确定了最佳磁化强度时的激励电流。
The excitation current which bring about the optimum magnetic…
背景场加强了激励电流的磁化强度。
An ambient field AIDS the magnetization from the exciting current.
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。
The optimum design was realized associated with the relationship among coil turns, exciting current and electromagnetic attraction force.
在平均功率不变的情况下,可以通过减小激励电流的占空比来增加最大探测距离。
The maximal detection range increases with the reducing duty ratio of the drive current when the transmitted average power is constant.
在不同激励电流下,用Hall探极磁场计(ct5)分别测量了沿轴磁场分布。
The field distribution along the axis can be measured by using HALL magnetometer (CT5).
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。
The exciting current control circuit also can modulate frequency and modulate amplitude for the pulsed current.
结果表明:铁磁材料的非线性因素导致激励电流密度与二次穿透区的位置直接相关联。
The conclusion shows that the nonlinear factor of electromagnetic material results in the density of stimulated current to be related to the position of the remote field.
通过分析生物阻抗测量系统的需求,设计了一种应用于生物阻抗测量的混频激励电流源。
A mixing frequency excitation current source is designed according to the analysis of requirements of the bioelectric impedance measuring system.
降低磁通门剩磁误差的有效方法是增大激励电流的峰值,但大的激励电流峰值将增大功耗。
An effective method for low perming error of fluxgates is to enlarge the peak value of the excitation current, but large amplitude excitation will increase the power consumption.
当激励电流提高到20A时,气孔数量急剧减少,焊缝晶粒细小均匀,颗粒状增强相弥散分布;
When the excitation current increases to 20A, the number of pores sharply decreases, the grains are fine and uniform, and the particle reinforced phases are uniformly distributed in the weld.
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。
The rule of magnetic induction density, induced eddy current and electromagnetic force varied with high frequency sine exciting current was investigated.
闭锁继电器采用了一个电流脉冲进行激励,因此其热电漂移非常小。
Latching relays use a pulse of current to actuate them, so they have very low thermoelectric drift.
在规定的“保压”周期后,激励通道21,测量产生的电流。
After a specified "soak" period, energize Ch. 21 to measure the resulting current.
继电器驱动电流激励继电器所需的电流总量。通常以每通道给出。
Relay Drive Current. The amount of current necessary to energize a relay. Usually specified per channel.
同时利用CMOS多谐振荡电路产生窄脉冲电流序列对前面处理过的非晶带进行激励,制作成灵敏度高、稳定性好、功耗低的弱磁场传感器。
A sensitive, stable and low power consumption magnetic sensor is constructed using a CMOS multivibrator circuit, in which a sharp pulse train current is applied to the treated amorphous ribbon.
静电计欧姆计的电流激励(IR)流过未知电阻(RS),然后测量dut上的电压(VM)。
Here, an electrometer ohmmeter is forcing a current (IR) through the unknown resistance (RS) and then measuring the voltage (VM) across the DUT.
电流激励时的动作特性。
激励源既可以为电压源又可以为电流源。
The exciting source can be both voltage source or current source.
得到了这种材料磁聚焦参数随器件长度和激励磁场(电流)变化的实验结果。
Experimental results of dependences of the concentration parameter on device length and excited field (current) were obtained, respectively.
最后计算用沃尔什电流加权激励的天线阶的方向性。
The directivity of in array excited by weighted Walsh current has also been calculated.
介绍了一种电流激励神经信号再生电路,该电路由探测电路和激励电路组成。
A current stimulation neural signal regeneration IC which consists of a detecting circuit and a stimulating circuit is presented.
本论文从ERT技术的原理性研究出发,针对该技术中电极结构设计进行了分析与优化,并对单电极电流激励模式做了深入的研究和优化。
In this paper, the electrode structure and single electrode current exciting mode are deeply analyzed and optimized by the fundamental study of ERT technology.
电缆内芯激励起的瞬态电流和电压响应可能会降低电子器件和电路的性能,甚至会完全毁害敏感的电子设备。
The transient induct current and voltage through the inner core can reduce the performance of electronic devices and circuits, and even completely destroy the sensitive electronic equipments.
然后,采用相量法求解出正弦电压激励下各并联支路的电流;
Then, the current of the paralleled branch coils excited by sine voltage is obtained by way of phasor.
永磁体产生的磁场是气隙磁场的主要部分,另一部分是由辅助励磁绕组的电流来激励产生,起调节磁场的作用。
The flux due to permanent magnet is the main part of gap flux, the rest flux is produced by the winding coil, which play a part of regulation.
前言:目的:探讨脉冲电流激励模式下测量生物电阻抗的原理及其实现。
AIM: To study the mechanism and implementation of current pulse exciting impedance measurement of bio tissues.
最后激励级的跨导放大器将电压线性的转化为电流。
Finally, the transconductance amplifier of the stimulating circuit linearly translates the voltage signal into cu.
试验研究了激励频率、比例阀输入电压及磁流变减振器输入电流对座椅振动特性的影响规律。
The effects of actuating frequency, proportional valve input voltage and MR damper input current on the vibration characteristics of seat were experimentally studied.
试验研究了激励频率、比例阀输入电压及磁流变减振器输入电流对座椅振动特性的影响规律。
The effects of actuating frequency, proportional valve input voltage and MR damper input current on the vibration characteristics of seat were experimentally studied.
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