Course

MICRO-534: Advanced MEMS & microsystems

Lectures in this course (26)

Covers advanced topics in MEMS technology, including design, packaging, device categories, historical perspective, market trends, and the role of startups.

Actuators and Optical MEMS: Consumer Electronics and Mobile Applications

Explores Optical MEMS basics and actuation mechanisms for consumer electronics and mobile applications.

Micro-Electro-Mechanical Systems

Covers the introduction to Micro-Electro-Mechanical Systems (MEMS), including operating principles, elements, scaling laws, silicon choice, sensors, and actuators.

Actuators and Optical MEMS

Explores actuators, optical MEMS, micromirrors, and advanced MEMS systems for mobile and consumer electronics.

Advanced MEMS and Microsystems: Interactive Session Instructions

Covers the schedule and content of the Advanced MEMS and Microsystems course.

Introduction to Advanced MEMS

Introduces the practical aspects of the Advanced MEMS course and explores MEMS technology, trends, sensors, actuators, and more.

Transduction: Detection

Explores various methods of transduction for detecting motion and deformation in microscale applications.

MEMS-Based Laser Projector: Technology and Applications

Explores the development of MEMS-based laser projectors, magnetic MEMS mirrors, and quantum sensing solutions for industrial applications and quantum computing.

Transduction: Actuation

Explores transduction through actuation mechanisms, covering force-based and deformation-based methods, shape memory polymers, electrostatic and magnetic actuation principles, and examples like Texas Instruments DLP & DMD.

Optical MEMS Basics and Applications

Explores Optical MEMS basics, actuation mechanisms, applications, market overview, key metrics in fiber-optic devices, and tunable lasers.

Sensors: MEMS Advantages & Sensing Techniques

Covers the importance of sensors in micro and nanostructured devices and explores MEMS sensors, their applications, and sensing techniques.

Optical MEMS: Spectral Components and Tunable Filters

Explores MEMS applications in fiberoptic systems, focusing on spectral components and tunable filters for optical telecommunication.

Capacitive MEMS Sensors: Working Principles

Explains the working principles of capacitive MEMS sensors, differential capacitors, MEMS microphones, and the impact of MEMS technology on consumer products.

Piezoresistive MEMS Sensors: Working Principles and Applications

Explores the working principles and applications of piezoresistive MEMS sensors in various industries.

Sensors Technologies Comparison

Explores sensor technologies in MEMS, focusing on pressure sensors, accelerometers, and gyroscopes, and highlights the significance of sensor fusion.

Micromachined Ultrasonic Transducers: PMUTs

Explores the evolution and advantages of micromachined ultrasonic transducers, focusing on PMUTs and their applications in biometric identity verification and high-resolution imaging.

MEMS Resonators: Types and Applications

Explores MEMS resonators, their types, applications, and performance metrics in communication systems and timekeeping devices.

NEMS: Fabrication and Applications

Introduces NEMS, covers fabrication challenges, reasons for use, and detection mechanisms.

Gas Sensors: Interaction Mechanisms

Covers the fundamental concepts of gas sensors, including interaction mechanisms, sensor tasks, and categories.

Thermal Microsystems: Heat Transfer and Gas Sensors

Explores heat transfer, micro-hotplates, IR-emitters, thermal flow sensors, and accelerometers in MEMS.