EFHW is probably the WORST name for this antenna, because you need to AVOID half wavelength lengths for the bands you wish to use!

A half wave wire fed at the center is low impedance and has high current at the center, at the ends where the current goes to zero (very low current) , it becomes "voltage fed" or high impedance.

The radiation of any antenna is maximum at the current peak which occurs at 1/4 wave points - which is the center of a 1/2 wave dipole.

See the gif showing the standing waves on a half wave dipole, the RED is voltage - maximum occurs at the ends where current goes to ZERO because there is NO more conductor to travel, so current flow goes to ZERO.  When current is zero, voltage by necessity is maximum.

Blue is the current, where there is maximum current that is where maximum radiation occurs.  The center of the center fed dipole is at a high current point and a low voltage point. A high current point / low voltage point is low impedance.  A high voltage, low current point (the opposite) is a high impedance. So the ends of the 1/2 wave wire are high impedance which is an End Fed Half Wave.  The practical measurement of a half-wave end fed wire at a half wave is around 3,000 ohms at the center it will be about 70 ohms.


Half wave antennas will have larger bandwidth because the impedance doesn't change as rapidly as the low impedance at the center does.

Although resonance is important, for practical radio working, it's much more important for power to be accepted by the antenna, which means that the characteristic impedance of the feedline (or feeder) matches the impedance of the antenna feed point.

A half-wave antenna end fed (impedance = 3,000 ohms) by 50 ohm coax will have a VSWR of approximately 60:1.
A half-wave antenna center fed (impedance = 70 ohms) by 50 ohm coax will have a VSWR of approximately 1.4:1.
A half-wave antenna end fed (impedance = 3,000 ohms) by 50 ohm coax using a 49:1 transformer to elevate its impedance 2,450 ohms will have a VSWR of approximately 1.2:1.

Antenna books will have more information on transmission lines - high tension lines are high voltage and are best for long runs - high voltage = high impedance - which is why open wire feeders are lowest loss.

Shane Nelson, KD8UJM under the ebay seller name "NelsonAntennas" sells excellent quality transformers like this one https://www.ebay.com/itm/191782023426 for antennas (also available in all stainless models for slightly more cost)  has an extremely well researched and tried document about EFW antennas.

http://www.hamuniverse.com/randomwireantennalengths.html

Stay away from antenna lengths of multiples of 1/2 wave - fundamentals and harmonics are listed on https://qsl.net/n1ea/efw

These are the ANTENNA wire lengths to stay away from:

16 19 22 26 32 33 38 44 46 48 52 64 65 66 76 78 80 88 92 95 96 99 104 110 112 114 123 128 130 132 133 138 144 152 154 156 160 165 171 176 182 184 190 192 195 198 208 209 220 224 228 230 231 234 240 242 246 247 256 260 264 266 272 276 285 286 288 297 304 308 312 320 322 323 325 330 336 338 342 352 361 363 364 366 368 369 374 380 384 390 396 399 400 414 416 418 429 432 437 440 442 448 455 456 460 462 464 468 475 480 484 494 495 496.

29  35.5  41  58  71  84  107  119  148  203  347  407  423

EFHW is probably the WORST name for this antenna, because you need to AVOID half wavelength lengths for the bands you wish to use!

https://www.kb6nu.com/playing-end-fed-wire-antennas-91-ununs/

https://udel.edu/~mm/ham/randomWire/

https://www.hamuniverse.com/randomwireantennalengths.html

AVOID half-wave and harmonics of half-wave!

These are Mike, AB3AP's calculated lengths for the CW bands.

I bought one of Shane Nelson's excellent transformers (the stainless version, but the plated version should be fine for people that aren't obsessed with stainless like former salt water radio officers like myself.

Highly recommended.

73