MEMS Design Application Notes

Name Summary
Application Note: COMSOL Multiphysics Design and Thermal Simulation of a Chip-on-Carrier Solar Receiver The document demonstrates the use of COMSOL Multiphysics for design and thermal simulation of a solar cell chip-on-carrier.
Application Note: Ceramic Packaging for RF Components The process of designing hermetically sealed Radio Frequency (RF) packages
Application Note: Design, Make, and Test a Piezoresistive MEMS Strain Sensor Description of the process to develop and test a piezoresistive MEMS strain sensor
Application Note: Piezoresistive MEMS Strain Sensors: Design and Fabrication Process Guidelines to develop MEMS piezoresistive sensors, particularly MEMS strain (stress) sensors
Application Note: System-Level Design and Modeling of a MEMS Gyroscope Using CoventorWare Description of a system-level design flow using the CoventorWare MEMS software suite
Application Note: Using the CAD Import Module to Import a MEMS Pro Layout to COMSOL Multiphysics: Problems and Solutions Description of problems and solutions that arise when importing a layout from MEMS Pro to COMSOL Multiphysics
Application Note: How to Make a MEMS/Microfluidics Design Layout Using AutoCAD and Submit to CMC for Fabrication Description of using AutoCAD to layout a MEMS/microfluidics design to submit to CMC for fabrication
Application Note: Creating an Electrostatic Zipper Actuator in Cadence Virtuoso Description of the procedure to create an electrostatic zipper actuator using a pcell in Cadence Virtuoso
Application Note: Using a pcell to Create a Comb Actuator in Cadence Virtuoso Description of creating electrostatic comb actuators using a pcell in Cadence Virtuoso
Application Note: How to Create a MEMS Pro Design Kit for a MEMS or Microfluidic Process Guidelines on creating MEMS or microfluidic design kit for MEMS Pro from SoftMEMS
Application Note: A GUI Code to Simulate Thermal Flexure Actuators Description of using a Matlab based GUI to simulate thermal actuators