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Certification: CE passed already, FCC Coming soon – in 2024

Check out our 524WiFi AW7916-NPD model with Mini PCIe BUS Interface—already certified with FCC, IC, and CE.

The AW7916-AED Wi-Fi 6E AX3000 M.2 AW Key Module is like a turbocharger for your Wi-Fi setup. It supports the super-fast Wi-Fi 6E 3000 and can handle three bands at once and DBDC. It’s powered by the powerful Mediatek MT7916AN chipset, so you know it means business. With blazing-fast speeds of up to 3Gbps, this module takes your wireless connectivity to a whole new level. It’s got your back whether you’re on the 5GHz or 6GHz band with a whopping 160MHz of bandwidth, and it even handles the 2.4GHz band with 40MHz. Plus, there’s an extra antenna to make sure your download speeds are top-notch.

This module can handle up to 24 users thanks to features like OFDMA and MU-MIMO, and it’s got a bunch of other technical stuff like 512 MAC entries and 16 MBSSID. It’s got all the cool features from Wi-Fi 6 Release 2. And here’s the magic trick: it has a built-in Wi-Fi offload engine, which means it’s not only powerful but also energy-efficient. It’s like having a high-performance engine in a small package. Plus, it’s easy on your wallet, thanks to its integration with the Filogic 630 platform. If you’re looking for Tri-band Wi-Fi 6/6E solutions for routers and repeaters, you can even pair it up with the Filogic 830 SoC platform. In a nutshell, the AW7916-AED is like the superhero of M.2 AW Key Modules. It’s super fast, super efficient, and super beneficial for both device makers and users.

Introducing the AW7916-AED AX3000, Powered by MediaTek’s World-Class MT7916 Chipset, 524WiFi’s state-of-the-art AX3000 M.2 AE Key Wi-Fi 6E module, designed to redefine your wireless network experience. Engineered with cutting-edge G-band 2T2R + A-band 3T3R 2ss dual-band dual-concurrent (DBDC) technology, this module offers a staggering transmission rate of up to 3000 Mbps. Its robust support for Wi-Fi 6E ensures seamless network performance—even in high-traffic areas—making it ideal for accommodating a larger user base without sacrificing speed or efficiency.

The Wi-Fi 6E AX3000 Module AW7916-AED provides a more powerful experience for high-bandwidth applications. By utilizing up to 14 additional 80MHz channels or 7 extra ultra-wide 160MHz channels in the 6GHz frequency band, it supports smooth and high-definition video calls and can handle large-scale data transmission.


  • IEEE802.11a/b/g/n/ac/ax compliant
  • Support 20/40MHz bandwidth in G-band, and 20/40/80/160MHz bandwidth in A-band
  • G-band 2T2R + A-band 3T3R 2ss, dual-band dual concurrent (DBDC) with PHY rate up to 3000Mbps
  • Support MU-MIMO TX/RX, Support MU-OFDMA TX/RX
  • Support STBC, LDPC, TX Beamformer and RX Beamformer
  • Support greenfield, mixed mode, legacy modes
  • Security support for WFA WPA/WPA2/WPA3 personal, WPS2.0
  • QoS support of WFA WMM, WMM PS, 32-bit RISC MCU for Wi-Fi protocols and Wi-Fi offload
  • Embedded SRAM/ROM, UART interface with hardware flow control
  • Programmable and multiplexed GPIO pins
  • PCIe device fully compliant to PCIe v2.1 specification
  • Integrate 4Kbit efuse to store device specific information and calibration data




A mesh system can provide offices and enterprises with a more reliable network connection, covering a wide area, and allowing numerous devices to connect to the network, offering better performance in densely populated device areas. Even as users move to different areas, their devices can smoothly switch to the strongest Wi-Fi access point without the need for manual reconnection or experiencing disconnection.


The Wi-Fi 6E AX3000 Module AW7916-AED adopts the latest WPA3 security protocol, safeguarding users from unauthorized access and data breaches, addressing security threats in modern wireless networks.




Compared to the past, Wi-Fi 6E enables remote operations with higher precision. This advancement is expected to drive the progress of remote medical services and open up possibilities for practical applications of remote surgeries in the medical field. With Wi-Fi 6E, healthcare professionals can perform surgeries with greater precision and less invasiveness, marking a significant breakthrough in the field of medical services. Additionally, in manufacturing and logistics, technologies such as robotic arms and drones can execute tasks more swiftly and accurately, reducing the likelihood of errors. This technology also fosters progress in smart and automated systems, bringing forth more innovations and efficiency for businesses.




– Applications in Real-World Scenarios:
Wi-Fi 6E isn’t merely an incremental update; it’s a leap forward that is set to revolutionize sectors like healthcare, manufacturing, and logistics.


