AIR-AP605C-X1
- AIR-AP605C-X1 Enterprise-class indoor 802.11ax Wi-Fi 6 wireless access point.
- Wireless user management at a fine granularity.
- 802.11ax, Wi-Fi 6 Access bandwidth 1775Mbps
- 802.3at PoE Downlink port Concurrent user 254
- Flexible installation and Downlink Port.
- Good PoE compatibility.
- Dual-mode fit & fat.
- Kinh Doanh
Mr Minh:
- Kinh Doanh
Mr Luân:
- Kinh DoanhWhatsApp:
- Tư Vấn Giải PhápFacebook:
- Hỗ Trợ Đơn HàngSales Engineer:
- 0989 544 978AirPro AIR-AP605C-X1 Indoor 802.11ax Wi-Fi 6 wireless access point
AIR-AP605C-X1 is a dual-band high-performance gigabit wireless access point device based on the 802.11ax standard launched by AIRPRO, it could offer maximum 1775Mbps access rate. AIRAP605CX1 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 of AIRAP605C-X1 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 1200Mbps.
Enterprise-class indoor 802.11ax Wi-Fi 6 wireless access point:
AIR-AP605C-X1 supports the 802.11ax standard, operates in both 2.4 GHz and 5 GHz band, and provides an access bandwidth up to 1775Mbps. This model is the best choice for Entry-level office or company as it can support concurrent users up to 254.
Wireless user management at a fine granularity:
AIR-AP605C-X1 can support a maximum of 8 WLANs to implement multi-layer multi-service management of wireless users at a fine granularity. Each WLAN supports access control and uplink/downlink rate limit based on MAC or IP addresses. These WLANs may be bound to virtual local area networks (VLANs).
Flexible installation:
AIR-AP605C-X1 supports wall mounting, ceiling mounting, T-keel mounting, you can deploy it almost everywhere that you want.
Downlink Port:
AIR-AP605C-X1 provides 1 downlink port for the accessing of wired devices, which improves the flexibility of networking deployment.
Good PoE compatibility:
AIR-AP605C-X1 can work well with all PoE switch (cisco, HUAWEI, juniper,AirPro etc.) which support 802.3af & at standard, this allows to power up AIR-AP605C-X1 directly, a power adapter is not required anymore.
Dual-mode fit & fat:
AIR-AP605C-X1 can work in fit or fat mode and can flexibly switch between the fit mode and the fat mode according to network planning requirements.
AIR-AP605C-X1 Datasheet
| Model | AIR-AP605C-X1 |
|---|---|
| Dimensions(L*W*D) (mm) | 180 x 180 x 28.5 |
| 10/100 /1000Base-T port | 1* 10/100 /1000Base-T (PoE) |
| Console port (RJ-45) | 1* 10/100 /1000Base-T |
| USB 2.0 | 1 |
| Power supply | 802.3af & at and External power adapter (Input: 100〜240V AC , Output: 12 VDC) |
| Maximum power consumption | <13W |
| Antenna gain | Built-in 2.4 GHz 5 dBi antenna and 5 GHz 5 dBi antenna |
| Working frequency band | 802.11b/g/n/ax: 2.4 GHz to 2.483 GHz 802.11ax: 5.150GHz to 5.350GHz 5.47GHz to 5.725GHz 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-OFDMA: BPSK, QPSK,16QAM,64QAM,256QAM,1024QAM |
| Transmit power | 2.4G: 23dBm 5G : 22dBm (Note: final output power comply with deployment regulation and might be different) |
| Power adjustment granularity | 1 dBm |
| Working/Storage | –10°C to +55°C |
| temperature | –40°C to +70°C |
| Working/Storage RH | 5% to 95% (non-condensing) |
| Protection level | Ip41 |
| WLAN | Product positioning Indoor dual-frequency Working frequency band 2.4GHz and 5GHz Bandwidth performance 1775Mbps 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 Accessing control of terminals based on Yes signal strength Forcing terminals to roam based on signal strength Yes Intelligent control of terminals based on Yes airtime fairness High-density application optimization Yes |
| 802.11ax enhancements | Space streams 2.4GHz:2, 5GHz:2 Frequency band 2.4GHz + 5GHz 80 MHz bundling Yes 1200Mbp(s PHY) 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 Encryption 64/128 WEP, TKIP, and CCMP encryption 802.11i Yes |
| Security | Portal authentication Yes MAC address authentication Yes LDAP authentication Yes PEAP authentication Yes 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 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. WMM Yes |
| QoS | 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 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. |
| 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 WeChat, SMS, QR code Passenger flow analysis Yes |
There are no reviews yet.