AllegroPCB数字信号完整性.ppt

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1、1,Using Allegro PCB SI to Analyze a Boards Power Delivery System from Power Source to Die Pad,International Cadence Usergroup Conference September 15 17,2003Juergen Flamm,Cadence,2,About the Author,Juergen FlammSenior Technical Sales LeaderCadence Design Systems,Juergen holds a MS EE degree from the

2、“University Fridericiana”in Karlsruhe(Germany)Throughout his career,he has been actively involved at all levels and in all aspects of electronic design.He started designing wideband telephony line amplifiers and repeaters at AEG Telefunken.Next he joined Litef(Litton Germany)as the lead engineer for

3、 sensor electronic development.He designed mixed mode analog/digital ASICs,miniaturized hybrid electronics and next level multi-board system in a box electronics.He relocated to the United States in 1990 to join Litton corporate as the leader of an international technology transfer team.Shortly afte

4、r,he was promoted to manager of the Analog Design Group to move on to manager of the Electronic Engineering Department.With the beginning of 2001,a planned careerr change brought Juergen to Cadence.He joinedPSD as a Senior Technical Sales Leader with focus on the Allegro PCB SI family of tools.He ho

5、lds 5 patents in the areas of performance electronics for fiber optic and MEMS sensors.,3,Agenda,IntroductionDescribing the problem Developing a SolutionStep1:Power delivery system analysis for a board using Allegro PCB PI Step2:Power delivery system analysis for a board/package combination using Al

6、legro PCB SI SSN Step3:Combining Step1 and Step2 and moreSummaryQ&A,4,Introduction,Todays high speed circuits,operating at fast edge rates(100MHz),combined with decreasing supply voltage and increasing supply current demands,have been placing growing challenges on the design of power delivery system

7、s.This presentation will show how Allegro PCB SI can be utilized to perform post-layout analysis of the power delivery system of a completed board design(see ICU 2003 paper#2 for details).Post-layout analysis is only one use model of Allegro PCB SI.The tools real power will be experienced when also

8、proactively employed for pre-layout design and analysis as well as for floor planning of a power delivery system.However,these use models are not subject of this presentation.,5,Describing the Problem,Example:,Parasitic elements in the PWR/GND supply path cause power supply noise and fluctuations on

9、 the chip supply rails,6,Describing the Problem(cont.),Multiple elements must be considered simultaneously when analyzing a boards PWR/GND path from power source to the chip supply rails.Board power source(VRM)Output current slew rate capability,dynamic source impedance,Board plane structuresDiffere

10、ntial and common mode impedance,resonances,Board decoupling capacitorsType,quantity,pin escape and via connections,placement location,-Board traces and associated viasInterconnecting PWR/GND planes and chip package pins,Package model(chip)Pins,traces,planes,vias,bond wires,7,Developing a solution,St

11、ep1Analyze a boards PWR/GND plane pairs impedance,including decoupling capacitors,using Allegro PCB PI frequency domain simulation.Step2Analyze the PWR/GND connection path from planes to the chip power rails using Allegro PCB SI SSN time domain simulation.Step3Append Step2 model with Step1 source im

12、pedance model.Use appended model and Allegro PCB SI SSN simulation to evaluate PWR/GND bounce impact on signal waveform and timing.,8,Step1,Allegro PCB PI Prepare board for and run Allegro PCB PI frequency domain simulationsComplete Allegro PCB SI“Setup Advisor”,focus on“Identify DC Nets”Complete Al

13、legro PCB PI“Setup Wizard”,select at least 1 standard library capacitorUse“Report”to identify capacitor types per plane pairCreate/assign models for/to identified capacitor typesUnder“Cap Libraries”in Board Folder and select used capacitor typesApproximate maximum worst case switching current,place

14、noise source Determine VRM model parameters and place VRM Set preferences and run multi node simulationsAnalyze resulting impedance graphsOptionally determine a simple worst case source impedance model(R,L,C),9,Step1,Design&Analysis,Report,Library Setup,10,Step1,Board with highlighted Plane Shapes,V

15、RM,Noise Source,Grid Size,11,Step1,Multi Node Simulation result,Simple source impedance approximation:Z=40mOhm+j2pi*f*0.32nH,12,Step2,Allegro PCB SI-SSNPrepare board for and run Allegro PCB SI SSN time domain simulationsUse Allegro PCB SI“Setup Advisor”,focus on“Device Setup”and“SI Model assignment”

16、Check targeted device model for pin parasitic valuesAssign power bus to associated power pins of device modelAssign ground bus to associated ground pins of device modelAssign power and ground bus to desired simultaneously switching I/O pins of device modelSelect preferences as intended and run Alleg

17、ro PCB SI SSN simulation to create waveforms,13,Step2,Power&ground bus assignments,Pin data,A large package model instead of pin data could be used to provide a more comprehensive model.,Device model preparation,14,Step2,Power and ground bounce wave forms,15,Step2,Additional signal waveform evaluati

18、on optionsExtract net into Allegro PCB SI 210(SigXp)tool,add current probe and perform reflection simulationEvaluate single net voltage and current waveformsHelpful to determine/validate rise/fall times and maximum switching current used in step1Set up and run EMI simulationEvaluate single net spect

19、ral current distributionHelpful to determine needed bandwidth for target impedance in step1,16,Step2,Extracted net with current probe,Driver voltage wave form,Driver current wave form,Spectral current distribution,17,Step3,Allegro PCB SI SSN with added simple source impedance model parameters from S

20、tep1Use R and L model from Step1(slide 11)Divide R and L in half and add the values to each power and ground pins parasitic values in the device model.Other optionsAdd to large package model parametersCombine Step1 and Step2 net lists,18,Step3,Comparison of Allegro PCB SI-SSN simulations with and wi

21、thout additional source impedance model added to pin parameters,19,Step3,MorePerforming a comparison between Reflection and SSN simulation results.Evaluate power and ground bounce impact on a signals waveformEvaluate power and ground bounce impact on a signals timingEvaluate,20,Step3,Reflection/SSN

22、simulation comparison,Falling edge detail,21,Summary,Using Allegro PCB SI,we have briefly introduced options to perform post-layout analysis of a power delivery path from power source to the chip supply rails.We have used a three step approach utilizing Allegro PCB PI(SQ-PI)and Allegro PCB SI-SSN op

23、tions and features of the tool.We have briefly touched on capabilities,which enable the design engineer to perform comprehensive types of simulations.For example:Simulating the effect of power and ground bounce on signal waveform and timing.Knowing and intelligently utilizing the features and options of Allegro PCB SI can significantly increase a design engineers success.For example:Performing virtual prototyping,pre-layout analysis and floor planning of the power delivery system.,22,Q&A,Contact information:Juergen FlammCell phone:818-642-2633Office phone:818-881-9965E-mail:,23,