在线咨询
eetop公众号 创芯大讲堂 创芯人才网
切换到宽版

EETOP 创芯网论坛 (原名:电子顶级开发网)

手机号码,快捷登录

手机号码,快捷登录

找回密码

  登录   注册  

快捷导航
搜帖子
EETOP诚邀模拟IC相关培训讲师 创芯人才网--重磅上线啦!
查看: 52401|回复: 291

[第一帖]Power Distribution Network Design Methodologies .Istvan Novak

[复制链接]
发表于 2008-10-13 12:23:11 | 显示全部楼层 |阅读模式

马上注册,结交更多好友,享用更多功能,让你轻松玩转社区。

您需要 登录 才可以下载或查看,没有账号?注册

x
Power Distribution Network Design Methodologies (Paperback)by Istvan Novak (Author)


Paperback: 544 pages Publisher: International Engineering Consortium (May 5, 2008) Language: English ISBN-10: 1931695652 ISBN-13: 978-1931695657


Review
A comprehensive book on power distribution networks (PDN) and power integrity (PI) has been in need for some time, and this monumental volume by Dr. Novák is one of the best on this subject. This book brings tremendous and tangible value to anyone who has the interests in, or is already working on, these ever-evolving and intriguing fields. --Mike Peng Li, Principal Architect and Distinguished Engineer, Altera Corporation

Dr. Istvan Novak has brought together industry experts of signal integrity and EMI to share their perspectives on power delivery design and experiences in optimizing the design of the power distribution network. This book covers the collected wisdom of the industry as reported over the last 10 years. If your work involves the power delivery network, this is a must-have. --Eric Bogatin, President, Bogatin Enterprises, LLC

This book is the most complete, most thorough book that I have ever seen on the rapidly evolving field of power integrity (PI), which includes contributions from nearly 50 noted experts at well-known electronics manufacturers, consultants, and universities. Instead of presenting the one best solution, it offers a variety of viewpoints and discusses the complexity of building products, product cost, and their robustness against design and manufacturing errors. --John Barnes, Owner, dBi Corporation

Product Description
Power Distribution Network Design Methodologies is a collection of cogently written articles by 49 industry experts that fills in the void on PDN design procedures, and addresses among others such related topics as DC-DC converters, selection of bypass capacitors, DDR2 memory systems, powering of FPGAs, synthesis of impedance rofile. Through each of these contributions from such leading companies as SUN Microsystems, Sanyo, IBM, Hewlett-Packard, Intel, and Rambus, the reader can come to understand why books on power-integrity are only now becoming available to the public and can relate these topics to current industry trends.


本书是工业界各位大牛级人物的论文集合,其中总共22篇文章,只找到17篇,剩下的有待更新,希望见谅。

[ 本帖最后由 drjiachen 于 2008-10-13 12:36 编辑 ]
POWER.jpg
 楼主| 发表于 2008-10-13 12:24:08 | 显示全部楼层
Part I

Chapter 1: Power Supply Compensation for Capacitive Loads
Jonathan L. Fasig, Principal Engineer, Mayo Clinic
Barry K. Gilbert, Director, Mayo Clinic
Erik S. Daniel, Deputy Director, Mayo Clinic
1.1: Abstract
1.2: Introduction
1.3: System Overview
1.4: Power Supply Stability Primer
1.5: Analysis
1.6: Conclusion

Chapter 2: DC-DC Converters: What is Wrong with Them
?
DesignCon2007
Emerging Challenges of DC-DC Converters
Istvan Novak, Senior Signal Integrity Staff Engineer, Sun Microsystems
2.1: Abstract
2.2: Introduction
2.3: DC-DC Converter Parameters Related to Signal Integrity
2.4: Potential SI Problems from the User's Perspective
2.5: Conclusion

Chapter 3: The Advantage of Controlled-ESR Polymer Capacitators
Hideki Ishida, Design and Application Section Manager, Sanyo Electric Co.
3.1: Abstract
3.2: Controlling ESR Value of Tantalum Polymer Capacitor
3.3: Importance of Controlled ESR Value Capacitor
3.4: Tantalum Polymer Capacitor with DC/DC Converter Switching in the MHz Range
3.5: Equivalent Circuit of Polymer Tantalum Capacitor

Chaper 4: ESR-Controlled MLCCs and Decoupling Capacitor Network Design
Masaaki Togashi, Senior Development Engineer, TDK Corp.
Chris Burket, Senior Applications Engineer, TDK Corp.
4.1: Abstract
4.2: Introduction
4.3: Decoupling Capacitor Network
4.4: ESR and ESL
4.5: ESR Control Method
4.6: ESR/ESL Measurement of MLCCs
4.7: Measurement Results
4.8: Circuit Analysis using SPICE Simulation
4.9: Lower ESL Development
4.10: Conclusion

