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Precision Control of Continuous Microcontact Printing
Başlık:
Precision Control of Continuous Microcontact Printing
Yazar:
Bageant, Maia R., author.
Yazar Ek Girişi:
Genel Not:
Source: Dissertation Abstracts International, Volume: 79-11(E), Section: B.
Advisors: David Hardt.
Özet:
This work focuses on the development of experimental equipment enabling the scaleup of microcontact printing for industrial use. An examination of existing experimental microcontact printing hardware and identification of its deficiencies are given. and the design and implementation of improvements are detailed. In particular. these improvements focus on the enabling of closed-loop force control of the printing process by the establishment of a deterministic computational platform and additional sensing.
An understanding and rationale for the overall control design of the microcontact printing process is developed. Though the goal is to control the compression of each individual nrricroscale feature on the microcontact printing stamp, force control is shown to offer significant advantages over displacement control.
Analytical dynamic models of the system are developed, iterated. and verified experimentally. Initially. a simple model consisting Of two separable single-input. single-output (SISO) systems was developed. but this model was shown to fail to capture relevant dynamics. A twelfth-order multi-input. multi-output (MIMO) model describing the system was then developed and verified experimentally- using specially constructed frequency response measurement tools.
Controller design was then undertaken for both the simple and complex model. The simple model was accommodated with proportional-integral and pure integral designs. The complex model required an augmented full-state feedback controller with a Kalman state estimator. which was designed and implemented in discrete time. Nonideal properties inherent to the printhead system. including uncontrollability and unobservability, were quickly identified. Maximum potential control performance under these constraints was explored and demonstrated experimentally. and it was shown that the inherent limitations made satisfactory closed-loop performance impossible.
A conceptual printhead design for control is also presented. Mechanical design principles based on the lessons indicated by the system model and control design are laid out. A conceptual design is developed based on these principles. and basic geometry, packaging. and component selection is completed, allowing for a dynamic system model to be evaluated. The new printhead design is found to offer a significantly unproved dynamic response. making the force control problem very tractable, and additionally solves a number of other design flaws inherent to the original printhead. An example control design and resulting performance is presented. (Copies available exclusively from MIT Libraries, libraries.mit.edu/docs - docs mit.edu).
Notlar:
School code: 0753
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Yer Numarası | Demirbaş Numarası | Shelf Location | Lokasyon / Statüsü / İade Tarihi |
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