Today, both passive and active filters are essential tools for managing harmonic distortion in industries from data centers and HVAC to automation and water/wastewater. Attend this webinar to gain a clear technical understanding of the key differences between passive and active filters, understand how active filters excel in dynamic environments - automatically adapting to changing load conditions to maintain optimal power quality, and discover how new technology is advancing active filter performance.
Overview
As technology advances, power demands are evolving across all industries - from data centers and HVAC to automation and water/wastewater systems. Today, both passive and active filters are essential tools for managing harmonic distortion in these industries. Gain a clear technical understanding to learn the key differences between the two options, enabling you to choose the right product for your application.
Electrical engineers will come to understand how active filters excel in dynamic environments, automatically adapting to changing load conditions to maintain optimal power quality. You’ll discover how new technology is advancing active filter performance — boosting efficiency, reducing losses, improving thermal stability, and enabling units to be significantly smaller and more compact than traditional designs. Be among the first to discover one of the most advanced active filters on the market, and get an up-close look at its design, capabilities, and performance.
Key Takeaways
- Identify the key differences between active and passive filters.
- Learn how active filters adjust automatically to changing conditions.
- Understand how silicon carbide (SiC) improves active filter efficiency and performance.
- Discover how SiC active filters can support future system expansion.
- Get an up-close look at one of the most advanced SiC active filters available today.
Speakers
In overseeing power quality and motor protection product lines, Eberhardt has provided product application training to distributors and end users. His nearly 30-year career includes experience in product management, program management and engineering in complimentary industries with large, multi-national organizations.
Rick has held the position of Electrical Engineering Manager at MTE for more than five years. Having joined the company in 2013, he advanced through multiple engineering roles before stepping into his current leadership position. He leads a team of electrical engineers designing innovative magnetics and electrical assemblies and has also overseen the test lab team to generate real-world data in support of product development. Rick holds a B.S. in Engineering Physics from the University of Wisconsin–Platteville and is currently pursuing his MBA.