Part II

Chapter 5: A Power Distribution System

K. Barry A. Williams: Designing Power Distribution Systems for Electronic Circuits. Aikman Engineering LLC, 2005.
K. Barry A. Williams, Principal Engineer, Hewlett-Packard
5.1: Abstract
5.2: An Example of a Power Distribution Design System
5.3: The Problem Schematic
5.4: The Characterization of the Load
5.5: System Bandwidth
5.6: Determination of the Maximum Impedance
5.7: The Q of the System
5.8: Capacitance and Inductance Determination
5.9: Resonant Frequency Points
5.10: Number of Capacitors
5.11: Summary of Compiled Results
5.12: Summary of the Capacitor Selections and Graphical Selections
5.13: Graphics Results with Added Resistance
5.14: Sensitivity
5.15: Summary of the Design

Chapter 6: Designing Minimum Cost VRM8.2/8.3 Compliant Converters

Richard Redl, President, ELFI S.A.
Brian Erisman, Project Engineer, Analog Devices, Inc.
6.1: Abstract
6.2: Introduction
6.3: Objective Specifications
6.4: Load Transient Performance Limits of the Buck Converter
6.5: Optimal Load Transient Response
6.6: Commonly Used Control Techniques
6.7: Design for Optimal Output Impedance
6.8: Computer Simulations and Experimental Results
6.9: Summary

Chapter 7: Frequency Domain Target Impedence Method for Bypass Capacitator Selection for Power Distribution Systems
Larry D. Smith, Principal Signal Integrity Engineer, Altena Corp.
7.1: Abstract
7.2: Introduction
7.3: Target Impedance
7.4: Impedance in the Frequency Domain
7.5: PCB Bypass Capacitor
7.6: Capacitor Sizing from Target Impedance and Corner Frequency
7.7: ESR Considerations
7.8: Problems at High and Low Frequency
7.9: Comparing FDTIM to Other Methods
7.10: Conclusion

Chapter 8: Resonant-Free Power Network Design Using Extended Adaptive Voltage Positioning Methodology
Alex Waizman, Principal Engineer, Intel Corp.
Chee-Yee Chung, Principal Engineer, Intel Corp.
8.1: Abstract
8.2: Introduction
8.3: Lumped Power Delivery Model
8.4: Adaptive Voltage Positioning
8.5: EAVP
8.6: Time Domain Results
8.7: Future Work
8.8: Summary

Chapter 9: Distributed Matched Bypassing for Board-Level Power Distribution Networks
Istvan Novak, Senior Staff Engineer, Sun Microsystems
Leesa Noujeim, Staff Engineer, Sun Microsystems
Valerie St. Cyr, Supply Base Development Manager, Sun Microsystems
Nick Biunno, Principal Engineer, Sanmina-SCI
Atul Patel, Process Engineer, Sanmina-SCI
George Korony, Senior Member of Technical Staff, AVX Corp.
Andy Ritter, Senior Member of Technical Staff, AVX Corp.
9.1: Abstract
9.2: Introduction
9.3: Distributed Matched Bypassing of Power Distribution Networks
9.4: Implementation of Distributed Matched Bypassing
9.5: The Concept of the Bypass Resistor
9.6: Conclusion

Part III

Chapter 10: Comparison of Power Distribution Network Design Methods: An Approach to System-Level Power Distribution Analysis
Dale Becker, Senior Technical Staff Member, IBM Corp.
10.1: Abstract
10.2: Introduction
10.3: A Computer System
10.4: Power Distribution Noise Analysis
10.5: Summary

Chapter 11: Bypass Filter Design Considerations for Modern Digital Systems, a Comparative Evaluation of the Big 'V,' Multipole, and Many Pole Bypass Strategies
Steve Weir, Consultant, Teraspeed Consultant Group
11.1: Abstract
11.2: What Does the Bypass Network Do?
11.3: Multilayer Chip Capacitor Bypass Basics
11.4: Bypass Strategies--Three Methods, Three Faiths?
11.5: Summary
11.6: Conclusion

Chapter 12: Comparison of Power Distribution Network Design Methods: Bypass Capacitator Selection Based on Time Domain and Frequency Domain Preferences
Istvan Novak, Senior Signal Integrity Staff Engineer, Sun Microsystems
12.1: Abstract
12.2: Introduction
12.3: So, What Is the Metric?
12.4: Comparison of Popular Methods Based on Lumped Self-Impedance
12.5: Component Placement
12.6: Implementation Examples
12.7: Conclusion

