Computer Numerical Control (CNC) system of auto combined switch durability tester is introduced in this paper.
介绍一种汽车组合开关耐久性试验台的计算机数控(CNC)系统。
Switched on for 10 seconds at switch on or when any key on numerical pad pressed.
开关就为10秒,在开关上或当上任何键,数值垫压。
A one-dimensional numerical model for analyzing helium discharging of electro-optic switch driven by single-pulse process is proposed based on its microscopic physical mechanism.
根据单脉冲过程电光开关气体放电的微观物理过程,提出了氦气放电的一维数值模型。
Through choosing the dead band time of amortize capacitor and numerical value, can realize soft switch in all operation pattern.
通过选择缓冲电容器的死区时间和数值,便能够在所有运行模式中实现软开关。
The ID and 2d numerical calculations were carried out to simulate the detonation impact and deformation process in the switch.
对于开关的爆轰,撞击及变形过程进行了一维和二维数值模拟计算,并提出了一个描述爆炸开关行为的经验模型。
This variable speed switch reluctance motor drive can change the forming equipment to be simple in structure, reliable in working, and content in numerical control.
证明开关磁阻调速可使成形设备结构简单,运行可靠,满足数字化控制的需求。
The numerical results indicate that the contact stress and strain, and the residual stress and strain increase as either of the switch gap, switch contact force, or electric current loads increase.
分析结果显示,在本文分析之范围内,微继电器开关之接触弯曲应力、应变以及残留应力、应变均会随著开关间隙、接触力以及电流负载之增加而增加。
The numerical results indicate that the contact stress and strain, and the residual stress and strain increase as either of the switch gap, switch contact force, or electric current loads increase.
分析结果显示,在本文分析之范围内,微继电器开关之接触弯曲应力、应变以及残留应力、应变均会随著开关间隙、接触力以及电流负载之增加而增加。
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