Next generation Wi-Fi standard 802.11ax (Wi-Fi 6)
The WA6320 dual-radio access point features 802.11ax technology for speed 1.775 Gbps connectivity, sufficient for high-density environments and providing higher quality of service.
MU-MIMO< /h3>
The H3C WA6320 series access points support MU-MIMO technology, the most important feature of the 802.11ax standard. DL MU-MIMO technology allows the access point to transmit data to multiple users simultaneously, as opposed to the sequential communication of traditional wireless networks, which increases the utilization of the frequency range, increases the number of active users and the quality of connections in high-density environments.
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Access to the intelligent cloud and optimal cost of ownership of a wireless network
The WA6320 series access points comply with the 802.11ax standard. They work with two radio modules and provide high-speed data transfer – at least 2 times faster than 802.11ac products under similar conditions. The WA6320 series offers easier management and maintenance using the H3C Oasis platform. Thanks to intelligent spectrum optimization technologies, this series provides mobile cloud access and can increase coverage, improve access density and stability, and achieve optimal total cost of ownership of a wireless network.
Orthogonal frequency multiple access division (OFDMA)
The 802.11ax standard uses OFDMA technology, which allows data to be transmitted simultaneously to several users. OFDMA involves dividing a channel into subchannels, called resource units (RUs), with specific subcarriers, and assigning such resource units to different users for simultaneous transmission. OFDMA technology provides parallel multi-user transmission and reduced latency by eliminating channel contention.
Spatial multiplexing
802.11 ax assigns a different color to each BSS, which helps the WA6320 detect adjacent channel interference and stop transmission. If a radio detects 802.11ax signals from a BSS with the same color as the radio’s BSS color, it is detected as adjacent channel interference and causes data transmission to stop. This allows you to optimize the use of the same frequencies and increase network capacity.
Target Wake Time (TWT)
The TWT mechanism improves energy efficiency and reduces competition for resources by increasing client sleep periods and the ability to coordinate the time at which clients access the transmission medium.
Eco-friendly design
< p style="font-weight: 400;">The WA6320 series access points feature green solutions that support dynamic power reduction for MIMO (DMPS), advanced automatic power saving mechanisms (E-APSD), and intelligent detection of actual terminal device requirements. They are capable of dynamically adjusting the MIMO operating mode and effectively putting the terminals into sleep mode.
WA6320 access points have a green access point mode that provides the ability to put them to sleep individual radio modules and more careful control of the power saving mode.
WA6320 access points support innovative technology for power control at the individual packet level (PPC), which significantly reduces power consumption in the mode standby time and increases battery life of mobile devices.
Local data transfer
WA6320 access points support both centralized, and local data transfer. When using centralized data transfer, access points tunnel incoming data frames to the access controller, which processes the data frames. When using local data transfer, the access points process the data frames themselves. Local data transfer mode significantly saves wired network bandwidth.
Dual stack of IPv4 and IPv6 protocols (standard IPv6 support)
WA6320 access points are fully IPv6 compatible and support dual IPv4/IPv6 protocol stack. They are capable of automatically communicating with an access controller to provide wireless services over both an IPv4 and IPv6 network so that they do not act as isolated information silos.
Endpoint Access Control (EAD)
One of the key components of the H3C iMC management system, the EAD integrates solutions to ensure network access security and end device security so that only wireless clients can access the network, meeting the mandatory requirements of corporate security policies. When used in conjunction with a security policy server, the solution can send reminders to users, isolate and disconnect them from the network if systems become infected or do not have the necessary update packages. Only wireless clients that meet security policy requirements are allowed on the network. This increases the level of security of the wireless network as a whole.
Built-in Bluetooth module
The H3C WA6320 access point has a built-in module Bluetooth for connection to the console at a distance of up to 10 meters, which reduces the amount of additional work during the installation and maintenance of equipment, simplifies troubleshooting and provides support for iBeacon parameter negotiation.
Remote data collection and analysis< /h3>
WA6320 access points can act as remote sensors to collect and analyze data on a wireless network, collecting channel information and transmitting information to a local device for further analysis. This is often necessary to implement monitoring and maintenance of a wireless network.
RF Optimization Module (ROE)
The ROE module uses RF optimizations at the feature and protocol levels to improve speed and quality of service in medium-to-high-density user environments and streaming media applications. Its functionality includes fair multi-user access, mixed fair access, interference filtering, speed optimization, band navigation, multicast optimization (IPv4/IPv6), per-packet power control, and intelligent bandwidth guarantees.
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Intelligent Load Balancing
WA6320 access points support session-based and traffic-based load balancing. When the access point’s upper load limit is reached, the access controller rejects join requests from new clients and redirects clients to other access points with less load. A distinctive feature of the H3C intelligent load balancing algorithm from existing load balancing mechanisms is that load balancing is applied only to clients that are in an area of overlapping radio coverage from different access points. This allows for maximum wireless network capacity.
Real-Time Spectrum Security (RTSG)
Real-Time Spectrum Security (RTSG) is H3C’s innovative professional health monitoring software solution for the wireless spectrum. H3C’s 802.11ax series access points support a built-in RF data acquisition module that allows you to build tightly integrated monitoring and security systems spectrum in real time.
The RTSG console is integrated into the iMC (intelligent Management Center) intelligent management system and provides data acquisition through the CAPWAP tunnel management system and sensor access points With active polling and RF interference detection (Wi-Fi or non-Wi-Fi) in each 2.4 GHz band, you can monitor wireless signal quality, track trends, and generate tamper alerts 24×7. 5 GHz provides graphical display of real-time spectral density FFT plot, spectrum plot, occupancy map, spectrum event plots, channel gain and interference gain. In addition, RTSG allows you to automatically determine the source of interference, detect the location of unauthorized wireless network equipment, and constantly maintain it in normal operating condition. Combined with the H3C iMC IAR (Intelligent Analysis Report) module, it can provide a complete history of coverage quality in an area, including tracking and playback of its parameters, and automatically generate tailored trend reports, compliance analysis reports and reports on audit.
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 connectivity and data packet forwarding.
Cellular Coexistence Function (CCF)
H3C uses built-in hardware filters that minimize the impact of interference from 3G/4G cellular networks.
Cloud management
H3C cloud managed APs are designed based on the Cloudnet platform, which allows administrators to manage cloud APs directly, such as viewing the status of cloud APs in real time and downloading configurations from the cloud to cloud APs. This significantly improves network efficiency, security and stability.
Unified intelligent management of wired and wireless networks