Level II Certified Infrared Thermographer Training Online or Onsite

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Level II Certified Infrared Thermographer® is a five-day course for the application of quantitative thermal imaging and temperature measurement for P/PM, Condition Monitoring, Quality Assurance, and Forensic Investigations.

This course covers advanced infrared theory, equipment calibration, error sources, cross-verification with contact thermometers, advanced equipment operation, use of windows and filters, assigning temperature limits and repair priorities, and quantitative report generation.

Infraspection Institute is recognized by the Society for Maintenance & Reliability Professionals (SMRP) as an approved provider of continuing education and training aligned with key subject areas related to reliability and physical asset management.

Students are encouraged to bring their own imager for individualized training or to learn how to use it more effectively.

Course tuition includes all course presentations, Student Reference Manual, and Infraspection Institute Certified Infrared Thermographer® exam. Certification card and diploma issued with a passing grade of 80%.

This course is eligible for 35.5 NETA Continuing Technical Development Credits (CTDs). NETA Certified Technicians (Level III and Level IV) are required to earn a minimum of 48 CTDs every three years to maintain their certification.

The course is approved by the InterNational Association of Certified Home Inspectors for 32 hours of continuing education and meets the training requirements for their Infrared Certified professional designation and logo.

Prerequisite: Level I Certification

Level II Thermographer Training Curriculum

1. Thermometry Fundamentals 

  • Temperature scales and conversions
  • Absolute and relative temperatures
  • Classes and benefits of contact thermometers
  • Classes and benefits of non-contact thermometers
  • Identifying and reducing errors

2. Advanced IR Theory

  • Units for measuring radiant power
  • Relationship between power and temperature
  • Planck’s blackbody curves

3. Temperature Measurement Error Sources and Corrections

  • Calibration
    • how IR sensors are calibrated
    • how to check calibration
    • calibration/accuracy specifications
  • Reflectance
    • shielding techniques
    • measuring & compensating for with direct and reflector methods
  • Emittance
    • how emittance varies
    • using default and table values
    • how to measure emittance
  • Transmittance
    • filters to view through materials and atmospheres
    • filters to measure temperatures of material surfaces and atmospheres
    • measuring material transmittance
  • Target Width/Distance Ratios
    • calculating target size/distance

4. Traceable Temperature Limits: How Hot is Too Hot

  • Delta-T classifications
    • NETA, Mil Spec, and other standards
  • Absolute temperature classifications
    • ANSI, IEEE, NEMA standards for electrical systems
    • correction formula for load and ambient temperature
    • other standards for mechanical systems
  • Developing limits for your equipment

5. Preparing Quantitative Reports

  • Data to gather
  • Report procedures
  • Image processing software capabilities
  • Report generation software capabilities