Ruijie Wireless Controller Series
The Ruijie Wireless Controller Series is designed to support the next generation of high speed wireless networks. Ruijie Wireless Controllers can be used on Layer 2 or Layer 3 networks to communicate with Ruijie Wireless access points (APs) without architectural or hardware changes
DESCRIPTION
The Ruijie Wireless Controller Series is designed to support the next generation of high speed wireless networks. Ruijie Wireless Controllers can be used on Layer 2 or Layer 3 networks to communicate with Ruijie Wireless access points (APs) without architectural or hardware changes, offering seamless and secure wireless control. The Ruijie Wireless Controller can manage up to 128 APs by default and a maximum capacity of 2,560 APs with license upgrade.
Ruijie Wireless Controller supports centralized and transparent network management, Ruijie Wireless greatly simplifies network deployment. With the RG-SNC Smart Network Commander and Ruijie’s leading AP series, the Ruijie Wireless Controller significantly minimizes deployment workloads by supporting Ruijie Wireless AP configuration management, radio frequency range optimization (RF), and cluster management.
The Ruijie Wireless Controller enables role-based network services with advanced security and clustering technology. The Ruijie clustering technology shares the Ruijie Wireless user database among multiple controllers and allows Wi-Fi users to roam seamlessly within the network. The Ruijie Wireless Controller truly delivers smooth wireless voice communication and other services with superior security and availability.
High-end features of the Ruijie Wireless Controller Series :
● Scalable up to 2,560 AP and 80K Clients
● Built-in with Advanced Wireless Radio Management and WIPS Security Protection
● Supports Seamless L2 / L3 Roaming
● Supports N + a, N + N, Durability
● Built-in with Portal Server for Authentication The web
Experience the Smart Ruijie Wireless
Smart Device Smart Identification
The built-in portal server of the Ruijie Wireless Controller Series intelligently identifies the smart device type, providing an adaptive authentication page that matches the screen automatically. The smart feature eliminates the difficulty of adjusting the screen size and hence offers a better wireless user experience. Ruijie Wireless supports all major operating systems including Apple iOS, Android, and Windows.
Fair Scheduling
Ruijie Wireless collaborates with the leading AP series in Ruijie, Ruijie Wireless Controller Series supports the same access time for smart devices no matter they are running 802.11g, 802.11n, 802.11ac or other standards. This feature eliminates high latency, slow network speeds, and poor AP performance issues. The problem is caused by using an old or long distance wireless LAN card between the end device and the AP. Wireless Controller Series ensures high-speed wireless networking that is fair to all devices anywhere and anytime
Fair Scheduling Mechanism
Intelligent Load Balancing
In high density wireless LAN, Ruijie Wireless Controller Series intelligently distributes users among different APs according to the number of users and data traffic in real time. This feature balances the load pressure on each AP and increases average bandwidth and Quality of Service (QoS), offering higher network availability. Apart from role and traffic based balancing features, the Ruijie Wireless Controller Series also supports load balancing in terms of frequency ranges. Because most Wi-Fi devices work at 2.4GHz by default while frequencies above 5GHz (802.11a / n / ac) can offer better throughput performance. With frequency based load balancing, The Wireless Controller Series allows users with dual-band devices to connect to 5GHz as a first priority. Bandwidth usage is greatly increased by 30-40% at no additional cost. As such, the Wireless Controller Series provides a best-in-class wireless experience for all Ruijie clients.
Intelligent Load Balancing Mechanism
High Performance and Reliability
Exclusive 24 port PoE support
In the Wireless Controller Series, the RG-WS6024 model tops the class by offering PoE power support and all-in-one wired and wireless management. The versatile controller supports wired Gigabit Ethernet access, 10G fiber uplink, and PoE / PoE + power supplies. The RG-WS6024 offers three PoE power supply modes – automatic, energy efficient and static – to meet various usage challenges. When an interface is off for a certain period of time, the system will automatically shut it down for extra energy efficiency. EEE energy saving mode is another excellent feature. The system will automatically change the idle port to energy saving mode. When there is a new packet, the system will issue a listening stream to the port to continue service. Other than that, this controller offers management of up to 24 APs and can be upgraded up to 128 APs with license upgrades. The RG-WS6024 is ideal for acting as a wireless core for general education, small and medium business networks, and corporate branches.
Outstanding Scalability and Power Redundancy
The RG-WS6816 model is another feature model. The controller supports up to 2 expansion modules, offering 4 1000BASE-T / 1000BASE-X (WNM-4GE-S) combo ports and 2 10GBASE-X (WNM-2XS-S) ports. The RG-WS6816 also supports up to 2 power modules for extra durability.
Centralized or Distributed Intelligent Switching
The Wireless Controller Series can be used at Layer 2 or Layer 3 levels without modifying the original network architecture. Establishing an integrated switching framework with AP, the controller handles all AP data exchange management with ease.
