H3C WA6620X WiFi 6 Dual Radio Access Point IP68 Rating 2.4 Gbps Speed

Price Negotiable

Price: EXW: USD 298–360, subject to exchange rate and order quantity.

MOQ: 1

Delivery Time: Delivery will be made within 3 working days after payment.

Brand: H3C

Product Description

H3C WA6620X Wi-Fi 6 Dual-Radio Access Point

The H3C WA6620X is a Wi-Fi 6 product that complies with the 802.11ax standard. Designed for seamless integration into existing network infrastructure, it supports on-premises, cloud, and hybrid deployment models. This access point features dual-radio 4 streams with flexible switching modes, achieving speeds up to 2.4 Gbps, and includes both built-in and external antenna support.

With professional wall-mounted and pole-mounted installation options, the WA6620X addresses outdoor WLAN coverage challenges while enhancing accuracy and stability. Its robust design with wide-temperature-range resistance makes it ideal for outdoor deployment in professional smart coverage scenarios such as wireless cities, stadiums, and scenic spots.

Hardware Specifications

Item	Specification
Weight	1.8kg
Dimensions (W * D * H)	250mm x 250mm x 79.5mm (without mounting brackets)
Interface	1 x 10/100/1000M Ethernet, RJ-45, PoE input 1 x 10/100/1000M Ethernet, RJ-45, PoE output 1 x 1000M optical port, SFP
Console port	1 x Management console port (RJ-45)
PoE input	1 x 10/100/1000M Ethernet, 802.3at/af
PoE output	1 x 10/100/1000M Ethernet, 802.3af
Local power supply	POE injector (sold separately)
Antenna type	Support built-in directional antenna (default) Support extended external antenna Note: Only one of the two modes (internal antenna and external antenna) can be selected.
Antenna gain	5GHz peak gain: 11dBi 2.4GHz peak gain: 11dBi Note: Horizontal beamwidth (HBW): 65 degrees, Vertical beamwidth (VBW): 30 degrees
Built-in IoT module	BLE5.1
Frequency bands	2.400 to 2.4835GHz ISM 5.150 to 5.250GHz U-NII-1 5.250 to 5.350GHz U-NII-2A 5.470 to 5.725GHz U-NII-2C 5.725 to 5.850GHz U-NII-3/ISM Note: The available bands and channels are dependent on the configured regulatory domain (country)
Modulation technology	802.11b: Direct-sequence spread spectrum (DSSS) 802.11a/g/n/ac: Orthogonal frequency-division multiplexing (OFDM) 802.11ax: Orthogonal frequency-division multiple access (OFDMA)
Modulation mode	11b: BPSK, QPSK, CCK 11a/g/n: BPSK, QPSK, 16QAM, 64QAM 11ac: BPSK, QPSK, 16QAM, 64QAM, 256QAM 11ax: BPSK, QPSK, 16QAM, 64QAM, 256QAM, 1024QAM
Data rates (Mbps)	802.11b: 1, 2, 5.5, 11 802.11a/g: 6, 9, 12, 18, 24, 36, 48, 54 802.11n: 6.5 to 600 (NSS = 1 to 4, HT20 to HT40) 802.11ac: 6.5 to 6,933 (MCS0 to MCS9, NSS = 1 to 8, VHT20 to VHT160) 802.11ax: 7.3 to 9,608 (MCS0 to MCS11, NSS = 1 to 8, HE20 to HE160)
Maximum transmit power	5GHz: 27 dBm 2.4GHz: 30 dBm Note: Transmit power is multi-chain combined power, no antenna gain is included. The actual transmit power depends on local laws and regulations
Adjustable power granularity	Configurable in increments of 1dBm
Installation	Wall mounting/Pole mounting, the mounting bracket has been preinstalled on the back of the AP
Indicators (LED)	Yellow/green/blue status LEDs for different working states indicate boot loader status, association status, operating status, and fault states of the system
Temperature	Operating temperature: -40°C to +65°C Storage temperature: -40°C to +70°C Note: The value may vary depending on the installation environment.
Humidity	Operating humidity: 0% to 100% (non-condensing) Storage humidity: 0% to 100% (non-condensing)
Protection class	IP68 Note: Even when used with external antenna
Surge protection	Common Mode:6KV
Overall power consumption	31W (including PSE) 16W (excluding PSE) Note: Power required at the power source equipment (PSE) will depend on the cable length and other environmental issues.
Safety standards	IEC/EN 62368-1 GB 4943.1 SRRC
EMC standards	EN 301 489-1 EN 301 489-3 EN 301 489-17 EN 60601-1-2 EN 55032 EN 55035 CISPR 32 CISPR 35 AS/NZS CISPR32 ICES-003 Issue 7 GB/T 9254.1 GB/T 9254.2 GB 17625.1 GB 17625.2 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 IEC/EN 61000-4-8 IEC/EN 61000-4-11 IEC/EN 61000-3-2 IEC/EN 61000-3-3
Radio standards	ETSI EN 300 328 ETSI EN 301 893 ETSI EN 300 440 FCC Part 15E
RoHS standards	DIRECTIVE 2011/65/EU (EU) 2015/863
Health standards	EN 50385:2017 EN IEC 62311:2020
MTBF (25°C)	875378 hours

