高速电路电源分配网络设计与电源完整性分析.rar

一篇西电的博士论文，作者张木水
在IEEE Trans on MTT等刊物上发好几篇文章，牛人呀，是NH格式，需要中国期刊网的阅读器才可阅读。
第一章绪论......................................................................................................................................1
1.1 Moore定律下的高速高密度...............................................................................................1
1.2电源完整性设计与分析面临巨大挑战..............................................................................2
1.3国内外研究现状..................................................................................................................4
1.4本文的研究内容及章节结构..............................................................................................7
第二章PDN/PI设计分析及相关问题.............................................................................................11
2.1引言....................................................................................................................................11
2.2 PDN组成............................................................................................................................11
2.2.1 VRM..........................................................................................................................12
2.2.2去耦电容器..............................................................................................................13
2.2.3 PCB和封装电源地平面............................................................................................14
2.2.4芯片电源分配网络..................................................................................................14
2.3基于目标阻抗的PDN设计方法........................................................................................15
2.4 PI、SI和EMI协同设计......................................................................................................17
2.4.1 PI、SI和EMI的本质联系.........................................................................................17
2.4.2基于PDN的SI设计..................................................................................................18
2.4.3基于PDN的EMI设计...............................................................................................19
2.5 PDN设计的若干问题讨论................................................................................................21
2.5.1去耦电容器容量与数量的确定..............................................................................21
2.5.2去耦电容器放置与去耦效果..................................................................................21
2.5.3平面和材料对PDN性能的影响..............................................................................22
2.6本章小结............................................................................................................................24
第三章基于多输入阻抗的PDN设计技术......................................................................................25
3.1引言....................................................................................................................................25
3.2平面PDN的特性................................................................................................................25
3.2.1 PDN的叠加阻抗.......................................................................................................25
3.2.2平面PDN的全局特性和本地特性..........................................................................26
3.3多输入叠加阻抗................................................................................................................28
3.3.1多输入叠加阻抗的定义..........................................................................................28
3.3.2多输入叠加阻抗的计算方法..................................................................................29
3.3.3实例说明..................................................................................................................30
3.4多输入自阻抗....................................................................................................................32
3.4.1多输入自阻抗的定义..............................................................................................32
3.4.2多输入自阻抗的计算..............................................................................................33
3.4.3实例说明..................................................................................................................34
3.4.4去耦平面PDN的多输入自阻抗..............................................................................36
3.5输入阻抗表征整个PDN的讨论........................................................................................37
3.6基于多输入阻抗的复杂平面PDN设计............................................................................39
3.6.1设计技术...................................................................................................................39
3.6.2实例与讨论..............................................................................................................40
3.7时域验证............................................................................................................................42
3.7.1 SPICE和FDTD时域验证.......................................................................................42
3.7.2实验测量验证..........................................................................................................46
3.8本章小结............................................................................................................................47
第四章基于功率传输的PDN设计技术..........................................................................................49
4.1引言....................................................................................................................................49
4.2去耦电容器网络时间有限的瞬态响应............................................................................49
4.2.1去耦网络的瞬态响应..............................................................................................49
4.2.2去耦网络的稳态响应..............................................................................................52
4.3 PDN不连续导致功率传输延迟........................................................................................54
4.3.1功率传输延迟的估算..............................................................................................54
4.3.2功率传输延迟的验证..............................................................................................56
4.4去耦电容器的时域表征....................................................................................................58
4.4.1ΔV时常数定义..........................................................................................................58
4.4.2串联电感、串联电阻、电容和噪声容限对ΔV时常数的影响..............................59
4.4.3去耦网络的设计原理..............................................................................................60
4.4.4去耦电容器数目的计算..........................................................................................61
4.5基于功率传输的高速PDN去耦网络设计........................................................................62
4.5.1去耦网络集总模型的假定.......................................................................................62
4.5.2ΔV时常数的验证......................................................................................................63
4.5.3复杂PDN的设计......................................................................................................64
4.5.4最快去耦电容器的选择..........................................................................................67
4.5.5去耦电容器的放置与分析......................................................................................68
4.6与目标阻抗法的比较........................................................................................................69
4.6.1 PDN输入阻抗的差别............................................................................................69
4.6.2目标阻抗法、功率传输法与电源噪声的关系.......................................................70
