为实现高速磁浮列车位置和速度检测,提出一个检测方案。
To detect the location and speed of high-speed maglev (magnetically levitated) vehicles, a location and speed detecting scheme was proposed.
并设计了与检测速度无关的空域定位器来记录确信的位置和缺陷信号的宽度。
An airspace location unit which is not in relation to the testing velocity is also designed to record the exact position of the defect and the width of the defect signals.
提出了一种连续的分段式永磁直线同步电动机位置(功角)和速度的检测方法。
This paper presents a continuous method of measuring position (power Angle) and velocity of the mover of the sectional permanent magnet linear synchronous motor (SPMLSM).
由于管内无缆微型泳动机器人本身的特点,其位置和速度的非接触式在线定位检测一直是个难题。
Because of micro robots' own characteristics, on line non-contact location to wireless in-pipe micro swimming robot remains an unsolved problem.
为了满足这个要求,检测每个电机的速度和位置数据以及传送指令都需要大量复杂的数据信号线。
In order to satisfy this requirement, the complex signal lines are usually used to detect the speed and position of each motor and to command the desired speed and position.
在传统的电梯曳引系统中,通常采用高精度的位置和速度传感器来检测转子的位置和速度信息,增加了系统的成本,降低了系统的可靠性。
In conventional elevator controls, high accurate sensors of position and speed are used for this purpose. However these additional sensors increase the cost of system and decrease the reliability.
根据匹配滤波器输出峰值位置可以获得目标距离的估计,但运动目标径向速度造成的回波和样本失配将导致匹配滤波器检测性能下降。
But the mismatch between echo and replica caused by moving target's radial velocity will degrade the detecting performance of the matched filter.
位置和速度的检测采用高精度的旋转变压器和电机同轴相连,电流的检测采用霍尔电流传感器,具有很高的检测精度。
The high-precision resolver was connected to PMSM with the same shaft to detect the position and speed of PMSM, and Hall current sensor was adopted to detect current of PMSM.
在传统的运动控制系统中,通常采用光电编码器或旋转变压器来检测转子的位置和速度。
In conventional motion control systems, photoelectric encoders or rotary transformers are used for this purpose.
在传统的运动控制系统中,通常采用光电编码器或旋转变压器来检测转子的位置和速度。
In conventional motion control systems, optical encoders or electromagnetic resolvers are used for this purpose.
该方法首先采用DPCA技术消除杂波干扰、检测运动目标,然后用ati和MUSIC方法确定目标的位置和速度。
At first, DPCA is employed to suppress the clutter and detect the moving targets, then MUSIC and ATI are used to precisely estimate their number and calculate their positions and velocity.
理论分析和实验研究证明采用感应同步器跟踪型测角系统检测位置和速度信号是可行的,在仿真转台的研制中应用该系统是很成功的。
The theory analysis and experiment work proved the hybrid sensor method is correct. And the application of the tracking measuring angle system designed with the new method is …
理论分析和实验研究证明采用感应同步器跟踪型测角系统检测位置和速度信号是可行的,在仿真转台的研制中应用该系统是很成功的。
The theory analysis and experiment work proved the hybrid sensor method is correct. And the application of the tracking measuring angle system designed with the new method is …
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