Xiaoping Zhang serves as the Principal Design Engineer at Cubatic Technology Corporation, where he plays a pivotal role in advancing the design and development of cutting-edge automated equipment and robotics tailored for industries such as solar energy, electric vehicles, and consumer electronics. With a robust...
Xiaoping Zhang serves as the Principal Design Engineer at Cubatic Technology Corporation, where he plays a pivotal role in advancing the design and development of cutting-edge automated equipment and robotics tailored for industries such as solar energy, electric vehicles, and consumer electronics. With a robust background in electro-mechanical systems and control, Xiaoping specializes in the intricate design and implementation of multi-axis robotic manipulator motion systems, ensuring precision and efficiency in manufacturing automation processes. His expertise extends to critical areas such as medical pressure, flow, and temperature control, as well as aircraft hydraulic systems, showcasing his versatility across various high-stakes applications.
At Cubatic Technology, Xiaoping is responsible for overseeing the entire machine design process, from conceptualization to execution. His proficiency in PLC and embedded control software development allows him to create sophisticated control systems that enhance the functionality of semiconductor equipment and tooling machines. Notably, his experience with MEMS optical 2-D mirror control and earthquake physical simulators further underscores his innovative approach to engineering challenges.
Xiaoping’s skill set encompasses a wide range of competencies, including mechatronics design, servo control system design, and hydraulic/pneumatic system development. His adeptness with industry-standard tools such as SolidWorks and AutoCAD enables him to produce detailed designs that meet stringent industry standards. As a thought leader in the field, Xiaoping Zhang continues to push the boundaries of technology at Cubatic Technology Corporation, driving advancements that shape the future of manufacturing automation and robotics.
