基于弹簧管悬臂梁的FBG压力传感的研究

提出了一种等强度悬臂梁与弹簧管结合的高灵敏度的光纤布拉格光栅(FBG)压力传感器。将FBG粘贴在悬臂梁的下表面,粘贴方向与悬臂梁轴线一致。理论分析了FBG中心波长相对偏移量与压力的关系,实验测得该传感器的压力灵敏度为2.767×10-4/MPa,是裸FBG压强灵敏度系数的142倍。压力灵敏度与悬臂梁和弹簧管的几何参数有关,改变参数,可获得不同灵敏度的压力传感器。     

全自动电脑横机控制系统的设计

介绍了一种全自动电脑横机控制系统的新型分层体系设计.在该体系中,花型准备系统是基于Windows的开放式编程系统,通过编译自动生成编织指令数据文件,提供了独有的可扩充布纹库.下位NC硬件控制系统无需操作系统支持,便可完成对整个编织过程的实时监控,故障诊断,修改编织参数及测试执行部件等功能.新型的分层体系实现了上、下位机的功能独立,并保持了良好的人机交互界面和便捷的操作性,真正实现了全自动和智能化设计.     

电子镇流器中功率因数校正电路的分析及应用

IR2166/IR2167是集功率因数校正器(PFC)、镇流器和半桥驱动器为一体的新型电子镇流器驱动电路.内部的功率因数校正(PFC)电路以临界导通模式(CCM)工作,可获得高功率因数、低总谐波失真(THD)及直流电压调整.给出典型PFC控制电路的原理并进行了分析.     

四路视频输入处理器SAA7144HL的应用

SAA7144HL是4个单独的多标准视频解码器的组合,是完全的3.3V CMOS电路和高集成的视频监测应用电路.详细介绍了SAA7144HL的内部功能,给出了SAA7144HL的典型应用电路.     

三层以太网交换机的BSP设计及实现

文章介绍了三层交换机的硬件设计构架,重点对其板级支持包(BSP)及系统启动过程做了详细的分析;不仅分析了启动引导部分和系统启动部分的设计体系,还描述了启动引导部分和系统启动部分的实现过程,以及BSP主要函数实现的功能及相互之间的关系.最后,针对本三层交换机系统做了优化.     

HFC网络中数字电视信号性能参数测试分析

光纤同轴混合(HFC)网是目前承载数字电视信号的主要传输媒质,HFC网络能否真正满足数字电视传输网络的要求,需要对HFC网络中数字电视信号性能参数进行测试分析.在讨论数字电视信号电平、误码率、调制误差比等主要性能参数的基础上,根据实际运营的有线数字电视HFC网络构建测试模型,测试了数字电视信号的性能参数,分析了数字电视信号在HFC网络中的传输情况.测试分析表明:在目前条件下,HFC网络能适应数字电视信号的传输,有一定的优越性.     

Efficient evaluation of the [Z] matrix with method of moment in grounding analysis by using adaptive spatial sampling approach

The design of grounding system often relies on the performance simulations. The evaluation of the current distribution of grounding system for many frequencies by using the method of moments (MoM) may take a long time since the impedance matrix must be recomputed at each new frequency. A multiobject adaptive spatial sampling approach is presented to construct the fitted model of the electric field intensity generated by a horizontal electric dipole. The [Z] matrix spatial interpolation technology with MoM is described to reduce the computational time needed for the transient characteristics analysis of a horizontal grounding system. The accuracy and computational time of the [Z] matrix interpolation method are compared with those of the direct MoM. The numerical examples show that the [Z] matrix spatial interpolation method can reduce the computation requirement effectively.     

Complete stability of cellular neural networks with time-varying delays

In this paper, the complete stability of cellular neural networks with time-varying delays is analyzed using the induction method and the contraction mapping principle. Delay-dependent and delay-independent conditions are obtained for locally stable equilibrium points to be located anywhere, which differ from the existing results on complete stability where the existence of equilibrium points in the saturation region is necessary for complete stability and locally stable equilibrium points can be in the saturation region only. In addition, some existing stability results in the literature are special cases of a new result herein. Simulation results are also discussed by use of two illustrative examples.     

A miniature UWB planar monopole antenna with 5-GHz band-rejection filter and the time-domain characteristics

A planar monopole antenna with a staircase shape and small volume (25/spl times/26/spl times/1 mm/sup 3/) is proposed in this paper. With the use of a half-bowtie radiating element, the staircase-shape, and a modified ground plane structure, the proposed antenna has a very wide impedance bandwidth measured at about 11.6 GHz (2.9-14.5 GHz, bandwidth ratio about 1:5) below VSWR 2 including the WLAN band notched in the vicinity of 5 GHz. An omnidirectional radiation pattern is obtained. The group delay which is an indication of linearity between two proposed antennas is less than 1 ns. The electrical characteristics in terms of frequency and time domains and physical ones of the proposed antenna make it attractive for use in ultrawideband (UWB) systems.     

Modeling and measurement of simultaneous switching noise coupling through signal via transition

The signal via is a heavily utilized interconnection structure in high-density System-on-Package (SoP) substrates and printed circuit boards (PCBs). Vias facilitate complicated routings in these multilayer structures. Significant simultaneous switching noise (SSN) coupling occurs through the signal via transition when the signal via suffers return current interruption caused by reference plane exchange. The coupled SSN decreases noise and timing margins of digital and analog circuits, resulting in reduction of achievable jitter performance, bit error ratio (BER), and system reliability. We introduce a modeling method to estimate SSN coupling based on a balanced transmission line matrix (TLM) method. The proposed modeling method is successfully verified by a series of time-domain and frequency-domain measurements of several via transition structures. First, it is clearly verified that SSN coupling causes considerable clock waveform distortion, increases jitter and noise, and reduces margins in pseudorandom bit sequence (PRBS) eye patterns. We also note that the major frequency spectrum component of the coupled noise is one of the plane pair resonance frequencies in the PCB power/ground pair. Furthermore, we demonstrate that the amount of SSN noise coupling is strongly dependent not only on the position of the signal via, but also on the layer configuration of the multilayer PCB. Finally, we have successfully proposed and confirmed a design methodology to minimize the SSN coupling based on an optimal via positioning approach.