The BICMOS, Bipolar, CMOS systems, nano- and micro-electronic Vmkanykal MEMS (micro-electronics, nano-based PhD)
Researcher and author: PhD student Afshin Rashid
Note: MEMS, which integrates moving-like micro-devices (actuators and sensors), energy-efficient micro-devices (such as antennas, microstructures and coils), micron-scale actuator sensors, and integrated control processing panels . Used extensively .
Nano- and micro-electromechanical systems and instrumentation equipment ( various industry modes), high performance computers used in software design and effective computing environment . The design of micro-nano-scale systems enables systems, devices, and structures to integrate new phenomena and complex processes without integrating them and collaborating regularly . Micro-electromechanical systems (MEMS), the assembly of mechanical elements, sensors, actuators and nano- electronics on silicon-based nanotechnology fabrication technology . As long as electronics are manufactured for use in the integrated circuit (IC) process (such as process) Components), "BICMOS, Bipolar, CMOS Micro Mechanical Molding " for use in compatible micro- machining processes and suitable for selectively segmenting with silicone tablets or adding new building layers to shape electro-mechanical devices. The mechanicals used are made.
Microelectronics integrated circuits can be considered as the mastermind of a system, and MEMS extends its decision-making capabilities with eyes and apertures to allow micro-systems to measure the environment by mechanical, temperature, chemical, biological, optical measurements. And it collects magnetic. The electronics then command the sensor data and , through some decisions, the arms to be shown by moving, stabilizing, adjusting, pumping and filtering . As a result, environmental control is done for the desired characteristics. At each level of the design hierarchy, the efficiency of the system in its domain of behavior for evaluation, optimization and The optimization and blending process correction is used to create new solutions. ICs must have MEMS performance characteristics such as electromagnetic control and electromechanical structures , input-output channels, analogue to digital and analogue to analogue, data filtering, and filtering .
Conclusion:
Because MEMS devices are manufactured for use in group construction practices such as integrated barriers , serious levels of task integration , reliability and skill can be provided on a small silicon chip at a relatively low cost.