SKU: RG-AP9861-F
Category: ruijie access points
Availability: Unlimited
Model
Description
RG-AP9861-R
Wi-Fi 7 flagship high-density indoor access point
Five radios, 18 spatial streams, peak data rate of 24.436 Gbps
● Radio 1 – 2.4 GHz: four spatial streams, 4x4 MU-MIMO, peak data rate of 1.377 Gbps
● Radio 2 – 5 GHz: four spatial streams, 4x4 MU-MIMO, peak data rate of 5.765 Gbps
● Radio 3 – 5 GHz: four spatial streams, 4x4 MU-MIMO, peak data rate of 5.765 Gbps
● Radio 4 – 6 GHz: four spatial streams, 4x4 MU-MIMO, peak data rate of 11.529 Gbps
● Radio 5 – 2.4 GHz/5 GHz: two spatial streams, 2x2 MIMO
Consuming one AC license per device
In compliance with IEEE 802.11a/b/g/n/ac/ax/be standard
Fat/Fit/Cloud mode switching
802.3at/bt-compliant PoE and DC power supply
● The power sourcing equipment (PSE) needs to be purchased separately.
● The DC power supply needs to be purchased separately, and the output voltage/current must be 54 V/1.25 A.
Brand: Ruijie
Model Number: RG-AP9861-F
Availability: In stock
Minimum order quantity: 1
Maximum order quantity: 999
Listed date: 05/08/2024
Radio Specifications | RG-AP9861-R |
802.11n | 16 spatial streams ● Radio 1 – 2.4 GHz: 4x4 MIMO, four spatial streams ● Radio 2 – 5 GHz: 4x4 MIMO, four spatial streams ● Radio 3 – 5 GHz: 4x4 MIMO, four spatial streams ● Radio 4 – 6 GHz: 4x4 MIMO, four spatial streams Channel: ● Radio 1 – 2.4 GHz: 20 MHz and 40 MHz ● Radio 2 – 5 GHz: 20 MHz and 40 MHz ● Radio 3 – 5 GHz: 20 MHz and 40 MHz ● Radio 4 – 6 GHz: 20 MHz and 40 MHz ● Radio 5 – 2.4 GHz/5 GHz: 20 MHz and 40 MHz Combined peak data rate: 2.400 Gbps Radio 1 – 2.4 GHz: 6.5 Mbps to 600 Mbps (MCS0 to MCS31) Radio 2 – 5 GHz: 6.5 Mbps to 600 Mbps (MCS0 to MCS31) Radio 3 – 5 GHz: 6.5 Mbps to 600 Mbps (MCS0 to MCS31) Radio 4 – 6 GHz: 6.5 Mbps to 600 Mbps (MCS0 to MCS31) Radio 5 – 2.4 GHz/5 GHz: Scanning Radio technologies: Orthogonal Frequency-Division Multiplexing (OFDM) Modulation types: BPSK, QPSK, 16-QAM, and 64-QAM Packet aggregation: ● Aggregate MAC Protocol Data Unit (A-MPDU) ● Aggregate MAC Service Data Unit (A-MSDU) Dynamic Frequency Selection (DFS) Cyclic Delay/Shift Diversity (CDD/CSD) Maximum Ratio Combining (MRC) Space-Time Block Coding (STBC) Low-Density Parity Check (LDPC) Transmit beam-forming (TxBF) |
