nt. The ELLON low resistance shunt 3920/5930 is a high precision shunt for current measurement. It is made of high-quality materials and advanced processes, with extremely low resistance and good temperature stability. The product is able to accurately measure the tiny pressure drop generated when a high current is passed through itself, thereby indirectly determining the size of the current. As a current measuring element, the shunt plays a very important role in the circuit.
The operation principle of the ELLON low resistance shunt 3920/5930 is based on Ohm's law, when the current passes through the shunt, a certain voltage drop is generated at both ends. This voltage drop is proportional to the current passing through the shunt and inversely proportional to the resistor value of the shunt. By measuring this voltage drop, the amount of current passing through the shunt can be calculated. In order to ensure the accuracy of the measurement, the shunt needs to have a very low resistance value and good linear characteristics. The ELLON low resistance shunt 3920/5930 uses precision manufacturing process and high quality materials for extremely high measurement accuracy. It can accurately measure small current changes to meet various precision measurement needs. The resistance value of this product is very low, which can reduce the impact on the measurement circuit and improve the measurement accuracy. The shunt has good linear characteristics in a wide current range, which ensures the stability and reliability of measurement. The ELLON low resistance shunt 3920/5930 has good temperature stability and can maintain stable performance under different ambient temperatures. Easy installation: The product is small in size, light in weight, easy to install, and can adapt to a variety of complex installation environments.
Measure the current size to provide important data support for the normal operation of the equipment. For example, in a power system, a shunt can be used to monitor current changes in the power grid to detect and deal with potential failures in a timely manner. In the field of industrial automation, shunts can be used to measure the current consumption of various mechanical equipment and optimize energy utilization. In the field of new energy vehicles and charging piles, the shunt is a key to ensure charging efficiency and battery safety.
