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book_Radar cross section measurements

英文书籍Radar cross section measurements
2011-11-15 上传大小:21.72MB
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评论 共3条

solar_nk 部分页没有,打印的时候才发现,感觉和第一版差不多啊
2013-11-07
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konexgsp 缺了不少页。
2013-09-21
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lavyli 好东西,可惜,部分页打不开
2012-11-15
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Radar Cross Section - 2nd - Eugene F. Knott.pdf

业内讲RCS权威参考书,RCS经典之作,权威作者Eugene F. Knott经典著作。RCS是雷达散射面积。雷达隐身是新一代作战飞机最为重要的特征,其性能指标(即RCS)自然成为关注的核心。由于隐身飞机的RCS要比普通飞机RCS低2-3个数量级,因此其RCS参数的测量与认定成为一大难题。

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Radar Cross Section - 2nd - Eugene F. Knott.rar

Radar Cross Section - 2nd - Eugene F. Knott.rar

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Econometric Analysis of Cross Section and Panel Data

wooldrige 英文版本的 pdf格式 需要的朋友拿去用吧

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Econometric Analysis of cross section and panel data CH03

Econometric Analysis of cross section and panel data CH03 Asymptotic theory - Wooldridge

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伍德里奇的计量分析教材

伍德里奇的计量分析教材 Econometric Analysis of Cross Section and Panel Data

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Econometric Analysis of Cross Section and Panel Data 第二版高清

Econometric Analysis of Cross Section and Panel Data 第二版 高清英文 Jeffrey M. Wooldridge The MIT Press

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RF Measurement of Die and Package

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The_Global_Positioning_System_Signals__Measurements__and_Performance

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AD报告 small radar cross section measurement

来自MOD的测试文档,描述关于测试的方法。是非常宝贵的材料。

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radar cross section,RCS讲义,AD报告

一篇AD报告,对雷达的RCS进行了详细描述。非常有用。

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Econometric Analysis of Cross Section and Panel data

Wooldridge econometric book 2002 Version

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Signal Integrity - Simplified(Eric Bogatin).pdf

