Product description
ax200 wifi 6 card ax210ngw wifi 6e card MacOS Airport Continuity & Handoff BCM94360CD ax200ngw wifi 6 Desktop AC1200 wifi card FV-AXE3000pro wifi 6e
BT5.2/5.1/4.0 ? ? ? ? ? ?
Combined Speed 2400Mbps+576Mbps 6GHz 3000Mbps 5GHz 2400Mbps + 2.4GHz 300Mbps 1300Mbps + 450Mbps 2400Mbps+576Mbps 867Mbps + 300Mbps 6GHz 3000Mbps 5GHz 2400Mbps + 2.4GHz 300Mbps
Wi-Fi Standards 802.11a/b/g/n/ac/ax 802.11 a/b/g/n/ac/ax wifi 6e 802.11 a/b/g/n/ac 802.11a/b/g/n/ac/ax 802.11 a/b/g/n/ac 802.11 a/b/g/n/ac/ax wifi 6e
Orthogonal Frequency-Division Multiple Access (OFDMA) ? ? ? ?
Multi-User MIMO (MU-MIMO) ? ? ? ?
higher-order coding 1,024-QAM ? ? ? ?
Bands 2.4 GHz, 5 GHz (160 MHz) Tri-Band (6GHhz + 5Ghz + 2.4Ghz) 2.4 GHz, 5 GHz 2.4 GHz, 5 GHz (160 MHz) 2.4 GHz, 5 GHz Tri-Band (6GHhz + 5Ghz + 2.4Ghz)
Channel Width 160/80/40/20Mhz 160/80/40/20Mhz 160/80/40/20Mhz 160/80/40/20Mhz 80/40/20Mhz 160/80/40/20Mhz
WIFI 6E RGB Light Newest Technology ax210 desktop pc up to 5400Mbps
Three Band 2.4Ghz/5Ghz/6Ghz 160 MHz Channels and the Wi-Fi 6e Superhighway More Bandwidth on Wider Channel
PC Gaming and Video Uploading Downloading ect are about to get much 3x faster Wi-Fi
Fenvi FV-AXE3000RGB WiFi 6E Dual Band BT5.2 PCI-E wifi card
This fenvi AX210 PCIe adapter full support the latest Microsoft Windows 10,64 bit OS, as well as Linux.Support the new 802.11ax standard with its unique features such as OFDMA, 1024QAM, Target Wake Time, 160MHz channels and spatial reuse. Compatible with all the wireless routers and any 11ac or 11n devices.Compatible with all Intel base CPU, some AMD CPU may have comaptibility issue.Compact with Almost computer with PCI Express (PCI-E 1X/4X/8X/16X slot) Intertaces;Such as Samsung/Dell/Sony/ACER/ISUS/MSI/Clevo/Terransforce/Hasee etc.
160 MHz Channel Width Wi-Fi 6E AX expands the WiFi band from 80 MHz to 160 MHz, doubling the channel width and creating a faster connection from your router to the device. With Wi-Fi 6, you can enjoy 8K movies, large file downloads and uploads, and responsive smart home devices – all without buffering.
Optimized the power consumption and coverage capabilities of the device, MU-MIMO technology supports multi-user high speed concurrency,and show better performance in user-intensive scenarios,gives you incredible speed with low latency,low power consumptionand uninterrupted connectivity technology.Multiple output (MU-MIMO) allows more data to be transferred at once and enables an access point to handle a larger number of concurrent clients.
Specification
Product Model:AX210NGW chipset
Transmission Rate: 2.4GHz: 574Mbps 5GHz: 2400Mbps 6GHz:2400Mbps
Protocol Standard: support IEEE 802.11AX/AC,IEEE 802.11a/b/g/n
WiFi Frequency: 2.412GHz-2.4835GHz 5.150GHz-5.825GHz and 6GHz Band
Interface: Compatible with PCI-E X1/X4/X8/X16
Technical Support: MU-MIMO and vPro
Support System: Only for Windows 10, 64bit. Google Chrome OS,Linux 5.1 above
Wi-Fi 6E introduce and requires:
To use the new 6 GHz band, you’ll need a new broadcaster (a router) and clients (phones, laptops, etc.) that support it. It’s similar to the fact that you can’t drive a car, or ride a bike, on rail tracks. So none of the existing Wi-Fi equipment, including the latest Wi-Fi 6 routers, will work with this band.