802.11ac | 12 spatial streams ● Radio 2 – 5 GHz: 4x4 MIMO, four spatial streams ● Radio 3 – 5 GHz: 4x4 MIMO, four spatial streams ● Radio 4 – 6 GHz: 4x4 MIMO, four spatial streams Channel: ● Radio 2 – 5 GHz: 20 MHz, 40 MHz, 80 MHz, and 160 MHz ● Radio 3 – 5 GHz: 20 MHz, 40 MHz, 80 MHz, and 160 MHz ● Radio 4 – 6 GHz: 20 MHz, 40 MHz, 80 MHz, and 160 MHz ● Radio 5 – 5GHz: 20 MHz, 40 MHz, and 80 MHz Combined peak data rate: 10.401 Gbps Radio 2 – 5 GHz: 6.5 Mbps to 3.467 Gbps (MCS0 to MCS9) Radio 3 – 5 GHz: 6.5 Mbps to 3.467 Gbps (MCS0 to MCS9) Radio 4 – 6 GHz: 6.5 Mbps to 3.467 Gbps (MCS0 to MCS9) Radio 5 – 5 GHz: Scanning Radio technologies: Orthogonal Frequency-Division Multiplexing (OFDM) Modulation types: BPSK, QPSK, 16-QAM, 64-QAM, and 256-QAM Packet aggregation: ● Aggregate MAC Protocol Data Unit (A-MPDU) ● Aggregate MAC Service Data Unit (A-MSDU) Dynamic Frequency Selection (DFS) Cyclic Delay/Shift Diversity (CDD/CSD) Maximum Ratio Combining (MRC) Space-Time Block Coding (STBC) Low-Density Parity Check (LDPC) Transmit beam-forming (TxBF) |
802.11ax | 16 spatial streams ● Radio 1 – 2.4 GHz: 4x4 uplink/downlink MU-MIMO, four spatial streams ● Radio 2 – 5 GHz: 4x4 uplink/downlink MU-MIMO, four spatial streams ● Radio 3 – 5 GHz: 4x4 uplink/downlink MU-MIMO, four spatial streams ● Radio 4 – 6 GHz: 4x4 uplink/downlink MU-MIMO, four spatial streams Channel: ● Radio 1 – 2.4 GHz: 20 MHz and 40 MHz ● Radio 2 – 5 GHz: 20 MHz, 40 MHz, 80 MHz, and 160 MHz ● Radio 3 – 5 GHz: 20 MHz, 40 MHz, 80 MHz, and 160 MHz ● Radio 4 – 6 GHz: 20 MHz, 40 MHz, 80 MHz, 160 MHz, and 320 MHz Combined peak data rate: 20.363 Gbps ● Radio 1 – 2.4 GHz: 7.3 Mbps to 1.147 Gbps (MCS0 to MCS11) ● Radio 2 – 5 GHz: 7.3 Mbps to 4.804 Gbps (MCS0 to MCS11) ● Radio 3 – 5 GHz: 7.3 Mbps to 4.804 Gbps (MCS0 to MCS11) ● Radio 4 – 6 GHz: 7.3 Mbps to 9.608 Gbps (MCS0 to MCS11) Radio technologies: uplink/downlink Orthogonal Frequency-Division Multiple Access (OFDMA) Modulation types: BPSK, QPSK, 16-QAM, 64-QAM, 256-QAM, and 1024-QAM Packet aggregation: ● Aggregate MAC Protocol Data Unit (A-MPDU) ● Aggregate MAC Service Data Unit (A-MSDU) Dynamic Frequency Selection (DFS) Cyclic Delay/Shift Diversity (CDD/CSD) Maximum Ratio Combining (MRC) Space-Time Block Coding (STBC) Low-Density Parity Check (LDPC) Transmit beam-forming (TxBF) WPA3 |
802.11be | 16 spatial streams ● Radio 1 – 2.4 GHz: 4x4 uplink/downlink MU-MIMO, four spatial streams ● Radio 2 – 5 GHz: 4x4 uplink/downlink MU-MIMO, four spatial streams ● Radio 3 – 5 GHz: 4x4 uplink/downlink MU-MIMO, four spatial streams ● Radio 4 – 6 GHz: 4x4 uplink/downlink MU-MIMO, four spatial streams Channel: ● Radio 1 – 2.4 GHz: 20 MHz and 40 MHz ● Radio 2 – 5 GHz: 20 MHz, 40 MHz, 80 MHz, and 160 MHz ● Radio 3 – 5 GHz: 20 MHz, 40 MHz, 80 MHz, and 160 MHz ● Radio 4 – 6 GHz: 20 MHz, 40 MHz, 80 MHz, 160 MHz, and 320 MHz Combined peak data rate: 24.436 Gbps ● Radio 1 – 2.4 GHz: 7.3 Mbps to 1.377 Gbps (MCS0 to MCS13) ● Radio 2 – 5 GHz: 7.3 Mbps to 5.765 Gbps (MCS0 to MCS13) ● Radio 3 – 5 GHz: 7.3 Mbps to 5.765 Gbps (MCS0 to MCS13) ● Radio 4 – 6 GHz: 7.3 Mbps to 11.529 Gbps (MCS0 to MCS13) Radio technologies: uplink/downlink Orthogonal Frequency-Division Multiple Access (OFDMA) Modulation types: BPSK, QPSK, 16-QAM, 64-QAM, 256-QAM, 1024-QAM, and 4096-QAM Packet aggregation: ● Aggregate MAC Protocol Data Unit (A-MPDU) ● Aggregate MAC Service Data Unit (A-MSDU) Dynamic Frequency Selection (DFS) Cyclic Delay/Shift Diversity (CDD/CSD) Maximum Ratio Combining (MRC) Space-Time Block Coding (STBC) Low-Density Parity Check (LDPC) Transmit beam-forming (TxBF) WPA3 |
Antenna | Wi-Fi ● 2.4 GHz: four built-in omnidirectional smart antennas, with peak antenna gain of 3 dBi ● 5 GHz: eight built-in omnidirectional smart antennas, with peak antenna gain of 3 dBi ● 6 GHz: four built-in omnidirectional smart antennas, with peak antenna gain of 3 dBi Bluetooth ● One built-in omnidirectional antenna, with peak antenna gain of 3 dBi |
Port | 1 x 100/1000/2.5G/5G/10GBase-T port (10G/PoE IN port on the AP) 1 x 1000/2.5G/5G/10GBase-T port (10G/WAN2 port on the AP), shared with one 10GE SFP+ port 1 x 10GE SFP+ port, compatibility with 10GE/2.5GE/1GE modules, shared with one 10GE RJ45 port (10G/WAN2 port on the AP) 1 x 10/100/1000Base-T port 1 x RJ45 console port (serial console port) 1 x USB 3.0 (Type-A connector) 1 x Bluetooth 5.3 |
Status LED | 1 x multi-color system status LED ● AP power-on status ● Software initialization status and upgrade status ● Uplink service interface status ● Wireless user online status ● CAPWAP tunnel timeout ● Specific AP locating |
Button | 1 x Reset button ● Press the button for shorter than 2 seconds. Then the device restarts. ● Press the button for longer than 5 seconds. Then the device restores to factory settings. |
Dimensions (W x D x H) | Main unit: 245 mm x 245 mm x 67 mm (9.65 in. x 9.65 in. x 2.64 in.) Shipping: 485 mm x 346 mm x 340 mm (19.09 in. x 13.62 in. x 13.39 in.) |
Weight | Main unit: 2.0 kg (4.41 lbs) Mounting bracket: 0.2 kg (0.44 lbs) Shipping weight: 2.76 kg (6.08 lbs) |
Mounting | Wall/Ceiling-mount (a mounting bracket is delivered with the main unit) |
Lock option | Securing latch and Kensington lock |
Input power supply | The AC supports the following two power supply modes: ● 54 V DC/1.25 A power input over DC connector: The DC connector accepts the center-positive circular plug with the inner diameter of 2.5 mm (0.10 in.) or outer diameter of 5.5 mm (0.22 in.) and the length of 9.5 mm (0.37 in.). A DC power supply needs to be purchased independently. ● PoE input over WAN 1: The power sourcing equipment (PSE) complies with IEEE 802.3at/bt standard (PoE+/PoE++) Note: if both DC power and PoE are available, DC power is preferred. |
