbps for two radios in the 5 GHz band. With improved adaptive antenna array technology, they can increase coverage, improve access density and stability, optimize mobile cloud access and reduce wireless total cost of ownership

Local forwarding

When WA6620X access points operate in dependent mode with packet forwarding over a distributed network (WAN), they are typically installed as data network access devices in branch offices, then how wireless network access controllers are located at headquarters. In this case, all user data is forwarded from the access point to the access controller and then centrally forwarded by the access controller. WA6620X access points are capable of forwarding packets from a wireless network to a wired network without redirecting them to the access controller locally, which significantly saves the bandwidth of distributed network channels.

Dual IPv4/IPv6 protocol stack (standard IPv6 support

WA6620X access points are fully IPv6 compatible and support dual IPv4/IPv6 protocol stack. Existing IPv4 and IPv6 wired networks can be used in parallel and efficiently to register wireless networks on H3C WX or Cloudnet series access controllers, so that they do not function as isolated information silos.

End node access control (EAD) mechanism

Control mechanism end device access H3C End user Admission Domination (EAD) combines solutions to ensure network access security and end device security, so that only wireless clients that meet the mandatory requirements of corporate security policies can access the network; this reduces threats from infected wireless devices and generally improves the security of your wireless network. When working in conjunction with a security policy server, this solution can send reminders to users, isolate and disconnect them from the network if systems are infected or do not have the necessary update packages.

Remote data collection and analysis

WA6620X access points can act as remote sensors and analyzer devices. They can capture Wi-Fi packets in the nearby airwaves and store them on a local device in real time for troubleshooting and analysis of optimization opportunities. Remote sensors can provide isolated images for operating channels or poll all channels depending on wireless network monitoring and maintenance requirements.

RF Optimization Engine (ROE)

WA6620X access points support RF Optimizing Engine (ROE), which effectively increases the number of simultaneous sessions in medium-to-high-density user environments, speeds up streaming media applications, and improves performance quality of service through RF optimization based on character and protocol. Its functionality includes fair multi-user access, mixed fair access, interference filtering, speed optimization, spectrum recommendations, IPv4/IPv6 multicast signal enhancement, per-packet power control, and intelligent bandwidth guarantees.

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Real Time Spectrum Security (RTSG)

Real Time Spectrum Security (RTSG) is H3C’s innovative software solution for professional condition monitoring for wireless spectrum. H3C’s 802.11ax series access points support built-in RF data acquisition, which allows you to build tightly integrated, real-time spectrum monitoring and protection systems.

The RTSG console is integrated into the iMC (intelligent Management Center) and provides data through the CAPWAP tunnel management system and sensor access points. This allows you to monitor the quality of the wireless network signal, track trends and generate notifications about unauthorized interventions in the mode 24×7: With active polling and RF interference detection (WiFi or non-WiFi) in each 2.4GHz/5GHz band, graphical display of real-time spectral density FFT plot, spectrum chart, occupancy map, spectrum event charts is provided, channel amplification and interference enhancement. In addition, the tool can automatically identify the source of interference, detect the location of unauthorized equipment of the wireless network, constantly maintaining it in normal operating condition. In combination with the H3C iMC IAR (Intelligent Analysis Report) module, it can be used to maintain a complete history quality of radio coverage in an area, including tracking and replaying its parameters, and automatically generate tailored trend reports, compliance analysis reports and audit reports.

Depending on the user’s wireless network monitoring requirements, the RTSG solution can be deployed in local mode or monitoring mode. In local mode, effective spectrum protection is implemented without affecting normal user access and data packet forwarding.

Intelligent load balancing on access points

WA6620X access points feature an intelligent load balancer that distributes the load depending on the number of concurrent users and traffic volumes. If a newly connected user exceeds the predefined load limit, the access point will check in real time the location of the wireless client, determine whether to provide access to this client through nearby access points with less load, and only reject the user’s connection if such access points are present. What makes the H3C intelligent load balancing algorithm different from existing load balancing mechanisms is that a user’s access is only rejected if they are in an area of ​​overlapping radio coverage from different access points, so the user’s connection is not denied if the load limit is exceeded, but There are no other access points nearby. This ensures maximum wireless network capacity without the chaotic behavior of the load balancing algorithm.

IoT capabilities

Existing Internet of Things (IoT) solutions are becoming increasingly diversified. H3C WA6620X access points can be combined with H3C T300 modules to support various IoT protocols, including RFID, ZigBee, BLE, etc. They can control air sensors, PM2.5 dust sensors, dumpster sensors and other wireless infrastructure elements in cities and landmarks.In addition, IoT terminals such as wristbands and RFID cards can communicate using data from the IoT and wireless network, allowing for easy adaptation WA6620X Access Points can connect up to ten T300 modules through the IoT port, and both the IoT port and the network port support Link Aggregation Control (LACP) to improve availability and throughput.

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Unified management of wired and wireless networks

The Wireless Service Manager (WSM) module in iMC provides unified management of wired and wireless networks. networks, allowing you to add wireless network management functionality to your existing wired network management system. All WSM-based wireless networking products can be managed using an open management protocol.

WSM meets the requirements of a service-oriented architecture, is modular, easily expandable and evolves as network management requirements grow. It provides a web-based management system interface and a simple, user-friendly platform for wireless network administrators. When used in conjunction with other iMC modules, it offers dashboards for wireless network management, troubleshooting, performance monitoring, software version control, configuration management, and user access management.

Unified management of wired and wireless networks

The Wireless Service Manager (WSM) module in iMC provides Unified management of wired and wireless networks, allowing you to add wireless management functionality to your existing wired network management system. All WSM-based wireless networking products can be managed using an open management protocol.

WSM meets the requirements of a service-oriented architecture, is modular, easily expandable and evolves as network management requirements grow. It provides a web-based management system interface and a simple, user-friendly platform for wireless network administrators. When used in conjunction with other iMC modules, it offers dashboards for wireless network management, troubleshooting, performance monitoring, software version control, configuration management, and user access management.

Unified management of wired and wireless networks

The Wireless Service Manager (WSM) module in iMC provides Unified management of wired and wireless networks, allowing you to add wireless management functionality to your existing wired network management system. All WSM-based wireless networking products can be managed using an open management protocol.

WSM meets the requirements of a service-oriented architecture, is modular, easily expandable and evolves as network management requirements grow. It provides a web-based management system interface and a simple, user-friendly platform for wireless network administrators. When used in conjunction with other iMC modules, it offers dashboards for wireless network management, troubleshooting, performance monitoring, software version control, configuration management, and user access management.