–  Healthcare:
The increased precision afforded by Wi-Fi 6E is poised to be a game-changer for remote medical services, paving the way for groundbreaking applications such as remote surgeries. Health professionals can now execute procedures with unprecedented accuracy, reducing invasiveness and enhancing patient outcomes.


– Manufacturing & Logistics:
In industrial settings, the AW7916-AED’s rapid and precise remote operation capabilities facilitate smarter, more efficient workflows. From robotic arms to drones, tasks are executed swiftly and accurately, thereby minimizing the margin for error.


– Smart Systems:
This technology is also a catalyst for innovations in smart and automated systems, empowering businesses to operate with greater efficiency and agility.



At the end of 2022, the University of Michigan in the United States underwent a revolutionary change by deploying over 16,000 Wi-Fi access points across 225 buildings and outdoor areas on campus. This remarkable achievement allowed the university to support up to 70,000 device connections simultaneously. Through this extensive Wi-Fi infrastructure, the University of Michigan can meet the growing data demands, enhance teaching and campus management efficiency, and foster the application and development of smart devices on campus. This will have a positive impact on various aspects of academic research, student learning, and campus life.


Wi-Fi 6E is a significant trend in the current wireless network market. With continuous technological advancements and increasing data demands, Wi-Fi 6E has become the representation of the next-generation wireless network technology and is gaining widespread attention and adoption in the market.


Standards Wireless: G-band 2T2R + A-band 3T3R 2ss, dual-band dual concurrent (DBDC) with PHY rate up to 3000Mbps
BUS Interface M.2 AE Key
Data Rate IEEE 802.11ax 3000Mbps@TX/RX
Output Power 11b: 23dbm+/- 1.5dbm @ 11Mbps
11g: 21dbm+/- 1.5dbm @ 54Mbps
11g/n: 21dBm +/- 1.5dbm @MCS7,HE20,16.5dBm@MCS7,HE40
11a: 20dBm +/- 1.5dbm @ 54Mbps
11a/n: 20dBm+/- 1.5dbm @MCS7,HE20,16.5dBm@MCS7,HE40
11ac HE20: 20+/-1.5dBm@MCS8 11ac HE40: 17+/-1.5dBm@MCS9
11ac HE80: 14.5+/-1.5dBm@MCS9
11ax HE20: 20+/-1.5dBm@MCS9
11ax HE40: 17+/-1.5dBm@MCS9
11ax HE80: 13.5+/-1.5dBm@MCS11
11ax HE160: 13.5+/-1.5dBm@MCS11
Receiver Sensitivity 11b: -99dBm@11Mbps
11g: -95dBm@54Mbps
11g/n: -90dBm@HT20,MCS7, -86dBm@HT40,MCS7
11a: -90Bm@54Mbps
11a/n: -85dBm@HT20,MCS7, -81dBm@HT40,MCS7
11ac: -90dBm+/-2dBm @VHT20 MCS8
11ac: -85dBm+/-2dBm @VHT40 MCS9
11ac: -68dBm+/-2dBm @VHT80 MCS9
11ax: -61dBm+/-2dBm @HE20 MCS11
11ax: -58dBm+/-2dBm @HE40 MCS11
11ax: -55dBm+/-2dBm @HE80 MCS11
Antenna External Antenna connector (IPEX) x2
Frequency Range US, Canada 2.412GHz~2.462 GHz (CH1~CH11) EU, Japan: 2.412GHz~2.472GHz (CH1~CH13)
5G Bands: 5.15GHz ~5.875GHz
6G Bands: 5.925 ~ 7.125 GHz
Software Security: 64/128-bit WEP Encryption, WPA, WPA2
Driver: Linux
Operating Voltage DC 3.3V ± 5%
Temperature Operating: 0°C ~ +70°C
Storage : -20°C ~ +90°C
Humidity Operating Humidity: 10%~90% non-condensing
Storage Humidity: 10%~90% non-condensing
Dimension 50.95(H) x 30(W)mm

Package with Heatsink 30x30x10mm Aluminum material

Power consumption maximum is 8W, average is 5W. Main board Power Supply design please provide 3.3V 3.5A, minimum 3.3V 3A.

Power consumption maximum is 8W, average is 5W.
Main board Power Supply design please provide 3.3V 3.5A, minimum 3.3V 3A.OpenWRT GITHUB : https://github.com/openwrt/mt76/tree/master/mt7915

It is the same driver in github mt76 inside – the same in MT7915 directory.

OpenWRT porting guide example – read here

Weight 0.1 kg
Dimensions 5 × 4 × 0.5 cm


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