Maximum power consumption | Maximum power consumption: 60 W ● DC power: 60 W, Radio 1 (2.4 GHz) 4x4, Radio 2 (5 GHz) 4x4, Radio 3 (5 GHz) 4x4, Radio 4 (6 GHz) 4x4, Radio 5 (AI Radio) 2x2, LAN1 for PoE power supply (48 V/12.95 W), USB port for external power supply (5 V/5 W) ● 802.3bt (PoE++): 60 W, Radio 1 (2.4 GHz) 4x4, Radio 2 (5 GHz) 4x4, Radio 3 (5 GHz) 4x4, Radio 4 (6 GHz) 4x4, Radio 5 (AI Radio) 2x2, LAN1 for PoE power supply (48 V/12.95 W), USB port for external power supply (5 V/5 W) ● 802.3at (PoE+): 25 W, Radio 1 (2.4 GHz) 2x2, Radio 2 (5 GHz) 2x2, Radio 3 (5 GHz) 2x2, both Radio 4 and AI Radio disabled, LAN1 that can transmit data but does not support PoE power supply, USB port that fails to supply power to an external device ● Idle mode: 20 W |
External power supply | When powered by 802.3bt (PoE++), the AP can supply power to an external device. ● The USB port can source 5 V/5 W power to an attached device. ● The LAN 1 port can source 48 V/12.95 W power to an IoT unit. |
Environment | Storage temperature: –40°C to +70°C (–40°F to +158°F) Storage humidity: 5% RH to 95% RH (non-condensing) Storage altitude: –500 m to +5,000 m (–1,640.42 ft. to +16,404.20 ft.) Operating temperature: –10°C to +50°C (14°F to 122°F) Operating humidity: 5% RH to 95% RH (non-condensing) Operating altitude: –500 m to +3,000 m (–1,640.42 ft. to +9,842.52 ft.) Note: At an altitude in the range of 1,800–3,000 m (5,905.51–9,842.52 ft.), every time the altitude increases by 166 m (544.62 ft.), the maximum temperature decreases by 1°C (1.8°F). |
Mean Time Between Failure (MTBF) | 200,000 hours (22 years) at the operating temperature of 25°C (77°F) |
System memory | SDRAM: 8 GB NAND: 2 GB SPI: 32 MB |
Transmit power | 2.4 GHz ● Maximum transmit power: 30 dBm (1000 mw) ● Minimum transmit power: 10 dBm (10 mw) 5 GHz ● Maximum transmit power: 30 dBm (1000 mw) ● Minimum transmit power: 10 dBm (10 mw) 6 GHz ● Maximum transmit power : 30 dBm (1000 mw) ● Minimum transmit power : 10 dBm (10 mw) Note: The transmit power adjusted in percentage. The transmit power is limited by local regulatory requirements. For details, see WLAN Country or Region Codes and Channel Compliance. |
The following table lists the radio frequency performance of Wi-Fi including different frequency bands, protocols, and date rates. It is country-specific, and Ruijie Networks reserves the right of interpretation.
