这些功能的实现是通过系统中电控部分的电源、时钟、存储、超声波脉冲信号发生、处理、温度采集、串行通信电路实现的。
These functions are realized by the circuits of power, clock, memory, ultrasonic pulse signal occurs and handle, temperature gathered and serial communication in system.
串行计数器亦叫脉冲型计数器。
该方法首先采用串行方式,对含有脉冲噪声的图像进行逐点检测,其中判断噪声点的阈值可自适应地调整。
It first detects impulse noises in an image in a serial mode, and the threshold, which is used to estimate noise pixel, can be modified adaptively.
其设计思想先进,比通常采用串行编码方式传送脉冲的方法可靠性好、准确度高,且线路简单、容易维护。
Compared with usual method adapting the pulse transmission of serial coded mode, it is more reliable and more accurate, the circuit design is simple and easy to be repaired.
探讨了PC的串行接口用于光电编码器的脉冲计数和伺服电机控制两种非通信功能的应用。
The COM of IBM-PC applications for the counter of Opt-encoder pulse and the controller of AC -Servo are study in this paper.
脉冲发生器串行地输出表示数字字的数字的脉冲,首先是最低有效数字。
The pulse generator serially outputs pulses representing digits of a digital word least significant digit first.
为解决探地雷达用于隧道地质超前预报时探测距离小的问题,在分析了雪崩三极管工作原理的基础上,设计了基于两级雪崩三极管串行级联的窄脉冲产生电路。
The status in quo of Impulse Ground Penetrating Radar and the general principle of Avalanche Transistor are discussed then a new method for Avalanche simulation is given in this thesis.
为解决探地雷达用于隧道地质超前预报时探测距离小的问题,在分析了雪崩三极管工作原理的基础上,设计了基于两级雪崩三极管串行级联的窄脉冲产生电路。
The status in quo of Impulse Ground Penetrating Radar and the general principle of Avalanche Transistor are discussed then a new method for Avalanche simulation is given in this thesis.
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