搜索资源列表
SD-HHT
- 对LabVIEW进行二次开发,对振动信号进行HHT时频分析-LabVIEW second development, vibration signals HHT time-frequency analysis
RLC-Series-resonance-characteristics
- 用实验方法测试RLC串联谐振电路的幅频特性曲线。当正弦交流信号的频率f改变时,电路的感抗、容抗随之而变.取电路电压U0作为响应,当输入电压Ui幅值维持不变时,在不同信号频率的激励下,测出U0之值,用LabVIEW程序完成频谱分析和滤波,变换等信号处理,即可测出RLC串联电路的谐振频率,-Amplitude-frequency characteristics experimentally tested RLC series resonant circuit curve. When changing
spansysy
- 任意信号的时频分析仪,包含傅里叶变换和功率谱图等分析。-Any time frequency analyzer based on LabVIEW
frequency-analysis
- 创建信号,时频域分析,FT单双边转换,实虚部。-frequency analysis
SOUND-COEETCTION
- 声发射/声音信号的采集,频域、时域、功率谱等的分析.请配合NI9223使用。- Acoustic emission/capture sound signal, frequency domain analysis, time domain, power spectrum, etc. Please cooperate NI9223 use.
Labwindows_CVI-Signal-Processing
- LabWindows_CVI作为一个用于建立自动测试系统的理想软件开发系统,提供了大量用于信号分析处理的函数,满足工程人员的需要。 信号产生实例工程“signal generation.prj”,LabWindows_CVI产生冲击信号、脉冲信号、斜坡信号、正旋信号、噪声信号、三角波信号等,在Graph控件中显示波形。 信号时域分析工程“timedomainanalysis.prj”,介绍了LabWindows_CVI信号的叠加、相关分析及卷积三种常用时域信号处理方式,将处理结果在Gra
aaa
- labvindows写的,能够对输入的音频信号进行时域和频域分析-Labvindows writing, able to input audio signal in time domain and frequency domain analysis
fft
- labview 的傅里叶变换源程序 对输入信号做傅里叶变换后,将输入信号从时域变换的频域中,从而在频域中对输入信号的各种特征进行分析,比如做滤波处理,调制信号等。-the Fourier Transformation Code Based On Labview
Joint-time-frequency-analysis
- 基于labview的chirp信号联合时频分析,2012版本以上-Joint time-frequency analysis of chirp signal based on labview
shengkacaiji
- 声卡采集与分析系统设计,包括利用笔记本电脑声卡实时采集、信号回放、内部信号、时域、频域分析,数据保存等-Sound acquisition and analysis system design, including the use of a laptop sound card real-time acquisition, signal playback, the internal signal, time domain, frequency domain analysis, data stora
demo_work
- 基于labview平台,以弹簧-质量-阻尼系统为基础,做出二阶虚拟仪器实验平台。包括二阶系统的时域,频域响应动态分析。实现单位阶跃信号输入弹簧-质量-阻尼系统后的动画演示。 -Labview based platform to spring- mass- damper system based on virtual instrument to make second order experimental platform. Time domain including second-frequ
yuhu8879
- 对LabVIEW进行二次开发,对振动信号进行HHT时频分析(The LabVIEW was developed two times, and the vibration signals were analyzed by HHT time frequency)
滚动轴承在线监测系统设计
- 从时域参数、频域、以及时频域对特征信号进行故障分析,能准确得出轴承的故障类型。