Udemy - Microelectromechanical Systems II - Design Principles

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Type Tutorials
Language English
Total size 2.0 GB
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Microelectromechanical Systems II: Design Principles

https://WebToolTip.com

Published 1/2026
Created by Pedro Portugal
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz, 2 Ch
Level: Intermediate | Genre: eLearning | Language: English | Duration: 24 Lectures ( 4h 10m ) | Size: 2 GB

MEMS Devices; Modeling, and Design Principles

What you'll learn
✓ Construct lumped-element models to simplify complex multi-domain physics into equivalent mechanical mass-spring-damper systems.
✓ Evaluate the trade-offs in capacitive sensing between sensitivity and linearity while accounting for the physical constraints of pull-in instability.
✓ Understand the frequency response and Q-factor of resonant micro-structures to optimize energy dissipation and frequency stability.
✓ Analyze mechanical failure modes such as buckling and fatigue driven by cyclic thermal stress and Joule heating within micro-structures.

Requirements
● B.S or graduate students, Mechanical engineering, Manufacturing Engineering, Aerospace Engineering, Electronics Engineering, Physics, Technicians with industry experience.

                Files: 

                [ WebToolTip.com ] Udemy - Microelectromechanical Systems II - Design Principles
Get Bonus Downloads Here.url (0.2 KB)
~Get Your Files Here !1 - Introduction1. Introduction.mp4 (99.0 MB)
Course Structure Syllabus.mp4 (61.3 MB)
Specialization Options.mp4 (35.2 MB)
- From Physics to Models4. How MEMS Are Modeled.mp4 (164.1 MB)
Lumped-Element Models Mass–Spring–Damper.mp4 (169.5 MB)
Static vs Dynamic MEMS Behavior.mp4 (151.6 MB)
Frequency Response and Resonance.mp4 (143.9 MB)
- Electrostatic MEMS Devices10. Noise Sources in Capacitive MEMS.mp4 (56.9 MB)
Capacitive Sensing Principles.mp4 (101.3 MB)
Sensitivity, Linearity, and Pull-In Limits.mp4 (53.1 MB)
- Resonant MEMS11. Resonant Structures and Mode Shapes.mp4 (71.7 MB)
Lateral Resonators Working Principles.mp4 (87.0 MB)
Q-Factor, Damping, and Energy Loss.mp4 (54.5 MB)
Frequency Stability and Drift.mp4 (96.8 MB)
- Inertial MEMS Devices15. Accelerometers Operating Principles.mp4 (91.0 MB)
Mechanical Design Trade-Offs.mp4 (52.2 MB)
Gyroscopes Coriolis Effect.mp4 (71.6 MB)
Bias, Noise, and Temperature Effects.mp4 (34.3 MB)
Designing An Accelerometer.mp4 (189.8 MB)
- Thermal and Specialty MEMS20. Thermal MEMS Devices.mp4 (79.2 MB)
Joule Heating as a Design Tool.mp4 (70.7 MB)
Material Selection for MEMS Devices.mp4 (46.1 MB)
Common Failure Modes and Design Pitfalls.mp4 (56.2 MB)
- Closing1. Final Assessment (Description).html (1.4 KB)
Final Assessment.html (18.7 KB)
Closing.mp4 (14.2 MB)
Bonus Resources.txt (0.1 KB)

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