TRAINING CONTENTS
Basic Training Categories
We don't offer training courses with a fixed schedule.
Each training program is tailored to the participant and the project, based on the targeted engineering competencies and the required technical depth.
However, we structure our training programs around three main frameworks:
01
02
03
Level 1
Basic Concepts
Infrastructure
Training programs designed to build a conceptual foundation in electromagnetic analysis, EMI/EMC, and related engineering fields.
Basic Concepts
Interface and Usage
Basic Application Examples
Interactive Q&A
Level 2
Analysis with Realistic Scenarios
Trainings that apply simulation and analysis tools to real engineering problems.
Related L1 Training Summary
Application-based method
Examples Defined Together
Interactive Q&A
Level 3
Operational Analysis
Infrastructure
Advanced training programs tailored to specific client needs, including analysis studies and project scenarios.
Related L1&2 Training Summary
Birlikte Belirlenen Örnekler
Projeye Özel Analiz Kurulumu
Etkileşimli Soru-Cevap
i
The software names mentioned on this page are used solely to indicate the scope of the content. The trainings are independent of the respective software providers and are not subject to official certification. The content is presented in a way that can be adapted to different electromagnetic analysis tools.
Training Topics
The program offers effective use of electromagnetic simulation tools, application-based analysis approaches, and fundamental and advanced engineering training in the fields of electromagnetic (EM) and EMI/EMC.
Introductory Trainings
01
Electromagnetic Simulation
Tools
Technical training is structured to build practical engineering capability in EM simulation, from modeling approach and solver selection to hands-on application and interpretation of results.
Training Content:
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EM modeling and analysis approach
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Boundary conditions, excitation, mesh, analysis setup and solution strategies
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Interactive live implementation of relevant analysis examples
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Interpretation of results within an engineering context
Software-Based Modules:
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Full-Wave EM Solvers
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Power/Signal Integrity Tools
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Platform-Level EMI/EMC Tools
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Electromechanical Analysis Software
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Electronics Cooling and Thermal Analysis Tools
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Other Relevant EM and Multi-Physics Analysis Tools
Training Level: Level 1, Introductory
Training Duration: 2–3 Days, per tool
Prerequisite: Familiarity with foundational electromagnetic concepts
02
Electromagnetics
for Engineers
An introductory course that builds a practical foundation in electromagnetic principles and interaction mechanisms, with a focus on their effects in real engineering systems.
Training Content:
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The concept of electromagnetic fields and fundamental quantities.
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Wave behavior, propagation and interaction mechanisms.
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Conductive, dielectric, and material effects.
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Introduction to EMI/EMC concepts.
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Coupling mechanisms (conduction, radiation, capacitive/inductive)
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EM effects in real engineering systems (PCB, cable, antenna, etc.)
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Electromagnetic effects of design decisions
Education Level: Level 1, Introductory
Training Duration: 2 Days
Prerequisite: Foundational engineering and physics knowledge.
03
Introduction to Electromagnetic Compatibility (EMC)
An introductory course covering the concepts of electromagnetic interference and compatibility, along with fundamental physical principles and practical engineering applications.
Training Content:
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Fundamental principles of electromagnetic behavior, including the relationship between fields, waves and frequency
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Time-domain and frequency-domain perspectives, including the Fourier approach
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EMI, Electromagnetic Interference, and EMC concepts
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Sources and formation mechanisms of electromagnetic interference
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Coupling mechanisms, including conduction, radiation, capacitive and inductive effects
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Conducted Emission (CE) ve Radiated Emission (RE)
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Conducted ve Radiated Susceptibility (CS/RS)
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EMI formation in real systems, including PCB, cable and component behavior
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EM effects from the perspective of signal integrity, SI, and power integrity, PI
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Fundamental approach and solution methodologies for EMC problems
Training Level: Level 1, Introductory
Training Duration: 2–3 Days
Prerequisite: Foundational engineering and physics knowledge
Application-Based Trainings
04
Component and Platform Level
RF & Antenna Analysis
Training courses are offered that address electromagnetic analysis approaches for RF and antenna systems through various application scenarios.
Application-Based Modules:
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Antenna & RF/Microwave Components
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Antenna Placement and Inter-Antenna Coupling
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Radar Cross Section, RCS, and ISAR/Range Resolution
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Radar / ADAS Scenarios
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Frequency Selective Surface, FSS, and Radar Absorbing Material, RAM
Training Content:
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EM modeling and analysis approach
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Brief refresher on the relevant analysis software, if the Level 1 training has not been attended
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Selection of the appropriate solution method and solver
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Interactive implementation of analysis examples
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Interpretation of results within an engineering context
Training Level: Level 2, Intermediate
Training Duration: 2 Days, per application area
Prerequisite: Foundational knowledge of electromagnetic concepts and basic proficiency in the relevant analysis software
* If multiple training modules are planned together, the training scope and level may be restructured based on common content.
05
EMI/EMC & Interaction
Analyses
Training courses are offered that address EMI/EMC problem analysis approaches at the hardware and system levels.
Training Content:
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An analytical approach to the EMI/EMC problem.
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Hardware-level electromagnetic interaction, coupling, and interference mechanisms.
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Analyzing the effects of cabling, grounding, and shielding from an analytical perspective.
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Analysis approach within the scope of Conducted/Radiated Emission and Susceptibility (CE/RE/CS/RS).
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A quick reminder regarding the relevant analytics software (if you did not participate in the introductory level).
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Selection of the appropriate solution method and solver
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Interactive application of analysis examples.
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Relating the results to engineering decision-making processes.
