1 - David M. Zar - 5/20/2015 CSE464 Coupling Calculations via Odd/Even Modes Spring, 2009 David M. Zar (Based on notes by Fred U. Rosenberger)

Slides:

Advertisements

Similar presentations

Note 2 Transmission Lines (Time Domain)

Advertisements

Principles of Electronic Communication Systems

ENE 428 Microwave Engineering

EMLAB 1 Transmission line. EMLAB 2 An apparatus to convey energy or signal from one place to another place. Transmitter to an antenna connections between.

11/24/2004EE 42 fall 2004 lecture 361 Lecture #36: Transmission lines Last lecture: –Transmission lines –Balanced and unbalanced –Propagation This lecture:

Twisted Pairs Another way to reduce cross-talk is by means of a twisted pair of wires. A twisted pair of wires will be modeled as a cascade of alternating.

1 Chelmsford Amateur Radio Society Intermediate Licence Course Carl Thomson G3PEM Slide Set 9: v1.2, 31-May-2009 Antennas & Feeders Chelmsford Amateur.

Chapter 13 Transmission Lines

EEE 498/598 Overview of Electrical Engineering

EKT 441 MICROWAVE Communications

Chapter Fourteen: Transmission Lines

Fun With Stripline. Geometry and Parameters “The most important parameters of any transmission line are its characteristic impedance and phase velocity”-

KAVOSHCOM RF Communication Circuits Lecture 1: Transmission Lines.

A NEW PRINTED QUASI-LANDSTORFER ANTENNA

Time-domain Reflectometry (TDR) Measurements

Prof. D. R. Wilton Note 2 Transmission Lines (Time Domain) ECE 3317.

EELE 461/561 – Digital System Design Module #5 Page 1 EELE 461/561 – Digital System Design Module #5 – Crosstalk Topics 1.Near-End and Far-End Crosstalk.

EELE 461/561 – Digital System Design Module #6 Page 1 EELE 461/561 – Digital System Design Module #6 – Differential Signaling Topics 1.Differential and.

Crosstalk Overview and Modes.

Electromagnetics (ENGR 367)

EKT 441 MICROWAVE COMMUNICATIONS

9. Radiation & Antennas Applied EM by Ulaby, Michielssen and Ravaioli.

Link A/D converters and Microcontrollers using Long Transmission Lines John WU Precision Analog - Data Converter Applications Engineer

Lecture 2 Most basic facts from Electricity needed for understanding telecommunications Local transmission lines in the telephone system Decibels Signals.

Module 5: Advanced Transmission Lines Topic 3: Crosstalk

Crosstalk Calculation and SLEM. 2 Crosstalk Calculation Topics  Crosstalk and Impedance  Superposition  Examples  SLEM.

Transmission Line “Definition” General transmission line: a closed system in which power is transmitted from a source to a destination Our class: only.

TDS8000 and TDR Considerations to Help Solve Signal Integrity Issues.

PCB Layout Introduction

Prof. David R. Jackson Dept. of ECE Fall 2013 Notes 12 ECE 6340 Intermediate EM Waves 1.

12 Transmission Lines.

TELECOMMUNICATIONS Dr. Hugh Blanton ENTC 4307/ENTC 5307.

Crosstalk Crosstalk is the electromagnetic coupling between conductors that are close to each other. Crosstalk is an EMC concern because it deals with.

Transmission Lines No. 1  Seattle Pacific University Transmission Lines Kevin Bolding Electrical Engineering Seattle Pacific University.

Microwave Network Analysis

Bits (0s and 1s) need to be transmitted from one host to another. Each bit is placed on the cable as an electrical signal or pulse. On copper cable the.

Passive Devices (3 port network) S-matrix of 3 port networks (1) All ports are matched and network is reciprocal (2) can be lossless? 3 Port Network can.

CSE 464 Transmission Line Equations (Dally/Poulton Notation) January 2009 Based on Notes by Fred U. Rosenberger David M. Zar Washington University in St.

Shielded Wires Let us say that the voltages measured at the terminal of the receptor circuit are beyond the desired level. What can we do? Two common solutions.

11/22/2004EE 42 fall 2004 lecture 351 Lecture #35: data transfer Last lecture: –Communications synchronous / asynchronous –Buses This lecture –Transmission.

Prof. Ji Chen Notes 6 Transmission Lines (Time Domain) ECE Spring 2014.

Example Snapshots From Some Of The Signal Integrity Interactive Software Modules The following slides highlight some of the output graphs/plots from the.

Global Circuit Page 1  Basic Design Rule for Advanced PCB (1) 1. High speed current path Load Driving gate Current trace At low frequency current, follows.

Impedance Measurements on a PCB

Level 2 Electromagnetism Laboratory Experiment

Inductance Screening and Inductance Matrix Sparsification 1.

EKT 441 MICROWAVE COMMUNICATIONS CHAPTER 3: MICROWAVE NETWORK ANALYSIS (PART 1)

Exam 2 information Open book, open notes, bring a calculator Wednesday Dec 16, 10:30 to 1:00 pm Eligible topics (1 of 3) (not an exhaustive list) Exam.

Crosstalk Crosstalk is the electromagnetic coupling among conductors that are close to each other. Crosstalk is an EMC concern because it deals with the.

전자파 연구실 1. Fundamentals. 전자파 연구실 1.1 Frequency and time Passive circuit elements is emphasized in high speed digital design : Wires, PCB, IC- package.

