silicon sensor 中文意思是什麼

silicon sensor 解釋
硅傳感器
  • silicon : n. = silicium
  • sensor : n. 1. =sensory (名詞). 2. 【自動化】感受器;傳感器;靈敏元件,控制儀板上顯示溫度、輻射量等變動的裝置。
  1. Non - linear self - emendation and temperature - bias self - compensate techniques of array silicon piezoresistive pressure, acceleration sensor is also reported

    還討論了信號處理電路、非線性自校正、溫度漂移自補償及數據融合等技術。
  2. The silicon force sensor using bulk silicon process has lots of advantages such as batch producible, low cost, high precision, small driving force, high reliability, low power consuming, small dimension, light weight and quick response, etc. therefore, a scheme is proposed in this paper

    由於微機械工藝採用的技術多是半導體工業的硅表面工藝和體硅加工工藝,因此這種傳感器可以大批量製造,且具有低成本、高精度、低驅動、高可靠性、低功耗、佔用空間小、重量輕和響應速度快等優點。
  3. The sensor adopted micro melts technology and introduce aviation application science and technology ; using high temperature glass the micro processing silicon voltage dependent resistance strain gauge to melt on the stainless steel diaphragm

    傳感器採用的微熔技術,引進航空應用科技,利用高溫玻璃將微加工硅壓敏電阻應變片熔化在不銹鋼膜片上。
  4. The experimental results showed that the substrate of pyroelectric sensor could significantly affect the detectivity. the porous silicon dioxide and pet plastic film substrate could effectively decrease the thermal conduction and the thermal fluctuation noise of the pyroelectric element, increase the voltage responsivity and the detectivity obviously

    結果表明,多孔氧化硅和pet塑料可有效降低熱釋電元件的對外熱傳導,明顯提高傳感器的電壓響應率和降低熱釋電元件的熱噪聲。
  5. In this paper, basic pneumatic - measuring theory and air circuit system working principle are introduced. the pneumatic - electric transducer employs a mpx5500dp silicon pressure sensor which converts air pressure signal into voltage signal, and displays on the electron column after the signal conditional circuit ’ s processing

    本課題從分析氣動測量的基礎理論入手,研究氣路系統的工作原理,用mpx5500dp擴散硅壓力傳感器將氣體壓力信號轉換為電壓信號,進而研製成功一種氣電轉換器。
  6. A two dimension small scale force sensor is developed which is used in the adhesion and friction tests, the sensor works well in the experiments. elastic modulus of nine different polyester / silicon rubber mixtures is tested, the results show that mixtures ’ elastic modulus increases with the aggrandizing of mass percentage of polyester. mixtures ’ adhesion abilitiy and especially mixture a ’ s adhesion - friction relationship are tested. these results provide experimental evidences for the fabricating of synthetic gecko hairs. lastly, a primary analysis of nanoscale hair modle is done, some hair preparation method is introduced, and the synthetic gecko foot hair fabricated by model moulding method is tested

    測試九種不同配比聚氨酯/硅橡膠合成材料的彈性模量值,得出合成材料的彈性模量隨聚氨酯質量百分比增加而增大的結論;對九種合成試樣進行了粘著性能測試,對實驗結果進行比較分析和討論;對粘著力最大的a試樣進行粘著力與摩擦力關系的實驗,得出粘著狀態下a試樣摩擦力與粘著力成線性關系的結論。
  7. Performance for a piezoresistive transducer pressure sensor to thermal and pressure environments can be predicted by finite element method. a simplified 1 / 8 model, considering silicon dioxide and nitride process as well as stack anodic bonding and adhesive bonding processes, was developed. the fem results were found to be comparable to experimental data. case studies suggested that pyrex stack induces certain amount of non - linearity, while it isolates hard epoxy nonlinear effect. flexible epoxy bonding or soft adhesive bonding is preferred to the packaging process. the viscoelasticity and viscoplasticity of bonding material will result in hysteresis and drift errors to sensor output. however, soft adhesive s influence on sensor can be ignored under relative stable environments. more over, detailed design and process information will help to improve modeling application

    熱、壓環境下壓阻變換壓力傳感器的性能可以通過有限元方法預測.這里研究了簡化的1 / 8模型,模型考慮了二氧化硅和氮化硅生成過程及堆陽極鍵合和膠粘結合過程.結果發現有限元預測結果和實驗數據具有可比性.範例研究表明,硼硅堆導致產生一定的非線性,但它隔離了硬環氧樹脂的非線性.在包裝過程中最好使用柔性環氧黏合或軟黏膠性結合.黏合材料的黏彈性和黏塑性將會導致傳感器輸出的滯后和漂移誤差.然而,在相對穩定的環境下,軟黏合劑對傳感器的影響可以忽略.此外,詳細的設計和過程信息有助於提高模型的適用性
  8. In accordance with practice a differentiation is made between variants and performance classes of favourably priced designs with flat sensor housings and pvc connection cables up to high capacity sensors with special wiring silicon, teflon

