細節放大器 的英文怎麼說
中文拼音 [xìjiéfàngdàqì]
細節放大器
英文
detail enhancer- 細 : 形容詞1 (條狀物橫剖面小) thin; slender 2 (顆粒小) in small particles; fine 3 (音量小) thin ...
- 節 : 節構詞成分。
- 放 : releaseset freelet go
- 器 : 名詞1. (器具) implement; utensil; ware 2. (器官) organ 3. (度量; 才能) capacity; talent 4. (姓氏) a surname
- 細節 : 1. (細小的環節或情節) details; particulars; specific; minutia; minutiae 2. [紡織] snicks
- 放大器 : amplifier; pantograph; lawnmower; enlarger; magnifier
- 放大 : amplify; magnify; boost; enlarge; blow up; gain; amplification; enhancement; multiplication; magn...
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Semiconductor devices ; discrete devices ; part 7 : bipolar transistors ; section 4 : blank detail specification for case - rated bipolar transistors for high - frequency amplification
半導體器件.分立器件.第7部分:雙極晶體管.第4節:高頻放大雙極晶體管的空白詳細規范Semiconductor devices ; discrete devices ; part 7 : bipolar transistors ; section one : blank detail specification for ambient - rated bipolar transistors for low and high - frequency amplification
半導體器件.分立器件.第7部分:雙極性晶體管.第1節:低頻和高頻放大用的額定環境晶體管的空白詳細規范Expensive items, such as digital tvs, cameras, or ipods, now feature on most of our e - shopping lists and the internet provides a rich source of information about brands and retail channels that help us with our final purchase decision
如今,在我們的大多數的網上購物清單中都會包括數字電視機,照相機以及ipod播放器這樣的貴重商品。網際網路還為我們提供了相當豐富的有關品牌和商品細節的信息,幫助我們確定最終的購買意向。In order to satisfy definition of dynamic picture in endoscope system and detail expressive force of static image smoothness and amplification, we introduce 3d dynamic optimized technique for this kind of display
為了滿足內窺鏡系統其動態畫面的清晰度以及靜態圖像平滑放大的細節表現力,我們針對內窺鏡系統獨特的顯示要求為該類顯示器導入了3d動態優化技術。The structure and character of deformable mirror were analyzed, and the conflict between the deformation band and the pitch of deformable cells was pointed out. the " two - time compensation " wave - front correct mode was introduced to settle that conflict. the method for allocating wave - front aberration and designing static corrector was found, and the " two - time compensation " wave - front correct mode was validated by simulation
分析了變形鏡的結構特點,初步給出了變形鏡本身驅動單元數與校正量之間的制約關系;引入「二次補償」波前校正方案,解決了變形鏡校正量有限與高功率固體激光系統波前誤差起伏量大的矛盾,建立了波前校正對象優化分配、靜態校正器優化設計等細節過程所需要的方法,通過模擬模擬驗證了「二次補償」波前校正方案對于降低變形鏡校正量要求和放寬光學元件加工精度的作用; 5分享友人