1·An ambient field AIDS the magnetization from the exciting current.
背景场加强了激励电流的磁化强度。
2·The exciting current control circuit also can modulate frequency and modulate amplitude for the pulsed current.
激励电流控制电路产生激励线圈的脉冲电流,并对脉冲电流进行调频和调幅控制。
3·Benefiting from the absence of the exciting current and the excitation loss, the efficiency and the power density have increased.
又因无需励磁电流,省去了励磁损耗,提高了电机的效率和功率密度。
4·The optimum design was realized associated with the relationship among coil turns, exciting current and electromagnetic attraction force.
结合线圈圈数、激励电流与电磁吸力之间的关系,完成了电磁系统的优化设计。
5·Utilizing the linearity peculiarity of the exciting current of magnetic powder brake and brake moment, the closed loop control system is designed.
利用磁粉制动器的励磁电流与制动力矩成线性关系这一特性,设计了闭环张力控制系统。
6·The harmonic comes from power system side, which is caused mainly by exciting current of the large capacity transformer besides the nonlinear loads.
认为谐波源来自系统侧,除了非线性负荷外,主要是由大型电力变压器激磁电流所造成。
7·In this paper, a hardware system based on DSP is designed to measure the exciting current of rotating rectifier under the normal or faulty conditions.
本文设计了一个DSP系统解决了旋转整流器正常及故障下励磁电流测量问题, 实现了整流二极管故障下报警,故障显示以及严重情况下切机功能。
8·The rule of magnetic induction density, induced eddy current and electromagnetic force varied with high frequency sine exciting current was investigated.
利用瞬态分析方法,研究高频正弦激励电流密度在结晶器内钢液中产生的磁感应强度、感应电流及电磁力的变化规律。
9·The indirect temperature measurement algorithm based on exciting current for generator rotor has been researched, and relative factors and physical equations are analyzed.
研究了基于励磁电流的发电机转子温度间接测量算法,分析了相关因素及其物理方程。
10·The control way of system has 3-patterns: exciting regulator of constant terminal voltage, constant exciting current regulator and exciting regulator of constant power factor.
控制方式具有恒机端电压励磁调节、恒励磁电流调节、恒功率因数励磁三种。