Certified TEMPEST Engineer (CTE) Training

Public Training with Exam: 


Tonex offers a Certified TEMPEST Engineer (CTE) Training program, focusing on protecting sensitive electronic information from electromagnetic emanations. Participants learn TEMPEST principles, testing methodologies, and mitigation strategies, equipping them to address electromagnetic security challenges. The course caters to engineers, security professionals, and project managers involved in electronic system development, offering a pathway to becoming a Certified TEMPEST Engineer (CTE). Graduates are prepared to safeguard critical information in government, defense, and critical infrastructure sectors. The cost for the course is $2,999.00 each.

Learning Objectives:

  • Master the foundational concepts of TEMPEST and its importance in safeguarding electronic systems.
  • Acquire proficiency in TEMPEST testing techniques, including measurement methodologies and data analysis.
  • Develop expertise in the design and implementation of TEMPEST countermeasures for various electronic devices.
  • Understand the regulatory frameworks governing TEMPEST standards and compliance.
  • Gain hands-on experience in conducting TEMPEST assessments and effectively mitigating electromagnetic vulnerabilities.
  • Obtain the certification and skills necessary to excel as a Certified TEMPEST Engineer.


This training is tailored for professionals involved in the design, development, testing, and implementation of electronic systems, as well as individuals responsible for ensuring the security of sensitive information in government, defense, and critical infrastructure sectors. It is ideal for engineers, security professionals, and project managers seeking to enhance their expertise in TEMPEST.



Program Outlines:

Module 1: Introduction to TEMPEST

  • Electromagnetic emanations overview
  • Historical context of TEMPEST
  • Evolution of TEMPEST standards
  • Threat landscape analysis
  • Significance of electromagnetic security
  • Regulatory considerations in TEMPEST

Module 2: TEMPEST Testing Fundamentals

  • Principles of TEMPEST testing
  • Measurement techniques in TEMPEST
  • Essential testing equipment
  • Test site considerations
  • Data acquisition and analysis
  • Interpretation of test results

Module 3: TEMPEST Countermeasure Design

  • Strategies for mitigating electromagnetic emissions
  • Shielding techniques and materials
  • Filtering and suppression methods
  • Grounding and bonding practices
  • TEMPEST-compliant hardware and software design
  • Integration of countermeasures into electronic systems

Module 4: Regulatory Compliance

  • National and international TEMPEST standards
  • Compliance frameworks and guidelines
  • Certification processes and requirements
  • Documentation for regulatory approval
  • Continuous monitoring and updates
  • Legal and ethical considerations in TEMPEST

Module 5: Hands-On TEMPEST Assessments

  • Setting up a TEMPEST assessment environment
  • Conducting controlled experiments
  • Data collection and measurement practices
  • Analysis of test results
  • Identifying vulnerabilities
  • Recommendations for improvement

Module 6: Certification and Professional Development

  • Certified TEMPEST Engineer exam overview
  • Exam preparation strategies
  • Professional ethics in TEMPEST engineering
  • Career pathways in TEMPEST
  • Continuous learning and skill enhancement
  • Networking opportunities in the TEMPEST community

Breakdown of the exam domains, question types, and passing criteria for Certified TEMPEST Engineer Training:

Exam Domains:

  1. TEMPEST Fundamentals: This domain covers the foundational concepts and principles of TEMPEST, including electromagnetic emanations, security risks, and regulatory frameworks.
  2. Testing and Analysis Techniques: This domain focuses on the various testing methodologies, analysis techniques, and tools used to assess and evaluate electromagnetic security vulnerabilities in electronic systems.
  3. Countermeasure Design and Implementation: Participants will be tested on their ability to design, develop, and implement effective countermeasures to mitigate electromagnetic emanations and protect sensitive information.
  4. Compliance and Standards: This domain covers national and international standards, regulations, and best practices related to TEMPEST, ensuring compliance and adherence to industry guidelines.

Question Types:

  1. Multiple Choice: Questions with multiple options where participants select the correct answer(s) from a list of choices.
  2. Scenario-based Questions: Participants are presented with real-world scenarios related to TEMPEST security and are required to analyze, troubleshoot, and provide solutions.
  3. Hands-on Assessments: Practical exercises and simulations where participants demonstrate their ability to apply testing techniques, analyze results, and implement countermeasures effectively.
  4. Case Studies: Participants may be presented with case studies or project scenarios involving TEMPEST challenges, requiring them to evaluate, strategize, and propose solutions.
  5. Essay Questions: Participants may be asked to write essays or reports on specific TEMPEST topics, demonstrating in-depth understanding, analysis, and critical thinking skills.

Passing Criteria:

The passing criteria for the Certified TEMPEST Engineer Training exam may include:

  1. Minimum Score: Participants must achieve a minimum passing score, typically set at a certain percentage (e.g., 75% or higher).
  2. Hands-on Competency: Successful completion of hands-on assessments and practical exercises, demonstrating proficiency in testing, analysis, and countermeasure implementation.
  3. Comprehensive Understanding: Demonstrated mastery of TEMPEST fundamentals, testing and analysis techniques, countermeasure design, compliance with standards, and industry best practices across different question types.
  4. Ethical and Professional Standards: Adherence to ethical guidelines, professionalism, and responsible conduct in TEMPEST engineering practices.
  5. Recommendation or Endorsement: Depending on the certification body, participants may also require a recommendation or endorsement from a qualified TEMPEST professional or supervisor to validate their expertise and competence.

Participants who meet these criteria will be awarded the Certified TEMPEST Engineer credential, signifying their advanced knowledge, skills, and abilities in securing electronic systems against electromagnetic security threats.

Need help? Contact us