Publisher: Prentice Hall PTR Pub Date: September 15, 2003 ISBN: 0-13-066946-6 Pages: 608 Section 2.7. The Spectrum of an Ideal Square Wave Section 2.8. From the Frequency Domain to the Time Domain Section 2.9. Effect of Bandwidth on Rise Time Section 2.10. Bandwidth and Rise Time Section 2.11. What Does "Significant" Mean? Section 2.12. Bandwidth of Real Signals Section 2.13. Bandwidth and Clock Frequency Section 2.14. Bandwidth of a Measurement Section 2.15. Bandwidth of a Model Section 2.16. Bandwidth of an Interconnect Section 2.17. Bottom Line Chapter 3. Impedance and Electrical Models Section 3.1. Describing Signal-Integrity Solutions in Terms of Impedance Section 3.2. What Is Impedance? Section 3.3. Real vs. Ideal Circuit Elements Section 3.4. Impedance of an Ideal Resistor in the Time Domain Section 3.5. Impedance of an Ideal Capacitor in the Time Domain Section 3.6. Impedance of an Ideal Inductor in the Time Domain Section 3.7. Impedance in the Frequency Domain Section 3.8. Equivalent Electrical Circuit Models Section 3.9. Circuit Theory and SPICE Section 3.10. Introduction to Modeling Section 3.11. The Bottom Line Chapter 4. The Physical Basis of Resistance Section 4.1. Translating Physical Design into Electrical Performance Section 4.2. The Only Good Approximation for the Resistance of Interconnects Section 4.3. Bulk Resistivity Section 4.4. Resistance per Length Section 4.5. Sheet Resistance Section 4.6. The Bottom Line Chapter 5. The Physical Basis of Capacitance Section 5.1. Current Flow in Capacitors Section 5.2. The Capacitance of a Sphere Section 5.3. Parallel Plate Approximation Section 5.4. Dielectric Constant Section 5.5. Power and Ground Planes and Decoupling Capacitance Section 5.6. Capacitance per Length Section 5.7. 2D Field Solvers Section 5.8. Effective Dielectric Constant Section 5.9. The Bottom Line Chapter 6. The Physical Basis of Inductance Section 6.1. What Is Inductance? Section 6.2. Inductance Principle #1: There Are Circular Magnetic-Field Line Loops Around All Currents Section 6.3. Inductance Principle #2: Inductance Is the Number of Webers of Field Line Loops Around a Conductor per Amp of Current Through It Section 6.4. Self-Inductance and Mutual Inductance Section 6.5. Inductance Principle #3: When the Number of Field Line Loops Around a Conductor Changes, There Will Be a Voltage Induced Across the Ends of the Conductor Section 6.6. Partial Inductance Section 6.7. Effective, Total, or Net Inductance and Ground Bounce Section 6.8. Loop Self- and Mutual Inductance Section 6.9. The Power-Distribution System (PDS) and Loop Inductance Section 6.10. Loop Inductance per Square of Planes Section 6.11. Loop Inductance of Planes and Via Contacts Section 6.12. Loop Inductance of Planes with a Field of Clearance Holes Section 6.13. Loop Mutual Inductance Section 6.14. Equivalent Inductance Section 6.15. Summary of Inductance Section 6.16. Current Distributions and Skin Depth Section 6.17. High-Permeability Materials Section 6.18. Eddy Currents Section 6.19. The Bottom Line Chapter 7. The Physical Basis of Transmission Lines Section 7.1. Forget the Word Ground Section 7.2. The Signal Section 7.3. Uniform Transmission Lines Section 7.4. The Speed of Electrons in Copper Section 7.5. The Speed of a Signal in a Transmission Line Section 7.6. Spatial Extent of the Leading Edge Section 7.7. "Be the Signal" Section 7.8. The Instantaneous Impedance of a Transmission Line Section 7.9. Characteristic Impedance and Controlled Impedance Section 7.10. Famous Characteristic Impedances Section 7.11. The Impedance of a Transmission Line Section 7.12. Driving a Transmission Line Section 7.13. Return Paths Section 7.14. When Return Paths Switch Reference Planes Section 7.15. A First-Order Model of a Transmission Line Section 7.16. Calculating Characteristic Impedance with Approximations Section 7.17. Calculating the Characteristic Impedance with a 2D Field Solver Section 7.18. An n-Section Lumped Circuit Model Section 7.19. Frequency Variation of the Characteristic Impedance Section 7.20. The Bottom Line Chapter 8. Transmission Lines and Reflections Section 8.1. Reflections at Impedance Changes Section 8.2. Why Are There Reflections? Section 8.3. Reflections from Resistive Loads Section 8.4. Source Impedance Section 8.5. Bounce Diagrams Section 8.6. Simulating Reflected Waveforms Section 8.7. Measuring Reflections with a TDR Section 8.8. Transmission Lines and Unintentional Discontinuities Section 8.9. When to Terminate Section 8.10. The Most Common Termination Strategy for Point-to-Point Topology Section 8.11. Reflections from Short Series Transmission Lines Section 8.12. Reflections from Short-Stub Transmission Lines Section 8.13. Reflections from Capacitive End Terminations Section 8.14. Reflections from Capacitive Loads in the Middle of a Trace Section 8.15. Capacitive Delay Adders Section 8.16. Effects of Corners and Vias Section 8.17. Loaded Lines Section 8.18. Reflections from Inductive Discontinuities Section 8.19. Compensation Section 8.20. The Bottom Line Chapter 9. Lossy Lines, Rise-Time Degradation, and Material Properties Section 9.1. Why Worry About Lossy Lines Section 9.2. Losses in Transmission Lines Section 9.3. Sources of Loss: Conductor Resistance and Skin Depth Section 9.4. Sources of Loss: The Dielectric Section 9.5. Dissipation Factor Section 9.6. The Real Meaning of Dissipation Factor Section 9.7. Modeling Lossy Transmission Lines Section 9.8. Characteristic Impedance of a Lossy Transmission Line Section 9.9. Signal Velocity in a Lossy Transmission Line Section 9.10. Attenuation and the dB Section 9.11. Attenuation in Lossy Lines Section 9.12. Measured Properties of a Lossy Line in the Frequency Domain Section 9.13. The Bandwidth of an Interconnect Section 9.14. Time-Domain Behavior of Lossy Lines Section 9.15. Improving the Eye Diagram of a Transmission Line Section 9.16. Pre-emphasis and Equalization Section 9.17. The Bottom Line Chapter 10. Cross Talk in Transmission Lines Section 10.1. Superposition Section 10.2. Origin of Coupling: Capacitance and Inductance Section 10.3. Cross Talk in Transmission Lines: NEXT and FEXT Section 10.4. Describing Cross Talk Section 10.5. The SPICE Capacitance Matrix Section 10.6. The Maxwell Capacitance Matrix and 2D Field Solvers Section 10.7. The Inductance Matrix Section 10.8. Cross Talk in Uniform Transmission Lines and Saturation Length Section 10.9. Capacitively Coupled Currents Section 10.10. Inductively Coupled Currents Section 10.11. Near-End Cross Talk Section 10.12. Far-End Cross Talk Section 10.13. Decreasing Far-End Cross Talk Section 10.14. Simulating Cross Talk Section 10.15. Guard Traces Section 10.16. Cross Talk and Dielectric Constant Section 10.17. Cross Talk and Timing Section 10.18. Switching Noise Section 10.19. Summary of Reducing Cross Talk Section 10.20. The Bottom Line Chapter 11. Differential Pairs and Differential Impedance Section 11.1. Differential Signaling Section 11.2. A Differential Pair Section 11.3. Differential Impedance with No Coupling Section 11.4. The Impact from Coupling Section 11.5. Calculating Differential Impedance Section 11.6. The Return-Current Distribution in a Differential Pair Section 11.7. Odd and Even Modes Section 11.8. Differential Impedance and Odd-Mode Impedance Section 11.9. Common Impedance and Even-Mode Impedance Section 11.10. Differential and Common Signals and Odd- and Even-Mode Voltage Components Section 11.11. Velocity of Each Mode and Far-End Cross Talk Section 11.12. Ideal Coupled Transmission-Line Model or an Ideal Differential Pair Section 11.13. Measuring Even- and Odd-Mode Impedance Section 11.14. Terminating Differential and Common Signals Section 11.15. Conversion of Differential to Common Signals Section 11.16. EMI and Common Signals Section 11.17. Cross Talk in Differential Pairs Section 11.18. Crossing a Gap in the Return Path Section 11.19. To Tightly Couple or Not to Tightly Couple Section 11.20. Calculating Odd and Even Modes from Capacitance- and Inductance-Matrix Elements Section 11.21. The Characteristic Impedance Matrix Section 11.22. The Bottom Line Appendix A. 100 General Design Guidelines to Minimize Signal-Integrity Problems Section A.1. Minimize Signal-Quality Problems on One Net Section A.2. Minimize Cross Talk Section A.3. Minimize Rail Collapse Section A.4. Minimize EMI Appendix B. 100 Collected Rules of Thumb to Help Estimate Signal-Integrity Effects Section B.1. Chapter 2 Section B.2. Chapter 3 Section B.3. Chapter 4 Section B.4. Chapter 5 Section B.5. Chapter 6 Section B.6. Chapter 7 Section B.7. Chapter 8 Section B.8. Chapter 9 Section B.9. Chapter 10 Section B.10. Chapter 11 Appendix C. Selected References About the Author

