temperature compensation range 中文意思是什麼
temperature compensation range
解釋
溫度補償范圍- temperature : n. 1. 溫度,氣溫。2. 體溫。3. 〈口語〉發燒,高燒。
- compensation : n 賠償;補償(金);報酬 (for);〈美國〉薪水,工資 (for); 【機械工程】補整;【造船】補強。com...
- range : vt 1 排列;整理(頭發等)。2 使歸類[班、行、隊];把…分類。3 〈用被動形或反身形〉加入,站住…的一邊...
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The theoretical calculation and the experimental result indicated that, after temperature compensation, this kind of new hotwire air mass flowmeter still had high measuring accuracy when the environment temperature had wide range change
理論計算和試驗的結果表明,經環境溫度補償后,這種新型熱線式空氣質量流量計在大范圍環境溫度變化下仍具有較高的測量精度。 -
Foxy - cal ( optional ) calibration option for foxy systems configured with temperature - compensation accessories ; users must specify the temperature and the concentration range for their applications
配置溫度補償附件的用於foxy系統的校準選項;使用者必須指明他們使用的溫度和濃度范圍。 -
Foxy - cal probe calibration service available to buyers of foxy systems having temperature - compensation accessories ; users must specify the temperature and the concentration range of their applications
對購買帶溫度補償附件的買家的探測器校準服務;使用者必須指明他們使用的溫度和濃度范圍。 -
In the volume change study, we found appropriate temperature is helpful for shrinkage control, and different lpas have different shrinkage control effects due to their dipole moment, tg, miscibility with upr and morphology after blending. there existed an optimal concentration range of poly ( vinyl acetate ) based lpas for shrinkage control. lpa was effective for shrinkage compensation in this range, on the other hand, lpa only acted as filler and the low profile effect vanished out of this range, however, for polystyrene based lpa, the more concentration the better shrinkage control
在膨脹研究中,發現適當的溫度條件更有利於upr達到好的收縮控制效果;不同類型的lpa隨著偶極矩、玻璃化溫度、與upr的相容性、與upr的混合形態的不同,表現出不同的收縮控制效果;聚醋酸乙烯酯類的lpa - a存在一個最佳收縮控制的濃度范圍,在這個范圍之內, lpa起到補償收縮的作用;而在這個范圍之外, lpa的作用僅相當于填料,不能起到收縮控制。 -
An approach of two point temperature correction parameter compensation is presented in this paper, it can compensate the parameter accuracy according to the real - time signal dynamic range, the parameter can be modified near to its theoretical value
文中探索了一種二次參數補償的兩點溫度定標方案,由基本公式得到的校準參數值,再依據現實信號動態范圍進行實時精度補償,使之更加接近於理論計算值,從而使非均勻性校準的系數精度得到較大幅度提高。 -
Measuring ranges broad : min range 0. 5 kpa, max range 700 kpa anti - interference ability strong, output signal stable structural ingenuity, easy to install and use high - precision, high reliability precise temperature compensation high ratio of performance price
測量范圍寬:最小量程0 . 5kpa最大量程700kpa抗干擾能力強,輸出信號穩定結構精巧安裝使用方便高精度高可靠性精密溫度補償性能價格比高 -
This article emphatically discussed and analyzed following points : load command feed forward function can improve the rapid respond character of steam turbine generator ; lead of load command have advance control function on boiler main control and can highly improve the stability of main steam pressure ; the use of predict control and state space variable function can improve the quality of boiler steam temperature control effectively, control the steam temperature in the defined range and increase the boiler and turbine life and efficiency even if working state changed in a big range ; linear compensation can restrain the vibration of generator load in the condition of big loa d change
