Exercise 7.1-1

Class Exercises and Quick Questions to

7.1 MEMS - Products and Developments

We had the following class exercises:
How large is the resistance of a 1 pF capacitor at 10 GHZ?
Consider that the layer of whatever it is that forms the cantilever in the picture above would be under tensile stress in its top part (maybe the cantilever consists of two different materials stacked on top of each other). What would happen?
Calculate DR/R for a rectangular piece of material with length l, width w, thickness t and specific resistivity r that is strained by e in l-direction.
Give examples of MEMS products, their working principles and raneg of applications.
Describe the working principle of a DLP beamer. Consider strengths and problems.
Describe the working prinicple of a MEMS gyro. Provide a rough sketch of a possible implementation.
Describe possibilites for inducing and detecting mechanical movment in a MEMS device.
Compare a gyro or acceleration sensor operated around resonance or at lower than resoance frequencies. Give curves of amplitude and damping as a function of frequncy and discuss the role of damping.
Give some pricnciples for making actors and compare the relative merits of the approach.
 

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go to 7.1.4 Summary to: 7.1 MEMS - Products and Developments

go to Solution to Exercise 7.1-2 Forces in Capacitive Structures

go to Solution to Exercise 7.1-1: Summing up some Class Exercises:

© H. Föll (Semiconductor Technology - Script)