Short Course: EMC Fundamentals and a Little Beyond
The EMC engineer must understand why an electronic system fails in a given electromagnetic environment or predict the conditions under which a system might fail due to electromagnetic disturbances. In both scenarios, the engineer must deliver solutions swiftly, keeping in mind today's stringent cost constraints.
This course introduces a technique designed to equip EMC engineers with the skills to address these challenges effectively. It provides an overview of the key aspects of the technique and presents fundamental principles that pave the way for further advancements. Ultimately, the goal is to enable engineers to resolve a wide range of EMC problems.
Solving EMC problems quickly requires a delicate balance between rigor, simplicity, and robustness, rather than complexity and exactitude. The proposed technique, based on the tensor analysis of networks, is intended to achieve this balance.
The course will cover the following topics:
v Principles of tensor analysis of networks,
v Concept of strings and wave space,
v scale concept and associated models,
v near-field and far-field concepts,
v models of crosstalk, electronics and cavities,
v electromagnetic interactions between reference frames
A handout summarizing the course will be provided.
Date and Time
Location
Hosts
Registration
- Date: 13 Nov 2024
- Time: 01:15 PM UTC to 03:00 PM UTC
-
Add Event to Calendar
- ELD 138, EPFL
- Lausanne, Switzerland
- Switzerland 1015
- Room Number: ELD 138
- Click here for Map
- Contact Event Host
- Co-sponsored by EMC LAB EPFL
- Starts 06 November 2024 11:00 PM UTC
- Ends 13 November 2024 12:00 PM UTC
- No Admission Charge
Speakers
Dr. Olivier Maurice
Short Course: EMC Fundamentals and a Little Beyond
The EMC engineer must understand why an electronic system fails in a given electromagnetic environment or predict the conditions under which a system might fail due to electromagnetic disturbances. In both scenarios, the engineer must deliver solutions swiftly, keeping in mind today's stringent cost constraints.
This course introduces a technique designed to equip EMC engineers with the skills to address these challenges effectively. It provides an overview of the key aspects of the technique and presents fundamental principles that pave the way for further advancements. Ultimately, the goal is to enable engineers to resolve a wide range of EMC problems.
Solving EMC problems quickly requires a delicate balance between rigor, simplicity, and robustness, rather than complexity and exactitude. The proposed technique, based on the tensor analysis of networks, is intended to achieve this balance.
The course will cover the following topics:
v Principles of tensor analysis of networks,
v Concept of strings and wave space,
v scale concept and associated models,
v near-field and far-field concepts,
v models of crosstalk, electronics and cavities,
v electromagnetic interactions between reference frames
A handout summarizing the course will be provided.
Biography:
Dr. Olivier Maurice works on the tensor anlaysis of networks since 1988. Author of more than two hundred papers and five books on the subject, he has developed the concept of cords extending the formalism to complex interactions, including multiphysics as game theory. O.Maurice has a doctorate of science in electronics.