Radio Frequency Performance | RG-AP9861-R | ||
Frequency Band and Protocol | Data Rate | Maximum Transmit power per Transmit Chain | Maximum Receive Sensitivity per Receive Chain |
2.4 GHz, 802.11g | 6 Mbps | 24 dBm | –91 dBm |
24 Mbps | 23 dBm | –85 dBm | |
36 Mbps | 23 dBm | –80 dBm | |
54 Mbps | 21 dBm | –74 dBm | |
2.4 GHz, 802.11n (HT20) | MCS0 | 24 dBm | –85 dBm |
MCS7 | 20 dBm | –67 dBm | |
2.4 GHz, 802.11n (HT40) | MCS0 | 24 dBm | –82 dBm |
MCS7 | 20 dBm | –64 dBm | |
2.4 GHz, 802.11ax (HE20) | MCS0 | 24 dBm | –85 dBm |
MCS11 | 17 dBm | –58 dBm | |
2.4 GHz, 802.11ax (HE40) | MCS0 | 24dBm | –82 dBm |
MCS11 | 17dBm | –54 dBm | |
5 GHz, 802.11a | 6 Mbps | 24 dBm | –91 dBm |
24 Mbps | 23 dBm | –85 dBm | |
36 Mbps | 23 dBm | –80 dBm | |
54 Mbps | 21 dBm | –74 dBm | |
5 GHz, 802.11n (HT20) | MCS0 | 24 dBm | –85 dBm |
MCS7 | 20 dBm | –67 dBm | |
5 GHz, 802.11n (HT40) | MCS0 | 24 dBm | –82 dBm |
MCS7 | 20 dBm | –64 dBm | |
5 GHz, 802.11ac (HT20) | MCS0 | 24 dBm | –85 dBm |
MCS9 | 18 dBm | –60 dBm | |
5 GHz, 802.11ac (HT40) | MCS0 | 24 dBm | –82 dBm |
MCS9 | 18 dBm | –57 dBm | |
5 GHz, 802.11ac (HT80) | MCS0 | 24 dBm | –82 dBm |
MCS9 | 18 dBm | –56 dBm | |
5 GHz, 802.11ax (HE20) | MCS0 | 24 dBm | –85 dBm |
MCS11 | 17 dBm | –58dBm | |
5 GHz, 802.11ax (HE40) | MCS0 | 24 dBm | –82dBm |
MCS11 | 17 dBm | –54dBm | |
5 GHz, 802.11ax (HE80) | MCS0 | 24 dBm | –82 dBm |
MCS9 | 18 dBm | –56 dBm | |
MCS11 | 17 dBm | –52dBm | |
5 GHz, 802.11ax (HE160) | MCS0 | 24 dBm | –79 dBm |
MCS9 | 18 dBm | –53 dBm | |
MCS11 | 17 dBm | –50 dBm | |
5 GHz, 802.11be (EHT80) | MCS0 | 24 dBm | –82 dBm |
MCS9 | 18 dBm | –56 dBm | |
MCS11 | 17 dBm | –52 dBm | |
MCS13 | 15 dBm | –46 dBm | |
5 GHz, 802.11be (EHT160) | MCS0 | 24 dBm | –79 dBm |
MCS9 | 18 dBm | –53 dBm | |
MCS11 | 17 dBm | –50 dBm | |
MCS13 | 15 dBm | –44 dBm | |
6 GHz, 802.11ax (HE20) | MCS0 | 24 dBm | –85 dBm |
MCS11 | 17 dBm | –58dBm | |
6 GHz, 802.11ax (HE40) | MCS0 | 24 dBm | –82dBm |
MCS11 | 17 dBm | –54dBm | |
6 GHz, 802.11ax (HE80) | MCS0 | 24 dBm | –82 dBm |
MCS9 | 18 dBm | –56 dBm | |
MCS11 | 17 dBm | –52 dBm | |
MCS13 | 15 dBm | –46 dBm | |
6 GHz, 802.11ax (HE160) | MCS0 | 24 dBm | –79 dBm |
MCS9 | 18 dBm | –53 dBm | |
MCS11 | 17 dBm | –50 dBm | |
MCS13 | 15 dBm | –44 dBm | |
6 GHz, 802.11ax (HE320) | MCS0 | 24 dBm | –79 dBm |
MCS9 | 18 dBm | –51 dBm | |
MCS11 | 17 dBm | –50 dBm | |
MCS13 | 15 dBm | –44 dBm | |
6 GHz, 802.11be (EHT20) | MCS0 | 24 dBm | –85 dBm |
MCS11 | 17 dBm | –58dBm | |
6 GHz, 802.11be (EHT40) | MCS0 | 24 dBm | –82dBm |
MCS11 | 17 dBm | –54dBm | |
6 GHz, 802.11be (EHT80) | MCS0 | 24 dBm | –82 dBm |
MCS9 | 18 dBm | –56 dBm | |
MCS11 | 17 dBm | –52 dBm | |
MCS13 | 15 dBm | –46 dBm | |
6 GHz, 802.11be (EHT160) | MCS0 | 24 dBm | –79 dBm |
MCS9 | 18 dBm | –53 dBm | |
MCS11 | 17 dBm | –50 dBm | |
MCS13 | 15 dBm | –44 dBm | |
6 GHz, 802.11be (EHT320) | MCS0 | 24 dBm | –79 dBm |
MCS9 | 18 dBm | –51 dBm | |
MCS11 | 17 dBm | –50 dBm | |
MCS13 | 15 dBm | –44 dBm |
Note: Available frequency bands may vary with countries or regions. To use the above-mentioned frequency bands, ensure that they are supported in your country or region. For details, see WLAN Country or Region Codes and Channel Compliance.