    根據實踐經驗,差異是由變量和表現等級造成的-比如價格合理的設計,扁平的傳感器外形和pvc連接電纜到有特殊電線硅特氟隆的大容量的傳感器。
  9. Silicon bandgap temperature sensor

    硅帶溫度傳感器
  10. Quadrants sensor based on silicon are now widely used in many fields, such as laser collimation, homing, tracking and searching devices, precision measurement et al

    基於硅光電傳感的象限傳感器廣泛應用於激光的瞄準、制導、跟蹤,搜索裝置,精密測量,如激光微定位、位移監控、精密機床的光電控制等領域。
  11. The issues of consistency, temperature shift and non - linearity are solved by the system which is composed of hardware and software. an output error factor of silicon piezoresistive sensor is achieved within 0. 2 %

    該系統由硬體和軟體兩部分組成,主要解決了它的一致性、溫度漂移和非線性等問題,使硅壓阻式傳感器的輸出精度達到了0 . 2 %以內。
  12. The mca7707 is a special sensor signal processor optimized for piezoresistive sensor calibration and compensation. achieving a total error factor within 0. 2 %, the mca7707 compensates temperature errors and non - linearity of silicon piezoresistive sensors

    Mca7707是一種專用傳感器信號處理器,它可以補償硅壓阻式傳感器的溫度誤差和非線性誤差,使傳感器總的精度達到0 . 2以內。
  13. Silicon piezoresistive sensors are widely used for pressure measure. consistency, temperature shift and non - linearity are ubiquitous because of semiconductor ’ s inherent characteristics. compensation and calibration are needed for piezoresistive sensor ’ s output voltage

    對于廣泛應用於壓力測量的硅壓阻式傳感器,由於所用的半導體材料的固有特性,普遍存在著:一致性、溫度漂移和非線性等問題。
  14. 5. in the simulated distribution residual stress map, the results of fe simulation is close to those measured by silicon piezoresistive sensor chip while the distribution of negative region and positive region matches with the measured map

    硅壓阻傳感晶元測量結果與計算機模擬結果的比較表明,硅壓阻傳感晶元測量值與計算機模擬值很接近,測量值的正負區間與模擬值的正負區間完全吻合。
  15. Pb8200 series silicon presure transmitters use the sensor elements wih high accuracy, stability and reliability and measure the pressure of the liquid or gas or the level of the liquid, then change into 420ma electric signal

    Pb8200系列擴散硅式壓力變送器選用了高精度高穩定性和高可靠性的擴散硅壓力傳感器,外形小巧,主要用於測量液體氣體的壓力及各種液體的液位,並把壓力信號轉換成420ma或15v等電信號,是一種現場遠傳壓力測量儀表。
  16. Designing some important parameters of the thermal excited resonant silicon micro structural pressure sensor

    熱激勵硅諧振式微結構壓力傳感器若干關鍵參數設計
  17. An effective micromachining process is developed to improve the reliability of the metal wire in the multi - sensor and to avoid adhesion between the pyrex glass and silicon mass in the process of anodic bonding

    針對晶元上各電阻間金屬引線的可靠性問題和加速度傳感器質量塊吸附問題提出了有效的改進方法。
  18. Silicon crystal gas sensor

    碳單晶氣敏元件
  19. At present the main product includes : the resistance should the variant, the proliferation silicon, the ceramics and so on three big kind of high temperatures, center warm, the normal temperature table press, certainly press, sensor and so on negative pressure, fluid position, difference pressure, current capacity, name is heavy, measures strength, torque, displacement, temperature / changes delivering and the necessary control measuring appliance

    目前主要產品有:電阻應變式、擴散硅、陶瓷等三大類的高溫、中溫、常溫的表壓、絕壓、負壓、液位、差壓、流量、稱重、測力、扭矩、位移、溫度等傳感器/變送器和配套控制儀表。
  20. Then, a micro - machined array of optical pressure sensor has been discussed ; each sensor element in the array consists of a fabry - perot etalon fabricated from single - crystal silicon ; sensor ' s performance has been increased through improved the structure, and can makeup the arrays which be suitable for the smart - skin

    其次,本文對一種傳統的法布里一帕羅標準具型光纖壓力傳感器(該傳感器陣列的每一單元均由單晶硅製造而成的法布里一怕羅標準具組成)進行了結構設計和性能分析。
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