溫度補償元件 的英文怎麼說
中文拼音 [wēndùbǔchángyuánjiàn]
溫度補償元件
英文
temperature compensating element- 溫 : Ⅰ形容詞(不冷不熱) warm; lukewarm; hot; gentle; mild Ⅱ名詞1 (溫度) temperature 2 (瘟) acute ...
- 度 : 度動詞[書面語] (推測; 估計) surmise; estimate
- 補 : Ⅰ動詞1 (修理; 修補) repair; mend; patch 2 (補充; 補足;填補) fill up; add supplement; supply; ...
- 償 : 動詞1. (歸還; 抵補) repay; compensate for 2. (滿足) meet; fulfil
- 件 : Ⅰ量詞(用於個體事物) piece; article; item Ⅱ名詞1. (指可以一一計算的事物) 2. (文件) letter; correspondence; paper; document
- 溫度 : [物理學] temperature
- 補償 : compensate; make up; make up for; make it up to sb. ; make sth. good; compensation; offset
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This text divides into five chapters altogether : chapter one in the introduction, have introduced the common sensor of displacement, has pointed out the fine characteristic of hall ' s sensor, put forward the basic task ; chapter two have introduced the basic operation principle of hall ' s component ; chapter three introduce hall temperature performance, electromagnetic characteristic, zero error, frequency characteristic and these parameter commonly used compensation method and hall simple application of component ; chapter four having recommended the measurement principle of the feedback servo mechanism, systematic implementation method, the experimental result has appeared, structure the mathematics model, and has analysed the error ; chapter five have pointed out the developing direction in the future while looking forward to
本文共分為五章:第一章緒論中,介紹了常見的位移傳感器,指出了霍爾傳感器的優良特性,提出了基本任務;第二章介紹了霍爾元件的基本工作原理;第三章介紹了霍爾元件的溫度性能、電磁特性、零位誤差、頻率特性以及這些參數常用的補償方法和霍爾元件的簡單應用;第四章介紹了反饋隨動機構的測量原理,系統的實現方法,給出了實驗結果,構建了數學模型,並對誤差進行了分析;第五章展望中指出了今後的發展方向。Several materials with large coefficient of expansion were selected to make packaging components, and it was found that the packaging materials have good temperature sensitivity and compatibility with optical fibers. experimental accuracy and repetition of fbg temperature sensitivity and compensation were discussed. have selected several materials which has bigger coefficient of expansion to do packaging components, have made many temperature experiments, there have not flaws, such as aging, crackle, absciss layer, packaging materials have good temperature sensitivity and compatibility with optical fiber ; have designed the simple and practical packaging components, have performed a serials of experiments about accuracy and repetition of fbg wave - length, have obtained the first step conclusion ; have analyzed the result and made comparison between the result of different experiment, have summarized the best packaging effect and several rules to reduce mistskes
本文所做的主要工作包括以下幾個內容:一、選取了常見的熱膨脹系數大的材料製作封裝元件,經過多次一80到80反復測試,封裝元件沒有出現老化開裂、封裝裂紋、空洞、離層等缺陷,封裝材料具有良好的溫敏穩定性及復用性,與光纖相容性較好;二、對光纖光柵進行簡單、實用的封裝處理,就封裝效果的優劣性、波長測量的準確度、重復性和封裝時產生的波長損失等方面進行了一系列的實驗,得出了初步的結論;三、對溫敏和溫度補償式封裝的實驗數據進行了詳細的分析和對比,從數字上對溫變過程中光纖光柵中心波長的改變及溫變曲線進行了定量的分析,在大量實驗數據分析結果的基礎上,總結出哪種材料封裝效果更好,以及如何有效的減小實驗誤差。By the way, a displaying system and a communicating system is added. this dissertation is divided into four chapters altogether : chapter one is the introduction, introducing the hore component and its important characteristic and putting forward the basic task ; chapter two introduce the principle of the auto - tracking system and respective parts of the auto - tracking system ; chapter three introduce the applications of auto - tracking system under static condition and dynamic condition and give out the experiment results ; chapter four introduced the displaying system, communicating system and the applicability of the auto - tracking system to other sensors
本文共分為五章:第一章緒論中,介紹了霍爾元件及其一些重要特性,並提出了測量系統的基本方案;第二章詳細介紹了測量系統各部分的構成及原理,特別是對直流通道、溫度補償模塊和音圈電機為核心的隨動機構的論述;第三章介紹了實際系統在靜態測量和動態測量兩種模式下的應用及實驗結果;第四章介紹了系統的顯示功能和遠程通信功能並討論了系統對其它傳感器的適用性。This product adopts oem pressure transducer with stainless steel isolation diaphragm as signal measure element and automatic testing by the computer. using laser adjustment resistant technology carries on temperature compensation to zero point and sensibility in width temperature scope
該產品採用帶不銹鋼隔離膜片的oem壓力傳感器作為信號測量元件並經過計算機自動測試,用激光調阻工藝進行了寬溫度范圍的零點和靈敏度溫度補償。Temperature influence the hore sensors greatly. in their study, they did n ' t give out the ways to compensate the temperature error ; 3
溫度因素對霍爾元件的影響很大,他們的工作中只對溫度補償進行理論性的討論,並沒有採用實際有效的措施來消除溫度引起的系統誤差; 3A bimetallic element is fitted between the movement and bourdon tube to compensate for fluctuations of ambient temperature at the case
在機械裝置和波登管之間安裝了雙金屬元件,用來補償外殼內環境溫度波動的影響。A temperature compensation algorithm to overcome cross sensitivity according to the behavior of the inductance sensor, and a system self - calibration algorithm to overcome the drift of the analog circuit are designed. on the basis of these two algorithms, a new kind of data fusion algorithm combing both of them is derived out
提出了利用浙江大學博士學位論文智能位移傳感器系統的研究傳感元件自身特性實現溫度補償的演算法以及對模擬電路特性漂移的系統自校準演算法,並在此基礎上,提出一種將兩者有機地結合在一起的數據融合演算法。The hall zero - magnetic flux system can eliminate the influence of the temperature and the constant - current power of the hall element on the measurement results
霍爾檢零系統可以補償溫度和霍爾元件恆流源電流的變化對測量的影響。Specification - harmonized system of quality assessment for electronic components - blank detail specification : voltage regulator diodes and voltage reference diodes excluding precision - voltage temperature - compensated reference diodes
電子元器件質量評定協調體系規范.空白詳細規范:除精密電壓溫度補償基準二極體之外的調壓二極體和電壓基準二極體Temperature compensated reference element
溫度補償基準元件Specification for harmonized system of quality assessment for electronic components - semiconductor discrete devices - blank detail specification - voltage - regulator diodes and voltage - reference diodes, excluding temperature - compensated precision reference diodes
電子元器件質量評定協調體系.半導體分立器件.空白詳細規范.調壓二極體電壓參考二極體.不包括溫度補償精確二極體The dominance and properties of the cmos integrated reference were also described, and the research meaning was pointed out. related device theory and process model used in design were described. the temperature related model and the influencing factor of two active devices, subthreshold mosfet and pnp substrate transistor, based on cmos process were analyzed and compared, and pointed out that the pnp substrate transistor was more fit for being the temperature compensating device for bandgap reference
闡述了設計中相關的器件理論與工藝模型,對cmos工藝下的兩種有源器件,即亞閾值工作狀態下的金屬場效應晶體管( mosfet )及襯底pnp雙極型晶體管( bjt )的溫度模型及其影響因素進行了分析和比較,指明襯底pnp雙極型晶體管更適合作為基準源的溫度補償元件。分享友人