AIR-WAP605AX-R2 is a dual-band high-performance gigabit wireless access point device based on the 802.11ax standard launched by AirPro, it could offer maximum 2.97Gbps access rate, and supports standard panel for easy installation. AIR-WAP605AX-R2 works in the 2.4GHz and 5GHz frequency bands and supports advanced wireless technologies such as MU-MIMO, OFDMA, spatial multiplexing, and TWT. The first radio works in the 2.4GHz frequency band and can provide a maximum access rate of 575Mbps; the second radio works in the 5GHz frequency band and can provide a maximum access rate of up to 2400Mbps.
AIR-WAP605AX-R2, High Power Enterprise Grade In-wall AP with 1WAN PoE, 4LAN, 1 LAN PoE Out
High Power Enterprise Grade In-wall AP with 1WAN PoE, 4LAN, 1 LAN PoE Out
- 802.11ax Wi-Fi 6 wireless access point/li>
- Wired and wireless gigabit access
- Gigabit LAN PoE Out
- Multiple Gigabit downlink ports
- Easy to deploy x86 standard panel
- Dual-mode fit&fat
General Details
What This Product Does
802.11ax Wi-Fi 6 wireless access point
AIR-WAP605AX-R2 supports the 802.11ax standard, operates in both 2.4 GHz and 5 GHz band, and provides an access bandwidth up to 3000 Mbps. This model is a high-end in-wall access point for hotel, education, government and business networks.
Wired and wireless gigabit access
AIR-WAP605AX-R2 integrated gigabit wired uplink port, can truly meet the bandwidth requirement of wireless clients and four-gigabit (1Port PoE Out) downlink Ethernet ports which support flexible VLAN configuration, the wired and wireless traffic can be logically separated.
Gigabit LAN PoE Out
AIR-WAP605AX-R2 can provide the 1 Gigabit PoE LAN port to power on external device like IP Phone (VOIP) etc.
Multiple Gigabit downlink ports
AIR-WAP605AX-R2 can provide 4 Gigabit downlink ports that allow the customer to connect the terminals, which do not support Wi-Fi, and provide more stable connections.
Easy to deploy x86 standard panel
AIR-WAP605AX-R2 panel supports 86 box standards, and can perfectly fit plug-in installed to any standard panel, With the use of the PoE cable, the whole installation will be low cost, no noise, short period (the time to install an AP is less than 3 minutes).
Dual-mode fit&fat
AIR-WAP605AX-R2 can work in fit or fat mode and can flexibly switch between the fit mode and the fat mode according to network planning requirements.
Specifications
Hardware Specifications
| Item | AIR-WAP605AX-R2 |
| Dimensions(L*W*D) (mm) | 160×86×35 |
| Uplink port | 1*1000M Ethernet uplink port |
| Downlink ports | 4* 10/100/1000M ports,1* 10/100/1000M PoE Out |
| The anti-theft screw | Support an anti-theft screw |
| Power supply | 802.3af & at and External power adapter (Input: 100~240V AC , Output: 12 V DC) |
| Maximum power consumption | <12W |
| RF port | Built-in 2.4 GHz 3 dBi antenna and 5 GHz 3 dBi antenna |
| Working frequency band | 802.11a/n/ac: 5.150 GHz to 5.850 GHz
802.11b/g/n/ax: 2.4 GHz to 2.483 GHz 802.11ax: 5.150GHz to 5.250GHz 5.250GHz to 5.350GHz 5.725GHz to 5.850GHz |
| Modulation technology | 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 11ax: MIMO-OFDM: BPSK, QPSK,16QAM,64QAM,256QAM,1024QAM |
| Transmit power | 2.4G: 20dBm
5G : 20dBm |
| Power adjustment granularity | 1 dBm |
| Working/Storage temperature | –10°C to +55°C
–40°C to +70°C |
| Working/Storage RH | 5% to 95% (non-condensing) |
| Protection level | IP31 |
Software Specifications
| Item | Feature | AIR-WAP605AX-R2 |
| WLAN | Product positioning | In-wall dual-frequency |
| Working frequency band | 2.4GHz and 5GHz | |
| Bandwidth performance | 3000Mbps | |
| Virtual AP (BSSID) | 32 | |
| Concurrent user | 254 | |
| Number of spatial streams | 2.4GHz:2, 5GHz:2 | |
| Dynamic channel adjustment (DCA) | Yes | |
| Transmit power control (TPC) | Yes | |
| Blind area detection and repair | Yes | |
| SSID hiding | Yes | |
| RTS/CTS | Yes | |
