Controlling the light wavefront through a scattering medium based on direct digital frequency synthesis technology

Phase modulation is a crucial step when the frequency-based wavefront optimization technique is exploited to measure the optical transmission matrix(TM) of a scattering medium. We report a simple but powerful method, direct digital frequency synthesis(DDS) technology to modulate the phase front of the laser and measure the TM. By judiciously modulating the phase front of a He–Ne laser beam, we experimentally generate a high quality focus at any targeted location through a 2 mm thick 120 grit ground glass diffuser, which is commercially used in laser display and laser holographic display for improving brightness uniformity and reducing speckle. The signal to noise ratio(SNR) of the clear round focus is 50 and the size is about 44 μm. Our study will open up new avenues for enhancing light energy delivery to the optical engine in laser TV to lower the power consumption, phase compensation to reduce the speckle noise, and controlling the lasing threshold in random lasers.

Manipulation of superconducting qubit with direct digital synthesis

We investigate the XY control and manipulation of the superconducting qubit state using direct digital synthesis(DDS)for the microwave pulse signal generation.The decoherence time, gate fidelity, and other qubit properties are measured and carefully characterized, and compared with the results obtained by using the traditional mixing technique for the microwave pulse generation.In particular, the qubit performance in the state manipulation with respect to the sampling rate of DDS is studied.Our results demonstrate that the present technique provides a simple and effective method for the XY control and manipulation of the superconducting qubit state.Realistic applications of the technique for the possible future scalable superconducting quantum computation are discussed.

Novel analysis method for the spurious spectrum of direct digitalfrequency synthesizer in the presence of phase truncation

Based on the analysis of the spurious introduced by phase accumulation truncation which was made by Nicholas, a new simplified algorithm for spurious spectrum in the presence of phase truncation is presented by using the mapping mathematics and number theoretic method, it is possible to precisely analyze the spurious location and the spurious amplitude introduced by phase truncation in practical applications by computer.

Digital biomedical electrical impedance tomography based on FPGA

A digital biomedical electrical impedance tomography (EIT) system is developed with the aid of FPGA. The key elements of EIT system are described specifically in the paper. The functions are realized to generate excitation source, switch electrode channels, deal collected signals, demodulate measured voltages etc. The system is tested by a circular tank with 16 stainless electrodes attached around the boundary. The adjacent incentive adjacent measurement mode is adapted to collect boundary voltages of the interesting field. By testing, the system works with 36 dB signal-to-noise ratio (SNR) when 1 mA 100 KHz current is applied into a homogenous tank.

一种用于缆上控制与保护装置(IC-CPD)测试的剩余电流模拟系统设计

缆上控制与保护装置(IC-CPD)是新能源汽车家用充电安全的重要保护设备,该文设计了一种用于IC-CPD测试的剩余电流模拟系统。系统采用直接数字频率合成技术模拟剩余电流,在硬件设计上设置了信号隔离、提高了波形输出灵活性、提升了电流驱动能力,在软件设计上使用线性插值函数提升输出平滑性,并用上位机对输出信号精度进行校正。波形测试及实际应用结果表明,系统能够产生最大值75 mA的斜坡直流剩余电流和最大峰值±75 mA幅度渐变的交流剩余电流,电流在40 mA以下时输出精度高达99.3%,满足IC-CPD测试需求并可推广应用到其他测控设备中。

激光陀螺机抖控制的DDS锁相频率合成方法及其国产化设计

激光陀螺通常采用数模转换器(DAC)配合模拟乘法器产生正弦自激振荡的机抖控制方式,乘法器模块现阶段没有国产化替代方案,存在自激振荡在高低温条件下偶发不起振问题。因此,选用国产化微处理器MCU配合DAC替换乘法器模块,采用捕获抖动过零信号快速获得控制相位,使用PI控制器进行相位-频率差运算,采取查找表方式实现频率合成,输出周期驱动信号(正弦信号或三角波信号),实现抖动偏频闭环控制。所提方案在某三轴一体小型化三自惯组产品50型陀螺控制系统中应用,实现了关键器件的国产化替代设计,且陀螺系统固定位置百秒计数均值的标准方差优于5‰。

