線性補償器 的英文怎麼說
中文拼音 [xiànxìngbǔchángqì]
線性補償器
英文
linearity compensator- 線 : 名詞1 (用絲、棉、金屬等製成的細長的東西) thread; string; wire 2 [數學] (一個點任意移動所構成的...
- 性 : Ⅰ名詞1 (性格) nature; character; disposition 2 (性能; 性質) property; quality 3 (性別) sex ...
- 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
- 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
- 線性 : [數學] [物理學] linear; linearity線性代數 linear algebra; 線性方程 linear equation; 線性規劃 line...
- 補償 : compensate; make up; make up for; make it up to sb. ; make sth. good; compensation; offset
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This article imtroduces adesign for a new style nonelastic element flexible c ouple r with good combinedcompensntion functions of axial, radial and anguladirection s. it s a mew idea designwith a simple and reasonable construction, lowpri ce and convenient maintenance. also it hasa super axial compensating ability compared with common couplers. the theory is that therotary force can be changed into lev eladvanced force. it has been proved that this couplerhas a good combined techn ique proprety and a higher rate between quality and price. itmust have cheerful prospects of application
設計了一種具有良好的軸向、徑向及角向綜合補償功能的新型無彈性元件撓性聯軸器.這種聯軸器構思新穎,結構簡單,容易加工製造,便於裝拆維修,具有一般聯軸器所不能實現的軸向超大補償能力.設計原理可引伸拓寬到將轉動動力轉變為直線推進動力的設計上.實踐證明,該聯軸器具有良好的綜合技術性能和較高的性能價格比,極具應用前景Modbus transducer is the key device in the system and is used to offer power supply of pressure and temperature sensor, to collect signal, to linearizate and compensate temperature, to calculate density, volume and mass, to transmit data to modbus network, and display the data. so the modbus transducer is a multi - parament measurement, intelligent control device which can manage multi - signal
變送器是系統的核心設備,其作用是為油罐溫度、壓力、液位、可燃氣濃度等傳感器供電,採集傳感器信號並進行線性化、溫度補償等處理,完成密度、體積和質量等參數計算,將數據輸出到modbus現場總線測控網路,根據需要現場顯示計測量參數。The verify experiment proves that its ratio and phase characteristics are much better than ordinary ones and the precision is enough for measure use. zero - flux current transformer can ’ t obtain absolute zero flux because residuary flux, so when the secondary turns is too small it will not satisfying. to improve the precision further, proposes a method to compensate zero - flux current transformer using capacitance parallel connected coil and deduces it
為了進一步抵消剩餘磁通,提高互感器的精度,提出了一種並聯電容線圈補償零磁通的方法,並進行了理論推導,設計了基於該方法的100匝電流互感器,通過校驗證明它可以改善零磁通電流互感器的比差和角差特性,提高互感器的精度,將電流互感器的二次匝數由普通互感器的幾千匝降到了100匝,提高了測量微小電流的能力。The error of hall element is analysed and the compensative method is provided ; this paper makes the theoretical analysis of errors producing by the instrument amplifier and a / d converter. we adopt the technology of digital filter and linearization implementing by the neural network method
對霍爾元件的誤差進行分析並給出補償方法;對儀表放大器和a d轉換器引起的誤差進行了理論分析;採用了數字濾波技術和採用神經網路方法實現的非線性校正技術進行軟體補償。To the level control problem of a spherical tank, two model - free control methods are proposed. in the former method, the takagi - sugeno fuzzy model is used to tune the neuron controller gain. in the latter method, the model - free control method using the neural network model proposed for nonlinear plants is presented
針對具有非線性特性的球形容器液位受控對象,從增益自調整和非線性補償兩個角度,分別提出了兩種非模型控制方法,前者採用t - s模糊模型對神經元控制器的增益進行在線整定,後者使用本文建立的非線性神經元網路對球形容器進行非模型控制。The spectral and group delay characteristics are studied and the potential uses of this type of grating for wavelength selection and dispersion compensation are discussed. a novel scheme of oadm configuration based on linearly chirped moir fiber gratings is proposed. we have designed a lcmfg to compensate dispersions for eight channels at the same time
在此基礎上,提出了一種新型的基於線性啁啾moir光纖光柵的光分插復用器( oadm )的結構設計方案;並設計出一種中心波長、相鄰中心波長間隔都符合itu規定的dwdm波長標準的基於線性啁啾moir光纖光柵的多通道色散補償器件。So a compensator is constructed, which is compensates the approximation error ' s effect on system output at the condition of the approximation error thought as disturbance of the system
