深度掃描器 的英文怎麼說

中文拼音 [shēnsǎomiáo]
深度掃描器 英文
deep distance scanner
  • : Ⅰ形容詞1 (從上到下或從外到里的距離大) deep 2 (深奧) difficult; profound 3 (深刻; 深入) thor...
  • : 度動詞[書面語] (推測; 估計) surmise; estimate
  • : 掃構詞成分。
  • : 動詞1. (照底樣畫) copy; depict; trace 2. (在原來顏色淡或需改正之處重復塗抹) retouch; touch up
  • : 名詞1. (器具) implement; utensil; ware 2. (器官) organ 3. (度量; 才能) capacity; talent 4. (姓氏) a surname
  • 深度 : 1. (深淺程度) degree of depth; depth 2. (觸及事物本質的程度) profundity; depth
  1. On the base of studying imaging theory of lens, the imaging theory of laser confocal scanning microscopy was analyzed in detail in this paper, and the advancement of that the optical fiber was applied to the system was described ; on the base of completed the demonstration for whole project, the experiment scheme was designed ; the relationship between the main parameters of key devices and the resolution was deduced, and the requirements of coupling efficiency and vignetting effects to optical system was analyzed ; the design of optical system and the planar scanning controlling circuit was completed ; a new method was put forward to resolved the inherent non - liner scanning problem of the galvanometer scanner by using software liner controlling in circuit design, and the perfect planar scanning was realized ; at last the low noise, high multiple and non - distortion amplify circuit of photoelectric detector was completed

    本文在透鏡成像理論的基礎上,系統、入地分析了共焦顯微成像的機理,論述了應用單模光纖的激光共焦顯微成像系統的優點;進行了總體方案的論證,並設計確定了單模光纖激光共焦顯微成像系統的總體方案;從理論上推導分析了解析要求與試驗系統中相關件主要參數之間的關系,分析了系統耦合效率和漸暈現象對光學系統的設計要求;完成了方案中光學系統和二維控制電路的設計,並在電路設計中採用了用軟體解決檢流計式光學(振鏡)非線性問題的新方法,能夠實現較為理想的二維模擬;完成了高增益、低噪聲和低失真的探測接收系統的設計和調試。
  2. The pixel size of p + / n - well / p - sub structure is 100 umx 100 n m, fill factor is 77. 6 %. it can obtain target information with illuminance intensity in the range of 0. 011x ~ 98, 0001x, and the sensor photoelectric sensitivity is 35v / lx ? s. when the method of changeable reset frequency double scanning is used, the photoelectric dynamic range can be 139. 8db, which is high in the 0. 6 um level cmos image sensors already reported

    在對感光單元進行件物理結構優化的研究中,通過採用光電管結構,提高了傳感的感光響應,其中p m階」襯底結構的傳感面積為100umx100urn ,感光面積百分比為77石,可對0刀98 , 000lx照的目標信號進行傳感,感光靈敏大於3sv ix ? s ,採用了變頻兩次后,動態范圍可達139
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