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Using MathCAD, Matlab and PSpice for electronics simulations

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Transfer Impedance. ZT d / 2prCe. Low cut-off frequency. fc = 1/2pRLCe ... Constant Impedance Bessel Filter input matching. Goal functions and constraints ... – PowerPoint PPT presentation

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Title: Using MathCAD, Matlab and PSpice for electronics simulations


1
Using MathCAD, Matlab and PSpice for electronics
simulations
  • CARE Workshop
  • Lueneburg (Germany)
  • November 30th and December 1st 2006
  • José Luis Gonzalez CERN/AB/BI

2
Outline
  • Introduction
  • MathCAD examples
  • Position Monitors
  • Design parameters for PSpice
  • PSpice simulations
  • Electrostatic BPMs
  • The optimizer
  • Matlab overview
  • Summary

3
Introduction
  • Mathematical tools
  • Accurate calculations
  • Fast and easy parameter changes
  • Electronics simulation
  • Avoids breadboarding and facilitates design
  • Application examples
  • BPM models
  • Accelerator beam data analysis

4
MathCAD
5
Using MathCAD
  • Button type BPM

  • Transfer Impedance
  • ZT? ? d / 2prCe
  • Low cut-off frequency
  • fc 1/2pRLCe
  • (usually gt 100 MHz)

6
Using MathCAD
  • Button type BPM

7
Using MathCAD
  • Button type BPM
  • Cel 8.9 pF
  • Zinf 1.8 Ohm
  • fc 360 MHz

8
Using MathCAD
  • HF - Button type BPM

9
Using MathCAD
  • The LHC coupler

10
PSPICE
11
Simulation with PSpice
  • LHC Button model using PSpice parameters

12
Simulation with PSpice
  • Beam model using PSpice parameters
  • Piecewise Linear Current Source associated to a
    definition file to generate a Gaussian beam signal

13
Simulation with PSpice
  • Beam model
  • Simulating several beam intensities

14
Simulation with PSpice
  • Button and Bessel low-pass filter PSpice
    parametric analysis
  • Beam intensity variation
  • 2.109 ? 2.1011 p/b

15
Simulation with PSpice
  • Button and Bessel low-pass filter response to
    different bunch lengths
  • 5.1010 p/b
  • Bunch s varies from 1 to 5 ns

16
Simulation with PSpice
  • The LHC coupler model

17
Simulation with PSpice
  • The LHC coupler

18
Simulation with PSpice
  • The LHC coupler response

19
PSpice Optimizer
  • Constant Impedance Bessel Filter
  • Input impedance matching optimization

20
PSpice Optimizer
  • Constant Impedance Bessel Filter input matching
  • Goal functions and constraints
  • S11 lt 50 dB Zin 50 Ohms

21
PSpice Optimizer
  • Constant Impedance Bessel Filter
  • Optimization results

22
PSpice Optimizer
  • Constant Impedance Bessel Filter realization

23
PSpice Optimizer
  • LHC - WBTN Bessel Filter

24
PSpice Optimizer
  • LHC - WBTN Bessel Filter

21.3p
21.5p
21.8p
25
Matlab
26
Using Matlab
  • CERN-PS Beam data analysis
  • FFT
  • Q-calculation

27
Using Matlab
  • Windowing actual data

28
Using Matlab
  • SPS beam data analysis

29
Using Matlab
  • SPS Q-Measurement data analysis

30
Summary
  • MathCAD and Matlab are very powerful tools for
    the engineer
  • Data analysis
  • Mathematical modeling
  • PSpice has proven to be an essential tool for
    circuit simulation
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