Software Specification | RG-AP9861-R |
Basic Function | |
Applicable software version | RGOS11.9(6)W3B17 or later |
WLAN | |
Maximum number of associated STAs | 2,048 (up to 512 STAs per radio) |
Maximum number of BSSIDs | 64 (up to 16 BSSIDs per radio) |
Maximum number of WLAN IDs | 16 |
STA management | SSID hiding Band steering Each SSID can be configured with the authentication mode, encryption mechanism, and VLAN attributes independently. Remote Intelligent Perception Technology (RIPT) Intelligent load balancing based on the STA quantity or traffic |
STA limiting | SSID-based STA limiting Radio-based STA limiting |
Bandwidth limiting | STA/SSID/AP-based rate limiting |
CAPWAP | IPv4/IPv6 CAPWAP Layer 2 and Layer 3 topology between an AP and an AC An AP can automatically discover the accessible AC. An AP can be automatically upgraded through the AC. An AP can automatically download the configuration file from the AC. CAPWAP through NAT MTU setting and fragmentation over CAPWAP tunnels Encryption over CAPWAP data channels Encryption over CAPWAP control channels |
Data forwarding | Centralized and local forwarding |
Wireless roaming | Layer 2 and Layer 3 roaming |
Security and Authentication | |
Authentication and encryption | Remote Authentication Dial-In User Service (RADIUS) EXEC authorization, specifying source IP addresses of RADIUS packets, supporting authentication of other vendors, and built-in authentication server PSK, web, 802.1X, WPA, WPA2, and WPA3 authentication QR code-based guest authentication, SMS-based authentication, and MAC address bypass (MAB) authentication Data encryption: WEP (64/128 bits), WPA (TKIP), WPA-PSK, WPA2 (AES), and WPA3 |
Data frame filtering | Allowlist, static blocklist, and dynamic blocklist |
WIDS | Wireless Intrusion Detection System (WIDS) User isolation Rogue AP detection and containment |
Dynamic Policy | IP standard ACL, MAC extended ACL, IP extended ACL, and expert-level ACL Time range-based ACL ACL based on a Layer 2 interface ACL based on a Layer 3 interface Ingress ACL based on a wireless interface Dynamic ACL assignment based on 802.1X authentication (used with the AC) |
CPP | CPU Protect Policy (CPP) |
NFPP | Network Foundation Protection Policy (NFPP) |
Routing and Switching | |
MAC | Static MAC address, MAC address filtering, MAC address limiting MAC address table size: 4,096 Maximum number of static MAC addresses: 2,048 Maximum number of filtered MAC addresses: 2,048 |
Ethernet | Jumbo frame length: 1,518 Full-duplex and half-duplex modes of interfaces IEEE 802.1p and IEEE 802.1Q |
VLAN | Interface-based VLAN assignment Maximum number of SVIs: 200 Maximum number of VLANs: 4,094 VLAN ID range: 1–4,094 |
ARP | ARP entry aging, gratuitous ARP learning, and ARP proxy Maximum number of ARP entries: 2,048 ARP check |
IPv4 services | Static and DHCP-assigned IPv4 addresses NAT, FTP ALG, and DNS ALG |
IPv6 services | IPv6 SAVI IPv6 addressing, Neighbor Discovery (ND), IPv6 ND proxy, ICMPv6, IPv6 ping IPv6 DHCP client |
IP routing | IPv4/ IPv6 static route Maximum number of static IPv4 routes: 1,024 Maximum number of static IPv6 routes: 1,000 |
Multicast | Multicast-to-unicast conversion |
VPN | PPPoE client IPsec VPN |
Network Management and Monitoring | |
Network management | NTP server and NTP client SNTP client SNMP v1/v2c/v3 Fault detection and alarming Information statistics collection and logging |
Network management platform | Web management (Eweb) |
User access management | Console, Telnet, SSH, FTP client, FTP server, and TFTP client |
Fat/Fit/Cloud mode switchover | When the AP works in Fit mode, it can be switched to Fat mode through an AC. When the AP works in Fat mode, it can be switched to Fit mode through the console port or Telnet. When the AP works in Cloud mode, it can be managed through WIS Cloud. |
The following value-added software functions can be achieved with the WIS solution (used with RG-iData-WIS and wireless controller).