Software Specifications

Item	Specification
Product capabilities	Basic information Outdoor, dual-radio AP, 802.11a/b/g/n/ac/ac Wave 2/ax AP Operating Mode Fit AP Mode, managed by Wireless LAN Controller Cloud AP Mode, managed by Cloudnet or AD-Campus platform Anchor AP Mode, managed by Anchor AP Note: AP Operating Modes can be switched via CLI, Wireless LAN Controller, Cloudnet platform, Reset button Supported Wireless LAN Controllers H3C WX2800X, WX3800X, WX5800X Series Wireless LAN Controllers Frequency and MIMO Dual-radio mode 5GHz, 22:2, 1.2Gbps 2.4GHz, 22:2, 0.575Gbps Dual-radio mode 5.8GHz, 22:2, 1.2Gbps 5.2GHz, 22:2, 1.2Gbps Compliance and bandwidth 5GHz, 802.11a/n/ac/ax 20MHz/40MHz/80MHz 2.4GHz, 802.11b/g/n/ax 20MHz/40MHz Maximum transmission speed 1.775 Gbps (2x2 80 MHz on 5 GHz, 2x2 40 MHz on 2.4 GHz) 2.4 Gbps (2x2 80 MHz on 5 GHz, 2x2 80 MHz on 5 GHz) Maximum number of clients 1024 (512 on 5 GHz, 512 on 2.4 GHz) Note: the actual number of users varies according to the environment Maximum number of BSSIDs for each radio 16
802.11ax	MU-MIMO Uplink / Downlink Multi-user multiple-input multiple-output (MU-MIMO) OFDMA Uplink / Downlink Orthogonal frequency division multiple access (OFDMA) TWT Target Wake Time, allowing clients to sleep for a predetermined period of time and be awakened only when network communication is needed, effectively reducing the power consumption BSS coloring/SR Spatial reuse, dividing different BSSs into different colors to avoid co-frequency interference and improve the user experience of wireless networks
WLAN basics	A-MPDU: Aggregated MAC Protocol Data Unit, Improves the data transmission efficiency of wireless networks by optimizing the composition of TX/RX directional data packets A-MSDU: Aggregated MAC Service Data Unit, Improves the data transmission efficiency of wireless networks by optimizing the composition of TX/RX directional data packets LDPC: Low-density Parity-Check, Improves the communication efficiency of wireless networks through error correction coding technology LACP: Link Aggregation Control Protocol, achieving bandwidth aggregation, redundancy backup, and load balancing, the APs require at least 2 ports STBC: Space-Time Block Coding, Improve the Channel capacity of wireless networks through multi-antenna coding technology DFS: Dynamic Frequency Selection, automatically identify DFS frequency bands, automatically adjust frequencies of the devices, and avoid interference with other devices TxBF: Transmit Beamforming, Improve the signal-to-noise ratio of wireless network signal transmission by adjusting the beam direction of antenna transmitting signals CCF: Cellular coexistence feature, use built-in software filtering to minimize the impact of interference from 3G/4G cellular networks MRC: Maximum-ratio combining, improve signal reception quality CDD/CSD: Cyclic Delay Diversity/Cyclic Shift Diversity, improve signal reception quality
Tunnel management	CAPWAP tunnel: Unicast/broadcast/DNS/DHCP/static IP method for discovering AC NAT: NAT between AC and AP DTLS: Tunnel between AC and AP support DTLS encryption IPv4/IPv6: Tunnel between AC and AP support IPv4 and IPv6 Time synchronization: Synchronizing clock information from AC Dual tunnel: Establishing CAPWAP tunnels with two ACs PPPOE: PPPOE Client IPsec: Cloud AP mode Support IPsec
WLAN extension	RF adjustment: Automatic channel/power/bandwidth adjustment SSID hiding: Restrict access and improve wireless network security by SSID hiding Limit the number of connected users: User access count restriction based on SSID and RF Forwarding mode: Centralized forwarding/local forwarding/policy forwarding Local forwarding: Local forwarding based on SSID and VLAN VLAN binding: Binding VLAN based on interface/SSID/MAC User isolation: VLAN-based user isolation SSID-based user isolation Load balancing: Traffic-based load balancing User-based load balancing Frequency band-based load balancing, dual-5G devices only Band steering: Improve service quality by prioritizing access to 5G frequency bands for wireless clients Roaming: 802.11k and 802.11v smart roaming 802.11r fast transition roaming Multicast enhancement: IPv4/IPv6 MLD Snooping/IGMP Snooping Convert multicast data into unicast data for transmission, reducing network congestion Wireless location: Fit AP mode support BLE location Fit AP mode support RSSI location IOT: IoT expansion by connecting third-party RFID or Zigbee gateways through PSE port Mesh: Mesh link Mesh link security Multi-hop Mesh Wireless probing: Monitor the wireless network environment by monitoring wireless network messages Hotspot 2.0: Fit AP mode support Hotspot 2.0 Bonjour gateway: Forwarding mDNS packets across VLANs
