【电磁技术在线】【EDA篇】- 1. EDA概览

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讲师：Timo Baruth

00：45 内容简介

06：20 EDA设计流程

09：30 工艺预研

11：20 布局导入

13：10 规则检查

14：40 信号完整性

19：20 电源完整性

21：50 热仿真

The purpose of EDA is to develop and virtually validate new printed circuit board concepts to eliminates physical prototypes, and ensure compliance to functional standards.

0.  Start with Concept

1. Technology Investigation: Verify that best technology in terms of performance is chosen before starting the actual layout phase.

2.Layout Import: Import layout with pecifications from technology investigation.

3. Design Rule Checker: Verify that layout rules to prevent SI, PI and EMCinterference are properly applied to printed circuit board

4. Signal Integrity: Predict the reliability of serial high-speed (PCIe,SATA, ….) and parallel data (DDRx) links.

5. Power Integrity: Simulate DC Drop and High Frequency Noise on power supply nets and optimize decoupling capacitors for impedance minimization.

6. Thermal Simulation: Verify that your device won’t exceed temperature range.

CST PCB Studio: For signal and power integrity analysis of PCBs.

oPCB import

oImpedance calculator

oComponent handling

oRulebased checking (SI/PI/EMC)

oSpezialized solver technology: 2DTL,PEEC, FEFD (3D)

oConvenient workflows: IR-Drop/ SI (TD & FD) / PI / DDR4, DeCap optimization

CST MicrowaveStudio:3D EM Simulation for high frequencies

oHigh accuracy full wave EM 3D solver: Time Domain, Frequency Domain

oTetrahedral & Hexahedral Meshing

oVisualization offields

oPost-Processing

CST Design Studio: For circuit co-simulation and synthesis
oCircuit simulator (Spice)

oData import (Spice, TS, IBIS,…)

oConfigurable blocks: IdealTL, microstrip, stripline, …

oCircuit elements: Passive/ active models, sources, ..

oSimulation tasks: S-Parameter,Transient, AC-Task, …

oControl tasks: Parameter Sweep, Optimization, Post-Processing

CST MPHYSICS Studio:For thermal analysis of PCBs and Components.

oSpecialized EDA import

oCoupled workflows EM – Thermal

oSolvers: THs, THt, CHT