本研究是針對光電介面元件技術,高可靠度八吋紅外線吸收式濾光片製程研究及其市場價值分析,光學濾光片為許多光學系統以及影像擷取系統不可缺少之重要元件,一般常見光學濾光片都是以鍍膜方式,本實驗針對矽、硼、三氧化二鋁等材料以高溫燒結方式製造光學濾光晶片,以材料特性吸收不可見光之光波,來得到所需光學濾光片之光譜特性,此吸收式光學濾光晶片之光譜穩定性高。為日後光學及影像擷取系統進入輕、薄、短、小後,仍能維持高濾光特性不可缺少之關鍵元件。 國內投入開發元件材料較晚,以致研發與生產均掌握在德、日廠商。然現今產業的企業經營中,新產品的開發須有過去市場的探討分析、現有資源的可行性及未來產品的銷售市場預測等之考量。以實務專業技術資料與商業理論回顧,在創新思維的機制下,做為新產品研究預測之評估,以獲取最大效益做為研究之目的。
The aim of this research is to study the technology of photoelectric component, the high reliability process of 8 inch infrared ray absorption type of filter, and its market analysis. Filter is the key component of various optical systems. In general, color filter is fabricated by coating method. This study presents the novel method for filter fabrication by high temperature sintering of Si, B, Al2O3, and other materials. Compared with conventional filter, the absorption type of filter have more stable spectrum because of its properties of invisible light absorption. This filter is promising to be a key component of high performance optical system for lighter, thinner, shorter, and smaller structure. The research and fabrication techniques of filter materials have been controlled by Germany and Japan industry. For development of new products, the survey of market, feasibility study on related resources, and forecast of new generation market are need to be carried out. The aim of this study for obtaining the most benefit from photoelectric market is on the basis of reviewing the related techniques, theory of commerce, innovated thought.