A circuit breaker is a switching device capable of making, carrying, and breaking currents under normal circuit conditions, as well as making, carrying, and breaking currents under abnormal circuit conditions within a specified timeframe. Based on their scope of application, circuit breakers are classified into high-voltage and low-voltage types; while the demarcation line between high and low voltage is somewhat fluid, electrical equipment operating at voltages above 3 kV is generally categorized as high-voltage apparatus.
Circuit breakers serve to distribute electrical energy, facilitate the infrequent starting of asynchronous motors, and provide protection for power lines, motors, and similar equipment. They are capable of automatically interrupting a circuit in the event of faults such as severe overloads, short circuits, or undervoltage conditions; functionally, they act as a combination of a fuse-switch unit and various overload, undervoltage, and thermal relays. Furthermore, unlike fuses, they typically do not require the replacement of components after interrupting a fault current. Consequently, they have found widespread application across numerous fields.
Within the processes of electricity generation, transmission, and utilization, power distribution constitutes a critically important stage. A power distribution system comprises transformers alongside a variety of high- and low-voltage electrical devices; among these, the low-voltage circuit breaker stands out as a device utilized in vast quantities across a broad spectrum of applications.
