A practical integration guide with a full AsiaRF module overview. AsiaRF provides a complete portfolio of industrial-grade Wi-Fi modules covering Wi-Fi 5 (802.11ac), Wi-Fi 6 (802.11ax), Wi-Fi 6E (ax + 6 GHz), and Wi-Fi 7 (802.11be). These modules are widely used in routers, gateways, industrial IoT, smart cities, robotics, and embedded Linux systems. This guide explains how to select, install, configure, and deploy AsiaRF Wi-Fi modules, followed by a full comparison table of curret Wi-Fi 5/6/6E/7 models.

A practical integration guide with a full AsiaRF module overview. AsiaRF provides a complete portfolio of industrial-grade Wi-Fi modules covering Wi-Fi 5 (802.11ac), Wi-Fi 6 (802.11ax), Wi-Fi 6E (ax + 6 GHz), and Wi-Fi 7 (802.11be). These modules are widely used in routers, gateways, industrial IoT, smart cities, robotics, and embedded Linux systems. This guide explains how to select, install, configure, and deploy AsiaRF Wi-Fi modules, followed by a full comparison table of curret Wi-Fi 5/6/6E/7 models.

Wi-Fi HaLow enables secure, long-range IoT with extremely low airtime usage, making it ideal for regions with strict duty-cycle rules. AsiaRF’s HaLow solutions ensure global compliance while maximizing range, efficiency, and device reliability.

As the AIoT (Artificial Intelligence of Things) era advances, the ability to collect, connect, and compute data at scale defines true intelligence.Yet, most IoT networks today still face the same barriers — limited range, unstable links, and short device lifespans. That’s where Wi-Fi HaLow (IEEE 802.11ah) reshapes the game. The Power of Wi-Fi HaLow for AIoT Wi-Fi HaLow operates in the sub-1 GHz band, delivering : These advantages make HaLow ideal for AIoT environments such as smart agriculture, logistics, factories,...

With the growing adoption of IoT devices and increasing demand for video surveillance, enterprises expect more from remote monitoring. The standard is no longer just “connectivity” or “low power consumption,” but a combination of long-range coverage, stability, low latency, and high reliability. Built on the IEEE 802.11ah standard, Wi-Fi HaLow is designed for long-range, low-power applications and is quickly emerging as a strong choice for remote video monitoring. Core Challenges in Remote Video Monitoring Traditionally, remote monitoring required a trade-off...

What is Wi-Fi HaLow (IEEE 802.11ah)? Explanation: Wi-Fi HaLow is a wireless communication standard specifically designed for Internet of Things (IoT) applications. It’s an extension of the familiar Wi-Fi (IEEE 802.11) family of standards but operates in the sub-1 GHz frequency band (typically 900 MHz, though it varies by region). This lower frequency allows for longer range, better penetration through obstacles, and lower power consumption compared to traditional Wi-Fi operating at 2.4 GHz and 5 GHz. It aims to provide...

A Deep Dive into the Real Technical Upgrades and Their Impact on Businesses and Industry Over the past few years, Wi-Fi 6 became the new standard in both consumer and enterprise environments. It helped solve congestion and improved efficiency in high-density networks. But with the rapid rise of IoT, AR and VR, real-time data processing, and 8K media, even Wi-Fi 6 is beginning to show its limits. Wi-Fi 7, also known as IEEE 802.11be, is not just a speed upgrade....

In the fast-evolving world of IoT, reliable, long-range, and low-power connectivity is critical. Wi-Fi HaLow (IEEE 802.11ah) stands out as a transformative solution for modern IoT deployments. It offers high-throughput, real-time data transmission over extended distances with minimal power consumption. This unique combination is invaluable for industries seeking scalable, efficient, and future-proof connectivity solutions.  For IoT innovators, system integrators, and industry leaders, Wi-Fi HaLow provides a strategic advantage to power the next generation of smart devices. Why Wi-Fi HaLow Excels ...

What causes Wi-Fi HaLow dead zones? Dead zones in Wi-Fi HaLow networks are often caused by two key issues: nulls and side lobes. Nulls are areas where the signal strength drops to nearly zero. Oddly, they often appear right beneath the antenna on a base station. Side lobes are unintended beams that radiate away from the main direction of the antenna. Devices may connect through these weaker paths, resulting in unstable or degraded performance. How do different antennas affect Wi-Fi...

The Future of Wi-Fi & IoT Connectivity: Key Trends & Innovations As wireless technology advances, the demand for faster, more energy-efficient, and long-range connectivity solutions continues to grow. One of the latest breakthroughs shaping the future of IoT networks is Wi-Fi HaLow. But what other trends are emerging in wireless connectivity? Wi-Fi HaLow: A Key Player in the Wireless Future With its long range, power efficiency, and reliability, Wi-Fi HaLow is poised to play a crucial role in the future...