TERMINATIONS Copyright F. Canavero, R. Fantino Licensed to HDT - High Design Technology.

HDT, 1998: Resistance, Inductance, Capacitance, Conductance per Unit Length Lossless case.

RF and Microwave Network Theory and Analysis

ECE 598 JS Lecture - 05 Coupled Lines

Sinusoidal Excitation of Circuits

Microwave Engineering by David M. Pozar Ch. 4.1 ~ 4 / 4.6

Pulse Processing and Shaping

EKT 356 MICROWAVE COMMUNICATIONS

Crosstalk Overview and Modes.

Open book, open notes, bring a calculator

ENE 429 Antenna and Transmission lines Theory

ENE 429 Antenna and Transmission lines Theory

Crosstalk Overview and Modes.

Microwave Engineering

Applied Electromagnetic Waves Notes 6 Transmission Lines (Time Domain)

Microwave Engineering

Crosstalk Overview and Modes.

ENE 428 Microwave Engineering

Presentation transcript:

1 - David M. Zar - 5/20/2015 CSE464 Coupling Calculations via Odd/Even Modes Spring, 2009 David M. Zar (Based on notes by Fred U. Rosenberger)

2 - David M. Zar - 5/20/2015 Coupled Lines 12 Here are two coupled lines

3 - David M. Zar - 5/20/2015 Coupled Lines Even-mode impedance, Z OE –impedance seen on each line by a common-mode signal Odd-mode impedance, Z OO –impedance seen on each line by differential mode signal Differential impedance, Z OD = 2Z OO –impedance seen across a pair of lines by differential mode signal Common-mode impedance, Z OC = 0.5Z OE –impedance seen between a pair of lines and a common return by a common-mode signal. C = total line Capacitance (line to GND + C d ) C d = line to line capacitance

4 - David M. Zar - 5/20/2015 Coupled Lines Matched termination ( No reflection ) Coupled line equivalent circuit ( T-line only, no external components ) 2*V C Equivalent circuit at sending end Equivalent circuit at receiving end Line 1 Line 2Line 1 Line 2

5 - David M. Zar - 5/20/2015 Coupled Lines Matched termination (Wye) ( No reflection ) R3 R4 Line 2Line 1

6 - David M. Zar - 5/20/2015 Coupled Lines

7 - David M. Zar - 5/20/2015 Backward Crosstalk Next 1 2 1v 0v t=0t=0TrTr x=0x=0 x=lx=l 2*V C Line 1Line 2 VSVS RtRt V 20 Boxes represent transmission line impedances, Resistor symbols are physical resistors. R t is an external termination resistor. V 20 is the voltage coupled into Line 2 at x=0. V c and V d are zero in this case since the far end is matched. The voltage on line 2, and the coupling coefficient is given by the voltage divider. RtRt VSVS

8 - David M. Zar - 5/20/2015 Forward Crosstalk Next 1 2 1v 0v t=0t=0TrTr x=0x=0 x=lx=l 0.5v V Clf V Dlf l/v C l/v D VSVS Matched Termination

9 - David M. Zar - 5/20/2015 Forward Crosstalk Next (cont.) OR

10 - David M. Zar - 5/20/2015 Configurations v O > v E –Microstrip v O < v E –300 Ohm TV or Twisted Pair or flat cable (ground alternate conductors, may have gnd plane) v O = v E –Ansley “Black Magic” flat cable. Note wide ground, narrow signal to reduce backward crosstalk –PC board stripline air dielectric Conductors ground signal  r1  r2 Flat cable

11 - David M. Zar - 5/20/2015 Multiple Aggressors We calculate for single aggressor, use superposition for multiple aggressor lines Typical coupling is a little more than twice that for single agressor line Victim Major Crosstalk Contributors Small Contribution

12 - David M. Zar - 5/20/2015 What Else? Simulation (SPICE) is widely used in evaluating/calculating transmission line waveforms –Can easily deal with lossy lines, non-linear termination, etc –Time consuming to setup and evaluate –Has replaced measurement for the most part (still want to get some confirmation from measurement (reality)) –You must know what questions to ask –If you don’t simulate critical cases, don’t learn much Parameters are obtained by Field Solver programs –Maxwell, Mentor, … ($50K or so) –Describe geometry, get L, C, etc –2D (uniform cross-section) and 3D

13 - David M. Zar - 5/20/2015 Crosstalk Wrapup Non-Linear terminations: Use Bergeron method (covered later) Backward crosstalk lasts for round-trip propagation delay and amplitude is independent of coupled length (for t r < round-trip delay) Forward crosstalk is proportional to length, zero for homogeneous dielectric, width equal to T r and amplitude inversely proportional to T r. Typically small for moderate length with inhomogeneous dielectric. Both forward and backward crosstalk will be reflected from non- matched terminations. Separate signals, place signals close to ground plane, use differential signals, …

14 - David M. Zar - 5/20/2015 Need to Mention Limits We have not considered radiation or energy loss. When distance between conductor and return is small with respect to rise/fall time our approximation is good. When rise/fall time becomes comparable to signal-return spacing the system acts as antenna radiating energy. –Our model is no longer valid Loss of signal amplitude or energy EMI (electromagnetic interference) which is frowned on by FCC and any one with radio or tv receivers. –Not usually a problem of coupling to digital signals, energy is too small. –More complicated problem than digital crosstalk and not dealt with in CSE464. However, keep lateral dimensions and spacings small! –Electromagnetic fields and antennas