1) magnetic compensation
磁补偿
1.
The magnetic survey quality relies on precision of the magnetic compensation, even if the modern magnetometer sensitivity is high, without good magnetic compensation measure, its magnetic survey quality will not have the distinct enhancement, as a result, magnetometer\'s performance cannot display fully.
补偿系数的求解是进行磁补偿最重要的工作和目标。
2.
Hall sensor based on magnetic compensation makes good use of the advantages of transformer,magnetic amplifier,Hall element and electronic circuit and is served as a closed-loop and self-controlled detecting system,which could accomplish the functions of detection,feedback and protection.
用磁补偿原理制作的磁补偿霍尔传感器是把互感器、磁放大器、霍尔元件和电子线路的优点集中在一起,构成一个具有测量、反馈、保护三种功能的闭环自控检测系统的传感器。
2) magnetizing component compensation
励磁补偿
3) magnetic flux compensation
磁通补偿
1.
A novel shunt hybrid active power filter based on magnetic flux compensation;
一种新型的基于磁通补偿的并联混合型有源电力滤波器
2.
Shunt hybrid active power filter based on magnetic flux compensation;
基于磁通补偿的并联混合型有源电力滤波器
3.
A novel single-phase parallel active power filter based on the harmonic magnetic flux compensation theory is proposed.
提出一种基于谐波磁通补偿原理的单相并联型有源电力滤波器。
4) hysteresis compensation
磁滞补偿
1.
The hysteresis compensation method is studied.
研究了磁滞补偿控制的方法,建立了基于Jiles-Atherton模型的磁滞补偿控制系统。
5) electromagnetic compensation
电磁补偿
1.
This paper describes the principle,performance and purpose-designed circuits of a gyroscope inclinometer with electromagnetic compensation and flexible supporting structure.
介绍了双转子电磁补偿挠性支承陀螺测斜仪的原理和特点,研究了其专用硬件电路及误差补偿技术。
2.
The paper designed a gyro inclinometer with two-rotor structure used in oil-well’s exploitation and geologic drilling,and put forward a flexible-supporting scheme with electromagnetic compensation,which increased the stability of the gyroscope and ensured the high precision in measurement.
设计了一种结构新颖的双转子结构,提出一种电磁补偿挠性支承方案,从而大大提高了陀螺仪的稳定性,保证了测斜仪的高精度测量。
6) flux compensation
磁链补偿
补充资料:磁补偿材料
磁补偿材料
magnetic compensation materials
引匕IJc目ang col!旧。磁补偿材料(magnetieeotnpensationma-terials)补偿因温度变化而引起的磁路磁通变化的材料。含有永久磁铁的磁路,气隙磁通常随温度而变化,精密仪表需进行温度补偿,即磁补偿。常用的磁补偿合金有Ni一Fe,Ni一Cu和Ni一Fe一Cr等。仪表的使用温度一般为室温左右。磁补偿材料的居里温度就在室温附近。因此,当温度升高时,鱼是经尧五降‘为了得到良好的补偿,应选用磁导率与温度成线性关系的区域。不同的磁补偿合金有不同的线性区,分别适用于不同的温度范围。例如在20一80’C范围内选用31:69的Ni一Fe合金,在一20一40℃范围内选用30:70的Ni一Fe合金。在o~一40℃范围内选用掺Cr的Ni一Fe合金。当Ni、Fe、C:的比例为31:61:8时,在上述磁导率与温度成线性关系的温度范围内使用,该磁补偿合金的磁导率基本上随温度升高而线性地下降,可以用来设计出良好的磁补偿分路。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条