mems tech
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mems tech
- 2. What is MEMS? Micro-Electro-Mechanical Systems ◦ is the integration of elements, sensors, actuators, and electronics on a common silicon substrate through micro- fabrication technology, a manufacturing technology for making microscopic devices ◦ Other Materials used in MEMS Gallium Arsinide Titanium Nickel Piezoelectric Materials
- 3. Micro Electro Mechanical Systems Electrical sensing/actuation ◦ Capacitive ◦ Piezoelectric ◦ Piezoresistive Mechanical devices with a third dimension Systems ◦ Multiple functions on one piece of silicon IMD AMFitzgerald AMFitzgerald
- 4. Size of MEMS
- 5. Birth of MEMS 1970’s: using silicon processing to make mechanical devices, not transistors ◦ Accelerometers ◦ Pressure sensors ◦ Inkjet nozzles 1982: Petersen’s “Silicon as a Mechanical Material” Popular Science, June 1984
- 6. How MEMS are made! There are three main building blocks in MEMS Deposition process The ability to deposit thin films of material Lithography is typically the transfer of a pattern to a photosensitive material by selective exposure to a radiation source such as light Etching Process Wet etching where the material is dissolved when immersed in a chemical solution Dry etching where the material is sputtered or dissolved using reactive ions or a vapor phase etchant
- 7. MEMS is a miniaturization technology Airbag sensors (1980) Airbag sensors (2005)
- 8. MEMS belong where miniaturization is needed Applications using MEMS devices: ◦ Automotive: pressure, motion, sound, light, heat ◦ Consumer: motion, sound, pressure, compass ◦ RF: filters, resonators, switches, inductors ◦ Optical: network components, displays, switches, mirrors ◦ Medical devices: needles, cell scaffolds, ultrasound, implantables ◦ Printing: inkjet, large format nozzles ◦ Biotech: lab-on-chip microfluidics ◦ Industrial: Atomic force microscopy, chemical sensors
- 9. Smaller, better, cheaper ◦ But not always all three! Sophisticated capabilities in small form factor: ◦ Multiple sensors ◦ Signal processing and analysis ◦ Telemetry capability ◦ Low power Why MEMS are exciting for so many applications Integrated Pressure Sensor MEMS sensor Stacked MEMS and ASIC chips, wirebonded
- 10. Applications of MEMS • MEMS-based sensors are a crucial component in automotive electronics, medical equipment, smart portable electronics such as cell phones. • PDAs, and hard disk drives, computer peripherals, and wireless devices. • These sensors began in the automotive industry especially for crash detection in airbag systems.
- 11. Explosion of MEMS in consumer devices Sophisticated capability in small form factor enabling new functions ◦ Motion sensing -> gesture input, navigation ◦ Microphone arrays -> noise cancellation ◦ Pressure sensing -> height detection At the right price! ◦ MEMS took off when chip price <$3
- 12. MEMS enable exciting new products
- 15. MEMS are not like ICs Yes, both are made on silicon wafers No building block technology, i.e. no transistor ◦ Moore’s law does not apply ◦ No standardization of design, processes, or materials ◦ Each MEMS is custom-crafted “One product, one process, one package”
- 16. What this implies MEMS prices will not decrease as fast as IC chips did MEMS sensor performance will not improve as fast as microprocessors, memory chips did Chip packaging usually critical to MEMS performance System integration can be more challenging
- 17. Expected Characteristics of MEMS In the future, MEMS Technology compared to Conventional Technology should have these effects: ◦ Cost reduction ◦ Increase functionality ◦ Improve reliability ◦ Decrease size ◦ Decrease mass
- 18. THANK YOU