焊膏印刷工艺技术的研究

焊膏印刷是SMT生产中关键工序之一,其控制直接影响着组装板的质量。本文介绍了焊膏印刷中影响质量的诸多因素并分析其原因,并提出部分纠正措施和建议。同时文中扼要的介绍焊膏高度检测的原理及应用,指出了3D AOI是保证电子组装质量的必要手段。最后,本文还介绍了一些焊膏印刷的新技术。     

永磁式电磁流量传感器及其信号处理

采用永磁体励磁方式制成的电磁流量传感器,既保持了传统线圈励磁电磁流量计的不易堵塞、无压损等优点,又简化了电磁流量传感器的结构,降低了制造成本,并可充分发挥永磁体励磁方式的功耗低、响应速度快等优点。同时,引入了动态反馈控制的方法来消除电极信号中的极化电压,从而使永磁体励磁的电磁流量计应用于一般导电性流体的测量成为可能。     

3G黑珍珠 华为U535

中国内地的3G进程到了关键时刻,华为等早就瞄准3G的国产厂商已经迫不及待了。U535是华为推出的最新款3G手机,它的外观黝黑圆润,由此有“黑珍珠“之称。U535支持WCDMA/GSM双网络制式,最大数据传输速率达384Kbps,在高速3G网络的支撑下,视频通话、流媒体等高端3G应用毫无阻碍,电子邮件收发、WAP浏览等2.5G时代已     

SMT测试技术综述

主要介绍了当前用于检测组装后PCB的缺陷和故障的一些常见测试技术.并对未来的发展趋势进行了初步探讨.     

3D AOI应对焊膏印刷的新挑战

高密度封装技术的飞速发展也给焊膏印刷检测技术提出了新挑战。为了应对挑战,新的检测技术不断涌现,3DAOI就是其中之一,它能测量焊膏的高度、面积和体积,有效控制焊膏印刷质量。文中扼要的介绍3DAOI检测的原理及应用,指出了3DAOI是保证电子组装质量的必要手段。     

带宽调制型单光纤光栅温变无补偿位移传感

报道了利用反射谱带宽调制和光强差分探测技术实现单一光纤光栅温变无补偿位移精确测量的新方法。设计了一种结构新颖的曲臂梁位移传感装置,结合光波导理论与材料力学原理分析了光纤光栅在高斯应变作用下光栅反射谱侧向梯度展宽的成因,理论推导了特殊结构梁在外力作用下光栅反射谱带宽/反射光强与压力之间的响应关系。光栅反射谱侧向梯度展宽的同时反射光强线性增加,利用光强差分检测方法消除光源出光抖动的影响,提高了位移测量精度。基于带宽调制的光纤光栅位移传感方法免受温度变化的影响,在-10℃~80℃的温度变化范围内,测量误差小于1.2%,实现了单光纤光栅温变无补偿位移测量。     

A Scheme for Generating Entangled Squeezed States Based on Cavity QED

We propose a scheme for generating entangled squeezed vacuum states of electromagnetical fields. The scheme is based on cavity QED. In this scheme, an atom interacts, successively, with a classical field, two quantum cavity fields, and another classical field. By detecting the final states of the atom, the two quantum cavity fields will be projected to an entangled state.     

Efficiency Enhancement of Dye-Sensitized Solar Cells： Using Salt CuI as an Additive in an Ionic Liquid

Energy conversion efficiency of the dye-sensitized solar cell is improved from 3.5% to 4.5% by adding a small amount of CuI into an ionic liquid electrolyte. It is found that other copper-I salts, for example, CuBr, have the same effect for the dye-sensitized solar cell. Experimental results show that no Cu^2＋ ions exist in this electrolyte. It is suggested that this improvement is caused by the adsorption of Cu^＋ onto the TiO2 porous film.     

Fresnel-Transform＇s Quantum Correspondence and Quantum Optical ABCD Law

Corresponding to the Fresnel transform there exists a unitary operator in quantum optics theory, which could be known the Fresnel operator （FO）. We show that the multiplication rule of the FO naturally leads to the quantum optical ABCD law. The canonical operator methods as mapping of ray-transfer ABCD matrix is explicitly shown by the normally ordered expansion of the FO through the coherent state representation and the technique of integration within an ordered product of operators. We show that time evolution of the damping oscillator embodies the quantum optical ABCD law.     

Realization of an All-Fibre Self-Organization Intra-Cavity Coherent Erbium-Doped Fibre Laser

An intra-cavity coherent coupling Michelson Er-doped fibre （EDF） laser （MCEDFL） is proposed and demonstrated. Characteristics of the MCEDFL are investigated. It is found that the MCEDFL with a polarizer can be coherent combined effectively. By the experiment based on fibre Bragg gratings （FBGs） with different reflectivity, we find that the reflectivity of the FBG play a vital role in improving the performance of the MCEDFL. This outcome adequately shows many favourable features, such as high efficiency, easy operation, and simple all-fibre configuration.