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High-Speed Signal Propagation[c] Advanced Black Magic
ISBN: 013084408X
EAN: N/A
Year: 2005
Pages: 163
BUY ON AMAZON
Fundamentals
Impedance of Linear, Time-Invariant, Lumped-Element Circuits
Power Ratios
Rules of Scaling
The Concept of Resonance
Extra for Experts: Maximal Linear System Response to a Digital Input
Transmission Line Parameters
Transmission Line Parameters
Telegraphers Equations
Derivation of Telegraphers Equations
Ideal Transmission Line
DC Resistance
DC Conductance
Skin Effect
Skin-Effect Inductance
Modeling Internal Impedance
Concentric-Ring Skin-Effect Model
Proximity Effect
Surface Roughness
Dielectric Effects
Impedance in Series with the Return Path
Slow-Wave Mode On-Chip
Performance Regions
Performance Regions
Signal Propagation Model
Hierarchy of Regions
Necessary Mathematics: Input Impedance and Transfer Function
Lumped-Element Region
RC Region
LC Region (Constant-Loss Region)
Skin-Effect Region
Dielectric Loss Region
Waveguide Dispersion Region
Summary of Breakpoints Between Regions
Equivalence Principle for Transmission Media
Scaling Copper Transmission Media
Scaling Multimode Fiber-Optic Cables
Linear Equalization: Long Backplane Trace Example
Adaptive Equalization: Accelerant Networks Transceiver
Frequency-Domain Modeling
Frequency-Domain Modeling
Going Nonlinear
Approximations to the Fourier Transform
Discrete Time Mapping
Other Limitations of the FFT
Normalizing the Output of an FFT Routine
Useful Fourier Transform-Pairs
Effect of Inadequate Sampling Rate
Implementation of Frequency-Domain Simulation
Embellishments
Checking the Output of Your FFT Routine
Pcb (printed-circuit board) Traces
Pcb (printed-circuit board) Traces
Pcb Signal Propagation
Limits to Attainable Distance
Pcb Noise and Interference
Pcb Connectors
Modeling Vias
The Future of On-Chip Interconnections
Differential Signaling
Differential Signaling
Single-Ended Circuits
Two-Wire Circuits
Differential Signaling
Differential and Common-Mode Voltages and Currents
Differential and Common-Mode Velocity
Common-Mode Balance
Common-Mode Range
Differential to Common-Mode Conversion
Differential Impedance
Pcb Configurations
Pcb Applications
Intercabinet Applications
LVDS Signaling
Generic Building-Cabling Standards
Generic Building-Cabling Standards
Generic Cabling Architecture
SNR Budgeting
Glossary of Cabling Terms
Preferred Cable Combinations
FAQ: Building-Cabling Practices
Crossover Wiring
Plenum-Rated Cables
Laying Cables in an Uncooled Attic Space
FAQ: Older Cable Types
100-Ohm Balanced Twisted-Pair Cabling
100-Ohm Balanced Twisted-Pair Cabling
UTP Signal Propagation
UTP Transmission Example: 10BASE-T
UTP Noise and Interference
UTP Connectors
Issues with Screening
Category-3 UTP at Elevated Temperature
150-Ohm STP-A Cabling
150-Ohm STP-A Cabling
150- W STP-A Signal Propagation
150- W STP-A Noise and Interference
150- W STP-A: Skew
150- W STP-A: Radiation and Safety
150- W STP-A: Comparison with UTP
150- W STP-A Connectors
Coaxial Cabling
Coaxial Cabling
Coaxial Signal Propagation
Coaxial Cable Noise and Interference
Coaxial Cable Connectors
Fiber-Optic Cabling
Fiber-Optic Cabling
Making Glass Fiber
Finished Core Specifications
Cabling the Fiber
Wavelengths of Operation
Multimode Glass Fiber-Optic Cabling
Single-Mode Fiber-Optic Cabling
Clock Distribution
Clock Distribution
Extra Fries, Please
Arithmetic of Clock Skew
Clock Repeaters
Stripline vs. Microstrip Delay
Importance of Terminating Clock Lines
Effect of Clock Receiver Thresholds
Effect of Split Termination
Intentional Delay Adjustments
Driving Multiple Loads with Source Termination
Daisy-Chain Clock Distribution
The Jitters
Power Supply Filtering for Clock Sources, Repeaters, and PLL Circuits
Intentional Clock Modulation
Reduced-Voltage Signaling
Controlling Crosstalk on Clock Lines
Reducing Emissions
Time-Domain Simulation Tools and Methods
Ringing in a New Era
Signal Integrity Simulation Process
The Underlying Simulation Engine
IBIS (I/O Buffer Information Specification)
IBIS: History and Future Direction
IBIS: Issues with Interpolation
IBIS: Issues with SSO Noise
Nature of EMC Work
Power and Ground Resonance
Points to Remember
Points to Remember
Appendix A. Building a Signal Integrity Department
Appendix A. Building a Signal Integrity Department
Appendix B. Calculation of Loss Slope
Appendix B. Calculation of Loss Slope
Appendix C. Two-Port Analysis
Appendix C. Two-Port Analysis
Simple Cases Involving Transmission Lines
Fully Configured Transmission Line
Complicated Configurations
Appendix D. Accuracy of Pi Model
Appendix D. Accuracy of Pi Model
Pi-Model Operated in the LC Region
Appendix E. erf( )
Appendix E. erf( )
Notes
High-Speed Signal Propagation[c] Advanced Black Magic
ISBN: 013084408X
EAN: N/A
Year: 2005
Pages: 163
BUY ON AMAZON
Agile Project Management: Creating Innovative Products (2nd Edition)
Principles to Practices
Practice: Feature Cards
Practice: Low-Cost Change
Practice: Product, Project, and Team Review and Adaptive Action
The Commitment-Accountability Protocol
PostgreSQL(c) The comprehensive guide to building, programming, and administering PostgreSQL databases
Adding New Records to a Table
Server-Side Programming
Client 3Processing Queries
Summary
pgbashWriting PostgreSQL-enabled Shell Scripts
Cisco CallManager Fundamentals (2nd Edition)
H.323 Endpoint Devices
Trunk Devices
Summary
Accessing CDR Data in the Central CDR Database
SCCP Call Signaling
Persuasive Technology: Using Computers to Change What We Think and Do (Interactive Technologies)
Overview of Captology
Computers as Persuasive Tools
Computers as Persuasive Media Simulation
Computers as Persuasive Social Actors
Credibility and the World Wide Web
.NET System Management Services
.NET Framework and Windows Management Instrumentation
Querying WMI
Handling WMI Events
Instrumenting .NET Applications with WMI
WMI Security
Microsoft Visual Basic .NET Programmers Cookbook (Pro-Developer)
Strings and Regular Expressions
Numbers, Dates, and Other Data Types
Network Programming
Printing and Drawing with GDI+
Remoting and Enterprise Services
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