H3C 802.11ac Wave2 series Access Point (AP) is based on the new generation of self-developed Gigabit 802.11ac MIMO and 802.11ac Wave2 MU-MIMO technology. Compared with existing 802.11ac technology, Wave2 can support simultaneous data transmission to multiple users with increased overall throughput.
With triple-band, 6 streams and built-in antenna arrays, WA5330 AP is superior in performance, beautiful in appearance and flexible in installation. It is suitable for wall mounting, ceiling mounting and other installation methods. WA5330 supports IoT interface and increases the access of various wireless scenarios of IoT with the external T300 modules. The IoT deployment of WA5330 supports any combination of standard T300 series interface modules such as RFID, ZigBee and Bluetooth. Meanwhile, T300 modules can be deployed one by one through RJ45 interface.
H3C WA5330 complies with 802.11ac Wave2 standard and features 867Mbps wireless transfer rate for 5GHz and total 2.13Gbps speed of combining 2.4GHz and dual 5GHz. With the smart adaptive antenna array technology, it can increase the scope of coverage, improve access density and operation stability, and provide a better mobile cloud access and wireless network total cost of ownership (TCO).
H3C WA5330 supports dual uplink ports, which remove any bottleneck that limits the upstream speed in wireless products with Fast Ethernet ports, and provide a smooth upgrade path that allows for faster transmission and diversified RF deployment strategies.
Dual GE ports also provide uplink transmission backup that will remove a single point of failure on the wired transmission (LACP).
H3C innovative triple band technology offers customers 5GHz+5GHz+2.4GHz unparalleled high density and extremely high performance access. The total speed combined 2.4GHz and 5GHz can reach 2.13Gbps on WA5330.
The triple band solution is more suitable for E-bag and high-density deployment scenarios, i.e. meeting room or big classroom.
H3C 802.11ac Wave2 series AP supports Multi-user MIMO (MU-MIMO) technology, and MU-MIMO has become the quintessential feature for wave2 AP. MU-MIMO technology allows the AP to transmit data to multiple terminal devices simultaneously. According to terminal stream quantity, H3C 802.11ac Wave2 series AP can concurrently transmit data to multiple terminals with single stream. This improves data transmission efficiency, increases the number of user access and provides better experience.
H3C uses built-in hardware filtering to minimize the impact of interference from 3G/4G cellular networks.
H3C 802.11ac Wave2 series AP employs a green design which supports dynamic MIMO power saving (DMPS), enhanced automatic power save delivery (E-APSD), and smart identification of real terminal requirements. It can dynamically adjust the MIMO working mode and efficiently put terminals to sleep from time to time.
Green-AP mode supports single radio standby and allows for more precise control in power saving.
H3C WA5330 supports the innovative per-packet power control technology (PPC), which reduces standby power consumption and improves the battery lives of mobile devices without losing packets.
H3C 802.11ac Wave2 series AP is fully compliant with IPv6 and implements a dual IPv4/IPv6 protocol stacks. Existing IPv4 and IPv6 wired networks can work in parallel and seamlessly to register WLAN with WX series ACs, so that it never runs as an information silo.
Real Time Spectrum Guard (RTSG) is the innovative H3C professional state-monitoring program for the wireless spectrum. H3C 802.11ac Wave2 series AP supports the internal RF data acquisition module to achieve deeply integrated monitoring and real time spectrum protection.
The RTSG Console is integrated into the iMC (intelligent Management Center), and performs data acquisition through the CAPWAP tunnel management and Sensor AP. It can achieve 24x7 wireless signal quality monitoring, trend assessment and unauthorized interference alert. Through active probe and 2.4GHz/5GHz RF interference source (WiFi or non-WiFi) in every band, it provides a graphic representation of real-time FFT plot of the spectral density plot, spectrum diagram, the duty cycle map, event spectrum diagram, channel gain and interference gain. It can also automatically identify the source of interference, to determine the location of rogue wireless equipment, to ensure the wireless network is always in great shape. Combined with H3C iMC IAR (Intelligent Analysis Report) module, it can maintain a complete history of RF quality in the coverage area, including its trace and playback, automatically generate customized trend, compliance and audit reports.
To cater for the different supervision demands in user's wireless environment, the RTSG solution can be deployed in either Local mode or Monitor mode. In Local Mode, you can maintain normal user access and data packet forwarding without compromising effective spectrum protection.
End-user Admission Domination (EAD) integrates network access and endpoint security products, which ensure only complied wireless clients with mandated enterprise security policies to access network, reducing threat levels from infected wireless clients and raising the bar and improving the overall security of the wireless network. When working with a security policy server, it can remind users, isolate and boot them off the network when their systems are infected or not patched properly.
