EZNEC Tutorial – Part II NPARC Presentation David Berkley, K2MUN And Barry Cohen, K2JV October 13, 2014.

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Presentation transcript:

EZNEC Tutorial – Part II NPARC Presentation David Berkley, K2MUN And Barry Cohen, K2JV October 13, 2014

Purpose – Review of First Tutorial Session Catch up for any new participants Answer questions from previous session – Some more ‘practical’ examples Review with a 40 meter Doublet A Horizontal loop antenna

How Good is EZNEC? Compare calculated versus measured: SWR and Beamwidth (gain) For the 2 element quad. Four Slides from Quad Presentation

SWR Plot for 6 Meter Quad

Horizontal Radiation Pattern at 5 degrees elevation

Review of Part I Use of the Control Panel – Setting defaults (units, freq., etc.) – Types of grounds – Entering Data Use of the Action Buttons – Elevation vs. Azimuth Plots – Far Field (2D & 3D) – SWR vs. Frequency Calculations

The 40 meter Backyard Dipole Based on EZNEC’s “BYDipole” file. Setup by modifying “BYDipole”, or from scratch, in WIRES panel. First setup in “free space,” then over a “Perfect Ground.” Number of elements vs. number of Segments. Add a Source at the antenna center.

For all Antennas 1 Set Ground to Free Space or Real 2 Calculate Elevation Pattern and pick out the Major Lobe in that pattern. 3 Select Azimuth Pattern. 4 Set Elevation Angle to Major Lobe. 5 Calculate Azimuth Pattern. 6 Calculate SWR over Frequency range.

Go to EZNEC opens “LAST” If LAST is NOT “BYDipole” open “BYDipole”

Tutorial – Part II 80 Meter Loop Easy to create with Wires ‘Loop’ command – Explore Model Convergence Number of segments – variations in source impedance – Total radiation in lossless design (~100% of input) – Explore other properties of Loop antenna Effect of height Effect of source location

For all Antennas 1 Set Ground to Free Space or Real 2 Calculate elevation pattern and pick out the Major Lobe in that pattern. 3 Select Azimuth pattern. 4 Set Elevation Angle to Major Lobe. 5 Calculate Azimuth Pattern. 6 Calculate SWR over Frequency range.

Go to EZNEC opens “LAST” If LAST is NOT “BYDipole” open “BYDipole” Generate Horizontal Loop with 70 foot sides at height = 40 feet

Tutorial – Part II Things we haven’t covered Naming and documenting files – Various ‘save’ commands Scaling to adjust to desired frequency Quickly covered in Part I Adjusting antenna height Feedlines, multielement systems, loading elements, etc. Applying common sense to results!

Summary Try to introduce members to a new tool and put it in their hands for future use! Hope to make antenna design fun. The full version is well worth the money if you want to design complex antennas There are alternatives (some using better underlying models – including EZNEC Pro).

The End THANKS!