基于FPGA的小型无人机通信干扰系统设计与实现

针对无人机快速发展带来的黑飞无人机、无人机扰民等问题,以直接式数字频率合成为技术原理,提出一种基于通信干扰的无人机干扰系统,选择现场可编程门阵列作为核心芯片,设计无需镜像抑制算法和滤波器的双边带发射干扰硬件结构。相关测试验证了本系统的可行性和有效性。

基于FPGA的信号分离装置设计

基于信号分离技术在当前环境下被广泛应用的背景,该文提出了一种基于FPGA平台的信号分离系统。通过对需要分离的信号进行ADC采集,并通过FFT算法处理获取信号的频谱,从而得到叠加信号的特征。依据叠加信号的特征利用直接数字频率生成(DDS)技术生成各个叠加信号,实现对待分离信号中叠加信号的分离。该设计具有采样精度高、分离信号输出同步性好等优点,能够精确实现对信号的分离。

A 4 GHz 32 bit direct digital frequency synthesizer based on a novel architecture

This paper presents a novel direct digital frequency synthesizer （DDFS） architecture based on nonlinear DAC coarse quantization and the ROM-based piecewise approximation method, which has the advantages of high speed, low power and low hardware resources. By subdividing the sinusoid into a collection of phase segments, the same initial value of each segment is realized by a nonlinear DAC. The ROM is decomposed with a coarse ROM and fine ROM using the piecewise approximation method. Then, the coarse ROM stores the offsets between the initial value of the common segment and the initial value of each line in the same segment. Meanwhile, the fine ROM stores the differences between the line values and the initial value of each line. A ROM compression ratio of 32 can be achieved in the case of 11 bit phase and 9 bit amplitude. Based on the above method, a prototype chip was fabricated using 1.4 #m GaAs HBT technology. The measurement shows an average spurious-free dynamic range （SFDR） of 45 dBc, with the worst SFDR only 40.07 dBc at a 4.0 GHz clock. The chip area is 4.6 × 3.7 mm2 and it consumes 7 W from a --4.9 V power supply.

新型异构双核无线电罗盘模拟器的设计与实现

为解决目前无线电罗盘天线模拟器成本高、精度低、结构复杂且无法脱机运行等问题,设计了一种基于ARM和FPGA的以新型异构双核为控制核心的无线电罗盘模拟器,利用Cardarilli结构直接数字频率合成技术实现模拟方位角信号精准合成,同时具备信号反馈、下位机脱机控制。采用标准无线电罗盘作为输入设备对该新型模拟器进行测试,结果表明,新型模拟器实现了从200 kHz到1799 kHz频率范围、0到360°范围内方位角的组合式天线信号的高精度模拟,其频率误差小于1%,方位角误差小于1°,能够满足无线电罗盘维修工作中的检测与校准需求。

面向超磁致伸缩换能器的超声电源设计与性能分析

面向超磁致伸缩换能器的超声电源相对于传统的压电换能器超声电源存在一定的区别,但是目前这方面的相关研究报道较少。本研究建立了带有无线能量传输装置的等效电路模型,设计了一种面向超磁致伸缩换能器的超声电源。频率源基于直接数字合成(DDS)技术并利用全桥开关放大电路进行功率放大,使用相位和有效值(RMS)计算实现频率追踪策略,从而使该电源具备定频信号输出以及实时频率追踪的功能。最后,对超磁致伸缩换能器超声电源的输出性能进行了测试与分析,结果表明,在开环定频驱动功能下可以输出15~50 KHz的超声信号,在闭环追频驱动功能下可以在工作频率点处长时间稳定驱动超磁致伸缩换能器。此外,文章对面向超磁致伸缩换能器的超声电源进行了升级,并进行实验验证该电源可以实现超过1 kW的大功率输出。

