W.H. Lee scite author profile

W.H. Lee

2Publications

63Citation Statements Received

12Citation Statements Given

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Robotics Research (United States)

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μ<sup>3</sup>: Multiscale, Deterministic Micro-Nano Assembly System for Construction of On-Wafer Microrobots

Das

Zhang

Lee³

et al. 2007

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One of the major issues enduring with microscale mechanics has been to design high fidelity miniature machines capable of performing complex operations. Though achieved in some proportion through conventional in-plane and out-of-plane designs, the efficacy of such micro-electromechanical systems (MEMS) structures is highly limited due to complicate fabrication and inadequate robustness. On the other hand, the use of precise robots to assemble MEMS parts of comparatively simpler design to build 3D micromechanical structures has recently emerged as a viable approach. Such modular assemblies of microscale parts typically utilize minimum energy connectors that are multifunctional, e.g., mechanical, electrical etc. The µ 3 is a 3-D microassembly station consisting of 19 DOF arranged into 3 micromanipulators, with additional microgrippers and stereo microscope vision.The platform is capable of motion resolutions of 3nm and is small enough to be used inside of a scanning electron microscope (SEM) for nano-manipulation. In this paper we discuss how systematic identification and calibration of the station, combined with appropriate part connector designs can lead to multi-degree of freedom active MEMS robots assembled on a wafer.

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Design Tradeoffs for Electrothermal Microgrippers

Mayyas

Zhang

Lee

et al. 2007

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W.H. Lee

μ<sup>3</sup>: Multiscale, Deterministic Micro-Nano Assembly System for Construction of On-Wafer Microrobots

Design Tradeoffs for Electrothermal Microgrippers

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W.H. Lee

&#x003BC;<sup>3</sup>: Multiscale, Deterministic Micro-Nano Assembly System for Construction of On-Wafer Microrobots

Design Tradeoffs for Electrothermal Microgrippers

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μ<sup>3</sup>: Multiscale, Deterministic Micro-Nano Assembly System for Construction of On-Wafer Microrobots