With industry-leading local forwarding technology, the Wireless Controller Series eliminates the traffic jams alternatives in the market have been fighting for. Local forwarding technology enables flexible deployment of AP data forwarding. In other words, the AP can determine whether to forward all data through a controller based on the user’s Service Set ID (SSID) and VLAN, or to send data directly to the wired network for local data exchange. Local forwarding technology enables large-scale, delay-sensitive, real-time data transmission over wired networks. With the high throughput of 802.11ac, it greatly reduces traffic pressure on the controller.
Flexible VLAN / IP based Local Forwarding Policy
Intelligent RF Management
The Wireless Controller Series allows APs to perform on-demand RF scans in wireless environments. By scanning wireless frequency bands and channels, APs and malicious networks can be identified easily. The AP will alert network administrators to action as soon as it is discovered, providing round the clock network protection. In addition, the Wireless Controller Series can control real-time RF scanning functions for signal and interference measurement. The controller software also dynamically adjusts traffic load, power, RF range and channel allocation for maximized signal coverage and capacity.
Auto Coverage Off Zone and Channel Adjustment
Seamless Roaming Experience
Advanced clustering technology enables real-time synchronization of online information and roaming records of all users between multiple Wireless Controllers. Simply put, user data and authentication are shared in clusters, allowing wireless users to roam freely across the network. Users can enjoy a seamless and secure roaming experience with the IP address and authentication status remaining unchanged. The Wireless Controller Series supports fast roaming and voice services with clustering technology.
Seamless L2 & L3 Roaming
Remote Intelligent Perception Technology (RIPT)
In a traditional network architecture where the AP FIT is centrally managed by a wireless controller, packets received by the AP must be transmitted to the controller before being forwarded. When the wireless controller goes wrong, the AP will fail to function properly causing the entire network to crash. Ruijie’s latest RIPT provides you with a complete disaster recovery solution and enables the Wireless Controller Series to implement smart link perception. Once a faulty controller is detected, the AP will immediately switch to smart mode to continue data forwarding, ensuring high availability of the wireless network and keeping wireless users always online.
Remote Intelligent Perception Technology (RIPT) – Disaster Recovery
Abundant QoS Policy
The Wireless Controller Series supports a variety of QoS policies. By setting bandwidth limits, higher priority is given to important applications than others. The Wireless Controller Series therefore provides guaranteed bandwidth performance for networks of all sizes.
Wireless IPv6 Access
The Wireless Controller Series fully supports IPv6 features and implements IPv6 forwarding in the wireless network. Both IPv4 and IPv6 users can automatically connect to the controller via the tunnel, enabling IPv6 applications to be covered by the wireless network.
Flexible and Comprehensive Security Policy
Local Authentication
Wireless Controller Series supports local user database. Together with the built-in portal, the controller supports web authentication for wireless users with ease. Local authentication based on actual user requests is achieved for maximum cost savings, eliminating enhancements such as external portals and RADIUS servers. The network infrastructure is also greatly simplified. The Wireless Controller Series ensures high security for small and medium networks at the lowest possible price.
Encrypt User Data
The Wireless Controller Series fully supports advanced encryption technologies such as Wired Equivalent Privacy (WEP), Temporal Key Integrity Protocol (TKIP), and Advanced Encryption Standard (AES), ensuring secure end-to-end data transmission over wireless networks.
Standard Communication Protocols
Encrypted communication between the controller and the Access Point is enabled with international standard Wireless Access Point Control and Provision (CAPWAP). This function ensures total isolation from the wired network and ensures high security for real-time communication between the Wireless Controller and the AP. CAPWAP will also enable future deployment of third party APs, offering superior scalability, maximized availability and user investment at the same time.
Virtual Wireless Packet Technology
With virtual AP technology, the Wireless Controller Series can partition multiple SSIDs in a network. Network administrators can separately encrypt and isolate subnets or VLANs that share the same SSID. Deployment thus allows a defined authentication mode and encryption mechanism for each SSID.
RF security
The Wireless Controller Series allows the AP to support RF probe scanning. This feature efficiently detects unauthorized access points or other sources of RF interference. Administrators are alerted once detected, providing an easy way to monitor potential threats and usage status.
Protection Against Viruses and Attacks
The Wireless Controller Series provides a variety of internal security mechanisms against virus spread and network traffic attacks. The mechanism ensures secure network access only by authorized users. Such protection mechanisms include IP / MAC / WLAN binding, hardware ACL control, traffic-based bandwidth limitation and much more. The Wireless Controller Series is the ideal partner for large campus, hospital, or corporate networks with high security demands for guest network access.
Secure User Access
The Wireless Controller Series supports Web Authentication, enabling users to authenticate using any web browser.
802.1X authentication is another security highlight. The main difference from web authentication is that 802.1X allows IP / MAC / WLAN binding after authentication. This feature fully guarantees the validity of the user’s identity.
The Wireless Controller Series also supports the Ruijie RG-SMP Security Management Platform to provide insight and control over the security of Ruijie and network devices. RG-SMP offers comprehensive security management across a wide range of Ruijie security tools and enables users to manage office networks of all sizes for various industries, with security compliance requirements in the aspects of user identity, host health, and network communication security.