某型C波段多普勒天气雷达频率源设计

雷达接收机放大和处理目标反射回的回波信号,并且在有用的回波信号和无用的干扰之间进行处理。通过预选、放大、变频、滤波等工作,使微弱的射频回波信号变成足够幅度的视频信号或数字信号,从而满足信号处理和数据处理的需要。雷达接收系统一般包括接收前端、射频通道、中频数字接收机、频率源、激励/标定源、接收监控等。频率源在接收系统中起着至关重要的作用,频率源的输出频率、输出功率、杂波抑制度、谐波抑制度、相位噪声等指标是雷达接收系统的重要技术指标。文章介绍了某型C波段多普勒天气雷达接收系统中频率源的的相关设计。并针对该频率源中所使用的直接频率合成技术、锁相频率合成技术、直接数字频率合成技术进行了详细阐述。

基于PCIe的高精度低杂散信号源设计

为了在动态压力测试系统中提供1种精度高、便携式与可靠性强的信号源以完成校准测试工作,通过采用现场可编程门阵列(FPGA)芯片作为控制核心,设计了1种高精度、低杂散的信号源。基于直接数字式频率合成器(DDS)基本原理,利用高速串行计算机扩展总线(PCIe)标准发送上位机指令及大量波形数据,通过16位的4通道模数转换芯片DAC8544输出各类型信号。采用Xilinx提供的DDS Compiler知识产权(IP)核与Block Memory Generator知识产权(IP)核实现任意信号及调制信号的输出,以减少设计电路体积。此外,提出引用有限长单位冲激响应(FIR)滤波器插值滤波与相位抖动技术,对输出杂散进行了处理。试验结果表明,信号源频率范围为10 Hz~10 MHz,幅值±5 V可调,无杂散动态范围优于60 dB,频率误差在0.05%以内。该信号源输出信号精度高、杂散低,具有实际的应用价值,也可用于航空发动机、汽轮机等其他动态测试领域。

应用嵌入式微控制器的数字频率合成实现方法

无需专用集成电路,仅由嵌入式微控制器实现直接数字频率合成(DDS)而生成波形信号具有经济、灵活、可靠等优点。借助嵌入式微控制器内的定时器、直接存储器存取(DMA)与数模转换(DAC)等片上外设,提出基于定时中断和DMA实现DDS生成波形信号的方法。基于定时中断实现DDS生成波形信号的方法无需借助片上DMA,对嵌入式微控制器的要求较低。基于DMA实现DDS生成信号的方法,数据从信号预存区到DAC的传送由并行于CPU工作的DMA完成,支持较高的DDS时钟频率。以正弦信号为例,采用中高端嵌入式微控制器对实现DDS生成信号的两种方法进行实验,结果表明,基于定时中断与DMA的两种方法均能生成波形优异、幅度稳定的信号,但DMA法支持更宽的信号频率范围。

水下航行器主动声呐波形生成技术实现与优化

水下航行器在海洋工程与科学领域得到了越来越广泛的应用,针对不同的应用场景和需求,其声呐系统需要具有能够灵活调整发射波形参数的能力。直接数字频率合成(DDFS)技术具有快速的频率切换能力和较宽的信号可产生频率范围,是水下航行器主动声呐波形生成技术的基础。对其核心的相位—幅值数字信号生成电路,查找表方法具有移植性差、精度与容量相关等局限性,故采用FPGA芯片上实时解算结构。本文将区间压缩技术和合并旋转技术融合以加速CORDIC算法,提出了一种新的相位—幅值数字信号生成结构,提高了系统的计算效率且精度符合实际需求,同时在一定程度上摆脱了查找表方法的局限性合理规划。

高准确度交流电压标准源电路设计与实现

为满足交流电压参数校准验证的需求,本文设计了一种高准确度交流电压标准源电路。基于高准确度、高稳定性要求整体电路采用闭环反馈结构,使用AD9850芯片生成交流信号,通过直流参考电压对正弦波进行调幅,微控制器使用AVR芯片。同时信号模拟电路与数字控制电路实现电气隔离,通过硬件选型、软件补偿等措施提高准确度。设计输出量程范围1~10 V,输出频带40 Hz~100 kHz。交流电压标准源在典型频率点上多次测试,结果表明在频带40 Hz~50 kHz中输出满量程电压的允许误差小于0.006%;在100 kHz处满量程电压的允许误差保持在0.025%以内,电路具有准确度高、稳定性好等性能优点。

