By means of analyzing the frequency spectrum characteristics of domestic frequency- shift track signal we propose a technical improvement solution to it based on the orthogonal theory and demodulation technology in mo...By means of analyzing the frequency spectrum characteristics of domestic frequency- shift track signal we propose a technical improvement solution to it based on the orthogonal theory and demodulation technology in modern digital signal processing to guaranteed the solution accomplishes the optimized reception at the receiver, thereby enhance system reliability and quality. At same time we simulated this solution with MATLAB, and implemented it on the vc33 experimental platform of floating- point Digital Signal Processing (DSP).展开更多
This paper proposes the design and development of a novel, portable and low-cost intelligent electronic device (IED) for real-time monitoring of high frequency phenomena in CENELEC PLC band. A high speed floating-poin...This paper proposes the design and development of a novel, portable and low-cost intelligent electronic device (IED) for real-time monitoring of high frequency phenomena in CENELEC PLC band. A high speed floating-point digital signal processor (DSP) along with 4 MSPS analog-to-digital converter (ADC) is used to develop the intelligent electronic device. An optimized algorithm to process the analog signal in real-time and to extract the meaningful result using signal processing techniques has been implemented on the device. A laboratory environment has setup with all the necessary equipment including the development of the load model to evaluate the performance of the IED. Smart meter and concentrator is also connected to the low voltage (LV) network to monitor the PLC communication using the IED. The device has been tested in the laboratory and it has produced very promising results for time domain as well as frequency domain analysis. Those results imply that the IED is fully capable of monitoring high frequency disturbances in CENELEC PLC band.展开更多
This letter studies and analyzes the working features of main circuit of tri-level boost Power Factor Correct(PFC) converter and the advantages of tri-level switch converter in aspects of bearing high-voltage of power...This letter studies and analyzes the working features of main circuit of tri-level boost Power Factor Correct(PFC) converter and the advantages of tri-level switch converter in aspects of bearing high-voltage of power components,overall system loss and magnetic component selection based upon the single-level boost PFC switch converter.Besides,relying on the application of mi-croprocessor in power converter technology and DSP(Digital Signal Processing) chip's strong cal-culating capacity,the letter presents the adoption of modified scheme of tri-level boost PFC converter under the control of predictive control algorithm.Moreover,the operating principle and control method are specified,the results of circuit test and analysis are provided and the advantages of pre-dictive control technology-based multi-level boost PFC converter is verified.展开更多
Optical spectral measurements are crucial for optical sensors and many other applications,but the prevailing methods,such as optical spectrum analysis and tunable laser spectroscopy,often have to make compromises amon...Optical spectral measurements are crucial for optical sensors and many other applications,but the prevailing methods,such as optical spectrum analysis and tunable laser spectroscopy,often have to make compromises among resolution,speed,and accuracy.Optical frequency combs are widely used for metrology of discrete atomic and molecular spectral lines.However,they are usually generated by optical methods and have large comb spacing,which limits the resolution for direct sampling of continuous spectra.To overcome these problems,this paper presents an original method to digitally generate an ultrafine optical frequency comb(UFOFC)as the frequency ruler for spectral measurements.Each comb line provides one sampling point,and the full spectrum can be captured at the same time using coherent