Micro current transformers have revolutionized the field of electrical current measurement by enabling precise and accurate monitoring of low-level currents. With their ability to step down current levels without sacrificing accuracy, these transformers find extensive use in applications where measuring currents in the microampere range is essential. In this article, we will explore the technical aspects of micro current transformers, their working principles, benefits, and the latest advancements that have elevated their significance in modern electronics.
Hall effect current sensors have emerged as a groundbreaking technology in the field of electrical current measurement and monitoring. Built upon the principles of the Hall effect, these sensors provide accurate and reliable measurements of electric currents in various applications. In this article, we will explore the technical aspects of Hall effect current sensors, their working principles, benefits, and the latest advancements that have propelled their widespread adoption.
An isolation transformer is a type of transformer that is used to transfer electrical power from one circuit to another while separating the two circuits electrically, preventing direct contact between them. The primary and secondary windings of an isolation transformer are physically separated by insulation, which provides complete galvanic isolation between the two circuits. This isolation prevents electrical noise, voltage surges, and other disturbances from passing between the circuits, making it a critical element in several applications.