[SFDXA] A look into some radio history....

[Bill]

Not all this will come through. I can send the original html posting if 
you would like. Notify me personally please.
Bill W2CQ


For some of you receiving this ''radio history'', it is a look-back at 
where you once spent time earning your living......for most, however, it 
is an historic lesson...........If you were a 'kid' during those 
''MusicRadio'' days it is nostalgia......

Why Did WABC Have Such a Great Signal?

It did seem like you could hear WABC everywhere. During the day you 
could receive the station 200 miles away without any problem. At night, 
it covered over 38 states like a blanket. When people speak of WABC 
reaching 8 million people a week during its peak, they're referring to 
only the New York City Metropolitan area. But, if you take into account 
listeners from out of the local area, that number was even greater. 
There is 1971 aircheck of Dan Ingram where he comments "I just got some 
terrible news... I read the ratings and WABC is only the 13th ranked 
station....... in Pittsburgh Pennsylvania!"

Wow! What a signal. How was that possible?

AM broadcast radio stations generate two kinds of radio waves: 
Groundwave and Skywave. How effectively they accomplish this during the 
day and night governs how far they reach.

Musicradio WABC did both amazingly well.

Here's how:

WABC's Groundwave Signal

Groundwave signals hug the surface of the earth. To some extent a 
groundwave signal bends with the curvature of the earth. This effect is 
greater as radio waves get longer. This is why AM radio stations on the 
low end of the AM Broadcast band have greater daytime range given the 
same power level as stations on the higher end of the AM broadcast band. 
One example is comparing New York City radio stations WQEW and WABC. 
Since WQEW is much higher in frequency at 1560 kHz. vs. WABC at 770 
kHz., its local range is much less even though both stations operate at 
the same power level of 50,000 watts.

In engineering terms, WABC at 770 kHz. was (and still is) New York's 
biggest station. Like WNBC and WCBS, it had a non-directional 50,000 
watt signal; but it had the advantage of a half-wave tower -- which most 
engineers consider an ideal height.

WABC's Fantastic Half Wave Tower!

By virtue of its lower dial position and longer waves, WNBC at 660 kHz. 
should have owned the "biggest signal" distinction; but it shared its 
tower with WCBS at 880 kHz., and the original plan to "sectionalize" the 
tower to make it electrically equivalent to a half wave on 660 never 
worked. To this day the WFAN signal on 660 radiates from a tower 
considerably short of its ideal efficiency of a half wave. While WCBS 
was at about a half wave, its higher frequency and shorter waves 
produced a less powerful groundwave signal than WABC. The only other New 
York 50kw station in the lower part of the band, WOR, was highly 
directional (first using two, then three towers to produce an irregular 
signal pattern designed to protect other stations on its frequency, 710 
kHz).

So WABC was the biggest station in the biggest market. It was the only 
New York station on the lower section of the AM dial with a half wave 
tower! In fact to this day, it still has the biggest signal.

AM antenna design and all the other variables involved in transmission 
choices are something of a black art as well as an interesting science. 
For the strongest groundwave coverage, electrical lengths in excess of 
1/2 wave (180 degrees) are desirable. In fact, 5/8 (225 degrees) is 
considered optimum, because it produces the maximum possible groundwave 
(or horizontal lobe) from a single vertical radiator. It also produces a 
small lobe at a high angle up toward the sky, which can be a problem in 
some regions because it reflects back on top of the groundwave. This is 
sometimes responsible for the distortion heard at night on local AM 
radio stations.

Of course, you have to remember that the wavelengths get longer and 
longer as you get to the lower part of the AM broadcast band. As a 
result, the length of a tower to achieve 5/8 wave, or even 1/2 wave, 
gets extremely large. A 5/8 wave tower for a station such as WFAN at 660 
kHz. would be tremendous.

Most AM stations use radiators well under 1/2 wave. WMCA at 570 kHz. is 
just 67 degrees. The old WINS (at 1010 kHz.) towers were approximately 
78 degrees, and the new ones are 141 degrees.. All four of the Chicago" 
clear channel stations" ( WMAQ at 670 kHz, WGN at 720 kHz, WBBM at 780 
kHz. and WLS at 890 kHz.) are more than 180 by a few degrees. WSM (at 
650 kHz.) in Nashville and WLW (at 700 kHz.) in Cincinnati are in the 
190's. WWKB (formerly WKBW at 1520 kHz.) in Buffalo is 225 degrees.