Flexible Authentication Mode
Apart from traditional Web Authentication and 802.1X Authentication, the Wireless Controller Series also supports PEAP Authentication, SMS Authentication and QR Code Authentication.
PEAP authentication allows a user to authenticate a password only once. That means users are only required to enter credentials during their first network visit.
If SMS authentication is adopted, the user first logs in with their mobile number and then receives an SMS with the login username and password for network access.
QR code authentication is another wireless security highlight. After accessing the wireless network, users will get a QR code on their end device and simply ask the authorized staff to scan for network access.
Advanced Guest Wireless Interface of QR Code Authentication
ARP Spoofing Protection
Address Resolution Protocol (ARP) detection effectively protects network users from ARP gateway spoofing and host spoofing for secure wireless access. Automatic binding can be enabled in both dynamic and static IP address allocation environments to greatly save manpower and management costs. The Wireless Controller Series can monitor and control the rate of ARP packets being sent to prevent the use of malicious scanning tools, which trigger ARP floods and cause network congestion.
Countermeasures for Naughty APs
The Wireless Controller Series enables effective detection and containment of rogue APs for enhanced wireless security. The controller sets the active AP to perform malicious detection, send probe packets and hear probe responses from other valid APs. Network administrators can therefore easily select a malicious AP to ensure wireless network security.
Rogue AP and User Countermeasures
DHCP security
With Dynamic Host Configuration Protocol (DHCP) snooping, Wireless Controller Series allows DHCP response messages only from trusted ports. By doing so, the controller can prevent unauthorized DHCP server deployment from interfering with IP address allocation and management and affecting the normal operation of the network. With DHCP monitoring function, Wireless Controller can effectively prevent ARP host spoofing and source IP address spoofing in dynamic IP allocation environment by dynamically monitoring ARP and checking source IP address.
Management Information Security
To ensure device security and offer protection against attacks, Secure Shell (SSH) and SNMPv3 technology encrypts management information by Telnet and Simple Network Management Protocol (SNMP). The Wireless Controller Series offers Telnet access control based on the source IP address, offering a high level of granularity in device management. Only IP addresses authorized by the network administrator can log on to the controller, which further improves the security of device network management.
Integrated Network Management
Multiple Management Protocols and Integrated Management Platform
The Wireless Controller Series supports a large number of management modes including Command Line. The controller offers centralized and efficient planning, deployment, monitoring and management of all APs, with minimal investment costs. Working with Ruijie RG-SNC Smart Network Commander which is an all-round network management platform, the Wireless Controller Series provides enriched network management services such as topology creation, AP operation status, online user status, entire RF network planning, user location, security alerts, link loads , device usage levels, roaming logs and report output. These functions allow network administrators to monitor and manage the operation status of the entire network in the data center.
Ruijie SNC Unified Topology Diagram
Web Interface Management
The Wireless Controller Series supports a web management interface, which provides simplified wireless configuration and high visibility for the entire network operation. With the AC web interface, the controller manages not only APs, but also associated AP users. This feature achieves control over user bandwidth control and network access. Network administrators can therefore plan, operate and maintain wireless networks with ease.
Ruijie Smart Web Management Interface
Next-Gen Cloud Infrastructure & Technologies
Centralized User Management
In the Wireless Controller Series, the RG-M8600E-WS-ED and RG-M18000-WS-ED (for the Ruijie RG-S8600E and RG-N18000 series respectively) take on a core role for centralized user management in the Ruijie Simplicity Campus Network (SCN ) Solution. Cooperating with the respective switch series and built-in / external 802.1X / Portal authentication system, these two wireless controller modules support integrated wired and wireless authentication on the core device. This module supports ultra-large ARP capacities, together with ≥90K IPv4 / IPv6 dual stack devices for centralized authentication of up to 1,000 devices per second.
RG-M18000-WS-ED and RG-M8600E-WS-ED are specially designed for the above switches
Multi-processing Modular Operating System
Ruijie has devoted R&D resources to modular operating systems since 1998. The RG-M8600E-WS-ED and RG-M18000-WS-ED software platforms are designed based on the gen RGOS 11.X multi-processing next multi-processing modular operating system. -gen. . The OS integrates service features such as firewall, wireless, IPFIX and authentication all into one cloud platform. The platform therefore fully supports virtualization and offers a wide range of data center and campus network features. The OS supports isolation failures between multi-processing modules. Upgrading certain components or adding new features will have no impact on overall performance. The standby feature will not occupy any system resources. The modular OS takes software stability to a whole new level.