Chapter 13: PDN Design Strategies: Ceramic SMT Decoupling Capacitators--What Values Should I Choose
James L. Knighten, Senior Staff Engineer, NCR Corp.
Bruce Archambeault, Distinguished Engineer, IBM
Jun Fan, Senior Hardware Engineer, NCR Corp.
Giuseppe Selli, Ph.D. Candidate, University of Missouri-Rolla
Samuel Connor, Senior Engineer, IBM
James L. Drewniak, Professor, University of Missouri-Rolla
13.1: Introduction
13.2: The Power Bus Function
13.3: The Decoupling Capacitor
13.4: Interconnect Inductance
13.5: Conclusion

Part IV

Chapter 14: Power Integrity Analysis of DDR2 Memory Systems during Simultaneous Switching Events
Ralf Schmitt, Signal Integrity Engineer, Rambus, Inc.
Joong-Ho Kim, Signal Integrity Engineer, Rambus, Inc.
Chuck Yuan, Signal Integrity Engineer, Rambus, Inc.
June Feng, Signal Integrity Engineer, Rambus, Inc.
Woopoung Kim, Signal Integrity Engineer, Rambus, Inc.
Dan Oh, Signal Integrity Engineer, Rambus, Inc.
14.1: Abstract
14.2: Introduction
14.3: Supply Noise Modeling Methodology for Interface Systems
14.4: SSN Model for DDR2 Test System
14.5: Determining Worst-Case Switching Profiles
14.6: Correlating Supply Noise Parameters
14.7: Measuring Supply Noise on Internal Supply Voltage
14.8: Summary

Chapter 15: Analysis of Supply Noise Induced Jitter in Gigabit I/O Interfaces
Ralf Schmitt, Signal Integrity Engineers, Rambus, Inc.
Hai Lan, Signal Integrity Engineer, Rambus, Inc.
Chris Madden, Signal Integrity Engineer, Rambus, Inc.
Chuck Yuan, Signal Integrity Engineer, Rambus, Inc.
15.1: Abstract
15.2: Introduction
15.3: Power Supply Design Environment Requirements for Gigabit I/O Interfaces
15.4: Overview of Gigabit I/O Interface Test System
15.5: Measurement of Supply Noiseâ
 楼主| 发表于 2008-10-13 12:25:01 | 显示全部楼层
Chapter 1: Power Supply Compensation for Capacitive Loads
Jonathan L. Fasig, Principal Engineer, Mayo Clinic
Barry K. Gilbert, Director, Mayo Clinic
Erik S. Daniel, Deputy Director, Mayo Clinic
1.1: Abstract
1.2: Introduction
1.3: System Overview
1.4: Power Supply Stability Primer
1.5: Analysis
1.6: Conclusion

1 Power Supply Compensation for Capacitive Loads--Jonathan_Fasig.rar

1.75 MB, 下载次数: 549 , 下载积分: 资产 -2 信元, 下载支出 2 信元

 楼主| 发表于 2008-10-13 12:25:58 | 显示全部楼层
Chapter 2: DC-DC Converters: What is Wrong with Them ?
DesignCon2007
Emerging Challenges of DC-DC Converters
Istvan Novak, Senior Signal Integrity Staff Engineer, Sun Microsystems
2.1: Abstract
2.2: Introduction
2.3: DC-DC Converter Parameters Related to Signal Integrity
2.4: Potential SI Problems from the User's Perspective
2.5: Conclusion



暂时没有找到
 楼主| 发表于 2008-10-13 12:27:10 | 显示全部楼层
Chapter 3: The Advantage of Controlled-ESR Polymer Capacitators
Hideki Ishida, Design and Application Section Manager, Sanyo Electric Co.
3.1: Abstract
3.2: Controlling ESR Value of Tantalum Polymer Capacitor
3.3: Importance of Controlled ESR Value Capacitor
3.4: Tantalum Polymer Capacitor with DC/DC Converter Switching in the MHz Range
3.5: Equivalent Circuit of Polymer Tantalum Capacitor

