H3C WA7539 Wi-Fi 7(802.11be) Indoor Series Access Points
H3C WA7539 is a new generation Wi-Fi 7 product that complies with the 802.11be standard. Compared to Wi-Fi 6/6E products, it can provide higher rates, larger capacity, and lower latency.
The access point has tri-radio 12 streams and with built-in antenna, including 4x4 6-GHz, 4x4 5-GHz, and 4x4 2.4-GHz, achieving speeds up to 18.67 Gbps. The access point has a 10 Gbps optical port and a 10 Gbps electrical port, providing redundant uplink ports. Redundant power supplies provide fault-free performance during failover.
This access point supports both wall-mounted and ceiling-mounted installation, and is designed for high-end enterprise offices, high-density wireless access, multi-party video conferencing, online teaching, exhibition centers, and other scenarios that require high-bandwidth and high-quality network experience.
Features:
Wi-Fi 7 (802.11be) Standards
Wi-Fi 7(802.11be) is the next generation Wi-Fi standard, with improvements in the following features compared to Wi-Fi 6/6E:
Supporting 320MHz bandwidth is an important physical layer technology in Wi-Fi 7. Compared to the 160MHz bandwidth of Wi-Fi 6/6E, the peak theoretical rate is directly doubled. Wi-Fi 7 has more bandwidth combinations, which can bring higher speed, wider coverage, and better multi user processing capabilities.
4096-QAM is also an important new technology in Wi-Fi 7. Compared to the 1024-QAM technology in Wi-Fi 6/6E, 4096-QAM technology can increase transmission speed by 20%, resulting in higher bandwidth utilization, more stable transmission rate, and better user experience.
MLO, Multi-Link Operation. By establishing multiple links, it can effectively improve the network performance, providing higher throughput, lower latency, and better connection quality.
MRU, Multiple Resource Unit. In Wi-Fi 6, a single STA can only use a single RU resource, which lacks flexibility. Wi-Fi 7 breaks this limitation by allowing a single STA to occupy multiple RUs simultaneously, and RUs of the same sizes can be combined together.
Preamble Puncturing. Utilizing discontinuous spectrum for data transmission to improve spectrum utilization efficiency. There are only a few available modes in Wi-Fi 6. On the one hand, Wi Fi 7 expands its bandwidth to 240MHz/320MHz; On the other hand, the spectrum drilling mechanism is more flexible for data transmission.
The access point supports green AP mode that enables single radio standby and allows for more precise power control.
The access point supports the innovative per-packet power control (PPC) technology, which reduces standby power consumption and improves mobile device standby time.
Specification:
H3C WA7539 is a new generation Wi-Fi 7 product that complies with the 802.11be standard. Compared to Wi-Fi 6/6E products, it can provide higher rates, larger capacity, and lower latency.
The access point has tri-radio 12 streams and with built-in antenna, including 4x4 6-GHz, 4x4 5-GHz, and 4x4 2.4-GHz, achieving speeds up to 18.67 Gbps. The access point has a 10 Gbps optical port and a 10 Gbps electrical port, providing redundant uplink ports. Redundant power supplies provide fault-free performance during failover.
This access point supports both wall-mounted and ceiling-mounted installation, and is designed for high-end enterprise offices, high-density wireless access, multi-party video conferencing, online teaching, exhibition centers, and other scenarios that require high-bandwidth and high-quality network experience.
Features:
Wi-Fi 7 (802.11be) Standards
Wi-Fi 7(802.11be) is the next generation Wi-Fi standard, with improvements in the following features compared to Wi-Fi 6/6E:
Supporting 320MHz bandwidth is an important physical layer technology in Wi-Fi 7. Compared to the 160MHz bandwidth of Wi-Fi 6/6E, the peak theoretical rate is directly doubled. Wi-Fi 7 has more bandwidth combinations, which can bring higher speed, wider coverage, and better multi user processing capabilities.
4096-QAM is also an important new technology in Wi-Fi 7. Compared to the 1024-QAM technology in Wi-Fi 6/6E, 4096-QAM technology can increase transmission speed by 20%, resulting in higher bandwidth utilization, more stable transmission rate, and better user experience.
MLO, Multi-Link Operation. By establishing multiple links, it can effectively improve the network performance, providing higher throughput, lower latency, and better connection quality.
MRU, Multiple Resource Unit. In Wi-Fi 6, a single STA can only use a single RU resource, which lacks flexibility. Wi-Fi 7 breaks this limitation by allowing a single STA to occupy multiple RUs simultaneously, and RUs of the same sizes can be combined together.
Preamble Puncturing. Utilizing discontinuous spectrum for data transmission to improve spectrum utilization efficiency. There are only a few available modes in Wi-Fi 6. On the one hand, Wi Fi 7 expands its bandwidth to 240MHz/320MHz; On the other hand, the spectrum drilling mechanism is more flexible for data transmission.