所以利用系統跟蹤誤差構造線性最優補償器,該補償器用於減少逼近誤差對系統跟蹤誤差的影響。Using piezoresistive accelerometers and magnetoresistance sensors measure the dynamic acceleration and geomagnetic field and through avr mcu software to calculate the attitude angular and azimuth. the fact of affecting the module is discussed in detail in this report and put forward the resolving scheme of key technology of digital filter, linear compensation, temperature compensation and magnetic field adjustment. the digital module has advantages of small size, light weight, low conception, high accuracy, all solid state and high reliability
本課題採用壓阻式加速度計和磁阻傳感器分別測量重力加速度和地磁場,通過avrmcu軟體解算出姿態角和方位角,課題詳細分析了影響模塊性能指標的因素,就數字濾波、線性補償、溫度補償、磁場修正等關鍵的技術問題提出了可行的解決方案,研製的數字化模塊具有體積小、重量輕、低功耗、精度高、全固態、高可靠等特點,所有性能指標均滿足設計要求,為姿態角測量提供了有效的手段。The proposed fuzzy sliding mode controller does not require any knowledge of a nonlinear system and attempts to improve both transient and stability margins
建議的模糊滑動模式控制器是針對非線性系統在未知參數變化與結構下的強健追蹤控制,其設計包含補償器、衰減技術、模糊邏輯近似法。In addition, based sensor thermal drift and nonlinearity principle, this paper has designed intelligent sensor hardware circuit and edited a c51 program. the circuit with micro - process is simple and cheap, though the result has still a little error
本論文根據壓力傳感器零點補償與非線性補償原理,設計出了測量壓力傳感器的硬體電路及c51軟體編程,應用單片機技術測量電路簡單,成本低,應用面廣,但是由於自身的穩定性其測量結果仍存在誤差。In addition, based sensor thermal drift and nonlinearity principle, this paper has designed intelligent sensor hardware circuit and edited a software program. the circuit with micro - process is simple and cheap, though the result has still a little error
本論文根據壓力傳感器零點補償與非線性補償原理,設計出了測量壓力傳感器的硬體電路及軟體編程,應用單片機技術測量電路簡單,成本低,應用面廣,但是由於半導體本身的特點其測量結果仍存在一定的誤差。Experimental and theoretical research on valve head compensation for nonlinear characteristic of evaporator
閥頭線型對蒸發器非線性補償的理論與試驗研究Compensator design for nonovershooting step - response of 2 - order linear system
線性系統的無超調階躍響應補償器設計Topics covered include : performance and robustness trade - offs ; model - based compensators ; q - parameterization ; ill - posed optimization problems ; dynamic augmentation ; linear - quadratic optimization of controllers ; h - infinity controller design ; mu - synthesis ; model and compensator simplification ; and nonlinear effects
其中包含以下幾個主題:有關系統性能與強健性間的取捨;基於數學模型的補償器;補償器數學模型的q參數化;不適定的最佳化問題;動態擴增;控制器的線性二次最佳化; h控制器設計; ?合成法;系統模型與補償器的簡化以及非線性效應。( 2 ). similar to mark w. spong [ 2 ] " s control structure, we propose a new control strategy for above model with only parametric uncertainty. the proposed scheme consists of two parts. the first part is the nonlinear compensating standard controller
( 2 ) .採用類似於markw . spon夢]的控制結構,針對該模型只具有參數不確定性時進行魯棒性設計,控制器由基於標稱模型設計的非線性補償控制器lz ]和基於勿opunov理論設計的魯棒補償控制器。Fuzzy t - s model and fuzzy observer are used to model the nonlinear systems. the adaptive fuzzy logic systems are introduced to eliminate the effect of the modeling errors for the system stability
採用模糊t - s模型和模糊觀測器對非線性系統建模,引入自適應模糊邏輯系統補償器用來消除建模誤差對系統穩定性的影響。Nonlinear compensation of sensors based on bp neural network
神經網路的傳感器非線性補償In this work, we consider how to merge an unstable system and a compensator into a stable interconnected system
摘要針對不穩定之線性系統,本文探討如何將之與補償器連結,成為穩定的閉?路系統。Secondly, against the problem that the linearity of inductive micrometer is poor in wide ranges, it compares with the usual methods of non - linearity compensation, and then determines the method used in the system based on the research of characteristic curve of sensor in detail. then, it gives the detailed designs of the embedded application software and the arithmetic of non - linearity compensation. finally, the paper deals with experimental data and analyses the experimental results, with a conclusion shows that the polynomial fitting is a useful method to solve non - linearity of inductive micrometer
首先,針對電感位移傳感器數據處理量大、實時要求性高的特點,確定採用嵌入式處理晶元pxa271作為處理器,並根據實際需要確定性能指標;然後,針對電感位移傳感器在大范圍內線性度差的問題,通過對常用的非線性補償方法進行比較,在詳細研究傳感器特性曲線的基礎上,選用分段多項式擬合的方案進行補償;在此基礎上,對嵌入式應用軟體設計給出了詳細的設計流程和分析說明,最後,對設計的系統進行實驗和數據分析,處理的結果滿足設計的性能指標,說明分段多項式線性擬合的方法在解決電感微位移傳感器非線性問題上是可行的。( 2 ) the stability analysis and controller design of fuzzy systems based on t - s state space model were proposed. we present the principle of parallel distributed compensation, and detail the controller design and stability analysis of fuzzy system using linear system theory ( pole placement )
( 2 )研究了基於t - s模糊狀態空間模型的模糊系統穩定性分析和控制器設計方法:給出了并行分佈補償的原理,結合線性控制器設計方法(以極點置為例)實現了模糊系統的穩定性分析與控制器設計。分享友人