micron technologies 中文意思是什麼
micron technologies
解釋
美光科技- micron : n. (pl. microns, -cra ) 微米〈100萬分之一米,符號μ〉。
- technologies : 備選生產技術
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As the ic manufacturing process develops from sub - micron to very deep submicron ( vdsm ) technologies, with current lithography tools ( 248nm and 193nm ), foundries can not manufacture products that designs want because of so - called optical proximity effect ( ope )
當集成電路生產工藝發展到納米級時,利用現有的曝光設備( 248nm和193nm ) ,由於所謂的光學鄰近效應,集成電路製造廠商已經無法製造出滿足電路功能要求的產品。 -
With the development toward sub - micron and deep sub - micron technologies, cmos will take more and more important role in the field of rf ic and have extremely wide market prospects, because its low cost and easy of implementation
鑒于cmos工藝的成熟度、獲得生產線支持的容易程度和價格的低廉,本次設計採用csmc0 . 6 mcmos工藝設計頻率合成器。 -
With the income generated in agribusiness, simplot then financed one of the leading - high - tech firms of the late twentieth century, the computer chip maker micron technologies, which is today the largest employer in the state of idaho
隨著農商經營中收入的增長,他后來投資於二十世紀後期高技術產業的前沿公司之一、製造計算機晶元的麥克隆技術公司,而這個公司今天則是愛德荷州僱人最多的公司 -
Smic is a pure - play ic foundry that provides wafer fabrication of 8 - inch and 12 - inch wafers at 0. 35 - micron to 0. 11 - micron technologies
中芯國際是一家純商業性晶元代工企業,提供0 . 35微米至0 . 11微米技術工藝的8英寸和12英寸晶元代工服務。 -
With the development toward sub - micron and deep sub - micron technologies, cmos will have extremely wide market prospects, because its low cost and easy of implementation. hence all the simulation of this paper uses the csmc 0. 6 m standard cmos process
標準cmos工藝作為數模混合集成電路的主流工藝,隨著cmos技術的發展,具有廣泛的市場前景,本文就是在在csmc0 . 6 m標準cmos工藝庫下進行模擬的。 -
The inductive dc / dc converter is the traditional approach for power management. but with the development of sub - micron technologies and the use of high value multi layer ceramic capacitors, the efficiency of charge pump is improved which make charge pumps are still widely used not only in light load application but also in higher output currents condition
傳統的電源管理方法是使用電感模式的dc / dc轉換器,但是隨著亞微米技術的發展和多層陶瓷大電容的使用,電荷泵的效率得到提高,所以電荷泵不僅在低功耗而且在較大輸出電流應用中仍然得到廣泛的應用。
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