(1) understand
and be able to use the PSPICE circuit analysis program in solving EMC
problems;
(2) be able to
view the typical digital signals both in the time and the frequency
domains, and will understand the relationship between the time-domain
parameters and the spectral content of the signal;
(3) understand
the non-ideal (parasitic effects) of components (wires and PCB lands,
resistors, capacitors, inductors, ferrites, etc.);
(4) understand
how to redesign a power supply filter to reduce the conducted
emissions of a product;
(5) understand
the basic properties of all antennas whether they be used for
measurement of compliance or in immunity testing;
(6) understand
how radiated electromagnetic fields are produced in an electronic
product and design methods that reduce those emissions;
(7) understand
how electromagnetic shielding is accomplished and the factors that
affect those properties;
(8) understand
how to design high-speed digital circuit to preserve signal integrity;
(9) understand
crosstalk and the options that the designer has to control crosstalk;
(10) understand
the basic principles of proper PCB layout that controls radiated and
conducted emissions.
SCHEDULE
Monday, 18 August 2008
1:30 pm to 3:30 pm
Conducted Emissions and Power Supply Filters
Professor
Mark Steffka,
Electrical and Computer Engineering Department University of Michigan,
Dearborn, Michigan, and GM Powertrain EMC Group, Milford, Michigan,
USA
Outline: Brief
review of the conducted emission regulatory requirements, the LISN,
common-mode and differential-mode currents, analysis of typical power
supply filters.
3:30 pm to
5:30 pm
Shielding
Professor
Christos
Christopoulos, School of Electrical and Electronic Engineering,
University of Nottingham, Nottingham, United Kingdom
Outline: Meaning
and uses of shielding, quantitative evaluation of shielding, gasketing,
effects and mitigation of apertures.
Tuesday, 19
August 2008
8:00 am to 12:00 pm
Use of PSPICE in Solving EMC Problems
Professor
Clayton Paul,
School of Engineering Mercer University, Macon, GA, USA
Outline:
Download PSPICE, basic program preparation and coding rules, solving
DC circuits, solving AC circuits using the phasor circuit analysis
method (frequency response and filters), solving for the time-domain
solution of circuits.
1:30 pm to
5:00 pm
Overview of Numerical Methods
Professor
Todd Hubing,
College of Engineering and Science, Clemson University, Clemson, SC,
USA
Outline:
Principles of field solvers (FDTD, MoM, FEM, BEM, etc.),
electromagnetic modeling, and simulation for EMC prediction and
assessment.
Wednesday,
20 August 2008
8:00 am to 10:00 am
Transmission Lines: Time-domain and Signal Integrity
Professor
Jim Drewniak,
Electromagnetic
Compatibility Laboratory, Missouri University of Science and
Technology, Rolla, MO, USA
Outline:
Time-domain solution of the transmission-line equations, SPICE
solutions, effects of mismatch, signal distribution, power
distribution and decoupling, effects of losses.
10:00 am to
12:00 pm
Transmission Lines: Frequency-domain and Crosstalk
Professor
Marco Leone,
Institute for
Fundamental Electrical Engineering and EMC,
Otto-von-Guericke-Universität, Magdeburg, Germany
Outline: Models
for electrically-short lines (inductive and capacitive coupling),
shielded wires and twisted pairs, numerical methods for electrically
long and/or lossy lines.
Thursday, 21 August 2008
8:00 am to 10:00 am
Antennas and Radiation EMC Standards
Professor
Andy Marvin,
Electronics
Department, University of York, York, United Kingdom
Outline: The
Hertzian and loop dipoles, the half-wave dipole and the quarter-wave
monopole, antenna arrays, general properties of antennas, Friis
transmission formulas, multipath, standard test sites and measurement
equipment
10:00 am to
12:00 pm
PCB Layout and System Configuration for EMC
Professor
Kye-Yak See,
School of
Electrical & Electronic Engineering Nanyang Technological University
Singapore
Outline: PCB
layout considerations vs. radiated emissions; correlation of ground
bounce and radiated emissions; common mode on cables and its
radiation.
REGISTRATION
FEES
Please note that
full registration for the IEEE EMC Symposium is required to
participate in the
2008 Global EMC
University. The additional fee for the Global EMC University is $275
USD if received on or before May 14 or $375 USD if received after this
date. Attendance at the Global EMC University is limited to ensure
interaction with the instructors. Please register early to reserve
your space.
A certificate of completion will be provided to students who have signed
in and signed out each day thereby confirming 100% attendance at all
lectures. CEUs will be assigned to this course.
NOTE: In order to take complete advantage of the presentations, attendees
are strongly encouraged to BRING LAPTOP OR NOTEBOOK COMPUTERS (WITH
CD-ROM CAPABILITY) TO THE SEMINAR.
CLASS OPEN TO PRE-REGISTERED STUDENTS ONLY.
“The
IEEE has been approved as an Authorized Provider by the International
Association for Continuing Education and Training (IACET). In
obtaining this approval, the IEEE has demonstrated that it complies
with the ANSI/IACET Standards which are widely recognized as standards
of good practice internationally. As a result of their Authorized
Provider membership status, IEEE is authorized to offer IACET CEUS for
its programs that qualify under the ANSI/IACET Standards.”
IACET CEU Provider #1255
