EPE-TRAINING-E/US Electrical Power Training Program
Training program using webcast and supporting guidebook to help to understand the major elements that affect power quality
Electrical power usage is changing constantly. This means load on the electric network is changing: more harmonics and unbalance. This so-called 'bad' power costs money and wastes energy. To deal with this, we often need more understanding of the disturbances on the electrical network.
Fluke now offers a comprehensive training program on electrical power, helping you to understand and identify energy savings. Our webcast and supporting guidebook help to understand the major elements that affect power quality: particularly inductive loads, harmonic distortion, and three-phase power unbalance. This will help you solve power problems, now that electrical loads in industrial and commercial buildings are often too complex to be calculated by the classical model of power.
You can view Part 1 of the webcast for free, but need to purchase the complete program. The electrical power training program includes a USB with webcase, 117 page printed reference guidebook (to support the webcase), and a poster.
Solve power problems you meet in your daily work, now that electrical loads in industrial and commercial buildings are often too complex to be calculated by the classical model of power.
Understand the major elements that affect power quality with our online webcast and supporting guidebook:
• Particularly inductive loads
• Harmonic distortion
• Three-phase power unbalance
The webcast exists of the following chapters:
Part 1: Basic DC power and single phase AC power
Part 1b: Case study: Single phase measurements
Part 2: Three-phase AC power: Symbols and colors, balanced sine-wave systems, WYE and delta systems
Part 3: Three-phase AC power: Unbalanced sine-wave systems, symmetrical components, unbalanced sine-wave examples
Part 3b: Case study: The costs of reactive power
Part 4: Three-phase AC power: Combined power, neutral currents, power summaries
Part 5: Single-phase and three-phase power losses
Part 5b: Case study: Energy loss analysis
Part 6: Summary
