CAPACITIVE BASED CMOS-MEMS MICROACTUATOR FOR BIOMEDICAL APPLICATION
The purpose of this project is to design electrostatic microacluator for biomedical application using CMOS and MEMS. The technology of microelectromechanical system (MEMS) is widely used in many daily applications such as aerospace Microsystems, biomedical applications, consumer electronic devic...
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Universiti Teknologi PETRONAS
2011
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my-utp-utpedia.103102017-01-25T09:42:25Z http://utpedia.utp.edu.my/10310/ CAPACITIVE BASED CMOS-MEMS MICROACTUATOR FOR BIOMEDICAL APPLICATION Samuri, Marfarahain TK Electrical engineering. Electronics Nuclear engineering The purpose of this project is to design electrostatic microacluator for biomedical application using CMOS and MEMS. The technology of microelectromechanical system (MEMS) is widely used in many daily applications such as aerospace Microsystems, biomedical applications, consumer electronic devices and so on. Specifically in biomedical applications, the experimentation always related to a macro meter objects manipulation. Due to that constraint, the tools that being used are also in macro meter-sized. Therefore, basically this project implements a micro actuator with an integrated capacitive force sensor which can be used in biomedical applications in handling cells and micron-size objects. An actuator for macro-size objects is already in market and it is not suitable to be used to the small cells like micron-cells. In my research, I had determined that there are several actuation principles of different types of gripper which are eleclmstatic, electromagnetic, electro thermal and electro osmotic. The problem where the procedure of handling the active cells must be taken seriously now can be solved with the invention of the grippers. Tn order to design the structure of this device, certain requirements should be taken into considerations. This project will improve the design for microactuator by applying electrostatic principles. The device then simulated in fvlATLAB to find other parameters needed for the microgripper. The performance of this device will be determined by its sensitivity for gripping the Hela cells. The device can be operated with 58V of actuator voltage supply and produced 9.9238 J.lN to have displacement of 1 J.lm. The results show that the device can be used with low voltage and able to be used for cell manipulations. Universiti Teknologi PETRONAS 2011-05 Final Year Project NonPeerReviewed application/pdf en http://utpedia.utp.edu.my/10310/1/2011%20Bachelor%20-%20Capacitive%20Based%20CMOS-MEMS%20Microactuator%20For%20Biomedical%20Application.pdf Samuri, Marfarahain (2011) CAPACITIVE BASED CMOS-MEMS MICROACTUATOR FOR BIOMEDICAL APPLICATION. Universiti Teknologi PETRONAS. (Unpublished) |
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TK Electrical engineering. Electronics Nuclear engineering Samuri, Marfarahain CAPACITIVE BASED CMOS-MEMS MICROACTUATOR FOR BIOMEDICAL APPLICATION |
| description |
The purpose of this project is to design electrostatic microacluator for
biomedical application using CMOS and MEMS. The technology of
microelectromechanical system (MEMS) is widely used in many daily applications
such as aerospace Microsystems, biomedical applications, consumer electronic
devices and so on. Specifically in biomedical applications, the experimentation
always related to a macro meter objects manipulation. Due to that constraint, the
tools that being used are also in macro meter-sized. Therefore, basically this project
implements a micro actuator with an integrated capacitive force sensor which can be
used in biomedical applications in handling cells and micron-size objects. An
actuator for macro-size objects is already in market and it is not suitable to be used to
the small cells like micron-cells. In my research, I had determined that there are
several actuation principles of different types of gripper which are eleclmstatic,
electromagnetic, electro thermal and electro osmotic. The problem where the
procedure of handling the active cells must be taken seriously now can be solved
with the invention of the grippers. Tn order to design the structure of this device,
certain requirements should be taken into considerations. This project will improve
the design for microactuator by applying electrostatic principles. The device then
simulated in fvlATLAB to find other parameters needed for the microgripper. The
performance of this device will be determined by its sensitivity for gripping the Hela
cells. The device can be operated with 58V of actuator voltage supply and produced
9.9238 J.lN to have displacement of 1 J.lm. The results show that the device can be
used with low voltage and able to be used for cell manipulations. |
| format |
Final Year Project |
| author |
Samuri, Marfarahain |
| author_facet |
Samuri, Marfarahain |
| author_sort |
Samuri, Marfarahain |
| title |
CAPACITIVE BASED CMOS-MEMS MICROACTUATOR FOR
BIOMEDICAL APPLICATION |
| title_short |
CAPACITIVE BASED CMOS-MEMS MICROACTUATOR FOR
BIOMEDICAL APPLICATION |
| title_full |
CAPACITIVE BASED CMOS-MEMS MICROACTUATOR FOR
BIOMEDICAL APPLICATION |
| title_fullStr |
CAPACITIVE BASED CMOS-MEMS MICROACTUATOR FOR
BIOMEDICAL APPLICATION |
| title_full_unstemmed |
CAPACITIVE BASED CMOS-MEMS MICROACTUATOR FOR
BIOMEDICAL APPLICATION |
| title_sort |
capacitive based cmos-mems microactuator for
biomedical application |
| publisher |
Universiti Teknologi PETRONAS |
| publishDate |
2011 |
| url |
http://utpedia.utp.edu.my/10310/1/2011%20Bachelor%20-%20Capacitive%20Based%20CMOS-MEMS%20Microactuator%20For%20Biomedical%20Application.pdf http://utpedia.utp.edu.my/10310/ |
| _version_ |
1739831786941186048 |
| score |
13.211869 |