搜索资源列表
DSP12程序完整版(去直流 两端扫频)
- DSP12程序完整版(去直流 两端扫频)-DSP12 version of the integrity of the process (to sweep both ends DC)
DDS扫频程序
- AVR单片机程序――DDS扫频程序.rar
扫频波生成程序
- 生成正弦扫频波,自写程序fortran。vf 6.6平台
一种新型数字扫频仪的原理与研制
- 利用Cygnal公司的C8051f060单片机及DDS频率合成器AD9852构成扫频仪。
FM_chirp.rar
- 最近作的AD9852的FM扫频模式,自动计算频率,采用单片机的总线访问方式,非常方便,你要做 的就是填数,Recently, the AD9852 for the FM sweep mode, automatic calculation of the frequency of the use of single-chip bus access method, a very convenient, you have to do is fill in a few
saopinyi
- LabVIEW设计的扫频仪代码,需要用LabVIEW打开-LabVIEW Design Scanner code needed to open LabVIEW
AD9851信号发生器,带扫频
- AD9851信号发生器,带扫频,DDS信号源
Elevator
- 实现扫频率的功能,调试成功,能够很准确的扫描频率,欢迎大家使用-To achieve the function of the frequency sweep, debugging success, can be very accurate scanning frequency, welcome to use
58
- 能用单片机控制DDS芯片实现对输出信号频率/相位的调节,并具有调频、点频、扫频等工作模式,并可以通过液晶显示 -DDS chip can be used to achieve single-chip control of the output signal frequency/phase adjustment, and has FM, point frequency sweep mode, etc., and can be liquid crystal display
VGA_move
- 单色扫频,vga接口程序,实现蓝红绿色的显示和运动-Sweep monochrome, vga interface program, the implementation of green blue red sports display and
DDS_scan_frequency
- 用MSP430实现的DDS扫频程序,区别于一般的dds产生程序-This process is used to product the dds signals.
005
- 扫频仪的方案设计,设计了一个多功能扫频仪,方案完美且易于实现,适合于电子设计大赛的同学作参考方案-Sweep instrument design, the design of a multi-sweep device, the program is easy to implement and perfect for the Electronic Design Competition for reference program students
transmitterandreceiverissame
- 讨论了变换域通信系统中收发端一致时的系统性能,包括AWGN信道及单音,多音,窄带,扫频干扰-Discussed the transform domain communication system is identical to sending and receiving end system performance, including the AWGN channel and the tone, multi-tone, narrowband, swept-frequency interfere
dds_vhdl
- fpga VHDL语言,控制DDS产生频率可变的正弦波信号扫频-FPGA VHDL DDS
9850
- 参加电子设计大赛时自己写的用AD9850实现扫频功能得c语言模块-To participate in Electronic Design Contest, when written with the AD9850 to achieve its own sweep functions were c language modules
Sine-wave
- 单一频率的正弦相关法动态测试系统的测试方法简单,不需要对系统进行辨识。只需要观察被测系统输出信号的相差和幅值变化。通过扫频的方法测量在不同的频率点下的幅值和相位变化。在工程应用中,只需要知道被测系统的相位变化在正常的范围内就可以视系统的动态性能正常。该仿真算法只是建立了一个模型。在实际运用时还需要变换测试信号的频率和周期。-A single frequency sinusoidal correlation method of testing dynamic testing system is s
音频扫频
- 主要是用来生成线性正弦扫频信号,大家可以参考看看(Generating linear sine sweep signal)
音频范围扫频仪
- 本设计基于TMS320F28234 DSP芯片,制作了一台音频范围数字扫频仪。系统由DSP核心、硬件调理电路和PC机交互界面三部分组成。(This design is based on TMS320F28234 DSP chip, making an audio range digital sweep frequency instrument. The system consists of three parts: DSP core, hardware conditioning circuit
扫频音频文件 50~6000HZ
- 音频扫频MP3文件,50~10K赫兹,使用GOLDWAVE软件合成波形文件并转换为MP3文件格式(Audio frequency sweep MP3 file, 50~10K Hertz, use GOLDWAVE software to synthesize waveform file and convert it to MP3 file format)
扫频法求开环传递函数
- 将扫频得到的数据进行处理,可以得到系统的开环传递函数(The open-loop transfer function of the system can be obtained by processing the data obtained by scanning frequency)