Yineng Electric, as a well-known brand in the electrical industry, has always been committed to the research and production of high-quality electrical components. The ESR3921/5930 series low resistance shunt is designed specifically to meet the precision and stability requirements of modern communication equipment for current measurement and shunt. As a core component of communication networks, large-scale switch systems need to handle a large amount of data flow and ensure stable signal transmission. However, many models of ESR3921/5930 series low resistance splitters launched by Yineng Electric can be used in switch systems.
This series of diverters includes multiple models, such as ESR91F7WR001TR02G, ESR59F8W1M50F02G, ESR59F8W1M50K02G, ESR59F7W0M25F02G, ESR59F8W0M50M02G, etc. Each model has its unique specifications and performance to meet the needs of different application scenarios. The Yineng ESR3921/5930 series splitter adopts advanced manufacturing processes and calibration techniques to ensure accurate measurement data can be provided over a wide range of currents. Any small current fluctuations may affect the stability of the entire system. This series of splitters has an extremely low resistance value, and the voltage drop generated during the measurement process is very small, thereby reducing the impact on the switch system and helping to improve the overall efficiency and performance of the system. The splitter also uses high-quality materials and a unique structural design, which has good temperature stability and time stability. During long-term operation, the performance of the splitter will not undergo significant changes, ensuring the accuracy of measurement data.
The space inside the switch system is relatively small, which is very limited, while the YiNeng ESR3921/5930 series splitter adopts a compact design, which can be easily integrated into the switch system without taking up too much space. These two series of splitters can be used to monitor the current situation of various communication ports in real time. Once abnormal currents, such as overcurrent or undercurrent, are detected, the splitter will immediately send a signal, triggering a protection mechanism to prevent equipment damage or data loss. Diverters can also be installed between different communication ports, and large switch systems can achieve load balancing. The splitter can accurately measure the current at each port and provide data feedback to the control system. The control system dynamically adjusts the data flow based on this data to ensure load balancing of each port, thereby improving the throughput of the entire system.
