微流體技術在生物晶片中快速發展,其微量總體分析系統(Micro Total Analysis System)便是將生醫檢測上取樣、樣本傳輸、混合、分離及偵測等功能。 本論文經由碟片設計的開發,所以根據碟片閥門之行星角、閥門擴閥角、水力直徑對閥門提高臨界轉速應用,且對流體碟片之臨界轉速理論與實驗比對,提出一理論可預測臨界轉速,其預測轉速與實驗值誤差達到10%內,相當準確且實用性。最後依流體碟片臨界轉速理論發展出以Visual Basic結合AutoCAD完成之分析軟體,使得微流體碟片閥門之探討與功能設計上可以快速達成。 最後整合了馬達控制、流體牒片設計,利用Autolisp碟片設計應用到水質檢測,使用影像處理判斷RGB值之檢測判別,並配合單晶片控制光碟機之馬達轉速,製作一可攜帶式光碟機之水檢驗系統開發,成功的整合微機電之應用,且在碟片理論成功的應用在日常生活上應用。希望未來能結合生醫知識多方之應用,擴大LabCD之應用面。
Micro-fluid techniques are developed rapidly in the bio-chip area. The Micro Total Analysis System provides the capabilities in sampling, transporting, mixing, separating, and sensing functions. The experiment results satisfied what we expected. The software combing Visual Basic and AutoCAD is developed according to the critical velocity theory of the fluid chip. This research development LabCD design for Increase critical rotation speeding theories of the basis planetary angle ,expand angle, hydraulic diameter . We proposed an experimental function for the LabCD, and the error is around 10% comparing to the experiment resul. This system integrated with motor control and LabCD to use autolisp software development for water quality detection application and the image processing technique is employed to process the RGB values .This single apply chip control motor rotational speed. Manufactured a Portable CD-ROM drive that testing of water quality. This System integrate whith Micro-Electro-Mechanical and LabCD apply in our life successfully.We hope this research can be combined with more biomedical applications, and increase the applicability of LabCD.