Wi-Fi 6E devices will be backward compatible with Wi-Fi 6 and previous Wi-Fi standards. But, to take advantage of those new 6 GHz channels in Wi-Fi 6E, you’ll need to be using devices that support it. In other words, you’ll only be using Wi-Fi 6E once you pair a Wi-Fi 6E-enabled client device (like a laptop or smartphone) and a WI-Fi 6E-enabled access point.
For example, even if you have a bunch of Wi-Fi 6 devices and a Wi-Fi 6E-enabled router, none of your devices will communicate over Wi-FI 6E. They’ll all be using Wi-Fi 6 on the typical 5 GHz or 2.4 GHz channels.
Wi-Fi6E works by broadcasting over airwaves that are open for anyone to use. Today, it’s working over two bands: 2.4GHz and 5GHz. Now, we’re adding a third band, 6GHz.
The numbers make a difference (2.4GHz travels farther, but 6GHz delivers data faster), but what really matters isn’t the specific frequencies being used, but how large a swath of airwaves is available.
The 6 GHz spectrum should work similarly to WiFi 6 over 5 GHz but offers additional non-overlapping channels. As the Wi-Fi Alliance puts it, Wi-Fi 6E allows for “14 additional 80 MHz channels and 7 additional 160 MHz channels.” These channels wouldn’t overlap with each other, which will help reduce congestion, particularly in areas where lots of networks are operating.
6GHz wireless spectrum
The main thing that differentiates this from the existing AX200 is the ability to use the 6GHz wireless spectrum.
The ability to use the 6Ghz spectrum doesn’t really alter the performance improvement of Wi-Fi 6e but massively opens up the available channels for Wi-Fi 6e to work at its maximum speeds.
With Wi-Fi 6 and 6E on 80hz, you will get 2400Mbps and 160Hz 2400Mbps on a client with 2×2 TX/RX streams. you have to use the 160Hz channel width if you want to exceed the gigabit throughput offered by most wired solutions.
Currently, on the relatively congested 5Ghz channel, you only have six 80MHz and two 160MHz channels.
Using 6Ghz, you gain access to fourteen-80Mhz channels and seven 160Mhz channels, making it easily possible to run a mesh system or access points with no overlapping channels on the 160Mhz width.
6GHz Wi-Fi can go a long way toward solving that problem. It offers not just a new swath of airwaves for routers to use, but a spacious swath that doesn’t require overlapping signals like on some current Wi-Fi channels. The new spectrum has enough room for up to seven maximum-capacity Wi-Fi streams to all be broadcast simultaneously and not interfere with each other — all without using any of the previously available spectrum.
The 6 GHz spectrum should work similarly to WiFi 6 over 5 GHz but offers additional non-overlapping channels. As the Wi-Fi Alliance puts it, Wi-Fi 6E allows for “14 additional 80 MHz channels and 7 additional 160 MHz channels.” These channels wouldn’t overlap with each other, which will help reduce congestion, particularly in areas where lots of networks are operating.
All the devices communicating on the 6 GHz spectrum would also be Wi-Fi 6 devices. There wouldn’t be any older devices using standards like Wi-Fi 5 (802.11ac). All devices on the 6 GHz channels will be speaking the same language and can use Wi-Fi 6’s new congestion-busting features.In other words, Wi-Fi 6E is Wi-Fi 6 (also known as 802.11ax) over 6 GHz.
6GHz band, based on the following rules
Unlicensed access points are allowed to operate across the entire 6GHz band at lower power and indoors only.
In the UNII-5 (5.925-6.425 GHz) and UNII-7 (6.525-6.875GHz) bands, access points are allowed to operate both indoor and outdoor, at standard power levels same as those currently permitted in the 5GHz band, under the control of an Automated Frequency Coordination (AFC) system.
Client devices are allowed to operate across the entire 6GHz band, only under the control of standard power indoor/outdoor or low power indoor access points.6GHz is supplemental spectrum, not a replacement for 2.4GHz and 5GHz.