Magnetic latching relay is an electronic control device. It has a control system (also known as an input loop) and a controlled system (also known as an output loop). Shunt Terminal Magnetic Latching Relay is usually used in automatic control circuits. Manganin Shunt Single Phase Latching Relay is actually controlled by a smaller current. A type of "automatic switch" for larger currents. Therefore, magnetic latching relay plays the role of automatic adjustment, safety protection, and conversion circuit in the circuit. 

Magnetic latching relays currently have broad prospects for development in the market, and are widely used in the market. As the most commonly used relay type for industrial general purpose relays, Electrical Meter Shunt Latching Relays are widely used in various fields of the national economy. Including construction, transportation, energy, industry, etc., there are applications of safety, time, and monitoring relay products. Resistor Shunt Latching Relays are essential in any field with automatic control and are favored by users.

The magnetic latching relay is divided into two layers, the upper layer is the electromagnetic system, and the lower layer is the contact system. The electromagnetic system adopts a flat direct-acting magnetic latching magnetic circuit system, which includes a Latching Relay Manganin Shunt, Electric Silver Contact Rivet, a coil, an armature Electrician pure iron, an iron core, and a mounting plate. The magnet Shunt Terminal is located on the mounting plate. In the center, coils are installed on both sides of the magnet, a U-shaped iron core is arranged above the coil, and the armature is located between the iron cores to form an annular structure, which can be controlled by a magnetic field. Both ends of the mounting plate are located beside the U-shaped bottom of the iron core, and a pure iron plate is also installed to prevent the interference of external Static Copper Plate with Manganese magnetic fields.