Corner compensation mask design on (MEMS) accelerometer structure
| Format: | Restricted Document |
|---|
| _version_ | 1860796948713308160 |
|---|---|
| building | INTELEK Repository |
| collection | Online Access |
| collectionurl | https://intelek.unisza.edu.my/intelek/pages/search.php?search=!collection407072 |
| date | 2015-10-11 11:59:09 |
| format | Restricted Document |
| id | 10795 |
| institution | UniSZA |
| originalfilename | 4923-01-FH02-FSTK-15-03894.jpg |
| person | UniSZA Unisza unisza |
| recordtype | oai_dc |
| resourceurl | https://intelek.unisza.edu.my/intelek/pages/view.php?ref=10795 |
| spelling | 10795 https://intelek.unisza.edu.my/intelek/pages/view.php?ref=10795 https://intelek.unisza.edu.my/intelek/pages/search.php?search=!collection407072 Restricted Document Article Journal UniSZA Unisza unisza image/jpeg inches 96 96 64 64 748 2015-10-11 11:59:09 1091x748 1091 4923-01-FH02-FSTK-15-03894.jpg UniSZA Private Access Corner compensation mask design on (MEMS) accelerometer structure IEEE Xplore This paper presents the analysis effect of etching temperature and KOH concentration on convex corner undercutting of (MEMS) accelerometer structure. The Intellisuite CAD simulation software was used for the simulation analysis. From the analysis it was found that the optimum etching condition for this convex corner was at 25 wt% KOH concentration and 63 °C etching temperature. Different types of compensation mask corners were designed which are corner, square and triangle in order to study the undercutting phenomena. In this case, the square corner compensation mask was chosen as it shown the most suitable compensation mask for this design of accelerometer. The etching simulation was continued with square corner compensation mask etched in the optimized temperature and KOH concentration and it indicated that the square corner compensation mask is the most suitable mask to solve the convex corner undercutting for this accelerometer structure. 1 1 248-251 |
| spellingShingle | Corner compensation mask design on (MEMS) accelerometer structure |
| summary | This paper presents the analysis effect of etching temperature and KOH concentration on convex corner undercutting of (MEMS) accelerometer structure. The Intellisuite CAD simulation software was used for the simulation analysis. From the analysis it was found that the optimum etching condition for this convex corner was at 25 wt% KOH concentration and 63 °C etching temperature. Different types of compensation mask corners were designed which are corner, square and triangle in order to study the undercutting phenomena. In this case, the square corner compensation mask was chosen as it shown the most suitable compensation mask for this design of accelerometer. The etching simulation was continued with square corner compensation mask etched in the optimized temperature and KOH concentration and it indicated that the square corner compensation mask is the most suitable mask to solve the convex corner undercutting for this accelerometer structure. |
| title | Corner compensation mask design on (MEMS) accelerometer structure |
| title_full | Corner compensation mask design on (MEMS) accelerometer structure |
| title_fullStr | Corner compensation mask design on (MEMS) accelerometer structure |
| title_full_unstemmed | Corner compensation mask design on (MEMS) accelerometer structure |
| title_short | Corner compensation mask design on (MEMS) accelerometer structure |
| title_sort | corner compensation mask design on (mems) accelerometer structure |