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Ultrasonic Nondestructive Evaluation Systems

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USING GNSS RAW MEASUREMENTS ON ANDROID DEVICES

1.GNSS BASICS NEEDED FOR UNDERSTANDING RAW MEASUREMENTS 2.HOW TO ACCESS GNSS RAW MEASUREMENTS USING ANDROID APIS 3.OPPORTUNITIES AND PRACTICAL USE OF GNSS RAW MEASUREMENTS 4.THE NEED AND USE CASES FOR HIGHER ACCURACY IN THE MASS MARKET

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Random Data: Analysis and Measurement Procedures

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Wartenberg_RF Measurements

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安捷伦矢量网络分析基础

This presentation covers the principles of measuring high-frequency electrical networks with network analyzers. You will learn what kind of measurements are made with network analyzers, and how they allow you to characterize both linear and nonlinear behavior of your devices. The session starts with RF fundamentals such as transmission lines and the Smith Chart, leading to the concepts of reflection, transmission and S-parameters. The next section covers all the major components in a network analyzer, including the advantages and limitations of different hardware approaches. Error modeling, accuracy enhancement, and various calibration techniques will then be presented. Finally, some typical swept-frequency and swept-power measurements commonly performed on filters and amplifiers will be covered. An advanced-topics section is included as a pointer to more information.

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