detection.For an experimental demonstration,we adopted the inverse fast Fourier transform to generate a UFOFC with a comb spacing of 1.46 MHz over a 10-GHz range and demonstrated its functions using a Mach–Zehnder refractive index sensor.The UFOFC obtains a spectral resolution of 0.01 pm and response time of 0.7 μs;both represent 100-fold improvements over the state of the art and could be further enhanced by several orders of magnitude.The UFOFC presented here could facilitate new label-free sensor applications that require both high resolution and fast speed,such as measuring binding kinetics and single-molecule dynamics.展开更多
电子设备集成度的提高对于音频集成电路生产和测试等环节的要求越来越高,尤其是音频数模转换器(Digital to Analog Converter,DAC),本质上为数模混合信号电路,采用数模混合信号自动化测试设备(Automatic Test Equipment,ATE)价格昂贵,...电子设备集成度的提高对于音频集成电路生产和测试等环节的要求越来越高,尤其是音频数模转换器(Digital to Analog Converter,DAC),本质上为数模混合信号电路,采用数模混合信号自动化测试设备(Automatic Test Equipment,ATE)价格昂贵,而采用传统自动测试仪测试覆盖率低、测试时间长,导致这类电路的测试成本较高且测试产能不足。介绍了一种基于现场可编程门阵列(Field Programmable Gate Array,FPGA)和LabWindows的音频DAC电路测试方案,硬件上用FPGA实现音频测试所需的直接数字频率合成(Direct Digital Frequency Synthesizers,DDFS)模块,软件上通过运用LabWindows自带的采样、加窗、快速傅里叶变换(Fast Fourier Transform,FFT)等数字信号处理函数,快速准确地测试各项模拟参数,并在用户界面(User Interface,UI)显示测试值和后台保存测试数据。展开更多
随着雷达信号处理技术的发展,对于宽带线性调频(Linear Frequency Modulation)信号发生器的需求也变得十分迫切。基于Xilinx公司的直接数字频率合成(Direct Digital frequency Synthesis,DDS)IP核和高速数模转换器(Digital-to-Analog Co...随着雷达信号处理技术的发展,对于宽带线性调频(Linear Frequency Modulation)信号发生器的需求也变得十分迫切。基于Xilinx公司的直接数字频率合成(Direct Digital frequency Synthesis,DDS)IP核和高速数模转换器(Digital-to-Analog Converter,DAC)的架构,设计了一种可实时切换参数的多相宽带线性调频信号发生器,并完成仿真和上板验证。经仿真和上板验证,该信号发生器能够根据任务要求实时切换线性调频信号的参数,生成的信号指标准确,实现方法可靠,具有一定的实用价值。展开更多
文摘By means of analyzing the frequency spectrum characteristics of domestic frequency- shift track signal we propose a technical improvement solution to it based on the orthogonal theory and demodulation technology in modern digital signal processing to guaranteed the solution accomplishes the optimized reception at the receiver, thereby enhance system reliability and quality. At same time we simulated this solution with MATLAB, and implemented it on the vc33 experimental platform of floating- point Digital Signal Processing (DSP).
文摘This paper proposes the design and development of a novel, portable and low-cost intelligent electronic device (IED) for real-time monitoring of high frequency phenomena in CENELEC PLC band. A high speed floating-point digital signal processor (DSP) along with 4 MSPS analog-to-digital converter (ADC) is used to develop the intelligent electronic device. An optimized algorithm to process the analog signal in real-time and to extract the meaningful result using signal processing techniques has been implemented on the device. A laboratory environment has setup with all the necessary equipment including the development of the load model to evaluate the performance of the IED. Smart meter and concentrator is also connected to the low voltage (LV) network to monitor the PLC communication using the IED. The device has been tested in the laboratory and it has produced very promising results for time domain as well as frequency domain analysis. Those results imply that the IED is fully capable of monitoring high frequency disturbances in CENELEC PLC band.
文摘This letter studies and analyzes the working features of main circuit of tri-level boost Power Factor Correct(PFC) converter and the advantages of tri-level switch converter in aspects of bearing high-voltage of power components,overall system loss and magnetic component selection based upon the single-level boost PFC switch converter.Besides,relying on the application of mi-croprocessor in power converter technology and DSP(Digital Signal Processing) chip's strong cal-culating capacity,the letter presents the adoption of modified scheme of tri-level boost PFC converter under the control of predictive control algorithm.Moreover,the operating principle and control method are specified,the results of circuit test and analysis are provided and the advantages of pre-dictive control technology-based multi-level boost PFC converter is verified.
