滞环SVPWM电流控制的矢量跟踪合成研究

传统的滞环SVPWM电流控制是一种比较常用的变流器控制策略,它使用角度比较计算和区域选择来实现电流的控制,存在一些误差。因此,提出了一种基于矢量跟踪合成的控制方法,运用坐标旋转思想,取代了角度比较和区域检测。仿真和实验结果表明,这种方法大大减少了网侧谐波含量,同时具有较高的功率因数。

制导雷达网合成跟踪性能仿真研究

首先提出了一种可提高系统航迹连续性的制导雷达网合成跟踪体系结构,采用仿真试验方法对制导雷达网合成跟踪性能进行了研究。然后给出了信息融合方法和利用合成跟踪结果进行波束指向控制提高航迹维持能力的信息利用方式。针对隐身目标进行了仿真试验,仿真结果证明了所提方法的正确性和有效性。最后给出了合成跟踪的评估结果和对提高制导雷达协同作战性能带来的好处。

多目标多传感器跟踪:应用与发展(连载一)——多传感器跟踪的实际状况

本文讨论了在多传感器、多平台跟踪系统的技术要求、设计和开发中遇到的问题,分析了合成跟踪系统的几个不同的体系结构、航迹与航迹综合和量测与航迹综合的有关优点,介绍了跟踪机动目标的交互多模型估计器,提出了合成跟踪系统开发中应考虑的问题。

基于DDS雷达数字接收机的设计及其关键技术

采用 DDS与高精度测频技术来实现 AFC,采用由 DDS实现的相参采样时钟电路和中频正交直接采样电路构成正交双通道接收机 ,有效消除或减少了频率漂移等各种不稳定因素和模拟实现时各种因素对系统性能的影响 。

相位估计误差对极化分集的影响分析

本文针对双圆极化合成跟踪线极化信号,分析了相位估计误差对合成跟踪线极化信号信噪比的影响,推导了信噪比的概率密度函数及对接收端解调性能的影响。仿真结果表明,本文理论分析结果和仿真结果吻合,可以作为通信系统链路预算时合成损失分析的理论依据。

New Silver Nanosensor for Nickel Traces： Synthesis, Characterization and Analytical Parameters

A new fluorescence silver nanosensor assisted by surfactant has been synthesized and applied to ultra trace nickel determination. Operational variables which influence nanomaterial synthesis have been studied and optimized. Synthesis was very fast and simple using non polluting solvents; silver chemical reduction was carried out at room temperature. Spectroscopic studies were carried out in order to assure the uniformed of nanomaterial obtained. Fluorescent signal of silver nanoparticles resulted enhanced in presence of Ni（II）. At optimal experimental conditions, a detection limit of 0.036 pg＇L1 and quantification limit 0.12 pg＇L~ were obtained. The calibration sensitivity was 2 x 1014 L.pg-l.cm1 for the new methodology, with a range of linearity of six orders of magnitude between 0.12 and 2.93 × 10^5 pg L^-1. The tolerance levels for potential interferent ions were studied with good results. The proposed methodology represents a promising approach for Ni（II） traces quantification due to its low operation cost, simplicity of instrumentation, high sampling speed and non-polluting solvents.