SonicWall SonicWave 641 Wireless Access Point - Advanced Wi-Fi 6 Network Solution
Experience superior wireless connectivity with the SonicWall SonicWave 641, an enterprise-grade Wi-Fi 6 (802.11ax) access point designed for high-density environments. This dual-band wireless access point delivers exceptional performance with advanced security features and cloud-based management capabilities.
Next-Generation Wi-Fi 6 Performance
The SonicWave 641 leverages cutting-edge 802.11ax technology operating on both 2.4 GHz and 5 GHz bands. With 8 internal antennas and advanced MU-MIMO capabilities, this access point delivers up to 400% improved throughput compared to previous generations. The implementation of 1024 QAM modulation ensures faster data transmission rates while reducing latency by 75%.
Enterprise-Grade Security Features
- Advanced WPA3 and WPA2 encryption standards
- Dedicated security radio for rogue AP detection
- Wireless intrusion detection and prevention
- Zero-wait DFS technology
- Virtual AP segmentation
Professional Connectivity Options
- 2.5 Gigabit Ethernet port with PoE support
- Bluetooth 5.0 connectivity
- USB port for additional functionality
- Management port for direct access
- Beamforming technology for optimized connections
Physical Specifications
- Ceiling-mountable design (7.9" x 7.9" x 1.5")
- Lightweight construction at 1.87 lbs
- Power consumption: 23W
- Environmental certifications: EU RoHS, China RoHS, WEEE
Package Contents
- SonicWave 641 Wireless Access Point
- Ceiling Mounting Kit
SonicWall's 600 Series Wireless Access Points (APs) use 802.11ax - the most advanced technology available - for superior performance in high-density, multi-device environments. Cloud-managed using SonicWall's Wireless Network Manager (WNM), these APs offer a number of additional features that provide an enhanced experience, all while delivering the best-in-class security that you expect from SonicWall.
Performance
SonicWall's SonicWave 600 Series Access Points utilize 802.11ax technology, improving performance in high-density environments. The use of 1024 QAM allows more data to pass through, and 802.11ax provides enhancements in MU-MIMO, with both uplink and downlink capabilities.
Additionally, 802.11ax works in both the 2.4 GHz and 5 GHz bands, and latency is reduced by 75%. The result is overall throughput improvement of up to 400%, with nominal data rate improvement of 37% compared to 802.11ac Wave 2.
Enhanced user experience
SonicWave APs enhance the user experience in a number of ways. Not only are processor speeds faster, but beamforming allows for a more direct connection that is faster and more reliable than without beamforming. Improved power control methods help to avoid interference with nearby networks, making for a better experience. And Target Wake Time management helps preserve battery life in mobile devices.
Best-in-class wireless security
Most SonicWave access points include a separate radio dedicated to security, which performs rogue AP detection, passive scanning and packet capturing.
The SonicWave solution also integrates additional securityrelated features, including wireless intrusion detection and prevention, virtual AP segmentation, wireless guest services, RF monitoring and wireless packet capture. SonicWave APs also feature zero-wait DFS, which identifies and avoids interference with radar systems while eliminating the wait associated with being booted from one DFS channel and finding another to connect with.
Intuitive cloud management and monitoring tool
SonicWave APs are easy to set up and deploy. They integrate with SonicWall Wireless Network Manager, which is a highly intuitive, scalable and centralized Wi-Fi network management system capable of delivering rich wireless and switching analytics, as well as simplified, single-pane-ofglass onboarding via the cloud. The APs also integrate with WiFi Planner, a site survey tool that enables you to optimally design and deploy a wireless network, resulting in a reduced total cost of ownership. And with RF spectrum analysis, you can detect and identify the source of RF interference and monitor the health of a wireless system.
