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作为通信网络中一个重要的组成部分的接入网技术为用户提供重要的业务服务。目前有线接入网面临着许多问题和压力,包括来自传统语音业务的萎缩,以及无线接入技术的快速发展。有线接入网应加速光纤化和宽带化发展进程。本文重点研究有线通信接入网技术之一的光纤接入网技术,对未来的有线通信接入网业务发展提供更多的建议和方案。 相似文献
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开发了一种鉴别β受体激动剂的新型阵列传感器。该传感器由8种传感物质构成,使用96孔板酶标仪采集响应数据,结合主成分分析(PCA)、分层聚类分析(HCA)、判别分析(LDA)等模式识别方法进行数据处理,对5类β受体激动剂及其混合物进行检测。PCA结果表明,该传感器主要是基于空间结构以及氢键作用实现对β受体激动剂的识别;HCA结果显示,93个分析样本归类正确;LDA结果显示,该传感器对于β受体激动剂识别的准确率达98.9%。本方法在β受体激动剂的检测中有潜在应用价值。 相似文献
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A novel structure of 4H-SiC MESFETs is proposed that focuses on surface trap suppression.Characteristics of the device have been investigated based on physical models for material properties and improved trap models.By comparing with the performance of the well-utilized buried-gate incorporated with a field-plate (BG-FP) structure,it is shown that the proposed structure improves device properties in comprehensive aspects. A p-type spacer layer introduced in the channel layer suppresses the surface trap effect and reduces the gate-drain capacitance(Cgd) under a large drain voltage.A p-type spacer layer incorporated with a field-plate improves the electric field distribution on the gate edge while the spacer layer induces less Cgd than a conventional FP.For microwave applications,4H-SiC MESFET for the proposed structure has a larger gate-lag ratio in the saturation region due to better surface trap isolation from the conductive channel.For high power applications,the proposed structure is able to endure higher operating voltage as well.The maximum saturation current density of 460 mA/mm is yielded.Also,the gate-lag ratio under a drain voltage of 20 V is close to 90%.In addition,5%and 17.8%improvements in fT and fmax are obtained compared with a BG-FP MESFET in AC simulation,respectively.Parameters and dimensions of the proposed structure are optimized to make the best of the device for microwave applications and to provide a reference for device design. 相似文献
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多媒体化学教科书系统《化学元素周期系》 总被引:1,自引:0,他引:1
戴安邦老师离开我们已经一年了 ,给我们留下了无限的哀思。戴老师在生前最重视基础课教学 ,他领衔四教授专著的教科书《无机化学教程》 ,为我国化学教育和无机化学的发展奠定了先期基础。他老人家长期担任基础课教学 ,重视课堂直观教学效果 ,重视有效教学辅助手段上课堂 ,教学效果优异 ,永远垂范后人 ,我们无限怀念他老人家。际此新的一轮教学改革高潮的来临 ,我们把戴老师留传给我们的丰富辅助教学手段集中表达在多媒体投影屏幕上 ,藉此增强教学效果 ,作为我们纪念戴老师丰功伟业的实际行动 ,把他遗留下来的教学经验永远延续推广。我们南开大学无机化学学科的部分师生 ,从 1 996年开始学习多媒体计算机技术 ,并萌发了创新思想 ,用三年时间 ,完成了一套多媒体化学教科书软件《化学元素周期系》 ,两张光盘 ,已由高等教育出版社出版。并获得教育部第二届全国高校优秀教学软件一等奖。教育部高教司在 1 999年 8月组织专家进行鉴定验收 ,鉴定结论是 :“《化学元素周期系》教科书软件的成果 ,是我国化学教学手段和教学方法的一项重大改革成就 ,属国内领先 ,达到了国际先进水平”。现将该项教学研究成果汇总成文 ,借以纪念我们尊敬的戴安邦老师 相似文献
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New 4H silicon carbide metal semiconductor field-effect transistor with a buffer layer between the gate and the channel layer
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A new 4H silicon carbide metal semiconductor field-effect transistor (4H-SiC MESFET) structure with a buffer layer between the gate and the channel layer is proposed in this paper for high power microwave applications.The physics-based analytical models for calculating the performance of the proposed device are obtained by solving one-and two-dimensional Poisson’s equations.In the models,we take into account not only two regions under the gate but also a third high field region between the gate and the drain which is usually omitted.The direct-current and the alternatingcurrent performances for the proposed 4H-SiC MESFET with a buffer layer of 0.2 μm are calculated.The calculated results are in good agreement with the experimental data.The current is larger than that of the conventional structure.The cutoff frequency (fT) and the maximum oscillation frequency (f max) are 20.4 GHz and 101.6 GHz,respectively,which are higher than 7.8 GHz and 45.3 GHz of the conventional structure.Therefore,the proposed 4H-SiC MESFET structure has better power and microwave performances than the conventional structure. 相似文献
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Modeling of the drain-induced barrier lowering effect and optimization for a dual-channel 4H silicon carbide metal semiconductor field effect transistor
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A new analytical model to describe the drain-induced barrier lowering (DIBL) effect has been obtained by solving the two-dimensional (2D) Poisson's equation for the dual-channel 4H-SiC MESFET (DCFET). Using this analytical model, we calculate the threshold voltage shift and the sub-threshold slope factor of the DCFET, which characterize the DIBL effect. The results show that they are significantly dependent on the drain bias, gate length as well as the thickness and doping concentration of the two channel layers. Based on this analytical model, the structure parameters of the DCFET have been optimized in order to suppress the DIBL effect and improve the performance. 相似文献