There is no current through the galvanometer.
没有电流通过电流计。
There is no current through the galvanometer .
没有电流通过电流计。
High speed scanning galvanometer, fine marking, stable and reliable.
高速扫描振镜,打标精细、稳定可靠。
The galvanometer can be rotated 90 degrees on request to mark from the sideways.
振镜可根据需要旋转90度,对侧面进行打标。
The temperature change is displayed by the deflection degree of cursor of galvanometer.
通过灵敏电流计光标的偏转角度显示温度的变化。
Dual galvanometer scanning is a working of high accuracy, high speed, reliable movement.
双振镜扫描运动是一种精确度高、速度快、运行稳定的工作方式。
Psychologists wired men and women up to a machine called a "psycho-galvanometer" for tests.
心理学家将参加实验的男女分别系在一台名为“心理检流计”的机器上。
Finally, according to the servo model, the galvanometer scanner servo circuit is designed.
最后,根据伺服系统的理论模型,设计了振镜扫描器伺服驱动电路。
What causes the galvanometer to move? What situation makes the galvanometer deflect the most?
是什么原因引起灵敏电流计的指针发生偏转?什么情况下它偏转的角度最大?
Galvanometer: Instrument for measuring small electric currents by deflection of a moving coil.
电流计:根据可动线圈的偏转量来测量微弱电流或电流函数的仪器。
The static magnetization curves and hysteresis loops were measured by the ballistic galvanometer.
用冲击检流计法测量了合金的静态磁化曲线和磁滞回线。
The horizontal line's counter is also activated by this signal to control galvanometer up and down.
此脉冲信号还是行计数器的触发信号,间接地控制振镜场扫的正程和逆程。
The measuring principle and method of higher resistance with the sensitive galvanometer are introduced.
介绍用灵敏电流计测量高电阻的原理和方法;
The working principle and the fabricating method of the light-pointer teaching galvanometer are introduced.
介绍了光针式教学灵敏电流计的工作原理和制作方法。
To detect engrams, Hubbard adopted a battery-powered galvanometer with a needle dial wired to two empty tin cans.
为了探测记忆印痕,哈伯德采用了一种电池驱动的电流计,它有一个指针可调节,连接着两个空罐头盒。
The galvanometer is placed on a leaf off the plant, and it records any changes in the electrical field of the leaf.
把检流检置于已从植物上脱落的叶片上,它就可以记录叶片的电场中的任何电荷。
Galvanometer-based laser marking system is a mainstream product of laser marking system. Its core is the control system.
振镜式激光标记机是激光标记系统中的主流产品,它的核心是其控制系统。
My study has a good role and application prospects in increasing the design level of domestic galvanometer-based marking system.
本研究对于提高国内振镜标记系统设计水平有很好的促进作用和应用前景。
Commonly used has the galvanometer, the amperemeter, a volt idea, the electric bridge, the potential difference counts and so on.
常用的有电流表,电流表,电压的概念,电桥,电位差计数等。
This paper presents a method for reducing detecting error of the internal resistance of sensitive galvanometer by analyzing its errors.
本文通过对测量灵敏电流计内阻实验误差的分析,给出一种有效的减小内阻测量误差的方法。
This kind of control equipment for the control of the two computers can move in the direction of Zang Y roacl or galvanometer scanning laser beam.
这种控制设备用两台计算机控制的可以在臧Y方向移动的镜子或检流计扫描激光光束。
This paper advances the new method measuring the internal resistance of sensitive galvanometer, namely, leading the damping appearance diagraph method.
文章提出了一种测量灵敏检流计内阻的新方法,即“过阻尼状态测量法”。
A bearing galvanometer is modified using a differential amplifier. It has the advantage of high sensitivity and is less likely to damage and able to be put upright.
用差动放大器对轴承式检流计进行改造,使之具有灵敏度高、不易损坏、可直立放置等优点。
Henry signalled his assistant to disconnect the coil. The galvanometer showed that once again a voltage had been produced, although this time in the opposite direction.
亨利示意他的助手将线圈断开连接,此时,电流计上又一次指示出一个电压,但这次的电压是反向的。
According to the principle of focusing error for two dimensions laser galvanometer scanning, a dynamic focusing optical model for correcting this error was put forward.
针对二维振镜存在的聚焦误差问题,根据产生聚焦误差的原理,采用动态聚焦技术补偿聚焦误差。
This paper, based on theoretical deduction and numerical analysis, discusses the relationship between sensitivity of Wheatstone bridge and internal resistance of galvanometer.
本文是从理论推导和数值分析两方面讨论惠斯通电桥灵敏度与检流计内阻值的关系。
Marking speed and accuracy is the most important indicators of galvanometer-based marking systems. Graphics and images are the most important content of laser marking systems.
标记速度和标记精度是振镜式激光标记系统最重要的指标,图形和图像则是激光标记系统最重要的标记内容。
Marking speed and accuracy is the most important indicators of galvanometer-based marking systems. Graphics and images are the most important content of laser marking systems.
标记速度和标记精度是振镜式激光标记系统最重要的指标,图形和图像则是激光标记系统最重要的标记内容。
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