| RF environment scanning | Yes | |
| Hybrid access | Yes | |
| Restriction on the number of access users | Yes | |
| Link integrity check | Yes | |
| Intelligent control of terminals based on airtime fairness | Yes | |
| High-density application optimization | Yes | |
| 11n enhancements | Space streams | 2.4GHz:2, 5GHz:2:2 |
| Frequency band | 2.4GHz +5GHz | |
| 80 MHz bundling | Yes | |
| Frame aggregation (A-MPDU) | Yes | |
| Frame aggregation (A-MSDU) | Yes | |
| Maximum likelihood demodulation (MLD) | Yes | |
| Transmit beamforming (TxBF) | Yes | |
| Maximum ratio combining (MRC) | Yes | |
| Space-time block coding (STBC) | Yes | |
| Low-density parity-check code (LDPC) | Yes | |
| Security | Encryption | 64/128 WEP, TKIP, and CCMP encryption |
| 802.11i | Yes | |
| WAPI | Yes | |
| MAC address authentication | Yes | |
| LDAP authentication | Yes | |
| PEAP authentication | Yes | |
| WIDS/WIPS | Yes | |
| Protection against DoS attacks | Anti-DoS for wireless management packets | |
| Forwarding security | Frame filtering, white list, static blacklist, and dynamic blacklist | |
| User isolation | AP L2 forwarding suppression
Isolation between client |
|
| Periodic SSID enabling and disabling | Yes | |
| Access control of free resources | Yes | |
| Wireless SAVI | Yes | |
| ACL | Access control of various data packets such as MAC, IPv4, and IPv6 packets | |
| Secure access control of APs | Secure access control of APs, such as MAC authentication, password authentication, or digital certificate authentication between an AP and an AC | |
| 802.11W | Yes, encryption of management frames | |
| Forwarding | IP address setting | Static IP address configuration or dynamic DHCP address allocation |
| IPv6 forwarding | Yes | |
| IPv6 portal | Yes | |
| Local forwarding | Yes | |
| Multicast | IGMP snooping | |
| Roaming | Yes | |
| AP switching reference | Signal strength, bit error rate, RSSI, S/N, whether neighboring APs are normally operating, etc. | |
| WDS | Yes | |
| QoS | WMM | Yes |
| Priority mapping | Ethernet port 802.1P identification and marking
Mapping from wireless priorities to wired priorities |
|
| QoS policy mapping | Mapping of different SSIDs/VLANs to different QoS policies
Mapping of data streams that match with different packet fields to different QoS policies |
|
| L2-L4 packet filtering and flow classification | Yes: MAC, IPv4, and IPv6 packets | |
| Load balancing | Load balancing based on the number of users
Load balancing based on user traffic Load balancing based on frequency bands |
|
| Bandwidth limit | Bandwidth limit based on APs
Bandwidth limit based on SSIDs Bandwidth limit based on terminals Bandwidth limit based on specific data streams |
|
| Call admission control (CAC) | CAC based on the number of users | |
| Power saving mode | Yes | |
| Automatic emergency mechanism of APs | Yes | |
| Intelligent identification of terminals | Yes | |
| Multicast enhancement | Multicast to unicast | |
| Management | Network management | Centralized management through an AC; both fit and fat modes |
| Maintenance mode | Both local and remote maintenance | |
| Log function | Local logs, Syslog, and log file export | |
| Alarm | Yes | |
| Fault detection | Yes | |
| Statistics | Yes | |
| Switching between the fat and fit modes | An AP working in fit mode can switch to the fat mode through a wireless AC;
An AP working in fat mode can switch to the fit mode through a local control port or Telnet. |
|
| Remote probe analysis | Yes | |
| Dual-image (dual-OS) backup mechanism | Yes | |
| Watchdog | Yes | |
| Value added service | Value added marketing | Support: various apps based on intelligent terminals, advertising push based on location, personalized push of portals |
| Value added authentication | Voucher, SMS, QR code | |
| Passenger flow analysis | Yes |
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