Mixed Signal Microelectronics: Difference between revisions

From Intelligent Materials and Systems Lab

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== Our vision and goal ==
[[File:SoC integration.png|thumb|right]]


...
==Why CMOS-MEMS?==
*Reduced Parasitic degradation
*Mainstream processes:High volume production
*Most scalable and monolithic
*Targeted for consumer electronics (primarily)
*Less degrees of freedom (Not the best solution!)


== Highlights ==
==Our Vision ==
We strive to adapt and develop smart ways for our MEMS materials in standard CMOS technology for optimized ASIC design targeted for biomedical and consumer applications.


...
==Capabilities==
 
=== Methodology ===
== Capabilities ==
Typically, we follow the standard procedure to develop our devices:
 
*Device design, Modeling and Optimization
...
*Black-box modeling and co-simulation with electronics (transistor-level design)
*Device Fabrication and Tape-out (corresponding to the technology node)
*Characterization (in terms of ambient and electrical factors) for optimal operation
*Convergence of modeling and experimental results for validation
 
<gallery caption="A Typical workflow for CMOS MEMS Pressure sensor" mode=packed heights=300px style="text-align:left">>
File:Pullin.png|300px|FEM of CMOS-MEMS resonator at Pull-in
File:Set-up.png|300px|Block diagram of experimental set-up for device characterization
File:Psensor.jpg|300px|View of Monolithic CMOS-MEMS Pressure sensor under scanning electron microscope
</gallery>


=== Tools we use ===
=== Tools we use ===
====Software====
*Modeling and Optimization: [https://se.mathworks.com/products/matlab.html MATLAB], [https://www.comsol.com COMSOL Multiphysics]
*Transistor level Design and Layout: [https://www.cadence.com Cadence]


...
==== Equipment ====
 
*SEM
=== Equipment ===
*FIB
 
*Microprobe setup
...
*Impedance Analyzer


== Primary contacts ==
== Primary contacts ==


...
{{Team|
{{TeamMember|Saoni|Saoni Banerji| postdoc researcher of CMOS MEMS sensors}}
{{TeamMember|Alvo|Alvo Aabloo| professor, head of the IMS lab}}
}}


== Some completed student projects ==
== Portfolio ==
 
===Research Topics===
...
Possible interesting topics are:
 
*MEMS-Based Sensors for Human Centered Applications (CMOS MEMS Based Micro Biotronics)
== Possible topics for student projects ==
*Monolithic sensors in CMOS technologies (targeted towards consumer electronics)
 
...
 
== Porfolio ==
 
...
 
=== Research Projects ===
 
...


=== Selected Publications ===
=== Selected Publications ===


...
*S. Banerji, D. Fernández and J. Madrenas, (2018) {{doi-inline|https://doi.org/10.1109/JSEN.2018.2797526|A Comprehensive High-Level Model for CMOS-MEMS Resonators}},'' in IEEE Sensors Journal, vol. 18, no. 7, pp. 2632-2640, April 1, 2018''.
 
*S. Banerji, D. Fernández and J. Madrenas, (2017) {{doi-inline|https://doi.org/10.1109/JSEN.2017.2747140|Characterization of CMOS-MEMS Resonant Pressure Sensors}},'' in IEEE Sensors Journal, vol. 17, no. 20, pp. 6653-6661, Oct.15, 2017''.
=== Outreach ===
*S. Banerji, P. Michalik, D. Fernández, J. Madrenas, A. Mola, J. Montanyà,(2017) {{doi-inline|https://doi.org/10.1007/s00542-016-2878-3|CMOS-MEMS resonant pressure sensors: Optimization and validation through comparative analysis}},'' , Microsyst. Technol., vol. 23, no. 9, pp. 3909-3925, 2016''.
 
...

Revision as of 16:02, 13 September 2019

SoC integration.png

Why CMOS-MEMS?

  • Reduced Parasitic degradation
  • Mainstream processes:High volume production
  • Most scalable and monolithic
  • Targeted for consumer electronics (primarily)
  • Less degrees of freedom (Not the best solution!)

Our Vision

We strive to adapt and develop smart ways for our MEMS materials in standard CMOS technology for optimized ASIC design targeted for biomedical and consumer applications.

Capabilities

Methodology

Typically, we follow the standard procedure to develop our devices:

  • Device design, Modeling and Optimization
  • Black-box modeling and co-simulation with electronics (transistor-level design)
  • Device Fabrication and Tape-out (corresponding to the technology node)
  • Characterization (in terms of ambient and electrical factors) for optimal operation
  • Convergence of modeling and experimental results for validation

Tools we use

Software

Equipment

  • SEM
  • FIB
  • Microprobe setup
  • Impedance Analyzer

Primary contacts

Saoni Banerji postdoc researcher of CMOS MEMS sensors
Alvo Aabloo professor, head of the IMS lab

Portfolio

Research Topics

Possible interesting topics are:

  • MEMS-Based Sensors for Human Centered Applications (CMOS MEMS Based Micro Biotronics)
  • Monolithic sensors in CMOS technologies (targeted towards consumer electronics)

Selected Publications