Description High-Performance Wi-Fi 6 M.2 Module: AW7915-AED with Dual-Band Dual Concurrent Support – 2T2R Dual Bands Dual Concurrents IEEE802.11ax 2.4GHz / 5 GHz by MediaTek MT7915 Introducing the AW7915-AED Wi-Fi 6 M.2 AE key Module – it’s a real powerhouse designed for next-generation wireless performance. At its core is the advanced MediaTek MT7915DAN chipset, delivering both reliability and efficiency for demanding applications. This module supports a high PHY rate of up to 573 1201 Mbps and is fully compliant with IEEE 802.11ax/ac standards, ensuring seamless compatibility with modern networking environments. One of its standout features is Dual Bands Dual Concurrent (DBDC) capability, allowing simultaneous operation on both 2.4GHz and 5GHz bands. This means improved throughput, reduced latency, and a more stable connection—especially in high-density or interference-prone environments. Whether deployed in industrial automation, smart healthcare systems, or enterprise-grade networking, the AW7915-AED ensures a consistently smooth wireless experience。 Beyond raw speed, the module is engineered with optimized RF architecture and advanced baseband algorithms. These enhancements not only boost signal performance and coverage but also significantly improve power efficiency—making it ideal for embedded systems where energy consumption matters. Additionally, the module offloads key Wi-Fi processing tasks from the host CPU, freeing up system resources and improving overall device performance。 Security and reliability are also top priorities. The MT7915DAN chipset integrates robust, standards-based security protocols, ensuring data integrity and protection across networks. It also supports advanced Quality of Service (QoS) features for traffic prioritization, along with compliance to global regulatory requirements, making it suitable for international deployment。 Compact in design yet powerful in capability, the AW7915-AED is a versatile solution for developers and system integrators looking to upgrade their wireless connectivity. With its combination of speed, efficiency, and intelligent design, it stands out as a dependable choice for building high-performance, future-ready devices. Engineered for reliability, scalability, and seamless integration across diverse platforms. Key capabilities and benefits The operation of Wi-Fi 6E in the 6 GHz spectrum offers extremely wide 160 MHz channels and additional capacity, leading to enhanced network performance. Orthogonal frequency division multiple access (OFDMA) more efficiently allocates channels, thereby increasing network efficiency and reducing latency for both uplink and downlink traffic in high-demand environments. Multi-user multiple input, multiple output (MU-MIMO) allows more uplink and downlink data to be transferred at once and enables an access point to handle a larger number of concurrent clients. The ability to utilize a 160 MHz channel increases bandwidth, resulting in enhanced performance with minimal latency. 1024 quadrature amplitude modulation mode (1024-QAM) enables throughput increases by encoding more data in the same amount of spectrum. Transmit beamforming enhances signal power, leading to significantly higher data rates within a specified range. Wi-Fi generation comparison overview Feature Wi-Fi 4 Wi-Fi 5 Wi-Fi 6 Channel bandwidth (MHz) 20, 40 20, 40, 80, 80 80, 160 20, 40, 80, 80 80, 160 Frequency bands 2.4 and 5 GHz 5 GHz 2.4,5, and 6 GHz Maximum data rate 150 Mbps 3.5 Gbps* 9.6 Gbps* Highest subcarrier modulation 64-QAM 256-QAM 1024-QAM Spatial streams 1 4 8 Underlying technology IEEE 802.11n IEEE 802.11ac IEEE 802.11ax * Depending upon number of spatial streams and channel used Specification Comparison Chart : Best-Selling Wi-Fi ModuleLearn more on our blog: How to choose good performance Wi-Fi module for Robot?Follow us on Linkedin : From Wireless to IoT : AsiaRF’s Journey of Innovation