基于单片机的高精度波形信号直接生成方法研究

针对直接数字频率合成(DDS)技术不适于单片机直接实现的问题,提出了一种波形信号生成的整周期循环法。借助片内嵌有直接存储器存取控制器(DMA)和数模转换器(DAC)等外设的单片机,该方法可以在不引入DDS专用芯片的情况下直接生成预设波形信号,且在生成信号时完全不占用单片机的CPU时间。对生成波形信号的整周期循环法进行了理论分析,导出了生成信号的频率及最大相对频偏公式,给出了算法实现流程。采用STM32单片机对整周期循环法生成正弦信号进行了实验测试。实验表明生成信号的频率精度高,且波形稳定、质量好。

音频传输中的瞬态频域扰动信号调制技术研究

音频信号传输时受到因噪声引起的瞬态频域扰动信号影响,导致整体调制效果较差。为此,文中研究具备去噪能力的音频瞬态频域扰动信号调制技术。此技术基于傅里叶变换去除音频信号传输中的噪声信息后,使用基于卷积过程神经网络的瞬态频域扰动信号识别方法,以信号识别的方式提取音频传输中的瞬态频域扰动信号。将提取到的瞬态频域扰动信号输入基于DDS的瞬态频域扰动信号调制器中,调制信号频率满足期望状态,完成瞬态频域扰动信号调制。实验结果显示:所提技术对数字电视系统传输的音频信号进行去噪、瞬态频域扰动信号识别和调制后,有效滤除了音频信号中的噪声信息,瞬态频域扰动信号识别结果准确,且具备有效调制音频传输中瞬态频域扰动信号数据传输速率的能力。

Design and Implementation of Smart Power Voltage and Frequency Synchroniser in Power Distribution System

Voltage and frequency are usually considered and assessed independently in the design and operation of electrical networks. However, these two are linked. Each and every malfunctioning electrical system has an impact on both voltage and frequency. This paper presents the opportunity for monitoring the distributed electrical energy by means of a system that monitors, controls, and provides a breakpoint based on high or low voltage and frequency tripping mechanism that avoids any damage to the load. The designed system comprised a switch mode power supply (SMPS), a direct digital synthesizer (DDS), and PIC16F876A microcontroller techniques for stable voltage and frequency outputs. Proteus design suite version 8.11 software and Benchcope SDS1102CN were used for modeling and simulation. The hardware prototype was implemented at a telecom cell site for data capturing and analysis. Test results showed that the implementation of the prototype provided stable and constant outputs of 222 V/50 Hz and 112 V/60 Hz which constituted 99% and 99.8% efficiency for voltage and frequency performance respectively. The paper also discusses different technologies that can be adopted by the system to mitigate voltage and frequency effects on customer appliances.

一种随机相位多频点循环叠加梳状谱干扰波形设计

随着捷变频技术的发展,传统的压制式干扰无法对其工作频点实施精准打击,因而难以达到理想的干扰效果。与之相比,梳状谱干扰能够对捷变频雷达的工作频点进行瞄频干扰,从而解决上述问题。现场可编程逻辑门阵列(FPGA)平台能够利用并行处理的优势,提升对数字信号的处理速度。直接数字频率合成(DDS)技术能够灵活地进行信号合成,常用于雷达信号生成。本文对梳状谱干扰的产生机理进行研究,基于FPGA平台,运用DDS技术,提出一种多频点循环叠加的方法,并基于m序列原理产生随机数对梳状谱信号的相位进行控制,从而对梳状谱干扰波形进行设计与实现。该方法能够通过干扰参数灵活控制干扰波形,干扰频率误差在1%以下。