micromechatronics

Micromechatronics is the interdisciplinary field that combines mechanical engineering, electronics, and control theory at miniature scales to create systems that sense, actuate, and regulate motion and processes within small devices. It extends the concept of mechatronics to the micro realm by integrating mechanical structures with microelectronic circuits, sensors, actuators, and on-chip or embedded controllers. Core technologies include microelectromechanical systems (MEMS), microactuators such as electrostatic, piezoelectric, and thermal types, a variety of micro-sensors (pressure, acceleration, chemical, thermal), and compact electronics for signal processing and closed-loop control. Manufacturing relies on MEMS fabrication methods—surface and bulk micromachining, wafer-level packaging, and micrometal or polymeric components—often followed by assembly and packaging that protect delicate parts.

Applications span micro-robotics for manipulation and inspection, biomedical devices such as microfluidic pumps and valves, lab-on-a-chip

Challenges include scaling physics such as stiction and stiction-related wear, parasitic effects and noise, energy storage

Micromechatronics is closely linked to MEMS; it emphasizes active control and system integration of micro-scale devices,