AW7915-NPD is a Wi-Fi 6 11ax 2T2R 1800Mbps mini PCIe Module by MediaTek MT7915 DAN – Dual Bands Dual Concurrents DBDC IEEE802.11ax / ac / a / b / g / n 2.4 GHz / 5 GHz
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The state-of-the-art Mini PCIe Module AW7915-NPD has already obtained FCC certification for 2.4GHz, 5GHz, and 6GHz frequencies. As promised, we provide high-quality Wi-Fi modules coupled with comprehensive end-to-end services. This ensures that you save significant time and money on certifications.
The AW7915-NPD is a Wi-Fi 6 Mini PCIe Module with the MediaTek MT7915 DAN chipset, offering 1800 Mbps PHY rate and PCIe 2.1 support. It complies with IEEE 802.11ax/ac standards, featuring 2T2R with 4 RF outputs (2 each for 2.4GHz and 5GHz), which can be configured into 2 dual-band outputs. In Linux, it shows two radios for dual-band concurrent use. The module has an optimized RF design and baseband algorithms for high performance and low power use. Its MAC design offloads Wi-Fi tasks from the host processor, enhancing efficiency. The MT7915 DAN ensures high data throughput, security, quality of service, and meets international standards. Its integrated PCIe interface ensures stable connectivity with the host platform.
Deep sleep mode:
The chip has multiple power domains and a configurable PMU for low power consumption in deep sleep mode. It features two 32-bit RISC MCU subsystems, each with local memory and various clock frequencies for optimal performance and power efficiency. The RISC MCU handles clock control, power management, and host interface configuration. Integrated PDMA engines support dynamic data buffer management. MT7915 AN, with its Wi-Fi MAC and BBP subsystem, pairs with MT7975 DN to offer top-class radio and low power performance. This system supports 802.11ax/ac standards and multi-user MIMO (MU-MIMO) in various configurations.
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
Channel bandwidth (MHz)
20, 40, 80, 80 + 80, 160
20, 40, 80, 80 + 80, 160
2.4 and 5 GHz
2.4,5, and 6 GHz
Maximum data rate
Highest subcarrier modulation
* Depending upon number of spatial streams and channel used
Diversified Module Specifications: We offer a variety of Wi-Fi modules from basic to high-end, standard to custom sizes, and low-power to high-performance.
Cross-Industry Applications: Suitable for various industries such as manufacturing, retail, energy, agriculture, etc.
Quality First: All products undergo stringent quality control and testing.
Professional Technical Support: Our professional team is always available to provide technical assistance.
Limited-Time Promotions: We regularly hold promotional activities, allowing you to purchase products at a discount or receive additional rewards.
We firmly believe that our strategic partnerships with leading chip companies such as Morse Micro and MediaTek will further enhance our product supply and access to cutting-edge technology.