Training Level: Level 2, Intermediate
Training Duration: 2 Days
Prerequisite: Foundational knowledge of electromagnetic concepts and basic proficiency in the relevant analysis software
06
Power and Signal Integrity
(SI/PI) Analyses
Training courses are offered that address EMI/EMC problem analysis approaches at the hardware and system levels.
Training Content:
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Analysis approach for EMI/EMC problems
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Hardware-level electromagnetic interaction, coupling and interference mechanisms
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Evaluation of cabling, grounding and shielding effects from an analysis perspective
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Analysis approach within the scope of Conducted/Radiated Emission and Susceptibility, CE/RE/CS/RS
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Brief refresher on the relevant analysis software, if the Level 1 training has not been attended
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Selection of the appropriate solution method and solver
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Interactive implementation of analysis examples
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Relating analysis results to engineering decision-making processes
Training Level: Level 2, Intermediate
Training Duration: 2 Days
Prerequisite: Foundational knowledge of electromagnetics and circuit theory, together with basic proficiency in the relevant analysis software
07
Electromagnetic Environmental Effects (EME)
The impact of electromagnetic environmental effects on platform behavior, Trainings are conducted in accordance with standards such as MIL-STD-464 and DO-160.
Application-Based Modules:
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Direct and Indirect Effects of Lightning
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Electromagnetic Environment and Threat Analyses, HERF, HERO, HERP, HIRF and EMP
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Platform-Level Electromagnetic Interaction and Coupling Analyses
Training Content:
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System-level analysis approach for electromagnetic environmental effects
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Lightning Effects:
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Direct / Indirect lightning etkileri ve transient davranışlar
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Evaluation of cabling and system-level effects
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Electromagnetic Environment and Threats:
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HERF, HERO and HERP effects within the scope of EME
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Electromagnetic interactions caused by HIRF and EMP sources
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Platform-Level Interaction:
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Cabling, hardware and platform interactions
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Analysis of coupling and propagation mechanisms
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Brief refresher on the relevant analysis software, if the Level 1 training has not been attended
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Selection of the appropriate solution method and solver
-
Interactive implementation of analysis examples
-
Relating analysis results to engineering decision-making processes
Training Level: Level 2, Intermediate
Training Duration: 2 Days, per application area
Prerequisite: Familiarity with foundational electromagnetic concepts and interest in system-level EM behavior
* If multiple training modules are planned together, the training scope and level may be restructured based on common content.
08
Hardware Level
Multiple-Physics Analyses
Trainings focusing on multi-physics approaches where electromagnetic analyses are considered along with hardware-level thermal and structural effects.
Training Content:
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An approach to evaluating thermal and structural effects associated with electromagnetic analysis.
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Analysis perspective on DC IR and power distribution.
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Investigation of electrothermal behavior and thermal distribution.
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Basic level assessment of thermal stress and deformation.
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Introduction to structural and modal analysis at the hardware level.
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Physical modeling of the problem and definition of the scope of analysis.
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Selection of appropriate solution methods and analysis tools.
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Examining examples of scenario-based analysis.
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Interpreting the results and translating them into engineering decisions.
Education Level: Level 2, Intermediate
Training Duration: 2-3 Days
Prerequisite: Familiarity with foundational electromagnetic analysis approaches and basic technical knowledge in related fields.
09
Analysis of Electromechanical Components
Application-oriented training focusing on the modeling and analysis of electromechanical systems such as electric motors and transformers using electromechanical analysis tools.
Training Content:
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Fundamentals of electromagnetic fields and the magnetic circuit approach
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Introduction to the software environment and solution types, including Magnetostatic, Transient and Eddy Current analyses
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Definition of magnetic materials and modeling of non-linear behavior
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Creation of an electric motor structure, including stator–rotor geometry
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Winding definitions and excitation structures
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Calculation of torque, back-EMF and basic performance outputs
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Leakage flux and loss analysis in transformers and magnetic components
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Investigation of eddy current and hysteresis losses
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Evaluation of dynamic behavior through transient analysis
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Interpretation of field distributions and identification of critical regions
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Transforming simulation results into engineering decisions
Education Level: Level 2, Intermediate
Training Duration: 2-3 Days
Prerequisite: Fonational knowledge of electromagnetics and introductory-level familiarity with electrical machines
Advanced Training Courses
Structured training programs that encompass all of the above-mentioned trainings, conducted through participants' own problem definitions and analysis models.
Advanced training and study sessions are offered that can be adapted to electromagnetic topics not covered in the standard training content.
These sessions proceed using a workshop approach, where model setup and analysis processes are addressed together.
Customized Advanced Training Sessions
The trainings proceed through participants' existing scenarios and analysis setups; modeling assumptions, solution methods, and results are evaluated from an engineering perspective.
Training Content:
The problem definition and the existing engineering context are clarified together.
Analysis scenarios, modeling approach, and solution design are created together.
The results are evaluated together and linked to engineering decisions.
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The necessary introductory and application-based trainings are structured in a way that is appropriate to the scope of the problem.
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The studies are conducted using the participants' existing analytical models.
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Model setup, solution settings, and analysis strategies are reviewed together.
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An analysis approach is developed through different scenarios.
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Niche topics in electromagnetics can be addressed within this scope as needed.
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The results obtained are evaluated in terms of relevant performance criteria and engineering requirements.
Education Level: Level 3, Advanced
Training Duration: 2-5 Days
Prerequisite: Familiarity with fundamental electromagnetic concepts and analytical approaches; preferably knowledge of the problem to be studied and the existing analytical model.
