Protection equipment: prevent damage to equipment caused by overvoltage and surge. Improve system reliability: reduce system failures caused by overvoltage. Extend equipment lifespan: By protecting the equipment, extend its service life.

Servo system: used to build high-performance servo systems that achieve precise position control, speed control, and torque control. Automation equipment: used to control the movement of various automation equipment, such as robots, packaging machines, machine tools, etc. Motion control system: As an executing element in the motion control system, it realizes various complex motion control tasks.

High integration: Integrating power distribution and protection functions into one. Modular design: facilitates system expansion and maintenance. Reliability: Using high-quality components to ensure long-term stable operation.

High integration: Integrating power distribution and protection functions into one. Modular design: facilitates system expansion and maintenance. Reliability: Using high-quality components to ensure long-term stable operation.

Fault diagnosis: By analyzing the sequence of events, quickly locate the cause of the fault. Process analysis: Monitor changes in process parameters and optimize the production process. Data recording: Record important data during the production process to provide a basis for subsequent analysis.

Serial device interconnection: Connect multiple RS485 serial devices to achieve data exchange. Remote data collection: Collecting data from remote devices. Protocol conversion: Converting between different protocols. System Expansion: Expand the communication capabilities of the automation system.

Modular design: allows users to choose different I/O modules according to their actual needs and flexibly configure the system. Key control design: prevent module installation errors and improve system reliability. Safe and reliable: Provides a secure operating environment and protects modules from damage. Strong scalability: Supports multiple I/O modules to meet different application requirements.

Modular design: allows users to flexibly add or remove I/O modules to meet different application requirements. Safe and reliable: Provide a secure operating environment to protect modules from damage. Strong scalability: Supports multiple I/O modules to meet different types of input and output requirements. Key control design: prevent module installation errors and improve system reliability.

Modular design: allows users to flexibly add or remove I/O modules to meet different application requirements. High channel density: Compared to other MTUs, TU842 typically has a higher channel density and can carry more I/O modules in limited space. Safe and reliable: Provide a secure operating environment to protect modules from damage. Strong scalability: Supports multiple I/O modules to meet different types of input and output requirements. Key control design: prevent module installation errors and improve system reliability.

High channel density: TU846 is designed to carry a large number of I/O modules, thereby improving system integration and saving space. Modular design: allows users to flexibly add or remove I/O modules to meet different application requirements. Safe and reliable: Provide a secure operating environment to protect modules from damage. Strong scalability: Supports multiple I/O modules to meet different types of input and output requirements. Key control design: prevent module installation errors and improve system reliability. Rich communication interfaces: TU846 is typically equipped with multiple communication interfaces, such as PROFIBUS, for communication with other devices.