Architecture and Benefits of Modular Multi-process Operating Systems
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Model |
RG-WS6008 |
RG-WS6108 |
RG-WS6816 |
RG-WS6024 |
RG-M8600E -WS-ED |
RG-M18000 -WS-ED |
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|
Model |
RG-WS6008 |
RG-WS6108 |
RG-WS6816 |
RG-WS6024 |
RG-M8600E -WS-ED |
RG-M18000 -WS-ED |
|
|
Service Ports |
6 1000BASE-T ports |
6 1000BASE-T ports |
8 1000BASE-T/1000BASE-X ports (combo) |
24 10/100/1000BASE-T ports |
2 1G/10GBASE-X SFP+ ports |
2 1G/10GBASE-X SFP+ ports |
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|
Management Ports |
1 console port |
1 console port |
1 console port |
1 console port |
1 console port |
1 console port |
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|
LED Indicators |
Status, Link/ACT |
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Security Standard |
GB4943, EN/IEC 60950-1 |
GB4943, EN/IEC 60950-1 |
GB4943-2011 |
GB4943-2011 |
GB4943-2011 |
GB4943-2011 |
|
|
EMC Standard |
GB9254, EN301 489 |
GB9254, EN301 489 |
GB9254-2008, CLASS A |
GB9254-2008 |
GB9254-2008 |
GB9254-2008, CLASS A |
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|
Performance |
Switching Capacity |
N/A |
N/A |
N/A |
128Gbps |
N/A |
N/A |
|
Packet Forwarding Rate |
N/A |
N/A |
N/A |
96Mpps |
N/A |
N/A |
|
|
Default Number of Manageable APs |
32 |
32 |
128 |
24 |
128 |
128 |
|
|
Maximum Number of Manageable APs |
200 APs or 400 wall APs (with license upgrade) |
320 APs or 640 wall APs (with license upgrade) |
2,560 APs or 4,000 wall APs (with license upgrade) |
128 (with license upgrade) |
2,560 (with license upgrade) |
2,560 (with license upgrade) |
|
|
Maximum Number of Configurable APs |
2,048 |
2,048 |
16K |
96 (up to 512 with license upgrade) |
16K |
16K |
|
|
Maximum Number of Clients |
6,400 |
10K |
80K |
768 (up to 4,096 with license upgrade) |
80K |
80K |
|
|
802.11 Performance |
8Gbps |
8Gbps |
48Gbps |
N/A |
48Gbps |
48Gbps |
|
|
VLAN |
4,094 |
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Maximum Number of Clients Supported by the Built-in Portal |
1,500 |
7,500 |
7,500 |
768 (up to 4,096 with license upgrade) |
10K |
10K |
|
|
ACL |
64K |
64K |
512K |
1,500 |
512K |
512K |
|
|
Number of Wireless Users |
6,400 |
10K |
80K |
1K |
80K |
80K |
|
|
MAC Address Table |
16K |
16K |
128K |
16K |
128K |
128K |
|
|
Local Authentication |
300 wireless clients |
300 wireless clients |
300 wireless clients |
768 (up to 4,096 with license upgrade) |
10K wireless clients |
10K wireless clients |
|
|
ARP Table |
12K |
12K |
96K |
1K |
96K |
96K |
|
|
IPv6 Neighbor Table |
10K |
10K |
10K |
500 |
10K |
10K |
|
|
Inter-AC Roaming Switch Time |
≤50ms |
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LAN |
802.1Q VLAN |
Support |
Support |
Support |
4K 802.1Q VLAN, Port-based VLAN, MAC-based VLAN, Protocol-based VLAN, Private VLAN, Voice VLAN, Private VLAN, IP subnet-based VLAN, GVRP |
Support |
Support |
|
PoE |
N/A |
N/A |
N/A |
Support PoE/PoE+ (802.3af/at) |
N/A |
N/A |
|
|
QinQ |
N/A |
N/A |
N/A |
Basic QinQ, Flexible QinQ, N:1 VLAN switching, 1:1 VLAN switching |
N/A |
N/A |
|
|
ACL |
Standard IP ACL, Extended IP ACL, MAC-extended ACL, Expert ACL |
Standard IP ACL, Extended IP ACL, MAC-extended ACL, Expert ACL |
Standard IP ACL, Extended IP ACL, MAC-extended ACL, Expert ACL |
Standard IP ACL (hardware ACL based on IP address), Extended IP ACL (based on IP address and TCP/UDP port number), MAC-extended ACL (based on source and destination MAC addresses and optional Ethernet type), Time-based ACL, Expert ACL (based on the flexible combination of VLAN number, Ethernet type, MAC address, IP address, TCP/UDP port, protocol type, and time), ACL80, IPv6 ACL, ACL logging, ACL counter, ACL remark, Global ACL, ACL redirect |
Standard IP ACL, Extended IP ACL, MAC-extended ACL, Expert ACL |
Standard IP ACL, Extended IP ACL, MAC-extended ACL, Expert ACL |
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|
QoS |
N/A |
N/A |
N/A |
Port traffic identification, Port traffic control, 802.1p/DSCP/TOS traffic classification, 8 priority queues on each port, SP, WRR, DRR, SP+WFQ, SP+WRR, SP+DRR, RED/WRED queue scheduling |
N/A |
N/A |
|
|
WLAN |
LAN Protocols |
ARP, VLAN, 802.1p, 802.1q, 802.1d, 802.1w, 802.1s |
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802.11 LAN Protocols |