3 The Advantage of Controlled-ESR Polymer Capacitators--Istvan_Novak(part1).rar

2.54 MB, 下载次数: 524 , 下载积分: 资产 -2 信元, 下载支出 2 信元

 楼主| 发表于 2008-10-13 12:28:26 | 显示全部楼层
Chaper 4: ESR-Controlled MLCCs and Decoupling Capacitor Network Design
Masaaki Togashi, Senior Development Engineer, TDK Corp.
Chris Burket, Senior Applications Engineer, TDK Corp.
4.1: Abstract
4.2: Introduction
4.3: Decoupling Capacitor Network
4.4: ESR and ESL
4.5: ESR Control Method
4.6: ESR/ESL Measurement of MLCCs
4.7: Measurement Results
4.8: Circuit Analysis using SPICE Simulation
4.9: Lower ESL Development
4.10: Conclusion

4 ESR-Controlled MLCCs and Decoupling Capacitor Network Design--Istvan_Novak(part2).rar

2.54 MB, 下载次数: 647 , 下载积分: 资产 -2 信元, 下载支出 2 信元

 楼主| 发表于 2008-10-13 12:29:17 | 显示全部楼层
Chapter 5: A Power Distribution System

K. Barry A. Williams: Designing Power Distribution Systems for Electronic Circuits. Aikman Engineering LLC, 2005.
K. Barry A. Williams, Principal Engineer, Hewlett-Packard
5.1: Abstract
5.2: An Example of a Power Distribution Design System
5.3: The Problem Schematic
5.4: The Characterization of the Load
5.5: System Bandwidth
5.6: Determination of the Maximum Impedance
5.7: The Q of the System
5.8: Capacitance and Inductance Determination
5.9: Resonant Frequency Points
5.10: Number of Capacitors
5.11: Summary of Compiled Results
5.12: Summary of the Capacitor Selections and Graphical Selections
5.13: Graphics Results with Added Resistance
5.14: Sensitivity
5.15: Summary of the Design



暂时没有找到
 楼主| 发表于 2008-10-13 12:33:53 | 显示全部楼层
Chapter 6: Designing Minimum Cost VRM8.2/8.3 Compliant Converters
Richard Redl, President, ELFI S.A.
Brian Erisman, Project Engineer, Analog Devices, Inc.
6.1: Abstract
6.2: Introduction
6.3: Objective Specifications
6.4: Load Transient Performance Limits of the Buck Converter
6.5: Optimal Load Transient Response
6.6: Commonly Used Control Techniques
6.7: Design for Optimal Output Impedance
6.8: Computer Simulations and Experimental Results
6.9: Summary



暂时没有找到
 楼主| 发表于 2008-10-13 12:34:41 | 显示全部楼层
Chapter 7: Frequency Domain Target Impedence Method for Bypass Capacitator Selection for Power Distribution Systems
Larry D. Smith, Principal Signal Integrity Engineer, Altena Corp.
7.1: Abstract
7.2: Introduction
7.3: Target Impedance
7.4: Impedance in the Frequency Domain
7.5: PCB Bypass Capacitor
7.6: Capacitor Sizing from Target Impedance and Corner Frequency
7.7: ESR Considerations
7.8: Problems at High and Low Frequency
7.9: Comparing FDTIM to Other Methods
7.10: Conclusion

7 Comparison of Power Distribution Network Design Methods-Larry_Smith(part1).rar

781.57 KB, 下载次数: 418 , 下载积分: 资产 -2 信元, 下载支出 2 信元

 楼主| 发表于 2008-10-13 12:35:37 | 显示全部楼层
Chapter 8: Resonant-Free Power Network Design Using Extended Adaptive Voltage Positioning Methodology
Alex Waizman, Principal Engineer, Intel Corp.
Chee-Yee Chung, Principal Engineer, Intel Corp.
8.1: Abstract
8.2: Introduction
8.3: Lumped Power Delivery Model
8.4: Adaptive Voltage Positioning
8.5: EAVP
8.6: Time Domain Results
8.7: Future Work
8.8: Summary


[ 本帖最后由 drjiachen 于 2008-10-13 12:38 编辑 ]

abbr_afcf37623b7eb06966f3e92d58828b58.rar

198.56 KB, 下载次数: 357 , 下载积分: 资产 -2 信元, 下载支出 2 信元

您需要登录后才可以回帖 登录 | 注册

本版积分规则

关闭

站长推荐 上一条 /2 下一条


小黑屋| 手机版| 关于我们| 联系我们| 在线咨询| 隐私声明| EETOP 创芯网
( 京ICP备:10050787号 京公网安备:11010502037710 )

GMT+8, 2024-12-21 00:40 , Processed in 0.023282 second(s), 7 queries , Gzip On, Redis On.

eetop公众号 创芯大讲堂 创芯人才网
快速回复 返回顶部 返回列表