本文重點討論、分析提出負荷指令前饋作用可以提高汽輪發電機快速響應特性;負荷指令的導前功能對鍋爐主控有超前控製作用,能顯著提高主蒸汽壓力的穩定性;採用預測及狀態空間法能有效改進鍋爐蒸汽溫度控製品質,在大幅度工況變化下仍有效控制蒸汽溫度在額定范圍內,提高鍋爐、汽輪機壽命及其效率;汽輪發電機組的快速響應性與汽輪發電機組負荷振蕩問題間的平衡關系,採用線性補償可以有效抑制在負荷變化梯度較大情況下發電機負荷振蕩問題。 -
The hspice simulation result shows a temperature coefficient of 11 ppm / " c from - 40 ? to 100 ' c and output voltage variation of 1mv for supply voltage range from 8 v to 18 v. due to novel curvature compensation, the circuit structure of the proposed reference is simple and both chip area and power consumption are small
Hspice模擬結果顯示:該基準源在- 40 100的溫度變化范圍內,具有11ppm的低溫度系數;當電源電壓在8 18v變化時,輸出電壓變化量僅為1mv ;並且電路結構簡單,具有較小的晶元面積和功耗。 -
The results show : ( 1 ) the light compensation point and light saturation point of s1 s2 and s3 were in range of 12 ~ 27 mol / m2 s and 180 ~ 360 mol / m2 s, respectively, and they changed with the irradiance. ( 2 ) both light compensation point and light saturation point of s1 were higher than those of s2 and 83, and s1 showed greater capability against high irradiance than s2 and s3. ( 3 ) the optimal temperature of the three strains were 25, 35 and 30, respectively, and they had temporal effect. ( 4 ) respiratory rate rose as the temperature rising, and at about 40, it reached the peak
結果表明: ( 1 ) s _ 1 、 s _ 2 、 s _ 3的光補償點和光飽和點的變化范圍分別為12 27 mol m ~ 2 ? s和144 360 mol m ~ 2 ? s ,二者可隨光照環境的變化而變化,其中s _ 1的光補償點和光飽和點均高於s _ 2和s _ 3 ,且表現出強于其餘兩個藻種的抵禦強光輻射的能力; ( 2 )三個藻種的最適溫度分別為25 , 35 ,和30 ,具有時間效應; ( 3 )呼吸速率隨溫度的升高而升高,最大值出現在40附近;溫度低於25 , s _ 1的光合速率最高,呼吸速率最低,表現出很強的低溫適應性; ( 4 )螺旋藻的光合特性可隨光照環境的變化而變化,光強增強,可使螺旋藻的最適光照范圍增大,抵禦強輻射的能力增強; ( 5 )螺旋藻受到溫度脅迫時,其最適光照范圍變窄,對光強的敏感性增加。 -
Abstract : a bandgap voltage reference is presented with a piecewise - linear compensating circuit in order to reduce the temperature coefficient. the basic principle is to divide the whole operating temperature range into some sub - ranges. at different temperature sub - ranges the bandgap reference can be compensated by different linear functions. since the temperature sub - range is much narrower than the whole range, the compensation error can be reduced significantly. theoretically, the precision can be improved unlimitedly if the sub - ranges are narrow enough. in the given example, with only three temperature sub - ranges, the temperature coefficient of a conventional bandgap reference drops from 1. 5 10 - 5 / to 2 10 - 6 / over the - 40 to 120 temperature range
文摘:提出了一種採用分段線性補償的方法來實現高精度帶隙基準,其基本原理是將整個溫度區間分為若干個子區間,在不同子區間上採用不同線性補償函數達到最佳補償.由於溫度區間縮小,補償誤差也隨之減小,從而在整個工作溫度間上的補償誤差也縮小.理論上,只要溫度子區間取得足夠小,就可以達到任意精度.示例中將- 40 120的溫度區間僅分為三個子區間,平均溫度系數就從1 . 5 10 - 5 /減小到2 10 - 6 / -
Compensation temperature range : 10c - 30c
最小刻度值 -
Compensation temperature range : 10c - 30c calibration : zero calibration with water at 20
零點校準:用20c的蒸餾水在20c的環境中校準。 -
The program - controlled temperature compensation system practically eliminates temperature - related measurement errors in the range 0c to 50c
特別是控制溫度補償系統的程序能夠在0c到50c范圍內消除溫度造成的測量錯誤。
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