基金Zhaohui Li acknowledges the support of the National Basic Research Programme of China(973)(Project No.2012CB315603)National High Technology 863 Research and Development Program of China(Nos.2013AA013300 and 2013AA013403)+5 种基金the Research Fund for the Doctoral Program of Higher Education of China(20124401110003)National Natural Science Foundation of China(NSFC)(Grant No.61435006)the Program for New Century Excellent Talents in University(NCET-12-0679)in ChinaXuming Zhang acknowledges the NSFC(Grant No.61377068)the Hong Kong Research Grant Council(Grant Nos.PolyU 5327/11E and N_PolyU505/13)the Hong Kong Polytechnic University(Grant Nos.G-YN07,4-BCAL and G-YBBE).
文摘Optical spectral measurements are crucial for optical sensors and many other applications,but the prevailing methods,such as optical spectrum analysis and tunable laser spectroscopy,often have to make compromises among resolution,speed,and accuracy.Optical frequency combs are widely used for metrology of discrete atomic and molecular spectral lines.However,they are usually generated by optical methods and have large comb spacing,which limits the resolution for direct sampling of continuous spectra.To overcome these problems,this paper presents an original method to digitally generate an ultrafine optical frequency comb(UFOFC)as the frequency ruler for spectral measurements.Each comb line provides one sampling point,and the full spectrum can be captured at the same time using coherent detection.For an experimental demonstration,we adopted the inverse fast Fourier transform to generate a UFOFC with a comb spacing of 1.46 MHz over a 10-GHz range and demonstrated its functions using a Mach–Zehnder refractive index sensor.The UFOFC obtains a spectral resolution of 0.01 pm and response time of 0.7 μs;both represent 100-fold improvements over the state of the art and could be further enhanced by several orders of magnitude.The UFOFC presented here could facilitate new label-free sensor applications that require both high resolution and fast speed,such as measuring binding kinetics and single-molecule dynamics.
文摘针对传统奈奎斯特采样会产生庞大的数据量以及现有的阵列压缩采样系统存在结构复杂、重构运算量大等问题,本文提出了一种基于均匀线型阵列的改进型调制宽带转换器(Modulated Wideband Converter,MWC)的阵列接收系统,无需重构即可直接对接收信号的压缩采样数据进行载频与波达方向(Direction Of Arrival,DOA)估计.所提系统在MWC测频支路中采用周期性循环移位伪随机序列作为混频函数以求得子带索引估计,采用基于快速傅里叶变换(Fast Fourier Transform,FFT)谱线插值法进行基带频率估计,且将MWC测向分支中混频函数设置为相同的伪随机序列,便可直接利用高分辨率的多重信号分类(MUltiple SIgnal Classification,MUSIC)算法对组合压缩采样数据完成DOA估计.实验仿真结果证明了所提系统能较好地从压缩采样数据中完成对目标的载频与DOA参数估计.
文摘电子设备集成度的提高对于音频集成电路生产和测试等环节的要求越来越高,尤其是音频数模转换器(Digital to Analog Converter,DAC),本质上为数模混合信号电路,采用数模混合信号自动化测试设备(Automatic Test Equipment,ATE)价格昂贵,而采用传统自动测试仪测试覆盖率低、测试时间长,导致这类电路的测试成本较高且测试产能不足。介绍了一种基于现场可编程门阵列(Field Programmable Gate Array,FPGA)和LabWindows的音频DAC电路测试方案,硬件上用FPGA实现音频测试所需的直接数字频率合成(Direct Digital Frequency Synthesizers,DDFS)模块,软件上通过运用LabWindows自带的采样、加窗、快速傅里叶变换(Fast Fourier Transform,FFT)等数字信号处理函数,快速准确地测试各项模拟参数,并在用户界面(User Interface,UI)显示测试值和后台保存测试数据。
文摘随着雷达信号处理技术的发展,对于宽带线性调频(Linear Frequency Modulation)信号发生器的需求也变得十分迫切。基于Xilinx公司的直接数字频率合成(Direct Digital frequency Synthesis,DDS)IP核和高速数模转换器(Digital-to-Analog Converter,DAC)的架构,设计了一种可实时切换参数的多相宽带线性调频信号发生器,并完成仿真和上板验证。经仿真和上板验证,该信号发生器能够根据任务要求实时切换线性调频信号的参数,生成的信号指标准确,实现方法可靠,具有一定的实用价值。