H3C WA5330 can work as a remote probing and analysis sensor device. It can intercept WiFi packets nearby and save to a local device in real-time for troubleshooting and optimization analysis. Remote probing can conduct a non-convergent image for working channels, or a polling of all channels to satisfy wireless network monitoring and maintenance requirements.
H3C 802.11ac Wave2 series AP supports RF Optimizing Engine (ROE), which effectively increases the number of concurrent sessions in middle to high-density access, accomplishes streaming media application acceleration and QoS through character and protocol based RF optimization. Features include multi-user fairness, mixed access fairness, interference filtering, speed optimization, spectrum guide, IPv4/IPv6 multicast signal boost, per-packet power control and intelligent bandwidth guarantee.
Anchor AC mode is designed for networks of all sizes, including SMB. In Anchor AC mode, AP will serve as a virtual controller for the entire network.
H3C 802.11ac Wave2 series AP comes with intelligent load balancing, which spreads the workload according to the number of concurrent users and traffic. If a new incoming user breaks the preset loading limit, AP will check the location of the wireless client in real-time, determine if nearby APs with smaller workload can provide access, and deny the user access only when such AP exists. What sets H3C intelligent load balancing apart from existing load balancing schemes is that it kicks in only if the user is located in an area with overlapping AP coverage, and prevents loss of access when the workload limit is reached but no backup AP exists. This maximizes wireless network capacity while preventing any erratic behavior in load balancing.
The existing Internet of Things (IoT) business is becoming diversified. H3C WA5330 can be combined with H3C T300 modules to support different IoT protocols, including RFID, ZigBee, BLE, etc. It can connect up to ten T300 modules by IoT port.
Wireless Service Manager (WSM) of iMC provides unified management of wired and wireless networks, adding network management functions into existing wired network management systems. All WSM based wireless products can be managed through the open management protocol.
WSM is SOA complied, modular based, fully expandable and evolving with the growing needs of network management. It offers a web-based management system and a simple and user-friendly management platform for wireless network administrators. When working in iMC and coupled with other modules, it also implements panel management wireless management, troubleshooting, performance monitoring, software version control, deployment configuration management and user access management.
Features |
WA5330-WW |
Weight |
0.73kg |
Dimensions (excluding mounting accessories) |
215 x 215 x 47.5mm |
Speed |
867Mbps (5G) 867Mbps (5G) 400Mbps (2.4G) |
Fixed port |
Two 10/100/1000Mbps Ethernet ports (GE#1 support PoE+, GE#2 support IoT) One console port |
IoT Port |
Maximize access to 10 IoT modules |
PoE |
802.3af/802.3at compatible power supply |
Local power supply |
54V DC Power Adaptor |
Built-in antenna |
Built-in antenna system (operating frequencies: 2.4GHz and 5GHz), gain up to 7dBi |
Maximum transmit power(limited by local regulatory requirements) |
2400-2483MHz: 16dBm 5150-5350MHz: 11dBm 5470-5725MHz: 20dBm 5725-5850MHz: 18dBm (Transmit power is multi-chain combined power, no antenna gain is included. The actual transmit power depends on local laws and regulations) |
Adjustable power |
1dBm |
Power consumption |
<20W (non-IoT) |
Radio Specifications: Max. number of users per radio |
256 |
Radio Specifications: Max. number of SSIDs per radio |
16 |
Operating temperature/storage temperature |
-10ºC~55ºC/-40ºC~70ºC |
Operating humidity/storage humidity |
5% to 95% (non-condensing) |
Protection level |
IP41 |
Operating frequencies |
802.11ac/n/a : 5.725GHz-5.850GHz ; 5.47~5.725GHz; 5.15~5.35GHz 802.11b/g/n : 2.4GHz-2.483GHz |
Modulation |
OFDM: BPSK@6/9Mbps, QPSK@12/18Mbps, 16-QAM@24Mbps, 64-QAM@48/54Mbps DSSS: DBPSK@1Mbps, DQPSK@2Mbps, CCK@5.5/11Mbps MIMO-OFDM (11n): MSC 0-15 MIMO-OFDM (11ac): MCS 0-9 |
Modulation Mode |
11b: DSS: CCK@5.5/11Mbps, DQPSK@2Mbps, DBPSK@1Mbps 11a/g: OFDM: 64QAM@48/54Mbps, 16QAM@24Mbps, QPSK@12/18Mbps, BPSK@6/9Mbps 11n: MIMO-OFDM: BPSK, QPSK, 16QAM, 64QAM 11ac: MIMO-OFDM: BPSK, QPSK, 16QAM, 64QAM, 256QAM |
Safety compliance |
IEC 60950-1, EN 60950-1 |
EMC |
EN 301489-1, EN 301489-17, EN 55032, EN 55024, EN 60601-1-2 |
Radio frequency certification |
EN 300 328, EN 301 893 |
Health |
EN 50385 |