User authentication	802.1X authentication: Local and remote 802.1X authentication MAC authentication: Local and remote MAC authentication Portal authentication: Local and remote Portal authentication Guest/Captive portal Portal mac-trigger PSK: PSK and Private-PSK PPSK: Fit AP mode support Private Pre-Shared Key, obtain passwords to access wireless networks through the H3C Cloudnet platform Social Media APPs Authentication: Cloud AP mode support Google/Facebook/Twitter through the H3C Cloudnet platform Extensible Authentication Protocol (EAP): EAP-Transport Layer Security (TLS) EAP-Tunneled TLS (TTLS) Microsoft Challenge Handshake Authentication Protocol (MSCHAP) v2 Protected EAP (PEAP) v0 or EAP-MSCHAP v2 EAP-Flexible Authentication via Secure Tunneling (EAP-FAST) PEAP v1 or EAP-Generic Token Card (GTC) EAP-Subscriber Identity Module (SIM)
Wireless security	Encryption TKIP, CCMP WPA2-Personal (802.11i) WPA2-Enterprise with 802.1X WPA3-Personal, WPA3-Enterprise WPA3-Enhanced Open (OWE) Advanced Encryption Standard (AES) Forwarding security Packet filtering MAC address filtering Broadcast storm suppression Wireless EAD Coupled with EAD (End user Admission Domination) solution, implement security policies for terminals accessing the network to improve wireless network security Management frame protection Provide management frame protection for wireless clients to enhance wireless network security WIPS Wireless Intrusion Prevention System, protect the network from unauthorized access, such as Rogue AP, Rogue client, Rogue Wireless Bridge, Ad-hoc IPSG IP source guard (IPSG) prevents spoofing attacks by using an IPSG binding table to filter out illegitimate packets
Layer 2 and Layer 3	IP address configuration: Static IP/DHCP assigned IP DHCP: Server/client/relay NAT: NAT/NAT66/NAT LOG LLDP: Link Layer Discovery Protocol, discovering and identifying other LLDP enabled devices and neighboring devices in the network STP: Spanning Tree Protocol, preventing loops in the network IPv4: ICMP/ACL/DHCP/TFTP/FTP/DNS IPv6: ICMP/ACL/DHCP/TFTP/FTP/DNS
Service assurance	Remote AP: After the tunnel between AC and AP is disconnected, AP continues to provide services to clients Doctor AP: Fit AP mode support Doctor AP, simulates wireless client access process, diagnoses network issues, and improves network experience Spectrum Analysis: Displaying the non-Wi-Fi interference sources through the H3C Cloudnet platform and AD-Campus platform Only 802.11ax accessing: Only wireless clients that support 802.11ax can access the network, improving the network experience Intelligent bandwidth guarantee: Ensure that different wireless services can obtain the lowest guaranteed bandwidth during network congestion Port Aggregation: Multiple uplink ports for port aggregation to increase uplink bandwidth (only applicable to multiple uplink port APs) Broadcast suppression: Discard ARP request and response packets from wireless clients during the suppression cycle Prohibit weak signal client access: AP prohibits wireless clients with signals below the threshold from accessing, to avoid low-signal clients occupying more channel resources Terminal roaming navigation: Adjust the AP transmission power to create more roaming conditions and improve the roaming experience Actively triggering client relinking: AP actively sends messages to allow wireless clients to reconnect or roam actively Adjust channel reuse between APs: RF chip adjusts the environmental noise perceived by the device to improve AP transmission efficiency Fast forwarding function for client data services: Intelligent optimization of RF chip business processing can improve performance Shorten client sleep time: RF chips shorten client sleep time and improve transmission efficiency through beacons Software version anomaly repairing: After the software version is damaged due to abnormal circumstances, AP can automatically download the available software version through AC or cloud platform
