In this video, we will discuss the LC ladder filter design having an Elliptic (Cauer) response characteristics. Elliptic (Cauer) Response have ripple both in the passband and stopband region, and is the most efficient filter response in terms of filter order. So, you can achieve the same filtering performance with a lower order filter compared to other filter responses.
The designed filter is a passive third-order LC bandstop filter. We will make the transformation from the lowpass filter circuit into the bandstop filter circuit. We will workout the design step by step and verify our calculations using simulations in TINA-TI SPICE.
👉 More LC Ladder Filter Design: • LC Ladder Filter Design
📚 Resources 👇
[1] Analog Filter Design, M. E. van Valkenburg
[2] Handbook Of Filter Synthesis, A.I. Zverev
[3] Electronic Filter Design Handbook, Arthur B. Williams
🔗 RF Filter Design: my.ece.utah.edu/~cfurse/ece53...
🔗 Analog Filter Design using MATLAB: nl.mathworks.com/help/signal/...
🔗 RF Filter Design using MATLAB: nl.mathworks.com/help/rf/rf-f...
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