802.11, 802.11b, 802.11a, 802.11g, 802.11d, 802.11h, 802.11w, 802.11k, 802.11r, 802.11i, 802.11e, 802.11n |
802.11, 802.11b, 802.11a, 802.11g, 802.11d, 802.11h, 802.11w, 802.11k, 802.11r, 802.11i, 802.11e, 802.11n |
802.11, 802.11b, 802.11a, 802.11g, 802.11d, 802.11h, 802.11w, 802.11k, 802.11r, 802.11i, 802.11e, 802.11n |
802.11, 802.11b, 802.11a, 802.11g, 802.11d, 802.11h, 802.11w, 802.11k, 802.11r, 802.11i, 802.11e, 802.11n, 802.11ac |
802.11, 802.11b, 802.11a, 802.11g, 802.11d, 802.11h, 802.11w, 802.11k, 802.11r, 802.11i, 802.11e, 802.11n, 802.11ac |
802.11, 802.11b, 802.11a, 802.11g, 802.11d, 802.11h, 802.11w, 802.11k, 802.11r, 802.11i, 802.11e, 802.11n, 802.11ac |
|
|
CAPWAP |
Layer 2/Layer 3 network topology between an AP and AC |
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Roaming |
Intra-AC Layer 2/Layer 3 roaming, Inter-AC Layer 2/Layer 3 roaming, Intra-AC Layer 2/Layer 3 roaming under local forwarding, Inter-AC Layer 2/Layer 3 roaming under local forwarding |
Intra-AC Layer 2/Layer 3 roaming, Inter-AC Layer 2/Layer 3 roaming, Intra-AC Layer 2/Layer 3 roaming under local forwarding, Inter-AC Layer 2/Layer 3 roaming under local forwarding |
Intra-AC roaming, Inter-AC roaming |
Intra-AC Layer 2/Layer 3 roaming, Inter-AC Layer 2/Layer 3 roaming, Intra-AC Layer 2/Layer 3 roaming under local forwarding, Inter-AC Layer 2/Layer 3 roaming under local forwarding |
Intra-AC roaming, Inter-AC roaming |
Intra-AC roaming, Inter-AC roaming |
|
|
Forwarding |
Local forwarding, Centralized forwarding, Flexible forwarding based on service |
Local forwarding, Centralized forwarding, Flexible forwarding based on service |
Local forwarding, Centralized forwarding |
Local forwarding, Centralized forwarding |
Local forwarding, Centralized forwarding, AP-based bandwidth control, User isolation under the same SSID |
Local forwarding, Centralized forwarding, AP-based bandwidth control, User isolation under the same SSID |
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|
Wireless QoS |
AP-based bandwidth control, WLAN-based bandwidth control, User-based static and smart speed control, Fair balancing |
AP-based bandwidth control, WLAN-based bandwidth control, User-based static and smart speed control, Fair balancing |
AP-based bandwidth control, WLAN-based bandwidth control, User-based static and smart speed control, Fair balancing |
AP-based bandwidth control, WLAN-based bandwidth control, User-based static and smart speed control, Fair balancing |
User/SSID-based rate limit (granularity: 8Kbit/s), WMM (802.11e), Wireless priority to wired priority projection, Wireless user priority to CAPWAP tunnel priority projection |
User/SSID-based rate limit (granularity: 8Kbit/s), WMM (802.11e), Wireless priority to wired priority projection, Wireless user priority to CAPWAP tunnel priority projection |
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|
User Isolation |
AC-based user isolation |
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Reliability |
Fast switching between 2 ACs, Multiple ACs redundancy (1:1 A/A and A/S, N:1), Multiple ACs clustering (N:N), Remote Intelligent Perception Technology (RIPT), Service upgrade |
Fast switching between 2 ACs, Multiple ACs redundancy (1:1 A/A and A/S, N:1), Multiple ACs clustering (N:N), Remote Intelligent Perception Technology (RIPT), Service upgrade |
Fast switching between 2 ACs, Multiple ACs redundancy (1:1 A/A and A/S, N:1), Multiple ACs clustering (N:N), Remote Intelligent Perception Technology (RIPT), Service upgrade |
Fast switching between 2 ACs, Multiple ACs redundancy (1:1 A/A and A/S, N:1), Multiple ACs clustering (N:N), Remote Intelligent Perception Technology (RIPT), Service upgrade |
Fast switching between 2 ACs, Multiple ACs redundancy (1:1 and N:1), Dual power supplies |
Fast switching between 2 ACs, Multiple ACs redundancy (1:1 and N:1), Dual power supplies |
|
|
STA Management |
AP-based STA access control, SSID-based STA access control, AP-based load balancing, AP traffic-based load balancing, 5G priority access, RSSI threshold |
AP-based STA access control, SSID-based STA access control, AP-based load balancing, AP traffic-based load balancing, 5G priority access, RSSI threshold |
AP-based STA access control, SSID-based STA access control, AP-based load balancing, AP traffic-based load balancing, 5G priority access, RSSI threshold |
