A 70dBm power output can deceive navigation modules with a range greater than 500m

A power output of 70dBm provides extremely strong signal transmission capabilities, effectively affecting navigation modules within a range exceeding 500 meters. When a drone is flying, especially in automatic navigation mode, the received signals are typically used for positioning and navigation based on ground control systems or predetermined paths. However, if such a powerful signal propagates to the drone's navigation system through an interference source, it may cause the navigation module to misjudge its current position, thereby inducing the drone to fly off its intended path in a designated direction. This interference may cause the drone to deviate from its planned trajectory and, in certain circumstances, even cause it to lose control, threatening flight safety. Therefore, when designing and using devices with this power output, it is necessary to strictly monitor their operating environment to ensure that they do not cause excessive interference to surrounding equipment, especially posing a potential hazard to drones in flight.

This device boasts a powerful 70dBm power output, providing an effective communication distance exceeding 500 meters. This power output is ideal for long-distance wireless communication, remote control systems, and other applications requiring wide-area signal coverage. The 70dBm output power ensures signal stability even in complex environments, effectively covering a wide area, whether in open fields or between tall buildings in a city, reducing the risk of signal loss or interference. This high-power output allows the device to better meet specific needs in applications such as military communications, aviation surveillance, and drone control, improving system reliability and stability.

To accommodate different device connection requirements, this device offers multiple output interfaces, including common SMA and N-type interfaces. These interfaces support compatible connections with various communication devices, from traditional radio communication equipment to modern smart devices, ensuring system flexibility and scalability. Furthermore, the device's output interfaces support different signal transmission methods, such as analog and digital signals, meeting the customized needs of different users. Users can select the appropriate interface based on specific application scenarios to ensure optimal device operation.

This device incorporates advanced navigation algorithms that monitor and automatically correct navigation errors in real time. Through continuous analysis and optimization of environmental signals, the device maintains signal stability in complex electromagnetic environments and avoids navigation problems caused by errors. These algorithms effectively eliminate signal interference and distortion by dynamically adjusting parameters such as power output and signal frequency, ensuring that the equipment maintains high efficiency and stable performance throughout long-term operation. Whether it's a drone in flight or a ground-based control system, it can obtain accurate positioning and navigation information, thereby greatly improving the system's safety and reliability.