6g Triband card QCN9024/QCN9074 chip-MU-MIMO application advantage analysis on Ubuntu

 With the rapid development of wireless network technology, the popularity of new generation standards such as WiFi 6 and WiFi 6E has driven the demand for high-performance network cards. Especially in the application scenarios of multi-band devices, network cards that can simultaneously support 2.4GHz, 5GHz and 6GHz bands have become a trend. This article will introduce the tri-band network card based on QCN9024/QCN9074 chips and analyze its application advantages in the Ubuntu operating system.

DR9074-TRIBAND

■ Qualcomm Atheros QCN9024

■ Maxim 23 dBm per chain,up to 4804Mbps

■ Data Rateup to 4949Mbps

■ Support Tri Band 2.4GHz&5GHz&6GHz 4x4 WiFi 6E (802.11ax)

■ 4 spatial streams (4SS)

■ M.2 E Key Interface

■ PCI Express 3 .0 Interface

DR9074-Triband based on QCN9024 Chipset is an enterprise wireless module integrated with 4x4 MU-MIMO Dual Band Wireless Module designed specifically to provide users with mobile access to high-bandwidth video streaming, voice, and data transmission for office and challenging RF environment in factories, warehouses establishment.

for more information.please contact: sales@wallystech.com

2. Introduction to QCN9024/QCN9074 chips

QCN9024 and QCN9074 are high-performance WiFi chips launched by Qualcomm, designed for efficient and reliable wireless network connections, and support WiFi 6E standards. Their features are as follows:

• Support WiFi 6E: These chips are fully compatible with the latest WiFi 6E standard and support 2.4GHz, 5GHz and 6GHz bands. Compared with traditional WiFi, WiFi 6E introduces more spectrum resources, which can significantly reduce congestion and interference, and improve the stability and speed of device connections.
• Multi-User Multiple Input Multiple Output (MU-MIMO): QCN9024/QCN9074 supports 8x8 MU-MIMO technology, allowing multiple devices to transmit and receive data at the same time, improving the overall efficiency and capacity of the network.
• Advanced Channel Access (OFDMA): Orthogonal Frequency Division Multiple Access (OFDMA) technology can divide the frequency band into multiple sub-channels, allowing multiple users to access simultaneously, thereby optimizing bandwidth utilization and reducing latency.
• Efficient Data Transmission: Supports peak transmission rates of up to several Gbps, suitable for large bandwidth application scenarios such as high-definition video transmission, games, and large file downloads.
• High Integration and Low Power Design: QCN9024 and QCN9074 are designed with both high performance and low power consumption, suitable for a variety of device applications such as embedded systems, gateways, and routers.

3. Advantages of Tri-Band NICs in Ubuntu

1. Compatibility of open source ecosystemUbuntu, as a widely used Linux distribution, has strong open source community support. Tri-band NICs based on QCN9024/QCN9074 chips can be easily integrated into Ubuntu systems thanks to open driver support. This enables developers to customize network settings to meet a variety of application needs, from home to enterprise-level solutions.
2. Flexibility of multi-band connectionsBy supporting 2.4GHz, 5GHz, and 6GHz bands, these NICs enable flexible band selection. In actual use, users can choose the most appropriate band to connect according to the network environment to avoid congestion. This is especially suitable for network deployment in high-density environments, such as offices, campuses, or exhibition sites.
3. High performance and low latencyThe multi-antenna design and advanced signal processing capabilities of the QCN9024/QCN9074 chips can provide stable and high-speed connections on multiple bands. This can greatly improve network performance in the Ubuntu environment, making online video conferencing, streaming media playback, games and other applications smoother.
4. Wide application scenario supportIn the fields of industrial automation, Internet of Things, smart home, etc., there is an urgent need for low-latency, high-bandwidth wireless connections. The multi-band support and WiFi 6E capabilities of the QCN9024/QCN9074 chips enable these application scenarios to run stably on the Ubuntu system, reduce configuration complexity, and improve deployment efficiency.
5. Security and stabilityUsing Qualcomm’s advanced chips means having advanced encryption and security protocols in the WiFi 6E standard to ensure the security of data transmission. In addition, the inherent stability and security of Linux systems (including Ubuntu) make this type of network card perform well in situations where high security requirements are required, such as medical equipment, industrial control, etc.

4. Actual application cases

• Wireless deployment for small businesses: Small offices need to switch seamlessly between multiple devices while ensuring high bandwidth. These network cards can support multiple device connections with less interference, enhancing the overall quality of the network.
• Smart Home Network Solution: In smart home scenarios, various devices (such as security cameras, voice assistants, and smart appliances) have high requirements for the stability of wireless connections. Through the combination of Ubuntu and tri-band network cards, users can achieve efficient and reliable wireless network coverage.
• Industrial Internet of Things: In industrial environments, wireless networks need to cover a wide area and are sensitive to latency. The high performance and multi-band support of the QCN9024/QCN9074 chips make it easier and more stable to deploy industrial IoT networks on Ubuntu.

5. Conclusion

The application of tri-band network cards based on QCN9024/QCN9074 chips on Ubuntu can effectively improve the network performance and flexibility of devices. By supporting the multi-band technology of the WiFi 6E standard, this type of network card performs well in a variety of scenarios, especially in high bandwidth requirements and complex network environments. Combined with the advantages of the Ubuntu open source ecosystem, users and developers can more easily configure and optimize networks and build more reliable and efficient wireless solutions.