Wi-Fi 6 (802.11ax) Standards
Orthogonal Frequency Division Multiple Access (OFDMA)
802.11ax uses OFDMA to allow multiple users to transmit data simultaneously. OFDMA splits a channel into sub-channels, known as resource units (RUs), with specific subcarriers, and assigns RUs to different users for simultaneous transmission. OFDMA enables simultaneous multi-user transmission and reduces latency caused by channel contention.DL/UL MU-MIMO
DL/UL MU-MIMO technology allows AP to send data to multiple stations simultaneously, breaking through the traditional wireless serial communication mechanism, increasing the utilization rate of wireless spectrum resources, and improving the number of effective access users and access experience under high-density deployment.BSS Coloring
Spatial reuse allows the access points and their clients to differentiate between BSSs, assigns a different color per BSS to help access point identify co-channel interference and stop transmission in time. This optimizes frequency reuse and improves network capacity.Target Wake Time (TWT)
TWT improves power efficiency and reduces contention by increasing client sleep time and allowing negotiation of the times that clients can access the medium.Innovative AI-Native Capabilities
The access point can realize AI-based radio frequency (RF) management, the connection of the terminal to the network, service assurance, and healing of the network through the convergence of cloud, networking and edge and H3C’s iRadio, iStation, iHeal, and iEdge technologies.Security Policy
Wireless security guarantee
The APs support WPA2-Personal, WPA2-Enterprise, WPA3-Personal, WPA3-Enterprise authentication and encryption modes to ensure security of the wireless network.Analysis on Non-Wi-Fi Interference Sources
APs can analyze the spectrum of non-Wi-Fi interference sources and identify them, including Bluetooth devices, wireless audio transmitters, and microwave ovens. Coupled with H3C AD-Campus, the locations of the interference sources can be detected, and the spectrum of them displayed, enabling the administrator to remove the interference in a timely manner.Rogue Device Monitoring
APs support WIPS, and can monitor, identify, defend, counter, and perform refined management on the rogue devices, to provide security guarantees for air interface environment and wireless data transmission.Link Protection
The CAPWAP link protection and DTLS encryption provide security assurance, improving data transmission security between the AP and the AC.Real Time Spectrum Guard (RTSG)
Real-Time Spectrum Guard (RTSG) is the innovative H3C professional state-monitoring solution for the wireless spectrum. APs support the internal RF data acquisition module to achieve deeply integrated monitoring and real time spectrum protection.Network optimization
Doctor AP
Doctor AP mode, combining H3C Cloudnet platform, collects wireless network information for scenarios where terminal access is abnormal, and analyzes and locates wireless faults quickly and accurately.RRM
Radio Resource Management (RRM), the AP monitors air interface channel utilization, channel interference, and signal conflict in real time, and works with H3C Cloudnet to adjust RF parameters such as working channel, bandwidth, and power in a timely manner to maintain the optimal RF resource status.RROP
Radio Resource Optimization Policy (RROP) refers to the collection of multiple wireless air interface optimization methods, which is committed to reducing or controlling the consumption of air interface media resources by management packets, broadcast packets, and invalid packets. Set aside more resources to provide users with better wireless application services.SACP
The Station Access Control Policy (SACP) restricts, controls, and guides the access of wireless terminals to better AP or wireless services. In addition, terminal traffic is controlled and scheduled according to network applications to improve the overall performance of the wireless network and improve the experience and effect of wireless access applications.Roaming Protection
Wireless AP fully supports the Fast BSS Transition function defined in the 802.11r standard, which can accelerate the roaming process of wireless users, reduce the probability of connection interruption, and improve the roaming service quality. Through 802.11k protocol mechanism, AP and wireless client interact with each other to perceive the network topology in multiple dimensions. The AC recognizes and calculates the roaming time and roaming access location of the wireless client in full view, and negotiates the switch with the client through 802.11v and 802.11r mechanisms.Cellular Coexistence Feature (CCF)
The access point uses built-in software filtering to minimize the impact of interference from 3G/4G cellular networks.Application Guarantee
Application identification
APs support smart application control technology and can implement visualized control on Layer 4 to Layer 7 applications. Coupled with H3C WLAN ACs, the APs can identify a large number of common applications in various office scenarios. Based on the identification results, policy control can be implemented on user services, including priority adjustment, scheduling, blocking, and rate limiting to ensure efficient bandwidth resource and improve quality of key services.Flexible Networking
AC-based Management
The access point supports FIT AP mode and can be managed by the Wireless Service Manager (WSM) component of the H3C Intelligent Management Center (IMC). WSM offers a simple and user-friendly management platform for wireless network administrators. It implements panel management, troubleshooting, performance monitoring, software version control, configuration management, and user access management of wireless devices.Cloud-based Management
This access point supports cloud AP mode, which can be managed through the cloud without deploying wireless controllers and authentication servers. It supports multiple authentication methods such as PPSK, Portal, 802.1X, SMS, and social media. At the same time, the cloud management platform can monitor the device status and terminal connection status, comprehensively evaluate and optimize the business operation status of the entire wireless network, and achieves the optimal wireless network Total Cost of Ownership (TCO).Anchor-based Management
Anchor mode is designed for small-scale networks, the access point supports Anchor mode, it integrates some of the functions of the wireless controller and can be used to manage a small number of Fit APs without licenses, thus saving customer investment.Power Saving
The access point employs a green design that supports Dynamic and Static SM Power Saving (SMPS), Enhanced Automatic Power Save Delivery (E-APSD). It can dynamically adjust the MIMO working mode and efficiently put terminals to sleep.The access point supports green AP mode that enables single radio standby and allows for more precise power control.