AP-based STA access control, SSID-based STA access control, AP-based load balancing, AP traffic-based load balancing, 5G priority access, RSSI threshold |
User-based bandwidth limit, User-based access control, Port mirroring |
User-based bandwidth limit, User-based access control, Port mirroring |
|
|
STA RSSI Threshold |
0 to 100 |
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|
STA Idle Timeout |
60 to 86,400 seconds |
60 to 86,400 seconds |
60 to 86,400 seconds |
90 to 86,400 seconds |
90 to 86,400 seconds |
90 to 86,400 seconds |
|
|
STA Average Data Rate Threshold |
8 to 819,200 with the accuracy of 8Kbps |
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|
Adjusting Transmit Power of Beacon and Probe Response |
Support |
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|
Offline Syslog |
Support |
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|
RF Management |
Setting country codes, Manually setting transmit power, Automatically setting transmit power, Automatically setting working channel, Automatically adjusting transmission rate, Support blackhole compensation, Support RF interference detection and avoidance |
Setting country codes, Manually setting transmit power, Automatically setting transmit power, Automatically setting working channel, Automatically adjusting transmission rate, Support blackhole compensation, Support RF interference detection and avoidance |
Setting country codes, Manually setting transmit power, Automatically setting transmit power, Automatically setting working channel, Automatically adjusting transmission rate, Support blackhole compensation, Support RF interference detection and avoidance |
Setting country codes, Manually setting transmit power, Automatically setting transmit power, Automatically setting working channel, Automatically adjusting transmission rate, Support blackhole compensation, Support RF interference detection and avoidance |
Setting country codes, Manually setting transmit power, Automatically setting transmit power, Manually setting working channel, Automatically setting working channel, Automatically adjusting transmission rate, Support blackhole compensation, AP load balancing based on traffic and user number, Support RF interference detection and avoidance |
Setting country codes, Manually setting transmit power, Automatically setting transmit power, Manually setting working channel, Automatically setting working channel, Automatically adjusting transmission rate, Support blackhole compensation, AP load balancing based on traffic and user number, Support RF interference detection and avoidance |
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|
Security |
IPv4/v6 Security |
Web authentication, 802.1x authentication, PEAP authentication, SMS authentication, QR code authentication |
Web authentication, 802.1x authentication, PEAP authentication, SMS authentication, QR code authentication |
Web authentication, 802.1x authentication, PEAP authentication, SMS authentication, QR code authentication |
Web authentication, 802.1x authentication, PEAP authentication, SMS authentication, QR code authentication |
Web authentication, 802.1x authentication (EAP-PEAP, EAP-SIM, EAP-MD5, EAP-TLS, EAP-TTLS, PEAP-MSCHAPv2, EAP-FAST, EAP-AKA), MAC address authentication, WAPI authentication |
Web authentication, 802.1x authentication (EAP-PEAP, EAP-SIM, EAP-MD5, EAP-TLS, EAP-TTLS, PEAP-MSCHAPv2, EAP-FAST, EAP-AKA), MAC address authentication, WAPI authentication |
|
802.11 Security and Encryption |
Multiple SSIDs, SSID hiding, 802.11i-compliant PSK authentication, WPA and WPA2, WEP (WEP/WEP128), WAPI, TKIP, CCMP, Protection against ARP spoofing |
Multiple SSIDs, SSID hiding, 802.11i-compliant PSK authentication, WPA and WPA2, WEP (WEP/WEP128), WAPI, TKIP, CCMP, Protection against ARP spoofing |
Multiple SSIDs, SSID hiding, 802.11i-compliant PSK authentication, WPA and WPA2, WEP (WEP/WEP128), WAPI, TKIP, CCMP, Protection against ARP spoofing |
Multiple SSIDs, SSID hiding, 802.11i-compliant PSK authentication, WPA and WPA2, WEP (WEP/WEP128), WAPI, TKIP, CCMP, Protection against ARP spoofing |
Multiple SSIDs, SSID hiding, 802.11i-compliant PSK authentication, WPA and WPA2, WEP (WEP/WEP128), WAPI, TKIP, CCMP, Protection against ARP spoofing, Support IP/MAC binding via DHCP SNP, Support IP/MAC/WLAN binding via RADIUS server |
