1.
Frequency sampling-based method to design UWB pulse shapes
基于频率采样的超宽带脉冲信号设计方法
2.
A Method to Speed up Sampling Frequeny of AC6611 Multifunction Card
提高AC6611多功能卡采样频率的一种方法
3.
Research and Realization of a Method to Measure Frequency for High Frequency Signal Dependent on Low Sample Rate
低采样率下高频信号的测频方法的研究与实现
4.
Choice of Signal IF and Sampling Frequency in Software Radio
软件无线电中信号中频与采样频率选择
5.
Design of an 8-Channel Audio Sampling Rate Converter and Its ASIC Implementation
8通道音频采样频率转换器设计与ASIC实现
6.
On the Treatment of Data Acquisition Sampling Frequency in Fiber Optic Sensor Controlling;
光纤传感控制中数据采集采样频率处理分析
7.
Sampling frequency and time constant of phase-locked amplifier were increased by using microcomputer.
采用计算机采样,提高了采样频率和锁相放大器的时间常数。
8.
Adaptive Sampling Frequency Method to Reduce Target-Losing Rate of WSN
降低WSN目标失跟率的自适应采样频率方法
9.
Influence of sampling frequency and sample size on turbulence statistics in open-channel flow measurements
采样频率及样本容量对明渠紊流统计值的影响
10.
The left ventricular pressure , femoral arterial blood pressure and the ECG wave form are digitized at a sampling rate of 500 Hz by a 12 bit A/D converter.
籄/D转换器将LVP、BP、ECG信号数字化,采样频率为500Hz.
11.
Methods of Signal Frequency Measurement and Implementation Based on Nonuniform Sampling;
基于非均匀采样的信号频率检测方法及其实现
12.
A 12bit 40MHz Pipeline Converter;
12位40兆采样频率流水线结构模数转换器
13.
An Algorithm for Improving Spectra Resolution of Irregular Sampling Signals
一种改进不规则采样信号频谱分辨率的算法
14.
Implementation of Sampling Rate Conversion for Wideband Digital Down Conversion Based on FPGA
宽带数字下变频的采样率变换模块的FPGA实现
15.
Trapping stiffness measurement with brownian motion analysis method at low sampling frequency
低频响及低采样频率下用布朗运动分析法测量光阱刚度
16.
The Relationship between Sampling Length & Time Gap as well as Frequency during the Fault Signal Collection;
故障信号采集中的采样长度、时间间隔和频率的关系
17.
Resampling Rate(frame/sec)
重采样速率(帧/秒)
18.
In the pre-procession of front radio frequency, the super-heterodyne technology which get proper A/ D sampling rate through choosing a proper frequency and bandwidth is adopted.
射频前端预处理采用成熟的超外差技术,选择合适的中频和带宽,得到合适的A/采样速率。