What are the technical fields of mechatronics?
Category: Industry News
Mechanical technology serves as the foundation of mechatronics, with its primary focus on how to align with mechatronic principles and leverage advanced and emerging technologies to refresh conceptual frameworks, drive innovations in structure, materials, and performance, and meet the demands for weight reduction, miniaturization, enhanced precision, increased stiffness, and improved overall functionality. In the manufacturing of mechatronic systems, traditional mechanical theories and processes should be augmented by computer-aided technologies and integrated with artificial intelligence and expert systems, thereby giving rise to a new generation of mechanical manufacturing techniques.
Mechanical Technology
Mechanical technology serves as the foundation of mechatronics, with its primary focus on how to align with mechatronic principles and leverage advanced and emerging technologies to refresh conceptual frameworks, drive innovations in structure, materials, and performance, and meet the demands for weight reduction, miniaturization, enhanced precision, increased stiffness, and improved overall functionality. In the manufacturing of mechatronic systems, traditional mechanical theories and processes should be augmented by computer-aided technologies and integrated with artificial intelligence and expert systems, thereby giving rise to a new generation of mechanical manufacturing techniques.
Computer and Information Technology
Among these, information exchange, storage and retrieval, computation, reasoning and decision-making, artificial intelligence technologies, expert system technologies, and neural network technologies all fall under the umbrella of computer information processing technologies.
System Technology
System engineering involves the integrated application of various related technologies, organized from a holistic perspective and guided by system objectives. It entails decomposing the overall system into a set of interrelated functional units. Interface technology is a crucial component of system engineering, serving as the foundation that ensures the seamless integration and interoperability of all system components.
Automatic Control Technology
Its scope is broad: under the guidance of control theory, system design is carried out, followed by system simulation and on-site commissioning. The control technologies involved include high-precision positioning control, speed control, adaptive control, self-diagnosis and correction, compensation, reproduction, and retrieval, among others.
Sensor Detection Technology
Sensing and detection technology serves as the sensory organ of a system and is a critical component for achieving automatic control and regulation. The more advanced its capabilities, the higher the system’s level of automation. Modern engineering demands that sensors be able to acquire information rapidly and accurately while withstanding harsh environmental conditions, thereby ensuring that mechatronic systems attain a high performance standard.
Servo Drive Technology
Including electric, pneumatic, and hydraulic actuators of various types, servo systems serve as the devices and components that convert electrical signals into mechanical motion, exerting a decisive influence on the system’s dynamic performance, control quality, and functionality.
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