4.6.3功率传输法的优点..................................................................................................71
4.7仿真与测试验证................................................................................................................72
4.7.1 FDTD全波验证.........................................................................................................72
4.7.2实验测量验证..........................................................................................................75
4.8本章小结............................................................................................................................76
第五章电磁带隙结构在平面PDN中的噪声抑制..........................................................................77
5.1 PDN噪声抑制概述............................................................................................................77
5.2应用EBG结构抑制PDN噪声............................................................................................78
5.3多过孔蘑菇状EBG结构....................................................................................................79
5.3.1多过孔蘑菇状EBG结构..........................................................................................79
5.3.2宽带噪声抑制..........................................................................................................80
5.3.3带宽展宽的分析......................................................................................................82
5.4双面EBG结构....................................................................................................................83
5.4.1双面EBG结构带隙特性的研究...............................................................................83
5.4.2双面EBG结构的分解与设计..................................................................................86
5.5 EBG噪声隔离墙................................................................................................................87
5.5.1双面EBG结构的3-D级联.....................................................................................88
5.5.2 3-D级联EBG隔离墙抑制电磁辐射......................................................................89
5.5.3 3-D级联EBG隔离墙抑制SSN...............................................................................91
5.6混合双面EBG....................................................................................................................94目录
5.6.1 EBG结构设计...........................................................................................................94
5.6.2宽带噪声抑制..........................................................................................................95
5.7 EBG电源地平面之间信号走线的传输特性....................................................................97
5.7.1平面谐振特性对走线传输特性的影响..................................................................97
5.7.2 EBG结构带隙特性对走线传输特性的影响........................................................98
5.7.3提取走线的特性阻抗............................................................................................100
5.7.4实验验证................................................................................................................103
5.7.5小结........................................................................................................................106
5.8本章小结..........................................................................................................................106
第六章非理想互连的建模与分析................................................................................................107
6.1概述...................................................................................................................................107
6.2.互连线的特性区域..........................................................................................................108
6.2.1集总元件区域........................................................................................................109
6.2.2 RC区域....................................................................................................................110
6.2.3 LC区域....................................................................................................................110
6.2.4趋肤效应区域.........................................................................................................111
6.2.5介质损耗区域.........................................................................................................111
6.2.6波导色散区域........................................................................................................112
6.3集总建模与宽带建模........................................................................................................112
6.3.1集总建模................................................................................................................112
6.3.2宽带建模................................................................................................................114
6.4高速高密度连接器的分布式建模....................................................................................115
6.4.1基于TDR测量的高速连接器建模概述.................................................................115
6.4.2 MMTL模型.............................................................................................................116
6.4.3 MMTL模型的带宽与精度.....................................................................................117
6.4.4 MMTL模型与MLC模型的比较............................................................................118
6.4.5自动化建模技术.....................................................................................................119
6.4.6模型的实验验证....................................................................................................122
6.4.7小结........................................................................................................................125
6.5基于电流通路的过孔建模与分析....................................................................................126
6.5.1过孔建模概述.........................................................................................................126
6.5.2电源地平面对宏模型............................................................................................127
6.5.3单个完全切换过孔的建模.....................................................................................129
6.5.4完全切换过孔耦合的建模.....................................................................................132
6.5.5部分切换过孔的建模.............................................................................................136
6.5.6包含短路孔和去耦电容器的建模与分析.............................................................139
6.5.7过孔建模小结........................................................................................................142
6.6本章小结...........................................................................................................................142
第七章总结与展望........................................................................................................................145
7.1研究成果...........................................................................................................................145
7.2 PDN/PI研究展望...............................................................................................................146
附录A...............................................................................................................................................149
致谢..................................................................................................................................................151

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很不错的资源，谢谢楼主分享！

看了目录觉得论文条例性非常好，学习后会好好珍藏

下了，本人做高頻分析的，覺得電源分配網絡的發展前景非常不錯的哦，有空我會研究研究！:52bb

很不错的资源，谢谢楼主分享！

{:7_1270:}謝謝分享

西电的  必须顶一下啊