To maintain outstanding accuracy, even when monitoring motor and solenoid current, the LT1999 guarantees more than 80db of common-mode rejection at 100khz.
为了在监视电动机和螺线管电流时也能获得卓越的准确度,LT1999在100khz时保证具有超过80db的共模抑制。
By varying the current to either solenoid, the amount of spool movement can be varied and hence the amount of flow through the valve can be controlled.
通过改变两个之一电磁铁的电流,阀芯移动的位移能够被改变,因此控制了通过阀的流量。
As described earlier, the electrical current to the solenoid of a proportional valve needs to be regulated and not just simply switched on or off as is the case with a conventional valve.
作为简单描述,提供给比例阀电磁铁的电流需要被调节,不象应用常规阀的时仅有开关通或断那样简单。
The driving circuit of high-speed solenoid decide the current trait through which the exterior energy pass the loop of solenoid.
高速电磁阀的驱动电路决定着外部能量通过电磁阀线圈的电流特性。
Check the solenoid valve products with a variety of refrigerator current value, high flow and low flow, in order to determine the product 's fine.
说明:检查多种冰箱用电磁阀门产品的电流值,高压流量及低压流量,以便判断产品的优良。
The ECU accomplishes the fast energizing of the solenoid valve by driving circuit with high frequency PWM, and detects the start of injection by the differential signal of driving current.
采用高频脉宽调制功率驱动电路进行电磁阀的高速强力驱动,并利用电流微分信号有效反馈了控制阀关闭始点。
Increasing the input signal to the amplifier results in a corresponding increase in output current to the valve solenoid.
增加放大器地输入信号会导致输出到阀电磁铁的电流相应的增加。
Normally, the current flowing through the proportional solenoid will be controlled by some form of electronic amplifier.
一般地,通过比例阀电磁铁地电流由一些形式地电子放大器控制。
One superconducting device current lead of the invention is made of copper bar material with insulating layer covered on its surface, and the copper bar material is formed solenoid.
本发明的一种超导装置电流引线,由表面覆盖绝缘层的铜棒材组成,所述铜棒材构成螺线管。
The practice shows that this detection power supply satisfies the requirement of resisting large current shock caused by the inductive load of the solenoid.
实践表明该检测电源完全满足电磁阀感性负载可能产生大冲击电流的需求。
In this way, mechanical movement of the solenoid valve is operated through controlling electric current of the electromagnets.
这样通过控制电磁铁的电流就控制了电磁阀的机械运动。
This paper discusses the magnetic field on the axis in a current-carrying sparse winding solenoid with limited length.
讨论了有限长载流疏绕螺线管内轴线上的磁场,并与载流密绕螺线管内轴线上的磁场作了比较。
Increasing the coil current will increase the solenoid force and hence move the spool a greater amount against the spring.
增大线圈电流将加大电磁的力,因此推动阀芯压缩弹簧产生一个更大的位移。
Because of complexity the magnetic field distribution of a current-carrying solenoid of finite length has never been derived.
由于问题本身的复杂性,有限长载流螺线管的磁场分布至今未能进行计算。
The shape of the bar copper segment of the current lead is transformed from the straight bar type to solenoid type to saving the space that means fully increasing the heat passage in the limit space.
将电流引线的铜棒段由直棒型改为螺线管型,以节省空间,在有限的空间里面,尽量增长传热路径。
The shape of the bar copper segment of the current lead is transformed from the straight bar type to solenoid type to saving the space that means fully increasing the heat passage in the limit space.
将电流引线的铜棒段由直棒型改为螺线管型,以节省空间,在有限的空间里面,尽量增长传热路径。
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