Value-added Software | RG-AP9861-R |
Intelligent O&M | |
Experience | Network operation analysis, such as device stability and signal coverage Measuring users' network experience based on indicators such as the latency, packet loss, signal strength, and channel utilization, and visualizing results of the network experience Statistics on the number of online and offline failures of STAs associated with different APs, average signal strength, and other parameters VIP monitoring and alarm, and custom alarm thresholds STA global experience map and experience coverage evaluation based on the time range STA access protocol replay and fine-grained STA fault diagnosis Note: To support the preceding functions, ensure that the AP works in Fit mode. |
Network optimization | Network performance optimization, including one-click network optimization and scenario-based optimization Client steering to cope with roaming stickiness, and experience indicator comparison Client steering to cope with remote association, and experience indicator comparison One-click diagnosis – analyzing problems and providing suggestions |
Big data | Baseline analysis – recording the configuration, version, and other changes, and tracking network KPI changes Time capsule – analyzing the device version and configuration change history |
Regional analysis | Batch generation of building floor information – uploading floor plans, and dragging and dropping AP positions |
One-click report | One-click health report – generating a report on the overall operation of a network |
Security radar | Unauthorized Wi-Fi signal location, presentation by category, and containment |
Cloud Management | |
Management and maintenance | Uniformly connecting, managing, and maintaining APs, ACs, and other devices, batch device configuration and upgrade, and other functions Deployment through Zero Touch Provisioning (ZTP) – creating configuration templates and automatically applying configured templates One-click discovery of the wired and wireless network topology and topology generation |
Cloud Authentication | |
Authentication mode | SMS-based authentication, built-in account authentication, one-click authentication, Facebook authentication, Instagram authentication, Voucher authentication, and other authentication modes Authentication implemented on the cloud, eliminating the need to deploy the local authentication server |
Customized portal | Customized Portal authentication page for mobile phones and PCs |
SMS gateway | Interconnection with SMS gateways of GUODULINK and Alibaba Cloud |
Platform Capabilities | |
Big data capabilities | Mainstream persistence solutions based on Hadoop, MongoDB, and MySQL, providing distributed storage capabilities Spark-based big data computing capabilities Data warehouse building based on Hive, and data model conversion, integration, and other functions |
Hierarchy and decentralization | Authorizing different applications for different users to meet service needs of different departments Granting operation permissions to administrators in different scenarios |
System management | Account operation, authorization configuration, email configuration, configuration backup, exception alarms, and other system management functions |
Note: For details, refer to the latest hybrid cloud management solution.
Regulatory Compliance | RG-AP9861-R |
Regulatory compliance | EN 55032 EN 55035 EN 61000-3-3 EN IEC 61000-3-2 EN 301 489-1 EN 301 489-3 EN 301 489-17 EN 300 328 EN 301 893 EN 300 440 FCC Part 15 ETSI EN 303 687 EN IEC 62311 IEC 62368-1 EN 62368-1 |
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