1) offset error adjustment
偏心误差调整
2) eccentric error
偏心误差
1.
In general condition,it should be allowed that eccentric error is larger than ±10% of average air-gap,but over-large eccentric value can produce very much unbalanced magnetic pull,and then increase the deflection of motor shaft,thus critical speed is influenced.
在一般情况下,气隙偏心误差不超过气隙平均值的上下10%是允许的,但过大的偏心值会产生很大的单边磁拉力,导致电机转轴挠度的增加,进而影响电机的临界转速,但许多电机设计人员在计算电机转轴的挠度时,往往忽略单边磁拉力对于挠度的影响,为此,介绍了单边磁拉力产生的原因及对电机转轴挠度影响的计算过程。
4) error adjustment
误差调整
1.
Optimization method of error adjustment of cable stayed bridgein finished state;
斜拉桥成桥后误差调整的优化方法
2.
Analysis of error adjustment for cable-stayed bridges in finished state via aggregate function approach
凝聚函数法求解斜拉桥成桥后误差调整问题研究
3.
The method of linear error adjustment for long-span continuous rigid frame bridge is discussed in the paper.
采用灰色系统预测方法,结合大跨预应力混凝土连续刚构桥的悬臂施工实践,探讨了连续刚构桥施工中线形误差调整方法,取得了较好的效果。
5) error adjusting
误差调整
1.
Most light of photosource is transmited to the Pockels-cell s input end through the optical fiber delay line,and the rest is transmitted to the error adjusting circuit to make the ends voltage of Pockels-cell change along with the variety of optical power,finally Pockels-cell outputs the stable nanosecond laser pulse along with broad dynamic range.
该技术通过使脉冲光源的多数光经过光纤延迟线接到电光调制器的输入端,小部分光通过误差调整电路,使电光调制器两端的电压随前端光功率的大小而适当调节,最终实现较大动态范围的纳秒激光脉冲稳幅输出。
2.
The leavings is simultaneously converted to the error adjusting circuit to make the ends voltage of Pockels-cell change with the variety of optical power.
脉冲光源经过光分路器后,一大部分光经过适当长度的光纤延迟线接到普克尔盒光输入端,而小部分光通过误差调整电路,使普克尔盒两端的电压能够随前端光功率的大小而适当调节,最终输出稳定光源。
补充资料:在AutoCAD中偏心圆锥与偏心圆台实体的画法
现在要画一个偏心圆锥,底面在WCS的XY平面上,圆心(0,0,0),半径100,顶点(300,0,400)在ZX平面上.
1)连接PA,PB. A(-100,0,0) B(100,0,0)
图1
在当前坐标下:
2)延长PA到C,使PA=CA;延长PB到D,使PB=DB;
3)连接CD;
4)以CD为直径画圆;
5)用XLINE命令中的二等分选项作角CPD的角平分线PO,交CD于O;
6)过O作CD的垂线,交圆于E,F;
图2
7)用三点UCS命令,取三点为:O,P,C;
8)过点O作PO的垂线GO,交PC于G;
图3
9)再次用三点UCS命令,取三点为O,F,G;
10)现在就可以画椭圆锥了!
cone-e-c-捕捉O点-捕捉F点-捕捉G点-a-捕捉P点;
图4
11)回到WCS,剖切椭圆锥
SL-选择椭圆锥-回车-XY-回车-捕捉P点.
12)删除辅助线条.
图5
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