Multiple SSIDs, SSID hiding, 802.11i-compliant PSK authentication, WPA and WPA2, WEP (WEP/WEP128), WAPI, TKIP, CCMP, Protection against ARP spoofing, Support IP/MAC binding via DHCP SNP, Support IP/MAC/WLAN binding via RADIUS server |
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AAA |
RADIUS client |
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SMP |
Support |
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CPP |
Support |
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NFPP |
Support |
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WIDS/WIPS |
Support |
Support |
Support |
Support |
Whitelist, Static/dynamic blacklist, Monitor and attack rogue wireless devices, Wireless attack protection |
Whitelist, Static/dynamic blacklist, Monitor and attack rogue wireless devices, Wireless attack protection |
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|
Internet Protocols |
IPv4 Protocols |
Ping, Traceroute, DHCP Server, DHCP Client, DHCP Relay, DHCP Snooping, DNS Client, NTP, Telnet, TFTP Server, TFTP Client, FTP Server, FTP Client |
Ping, Traceroute, DHCP Server, DHCP Client, DHCP Relay, DHCP Snooping, DNS Client, NTP, Telnet, TFTP Server, TFTP Client, FTP Server, FTP Client | Ping, Traceroute, DHCP Server, DHCP Client, DHCP Relay, DHCP Snooping, DNS Client, NTP, Telnet, TFTP Server, TFTP Client, FTP Server, FTP Client | Ping, Traceroute, DHCP Server, DHCP Client, DHCP Relay, DHCP Snooping, DNS Client, NTP, Telnet, TFTP Server, TFTP Client, FTP Server, FTP Client |
Ping, Traceroute, DHCP Server, DHCP Client, DHCP Relay, DHCP Snooping, DNS Client, NTP, Telnet, TFTP Client |
Ping, Traceroute, DHCP Server, DHCP Client, DHCP Relay, DHCP Snooping, DNS Client, NTP, Telnet, TFTP Client |
|
IPv6 Protocols |
DNSv6 Client, DHCPv6 Relay, DHCPv6 Server, TFTPv6 Client, FTPv6 Server, FTPv6 Client, IPv6 CAPWAP, ICMPv6, IPv6 Ping, IPv6 Traceroute, Manual tunnel, automatic tunnel |
DNSv6 Client, DHCPv6 Relay, DHCPv6 Server, TFTPv6 Client, FTPv6 Server, FTPv6 Client, IPv6 CAPWAP, ICMPv6, IPv6 Ping, IPv6 Traceroute, Manual tunnel, automatic tunnel |
DNSv6 Client, DHCPv6 Relay, DHCPv6 Server, TFTPv6 Client, FTPv6 Server, FTPv6 Client, IPv6 CAPWAP, ICMPv6, IPv6 Ping, IPv6 Traceroute, Manual tunnel, automatic tunnel |
DNSv6 Client, DHCPv6 Relay, DHCPv6 Server, TFTPv6 Client, FTPv6 Server, FTPv6 Client, IPv6 CAPWAP, ICMPv6, IPv6 Ping, IPv6 Traceroute, Manual tunnel, automatic tunnel |
Dual stack IPv4/v6, Manual tunnel, ISATAP, 6to4 tunnel, IPv4 over IPv6 tunnel, DHCPv6, DNSv6, ICMPv6, ACLv6, TCP/UDP for IPv6, SOCKET for IPv6, SNMP v6, Ping/Traceroute v6, RADIUS, Telnet/SSH v6, FTP/TFTP v6, NTP v6, IPv6 MIB support for SNMP, VRRP for IPv6, IPv6 QoS, Static routing, OSPFV3 |
Dual stack IPv4/v6, Manual tunnel, ISATAP, 6to4 tunnel, IPv4 over IPv6 tunnel, DHCPv6, DNSv6, ICMPv6, ACLv6, TCP/UDP for IPv6, SOCKET for IPv6, SNMP v6, Ping/Traceroute v6, RADIUS, Telnet/SSH v6, FTP/TFTP v6, NTP v6, IPv6 MIB support for SNMP, VRRP for IPv6, IPv6 QoS, Static routing, OSPFV3 |
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|
IPv4 Routing |
Static routing, OSPF |
Static routing, OSPF |
Static routing, OSPF |
Static routing, RIP |
Static routing, OSPF |
Static routing, OSPF |
|
|
IPv4 Routing Table Capacity |
8K |
8K |
8K |
500 |
8K |
8K |
|
|
IPv4 Static Routing Table Capacity |
1K |
1K |
1K |
500 |
1K |
1K |
|
|
IPv6 Routing |
Static routing |
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|
IPv6 Routing Table Capacity |
1K |
1K |
1K |
500 |
1K |
1K |
|
|
IPv6 Static Routing Table Capacity |
1K |
1K |
1K |
500 |
1K |
1K |
|
|
Management |
Network Management |
SNMP v1/v2c/v3, RMON, Remote probe |
SNMP v1/v2c/v3, RMON, Remote probe Syslog |
SNMP v1/v2c/v3, RMON, Remote probe Syslog |
SNMP v1/v2c/v3, RMON, Remote probe Syslog |
SNMP v1/v2c/v3, Web management, Syslog |
SNMP v1/v2c/v3, Web management, Syslog |
|
Network Management Platform |
Web management (Smart-web), RG-SNC management, Heat Map diagram, RILL management |
Web management (Smart-web), RG-SNC management, Heat Map diagram, RILL management |
Web management (Smart-web), RG-SNC management, Heat Map diagram, RILL management |
Web management (Smart-web), RG-SNC management, Heat Map diagram |
RG-SNC management |
RG-SNC management |
|
|
User Access Management |
Login via console port |
