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Wallys'DR9274-2.4G QCN9274/QCN6274 cpu 4x4 2.4G 4 x UFL antenna interface

 Following customer demand feedback, many customers also need single-frequency wifi7 2.4G RF module.

Wallys' R&D team has designed and tested it, and if customers need it, it can be purchased!

What are the differences between 4x4 2.4G on DR9574 motherboard and RF module DR9274-2.4G?QCN9274 cpu

1. The 4x4 2.4G on the DR9574 motherboard supports 11ax but does not support MLO;

2. RF module DR9274-2.4G supports 11be and MLO;

DR9274-2.4G


DR9574


There are some key differences in performance between radio on the motherboard and RF module radio, mainly reflected in the following aspects:

1. Functional integration

radio on the motherboard: Usually integrated in the SoC (system-on-chip) or chipset on the motherboard. This integration usually means higher compactness and lower costs, but it can also mean that performance is compromised in some cases.

RF Modules radio: Standalone RF modules typically offer greater flexibility and performance because they are optimized for wireless communication. They can choose from higher quality components and better RF designs.

2. Rf performance

radio on the motherboard: Integrated RF circuit designs are usually limited by space and power supply, which may result in RF performance (such as transmit power, receive sensitivity, etc.) inferior to standalone modules.

RF modules radio: Stand-alone RF modules tend to be more free in design, allowing for the use of larger antennas and better shielding designs, resulting in better performance in transmit power and receive sensitivity.

3. Interference and noise management

radio on the motherboard: Because other components on the motherboard (such as CPU, GPU, etc.) may generate electromagnetic interference, the integrated radio module needs to work in a noisy environment, which may affect its performance.

RF module radio: Independent RF modules are usually designed with better shielding and isolation measures, which can effectively reduce electromagnetic interference and improve signal quality.

4. Flexibility and scalability

radio on the motherboard: Integrated radio is usually a fixed design, lack of flexibility, upgrade or replace more difficult.

RF module radio: Independent modules can be more easily replaced and upgraded, and users can choose modules with different performance and frequency bands according to their needs.

5. Power Consumption

radio on the motherboard: Integrated designs tend to be more optimized in terms of power consumption and are suitable for power-sensitive applications (such as mobile devices).

RF modules radio: Stand-alone modules may consume more power, but can also be designed in high-performance mode for applications requiring higher RF performance.

Wallys Communications (Suzhou ) Co., LTD With over 15 years in wireless ,From 802.11 a - be;Wallys'software team has rich experience in quaclomm development and can develop according to your software needs, whether it is WiFi protocol, compilation, etc.;

please contact:sales@wallystech.com

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