Technical specifications Control mode Microprocessor control, adopting advanced PID control algorithm Maximum output current 10 A (continuous operation) Communication interface supports Modbus, Ethernet, RS485, CAN and other communication protocols Protection function Overvoltage, undervoltage, overcurrent protectionWorking temperature -20 ℃ to + 70 ℃, suitable for wide temperature industrial environment Physical characteristics Size 140mm X 124mm X 75mm Weight 0.5kg Compact design can be directly installed in the machine junction box, with mechanical strength in high vibration occasions Protection grade in line with industrial standards, suitable for harsh environmentPower supply supports 24VDC or three-phase auxiliary power input I/O interface Digital input and output 12 inputs (8 of which can be configured as outputs) Analog input and output 3 inputs, 2 outputs Accuracy Voltage regulation accuracy ± 0.5% Response time 20 ms, fast response to load changesAutomatic voltage regulation accurately regulates the excitation current through PID algorithm, stabilizes the output voltage of the generator, supports parallel operation of multiple generators, realizes load sharing and power factor regulation, and automatically synchronizes the generator and the grid. To ensure the safety and reliability of the grid-connected process, the comprehensive protection function has various protection functions such as overcurrent, overvoltage and undervoltage to ensure the safe operation of the equipment.Strong communication capability, support multiple communication protocols, easy to integrate with the upper computer or SCADA system, easy to operate and maintain, provide friendly user interface and debugging tools (such as CMT1000), support parameter configuration, data recording and trend analysis, strong environmental adaptability, and comply with DNV and UL standards. Stable operation in harsh environments such as high temperature, high humidity, and high vibration Advanced features Integrated built-in dual-channel support for advanced load sharing between parallel operating units; Rotating diode monitoring and automatic synchronization for improved system reliabilityApplication Scenario Power plants are used for excitation control of small and medium-sized synchronous generators to ensure voltage stability and improve power generation efficiency. Voltage stability of industrial electrical equipment in the industrial field, such as rolling mills, compressors, pumps and other high-load equipment. Voltage regulation of ship power systems ensures stable power supply during navigation and supports the operation of propulsion systems and auxiliary equipment.Renewable energy is used together with wind power and hydropower generators to stabilize the grid-connected voltage and improve the reliability of renewable energy access to the grid. Voltage control in the transmission and distribution links of the power system improves the stability of the grid and reduces voltage fluctuations and failures. Key facilities such as data centers and hospitals require highly reliable power supply as the core regulating equipment of the standby power supply system.