Service quality	WMM: Wi-Fi Multimedia, Improve the service quality of audio and video transmission in wireless networks through EDCA scheduling algorithm QoS: Priority Class, By marking TOS/DSCP fields to distinguish data streams with different priorities, high priority data streams can be quickly distributed, thereby improving service quality Priority Class: supports mapping from wireless priority to wired priority QoS policy mapping: support QoS policy mapping based on SSID and VLAN Layer 2 to Layer 4 packet filtering and traffic classification CAR (Committed Access Rate): by limiting data transmission rate, avoid network congestion caused by traffic congestion User bandwidth management: Allocate available bandwidth per STA Allocate total bandwidth for all STA shares based on SSID Dynamically adjust the available bandwidth of STA based on business ATF: Air Time Fairness, by allocating an equal amount of RF usage time, reducing wireless channel congestion and improving the efficiency and fairness of wireless networks CAC: Call Admission Control, improve the quality of service for wireless clients that have already received high priority by limiting the number of wireless clients that have received high priority Supports number of users/Channel utilization based Application Identification: Supports layer L2-L7 application identification SQA (Software Quality Assurance): identifies audio and video services based on SIP protocol, prioritizing service quality assurance UCC (Unified Communications and Collaboration): increase the processing priority of audio and video services and prioritize ensuring service quality
Power saving	Green AP mode: Dynamically adjust MIMO configuration based on wireless client access status to reduce device power consumption U-APSD: Unscheduled Automatic Power Save Delivery, reduce device power consumption by scheduling VoIP data streams separately from non-VoIP data streams SM Power Save: Spatial Multiplexing Power Save, reduce device power consumption through low-power standby mode
Management and maintenance	GUI: Cloud AP mode support WEB management via HTTP/HTTPS SNMP: Cloud AP mode support SNMP V1/V2c/V3 In Fit AP Mode, the Wireless LAN Controller can support SNMP V1/V2c/V3 MIB: RFC 1213 MlB-II Stands for Management Information Base RFC 3418 Management Information Base (MlB) for the Simple Network Management Protocol (SNMP) Remote debugging: SSH V2.0/Telnet/FTP/TFTP Local debugging: Support CLI Information maintenance: Cloud AP mode support Syslog Secure boot: Supporting firmware protection, ensuring the integrity of the subsequent running program codes through the trusted Boot-Loader, forming a trusted device boot chain Netconf: Cloud AP mode Support Netconf provides programmable and scalable methods to manage network devices
IEEE standards	802.11 IEEE 802.11a/b/g/n/ac/ac Wave 2/ax IEEE 802.11d/e/h/i/w/u IEEE 802.11k/v/r 802.3 802.3af/at/bt 802.15 802.15.1
Wi-Fi certified	Wi-Fi Alliance: Wi-Fi 6, WMM, WPA, WPA2 and WPA3 - Enterprise, Personal (SAE), Enhanced Open (OWE)

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.

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.

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.

Network Optimization

Doctor AP

Doctor AP mode, combining H3C AC and 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.

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.

Secure Infrastructure

Trusted systems built on H3C Secure Boot provide a strong security foundation for H3C products. All device software compilations utilize RSA asymmetric encryption to ensure the integrity and authenticity of firmware and boot programs. The basic boot code in tamper-resistant partitions establishes a Root of Trust, and forms a Chain of Trust by verifying subsequent stages to enable secure system boot and validate software trustworthiness, thus effectively defending against man-in-the-middle attacks targeting software and firmware.

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.

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H3C WA6620X WiFi 6 Dual Radio Access Point IP68 Rating 2.4 Gbps Speed

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