When selecting a current detection resistor in a drone flight control system, it is important to consider its resistance value, power rating, packaging size, and temperature characteristics of the resistor material. The table below summarizes common resistor selection schemes for different application scenarios, which you can quickly refer to.
Choosing the appropriate sampling resistor for Microchip's dsPIC33EP series drone drive control system requires comprehensive consideration of multiple parameters such as resistance, power, accuracy, and packaging. The following are key parameters and suggestions compiled based on some practical application solutions.
Drone Drive Control Core: Comprehensive Analysis of Main Control Chip Technology Layout and Selection Guide
Deep analysis of drone driving and control technology: a comprehensive breakthrough from single machine intelligence to cluster collaboration
Fixed wing unmanned aerial vehicles, as an important component of modern aviation technology, have demonstrated extensive application potential in military, civilian, and commercial fields due to their long endurance, high efficiency, and stability. Behind its intelligent flight is the result of a series of precision electronic components working together. This article will delve into the core electronic components of fixed wing unmanned aerial vehicles, revealing how they work together to give the drones the ability to fly autonomously.
A complete fixed wing unmanned aerial vehicle is mainly composed of five core components: flight power system, body structure system, flight control system, communication link system, and mission payload system.
Fixed wing drones play an indispensable role with their unique aerodynamic layout and excellent flight performance. Unlike common multi rotor drones, fixed wing drones have rigid wings that generate lift through the relative motion between the wings and the air, thereby achieving high-speed and long endurance flight missions.
The so-called unmanned aerial vehicle broadly refers to an unmanned aircraft controlled by radio remote control equipment or built-in programs. It integrates aircraft, sensors, artificial intelligence, and communication technology to form a massive and complex system. To have a clear understanding of drones, we can classify them from multiple dimensions such as their technical features, application areas, and platform configurations.