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Dimensions (W × D × H) (mm) |
440 × 200 × 43.6 |
440 × 200 × 43.6 |
440 × 560 × 88.1 |
440 × 260 × 44 |
440 × 399 × 40.18 |
440 × 399 × 40.18 |
|
|
Rack Height |
1RU |
1RU |
2RU |
1RU |
1RU |
1RU |
|
|
Weight |
2kg |
2kg |
19kg |
5.8kg (including packing) |
4.58kg |
4.58kg |
|
|
MTBF |
248K hours |
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|
Installation Mode |
19-inch rack |
19-inch rack |
19-inch rack |
19-inch rack |
Insert to RG-8600E module slot |
Insert to RG-N18000 module slot |
|
|
Power Supply |
Fixed power supply 100VAC to 240VAC, 50Hz to 60Hz |
Fixed power supply 100VAC to 240VAC, 50Hz to 60Hz |
Support up to 2 power supply modules 100VAC to 240VAC, 50Hz to 60Hz |
Support up to 2 power supply modules AC input: |
Power supply from RG-8600E chassis |
Power supply from RG-N18000 chassis |
|
|
Power Consumption |
<40W |
<40W |
<100W |
≤850W (24-port PoE+) |
<190W |
<190W |
|
|
Temperature |
Operating Temperature: 0ºC to 45ºC |
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|
Storage Temperature: -40ºC to 70ºC |
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Humidity |
Operating Humidity: 10% to 90%RH (non-condensing) |
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Storage Humidity: 5% to 95%RH (non-condensing) |
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Operating Altitude |
0-3000m |
0-3000m |
0-3000m |
0-3000m |
-500M to 5,000M |
-500M to 5,000M |
|
|
Model |
Description |
|
RG-WS6008 |
WS Series Wireless Controller, 6 1000BASE-T ports, 2 1000BASE-T/1000BASE-X ports (combo), 32 APs License by default, maximum 200 APs or 400 Wall APs License |
|
RG-WS6108 |
WS Series Wireless Controller, 6 1000BASE-T ports, 2 1000BASE-T/1000BASE-X ports (combo), 32 APs License by default, maximum 320 APs or 640 Wall APs License |
|
RG-WS6816 |
WS Series Wireless Controller, 8 1000BASE-T/1000BASE-X ports (combo), 4 1G/10GBASE-X SFP+ ports, 2 Expansion Slots, support dual redundant power supply, 128 APs License by default, maximum 2,560 APs or 4,000 Wall APs License (Power module sold separately) |
|
RG-WS6024 |
WS Series Wireless Controller, 24 10/100/1000BASE-T ports (PoE+), 2 100/1000M SFP ports (combo), 2 1G/10GBASE-X SFP+ ports, 2 Expansion Slots, 24 APs License by default, maximum 128 APs License
(Power module sold separately and at least one module required) |
|
RG-M8600E-WS-ED |
WS Series Wireless Controller Module for RG-S8600E Switch Series, 2 1G/10GBASE-X SFP+ ports, 128 APs License by default, maximum 2560 APs or 4000 Wall APs License |
|
RG-M18000-WS-ED |
WS Series Wireless Controller Module for RG-N18000 Switch Series, 2 1G/10GBASE-X SFP+ ports, 128 APs License by default, maximum 2560 APs or 4000 Wall APs License |
| License | |
|
LIC-WS-16 |
WS Series Wireless Controller Upgrade License for 16 APs or 32 Wall APs (For RGOS 11.x or above) |
|
LIC-WS-32 |
WS Series Wireless Controller Upgrade License for 32 APs or 64 Wall APs (For RGOS 11.x or above) |
|
LIC-WS-128 |
WS Series Wireless Controller Upgrade License for 128 APs or 256 Wall APs (For RGOS 11.x or above) |
|
RG-LIC-WS-512 |
WS Series Wireless Controller Upgrade License for 512 APs or 1024 Wall APs (For RGOS 11.x(11.1(2)B1) or above) |
|
Optional Accessories |
|
|
RG-M6000-WS |
WS Series Wireless Controller Module for RG-WS6024, 32 APs License by default, maximum 128 APs/Wall APs License (Each RG-WS6024 supports maximum one RG-M6000-WS module) |
|
RG-PA300I |
AC Power Module for RG-WS6816, 300W |
|
RG-M5000E-AC500P |
AC Power Module for RG-WS6024, 370W power budget for PoE, up to 24 PoE ports or 12 PoE+ ports |
|
RG-PA1150P-F |
AC Power Module for RG-WS6024, 740W power budget for PoE, up to 48 PoE ports or 24 PoE+ ports |
|
RG-M5000E-DC500P |
DC Power Module for RG-WS6024, -32VDC to -72VDC input voltage, 370W power budget for PoE, up to 24 PoE ports or 12 PoE+ ports |
|
WNM-2XS-S |
Expansion Module for RG-WS6816, support 2 10GBASE-X ports |
|
WNM-4GE-S |
Expansion Module for RG-WS6816, support 4 1000BASE-T/1000BASE-X combo ports |
|
M2910-01XS |
1-Port 10G SFP+ Interface Module for RG-WS6024 PoE support |
|
M2910-01XT |
1-Port 10G copper Interface Module for RG-WS6024 PoE support |
|
XG-SFP-SR-MM850 |
10GBASE-SR, SFP+ Transceiver, MM (850nm, 300m, LC) |
|
XG-SFP-LR-SM1310 |
10GBASE-LR, SFP+ Transceiver, SM (1310nm, 10km, LC) |
