Limited Space Antennas

Limited Space and Mobile Antennas : Limited Space and Mobile Antennas Small or low-height antennas for amateur use. By W8JI


Goals Conflict with Limitations : Goals Conflict with Limitations We want high performance…. Horizontal antennas generally require at least ¼ wl height above earth and ¼ wl horizontal space Vertical antennas require ground systems at least 1/4th wl in diameter and “RF” obstruction clear areas for a few wavelengths distance But we have no room! ¼ wavelength is 35 feet on 40 meters, 70 feet on 80 meters! “A few” wavelengths is over 300 feet on 40 meters!


We’ve received good advice over the years: : We’ve received good advice over the years: Don’t bend high current sections Keep current areas as high and clear as possible Use well-constructed loading coils Don’t place coils right at the open end of antenna Don’t place high voltage ends near lossy dielectrics like bare soil or houses


Full Size Dipole Antenna : Full Size Dipole Antenna


Radiation Comes From Charge Acceleration : Radiation Comes From Charge Acceleration Only net ampere-feet of in-line area matters! Quarter-size dipole starts to has triangular current. To maintain same ampere-feet, peak current is nearly 8 times higher than the regular dipole


Triangular Current : Triangular Current Instead of smooth sine-shape decrease, we now have straight line. This means current is much higher for the same power (the same ampere-feet to radiate a given power).


Minimize Peak Current : Minimize Peak Current We must make current as uniform as possible Every area of the antenna contributes more to radiation because current is more even Center current is now 68% of value without hats in the same 1/8-wl dipole


DX Engineering Hat DipoleUses: balun and large hats : DX Engineering Hat Dipole Uses: balun and large hats


Lowest Ground Loss : Lowest Ground Loss Requires reasonable height above lossy media As an alternative, lossy media can be “shielded” from antenna Just do the best you can


No Magic in Folding Elements : No Magic in Folding Elements Folding wires does NOT increase radiation resistance unless it modifies net current distribution. I3 always equals sum of I1 and I2. I3 is almost entirely set by height and loading.


Maximum radiation resistance possible for short vertical carrying uniform current. : Maximum radiation resistance possible for short vertical carrying uniform current. He is effective height Lambda is wavelength Both must be expressed in the same measurement units such as feet, degrees, meters, etc. 2X length = 4X Rrad


Uniform current radiation resistance examples : Uniform current radiation resistance examples ¼ wl vertical 98.8 ohms 1/8th wl vertical 24.7 ohms 1/16th wl vertical 6.2 ohms Radiation resistance roughly proportional to square of length change! Use the longest radiating area possible.


Current : Current Net or effective current distribution controls radiation resistance More uniform current over given area means higher radiation resistance


Changing from Triangular to Uniform Current : Changing from Triangular to Uniform Current Top-loading of verticals or end-loading of dipoles that causes current distribution to be uniform increases radiation resistance 4 times from triangular current values. It is like doubling length. Loading coils, if small, can go nearly anywhere with no noticeable changes in current distribution if the antenna uses a large capacitance hat. 1/16th wl vert no-hat = 1.8 ohms Rr 1/16th wl vert big hat = 6 ohms Rr


We can’t know many variables. We should: : We can’t know many variables. We should: Make ground system as large as possible Use a reasonably constructed coil Use a hat at end when possible Keep open ends of antenna (high voltage) well away from earth or other poor dielectrics


Large homebrew hat uses six 32” long car antennas welded to stainless “stub”. : Large homebrew hat uses six 32” long car antennas welded to stainless “stub”. Increases current flowing into end of antenna Increases radiation resistance and efficiency Reduces coil resistance for given Q Increases bandwidth


Slide17 : Commercial version of end-loading with hat to increase bandwidth and efficiency. The large hat provides a termination for current to flow into. 3-foot rod with hat approximately equivalent to 6-foot whip


Common False Claims : Common False Claims Linear Loading is more efficient than conventional coil or lumped loading An antenna close to ground can be made ground-independent An antenna ¼ wl long or less can be an “electrical half-wave” We can use special radiation techniques


Lumped Loading : Lumped Loading Any form of series lumped loading will only cancel reactance at the point where it is added. Any form of loading, short in terms of wavelength, can be represented a capacitance in parallel with a series R and L. This is the same as a trap.


Why is this equivalent correct? : Why is this equivalent correct? There is stray C across the inductor There is an equivalent series R representing losses


Shunting Capacitance : Shunting Capacitance Shunt C increases circulating currents through coil’s winding Shunt C reduces bandwidth Shunt C lowers Q almost in direct proportion to the effective increase in inductance!


20uH coil 5-ohm ESR @ 2 MHz : 20uH coil 5-ohm ESR @ 2 MHz 0pF ESR 5 X251 Q50 50pF ESR 7 X298 Q43 100pF ESR 11 X367 Q34 200pF ESR 37 X681 Q19 AVOID UNNECESSARY STRAY CAPACITANCE IN INDUCTOR!!! Reactance going up, Q going down!


Be careful how you reduce turns!Same 251-ohm Reactance by Capacitance Change : Be careful how you reduce turns!Same 251-ohm Reactance by Capacitance Change We readjust L to make reactance the same. C=0 R=5 Q=50 C=200 R=10.5 (3.92Lr) Q=24 Increasing stray C reduces turns 22% but doubles resistance even though we used less wire! This is why folding is bad.


Good Ideas for loading coils : Good Ideas for loading coils Keep hats ½ hat radius away from coil Do not add large metal plates at ends of coil Do not mount coil near metal Do not add needless dielectrics in or around coil


Highest Q Coils : Highest Q Coils Space turns 1 conductor diameter No insulation on wire Solid and smooth surface wire Optimum L/D ratio varies with inductance Keep self-resonance as far from operating frequency as possible Maximum Q I have ever measured is in the upper hundreds


Myths to be skeptical of: : Myths to be skeptical of: Linear loading is better than coils because the loading “radiates”. There are special ways to obtain radiation Small loops are efficient You only need radials as long as the vertical Folded elements increase radiation resistance or efficiency Super-big coils are always noticeably better


Mobile Antennas10ft antenna as reference : Mobile Antennas 10ft antenna as reference