DIAGNOSTIC SYSTEM FOR BRAKE WHEELS OF FREQUENCY-CONTROLLED ASYNCHRONOUS ELECTRIC DRIVES USING FPGA

Abstract

This article presents an innovative system for diagnosing brake wheels in frequency-controlled asynchronous electric drives (FCED) using a programmable logic matrix (FPGA), which opens up new possibilities for the modern industry in detecting and analyzing potential brake wheel faults in real-time. The primary advantage of this innovative system is the utilization of FPGA, which ensures exceptionally high signal processing speed and an instant response to any identified faults. This not only effectively detects severe issues with brake wheels but also responds to even the slightest anomalies in their operation, thereby helping prevent possible emergency situations. Furthermore, implementing this solution significantly enhances device speed and reliability by using just one microchip, reducing power consumption and size compared to implementations using integrated circuits, consequently reducing the system's overall cost. In conclusion, this development represents a crucial step in improving the efficiency and stability of industrial systems. It contributes to enhancing the safety and reliability of electric drives in manufacturing processes and holds great potential for implementation in industrial settings, fostering increased overall safety and productivity. Such technological advancement is a vital component of modern industry focused on achieving high-quality standards and productivity, ultimately promoting increased competitiveness and innovative development in industrial sectors.