Franklin Antennas for MW Broadcasting

rfry · Aug 18, 2016

One concept of the Franklin antenna is that its configuration and
performance is similar to a center-fed, full-wave, vertical dipole.

But a careful reading of the patent for the Franklin antenna shows
that both current and phase along each of its co-linear sections
differ from that of center-fed dipoles (and long-wire antennas).

Dr. George H. Brown of RCA Labs also discussed Franklins in
his 1936 I.R.E. paper "A Critical Study of the Characteristics
of Broadcast Antennas as Affected by Current Distribution."
He describes the Franklin as "a number of half-wave antennas
placed end to end on a vertical line, and so fed that the currents
in each element are equal, and in phase." This configuration
is not the same as that of a center-fed dipole.

The elemental parts of sectionalized MW radiators such as
the 180/180 Franklin and its variations are fed in phase, and
often with different power radiated by the two sections. This
permits increasing the gain in the horizontal plane while
reducing skywave radiation above 45 degrees elevation or so,
compared to a 195 degree monopole. This can reduce the
nighttime self-interference area, and move it further from
the transmit site.

The belief that a Franklin antenna does not need a ground plane
such as needed for MW monopoles may be based on thinking of
the Franklin as some kind of a balanced radiator. Balanced
radiators don't need or use a ground plane. But the two
co-linear sections of a Franklin antenna are unbalanced
radiators, and need a good r-f ground for the same reason
that a single monopole needs one.

Charles Jeffers of WOAI published a paper in the Proceedings
of the IRE describing the experimental studies he and others
did in 1948 on a 180/120 Franklin. They were done in reduced
scale, and used a buried copper-mesh ground screen that
extended more than 1/2 of a free-space wavelength from the
base of the model. WOAI used a Franklin type antenna for
quite a few years.

There are reports that the two Franklins at KFBK don't have
a buried radial ground system, but that would be good to
confirm. I know from good sources that other Franklins
such as at WHO do have one.

MoM modeling is useful to show these Franklin elevation
patterns and gains for various phases and currents in each
section, and the affect of a ground plane on them.

Schroedingers Cat · Aug 18, 2016

These types of coaxial collinear sectionalized antennas have been used in some vertically polarized only NCE FM broadcast transmitting antennas. Not sure if these are still in use, but I know an engineer who was designing and building them. These did not use a ground plane system. They were useful in some Channel 6 interference situations.

wavo · Aug 19, 2016

Schroedingers Cat said:
These types of coaxial collinear sectionalized antennas have been used in some vertically polarized only NCE FM broadcast transmitting antennas. Not sure if these are still in use, but I know an engineer who was designing and building them. These did not use a ground plane system. They were useful in some Channel 6 interference situations.

Why would this design be better than just using vertical polarization? Most TV is horizontally polarized so that's a 20 db difference already.

rfry · Aug 19, 2016

Schroedingers Cat said:
These types of coaxial collinear sectionalized antennas have been used in some vertically polarized only NCE FM broadcast transmitting antennas. ... These did not use a ground plane system. ...

No FM broadcast array needs/uses a connection to an earth r-f ground for highly efficient radiation. It doesn't need such, because the elements used in the array are balanced radiators.

OTOH, using balanced, vertically-polarized elements for AM broadcast station antennas is impractical due to the physical size and high cost needed to meet the FCC "efficiency" they must produce.

Schroedingers Cat · Aug 19, 2016

I don't recall specifically why they used these. They were only used outside the Grade B Contour of the Channel 6 as I recall. But you are correct that they use a much smaller wavelength so there aren't the structural restrictions of MW wavelengths. Inside the Grade B contour, a much more complex analysis was needed for the NCE FM and mixed H and V polarization was required to meet the Channel 6 requirements. When the Channel 6 interference rules were written, the consulting community was bewildered by the complexity, particularly because the ERP allowed by one section of the regulation was very low, whereas using the rest of the section, while much more difficult to navigate, allowed a much higher ERP. Many were discouraged from applying due to the complexity, and thinking that the very low ERP allowed in the other section was close to what would be allowed in other parts of the section. The availability of reasonably priced software that could be used on a personal computer changed that. Even that required a math coprocessor. It wouldn't run on a 486SX25, though it would work on a 286 with a coprocessor.

rfry · Aug 31, 2016

Followup

Below is a NEC4.2 comparison of the radiation patterns and fields of a
180/180 Franklin and a center-fed, 1-wave vertical dipole for the
parameters shown there.

From an exchange of posts on another website asking me what the
dipole pattern would look like if it had 120 ground radials ...
______

I went back to my Franklin NEC model, deleted all of the above-ground
conductors and replaced them with the center-fed, 1-wave dipole
elevated 1 meter above the common point of the 120 x 1/4-wave buried
radials. Frequency and earth conductivity were as in the original
studies (1 MHz and 5 mS/m, d.c. 13).

At first glance the dipole patterns look the same with or without
the buried radials. With a more careful look, when using the buried
radials the peak field increased by 0.7%, and the sidelobe field
decreased by 1.1%.

A center-fed dipole is a balanced antenna, and radiates nearly
100% of the Z-matched r-f power at its feedpoint with no need
or use of an r-f ground plane to do so.

But this is a far different effect than would exist if the configura-
tion in the Franklin patent,* which is an unbalanced, base-driven,
monopole antenna system, had no connection to a good r-f
ground plane.

* https://www.aktuellum.com/mobile/circuits/antenna-patent/patents/242342.pdf

littlejohn · Sep 2, 2016

Rich, are you familiar with the old WOAI radiator? It had insulators at the midpoint of the tower and was fed at the middle if memory serves.

rfry · Sep 2, 2016

Sorry, but all the information I have about a Franklin-type antenna possibly used at WOAI is given in the 1948 study of Charles Jeffers referenced in my opening post above.

At some date WOAI began using the 193.2°, unsectionalized monopole now shown for them in the FCC database.

Maybe others can provide more detail about this.