The access point supports the innovative per-packet power control (PPC) technology, which reduces standby power consumption and improves mobile device standby time.
Specification:
Name | WA7539 | ||
Weight | 1.4kg | ||
Dimensions (W × D × H) | 225 mm × 225 mm × 47.2 mm | ||
Interface | 1 x 100/1000M/2.5G/5G/10G Multigigabit Ethernet, RJ-45, PoE input 1 x /1000M/10G optical port, SFP+, PoE input 1 x 100/1000M Multigigabit Ethernet, RJ-45, PoE output |
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Console port | 1 × Management console port (RJ-45) | ||
USB port | 1(2.0) at 2.5W | ||
PoE input | 1 x 100/1000M/2.5G/5G/10G Multigigabit Ethernet, 802.3bt/at 1 x 1000M/10G optical port, 802.3bt/at |
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PoE output | 1 x 100/1000M Multigigabit Ethernet, 802.3af | ||
Local power supply | 54V DC | ||
Antenna Type | Built-in omni-directional antenna | ||
Antenna Gain | 6GHz peak gain: 6.4dBi 5GHz peak gain: 5.2dBi 2.4GHz peak gain: 6.0dBi Note: The equivalent antenna gain is 5.6dBi in 6GHz, 4.6dBi in 5GHz and 4.9dBi in 2.4GHz |
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Built-in IoT Module | BLE5.1 | ||
External IoT Module | RFID/Zigbee | ||
Modulation technology | OFDM: BPSK@6/9Mbps, QPSK@12/18Mbps, 16-QAM@24Mbps, 64-QAM@48/54Mbps DSSS: DBPSK@1Mbps, DQPSK@2Mbps, CCK@5.5/11Mbps |
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Modulation mode | 11b: DSSS: 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 11ax: MIMO-OFDM: BPSK, QPSK, 16QAM, 64QAM, 256QAM, 1024QAM 11be: MIMO-OFDM: BPSK, QPSK, 16QAM, 64QAM, 256QAM, 1024QAM, 4096QAM |
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Maximum transmit power | 6G: 26dBm 5G: 26 dBm 2.4G: 26 dBm Note: Transmit power is multi-chain combined power, no antenna gain is included. The actual transmit power depends on local laws and regulations |
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Adjustable power granularity | 1 dBm | ||
Reset/restoration to factory default | support | ||
Kensington Lock | support | ||
Installation | wall mounting/ceiling mounting | ||
LED | Alternating flashing mode, orange/green/blue for different working states | ||
Temperature | Operating temperature: 0°C to +50°C (32°F to 122°F) Storage temperature: –40°C to +70°C (–40°F to +158°F) |
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Humidity | Operating humidity: 5% to 95% (non-condensing) Storage humidity: 5% to 95% (non-condensing) |
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Protection class | IP42 | ||
Overall power consumption | 49.2W (including PSE and USB) 31.7W (without PSE and USB) Note: Power required at the power source equipment (PSE) will depend on the cable length and other environmental issues. |
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Safety Standards | GB 4943.1 IEC/EN 62368-1 |
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EMC Standards | EN 301 489-1 EN 301 489-17 EN 60601-1-2 EN 55032 EN 55035 |
CISPR 32 CISPR 35 |
IEC/EN 61000-4-2 IEC/EN 61000-4-3 IEC/EN 61000-4-4 IEC/EN 61000-4-5 IEC/EN 61000-4-6 |
Radio Standards | ETSI EN 300 328 ETSI EN 301 893, FCC Part 15E, ETSI EN 300 440 ETSI EN 303 687 SRRC |
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RoHS | DIRECTIVE 2011/65/EU (EU) 2015/863 |
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MTBF | > 250000 hours |
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