Certified EMP, HEMP, and TEMPEST (CEHT) Engineer Training by Tonex
This comprehensive training program is designed for engineers seeking certification in Electromagnetic Pulse (EMP), High-Altitude Electromagnetic Pulse (HEMP), and TEMPEST technologies. Participants will gain in-depth knowledge and hands-on experience to become certified CEHT Engineers, capable of designing and implementing EMP, HEMP, and TEMPEST mitigation solutions.
The cost to attend is $2,999.00 each for Tonex Site or live online.
Learning Objectives:
Upon completing the course, participants will be able to:
- Explain the principles of Electromagnetic Pulse (EMP), High-Altitude Electromagnetic Pulse (HEMP), and TEMPEST technologies.
- Analyze the different types of EMP and HEMP threats and their potential impact on critical infrastructure.
- Design effective EMP and HEMP mitigation strategies, including shielding, grounding, and protective measures.
- Assess and evaluate EMP and HEMP vulnerability in systems and infrastructure.
- Implement TEMPEST measures to reduce electromagnetic emissions and susceptibility.
- Conduct EMP, HEMP, and TEMPEST testing and evaluations using appropriate equipment and methods.
- Apply best practices for designing EMP and HEMP-protected systems and implementing TEMPEST security.
- Prepare for and pass the CEHT certification exam.
Target Audience:
- Electrical engineers
- Electronic engineers
- Cybersecurity professionals
- IT professionals involved in critical infrastructure
- Government and military personnel responsible for secure communications
- Anyone seeking certification as a CEHT Engineer
Course Outline:
Module 1: Introduction to EMP, HEMP, and TEMPEST
- Understanding electromagnetic threats
- Historical EMP and HEMP events
- Introduction to TEMPEST requirements
Module 2: Electromagnetic Theory and Principles
- Electromagnetic spectrum and propagation
- Principles of EMP and HEMP
- TEMPEST shielding and filtering
Module 3: EMP and HEMP Threats
- Types of EMP and HEMP events
- Impact on critical infrastructure
- Case studies of EMP and HEMP incidents
Module 4: TEMPEST Fundamentals
- TEMPEST standards and regulations
- Emission security (EMSEC) principles
- Conducted and radiated emissions
Module 5: EMP, HEMP, and TEMPEST Mitigation
• Shielding techniques and materials
• Grounding and bonding for EMP and HEMP
• TEMPEST countermeasures and filters
Module 6: EMP and HEMP Testing and Evaluation
- EMP and HEMP testing procedures
- Assessing system vulnerability
- Test equipment and instrumentation
Module 7: TEMPEST Testing and Evaluation
- TEMPEST test methods
- Reducing emissions and susceptibility
- TEMPEST test equipment
Module 8: Practical Applications and Case Studies
- Designing EMP and HEMP-protected systems
- Implementing TEMPEST measures
- Real-world case studies and best practices
- Labs
Module 9: Certification Exam Preparation
- Review of key concepts and skills
- Practice exams and assessments
Module 10: Certification Exam
- Final examination covering course content