Title :
Effect of heater geometry on the high temperature distribution on a MEMS micro-hotplate
Author :
Sidek, O. ; Ishak, M.Z. ; Khalid, M.A. ; Bakar, M. Z Abu ; Miskam, M.A.
Author_Institution :
Collaborative Microelectron. Design Excellence Centre, Univ. Sains Malaysia, Nibong Tebal, Malaysia
Abstract :
Temperature uniformity on a micro-hotplate is important for gas sensor sensitivity, linearity, and resolution. There are several ways to create a uniform temperature distribution on a micro-hotplate. In this paper, the modification of microheater geometry is the method used. Four different heater geometries are simulated using ConvetorWare software to determine which geometry can give the most uniform temperature distribution. The simulations show that the heater geometry which combines parallel and meander shapes results in the most uniform heat distribution. The electrical potential and current distributions of the four different micro-heater geometries are also evaluated.
Keywords :
current distribution; domestic appliances; electric potential; gas sensors; microsensors; temperature distribution; ConvetorWare software; MEMS microhotplate; current distributions; electrical potential; gas sensor sensitivity; high temperature distribution; meander shapes; microheater geometry effect; temperature uniformity; uniform heat distribution; Current density; Gas detectors; Geometry; Heating; Silicon; Temperature distribution; Temperature sensors; MEMS; Micro-hotplate; finite element analysis; gas sensor; heat distribution; micro-heater;
Conference_Titel :
Quality Electronic Design (ASQED), 2011 3rd Asia Symposium on
Conference_Location :
Kuala Lumpur
Print_ISBN :
978-1-4577-0145-0
DOI :
10.1109/ASQED.2011.6111709
