| Title |
Design Fabrication and Test of Piezoelectric Multi-Layer Cantilever Microactuators for Optical Signal Modulation |
| Authors |
김명진(Kim, Myeong-Jin) ; 조영호(Jo, Yeong-Ho) |
| Keywords |
micromirror ; piezoelectric microactuator ; PZT ; deflection control ; residual stress |
| Abstract |
This paper presents a method to minimize the initial deflection of a multi-layer piezoelectric microactuator without loosing its piezoelectric deflection performance required for light modulating micromirror devices. The multi-layer piezoelectric actuator composed of PZT silicon nitride and platinum layers deflects or buckles due to the gradient of residual stress. Based on the structural analysis results and relationship between process conditions and mechanical properties we have modified the fabrication process and the thickness of thin film layers to reduce the initial residual stress deflection without decreasing its piezoelectric deflection performance. The modified designs fabricated by surface-micromachining process achieved the 77% reduction of the initial deflection compared with that of the conventional method based on the measured micromechanical material properties is applicable to the design refinement of multi-layer MEMS devices and micromechanical structures. |