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Making a Capacitive Accelerometer

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Presentation on theme: "Making a Capacitive Accelerometer"— Presentation transcript:

1 Making a Capacitive Accelerometer
EE147/247A Fall 2016 Week 2, Lecture 1 K. Pister

2 Outline Simple SOI process Simple capacitive accelerometer Performance
Etching Design rules Simple capacitive accelerometer Anchor, spring, mass, capacitor Performance Spring constant, mass, frequency response Capacitance vs. acceleration

3 Simple SOI process Start with 20um thick SOI on 2um SiO2
spin, expose, develop, hardbake photoresist with mask STRUCT DRIE (deep reactive ion etch) silicon etch (plasma) strip photoresist 5 minute etch in 49% HF (liquid) rinse, dry

4 Minimum size for an anchor?

5 Maximum width of a free beam?

6 Maximum distance between etch holes in a free plate?

7 Design Rules: example minimum line/space: 2um
etch hole size: 2um square etch hole spacing: 6um center-to-center minimum width, fixed beam: 20um max width, free beam: 8um

8 Design Rules Design rules are a contract between the manufacturer and the designer “obey these rules and we guarantee this level of performance” free beams will be free fixed beams will be fixed 2um lines (e.g. springs) will still be there 2um gaps (e.g. capacitors) will be cleared

9 Design rules, cont. Note that this does not guarantee that a 2um line will be 2um wide when it is fabbed Design rules are a good idea even when you are both the designer and the manufacturer (maybe “especially when”)

10 Simplest accelerometer

11 ST 3 axis accelerometer LIS44AHL

12 ST 3 axis accelerometer LIS44AHL

13 Possibly the ST LIS331EB? (probably not)
Moving mass (with etch holes) Spring Capacitor fingers? Anchor

14 MEMS racetrack and racecar
Pham, Dao, Sugiyama, “A micro transportation system […] J. Micromech. Microeng. 2007

15 Spring, mass, damper, capacitor

16 Spring

17 Mass

18 Capacitor

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