WABC's transmitter position might be considered less than ideal, since 
it doesn't sit on salt water like so many other New York stations; but 
it's a lot better than the original Bound Brook site, and actually gets 
a decent angle on Long Island. This is because Manhattan and Long Island 
have extremely bad ground conductivity, which is one reason WQEW 
(formerly WQXR at 1560 kHz.), which transmits from Maspeth Long Island, 
has such a hard time in New Jersey. WCBS and WFAN have better angles on 
Long Island, but don't do nearly as well as WABC in New Jersey.

Interesting fact: at one time, a common tower for WABC, WNBC and WCBS 
was on the drawing board, but it turned out there was no way all three 
-- which are relatively close to each other on the AM band -- could 
share one tower without severely compromising their audio quality to 
avoid interfering with each other. But the plan grew out of what we 
might call "tower envy" for WABC's superior system.

To see WABC's daytime coverage, click here for the The WABC Signal 
Coverage Map .

WABC's Skywave Signal

While groundwave signals "hug" the surface of the earth, skywave signals 
work by "bouncing" off of the ionosphere. During the day this particular 
layer of the atmosphere absorbs radio signals. But at night, it acts as 
a reflector bouncing medium wave radio signals back to earth. This 
bounce or "skip" allows these signals to travel great distances. And, in 
WABC's case, it was a non directional signal. In effect, given the right 
"conditions" its signal could go anywhere..... and it frequently did!

At night, WABC reached incredible distances. It was a class 1-B Clear 
Channel station. This meant that at night, there was only one other 
North American radio station on 770 kHz. That station was KOB in 
Albuquerque, New Mexico (Today, KOB is KKOB and there are other stations 
on 770 kHz. at night due to changes in F.C.C. regulations). As a result 
of this clear channel status, you could pick up WABC's nighttime skywave 
signal across most of the eastern half of the United States, Canada and 
at times, Europe. There were even reports of reception in Hawaii, 
Australia and South America.

Many clear channel stations (examples include WBT in Charlotte NC, WTIC 
in Hartford CT, WBZ in Boston MA) have directional nighttime patterns. 
This gives them a terrific signal in some directions and virtually no 
signal in other directions. Such was not the case with WABC.

Ham radio operators (yes, I'm one) will tell you that good conditions 
include things like time of year (fall and winter are the best), sunspot 
cycle (every eleven years it starts over), and stray atmospheric 
disturbances. That is why on some nights WABC might have come in like it 
was your local AM radio station while on other nights you could not hear 
it at all. And, of course, radio stations on adjacent "channels" could 
splash over and interfere. In WABC's case the adjacent stations were 
(and still are) WJR in Detroit MI at 760 kHz, and WBBM in Chicago IL at 
780 kHz. If either of these stations were local to you then WABC's 
skywave signal was more difficult to pick up.

WABC's Call Letter and Frequency History

1921: WJZ at 833 kHz. starts broadcasting from Newark, NJ. The station 
is owned by Westinghouse and has an output power of 3000 Watts.

1923: WJZ is purchased by RCA, moved to New York City and its frequency 
is changed to 660 kHz.

1926: WJZ becomes the key station of the "Radio Corporation Chain" a 
network of seven east coast radio stations. A new entity called the 
"National Broadcasting Company" is created.

1927: NBC creates the "Blue Network" of radio stations with WJZ as the 
key station.

1928: WJZ is moved to 760 kHz. NBC moves its other New York City radio 
station, WEAF (flagship station of NBC's "Red Network") from 610 kHz to 
WJZ's former frequency of 660 kHz. WEAF eventually becomes WNBC and is 
now WFAN.

1935: WJZ increases its power to 50,000 watts.

1936: WJZ's transmitter site is moved to Bound Brook, NJ and operates 
from a 640 foot tower.

1941: WJZ shifts frequency to 770 kHz.

1943: WJZ, along with NBC's "Blue Network Company" is sold by RCA/NBC to 
Edward J. Noble and Associates.

1944: WJZ's transmitter is moved to Lodi, New Jersey and returns to 
50,000 watts from a non directional 648 ft. tower (the station had been 
operating at 25,000 watts from a brief intermediate transmitter site in 
Kearny NJ).

1944: WJZ's licensee name is changed from the "Blue Network Company, 
Inc." to "The American Broadcasting Company, Inc."

March 1, 1953: WJZ's call letters are changed to WABC which stand for 
the "American Broadcasting Company".

1953-Today: WABC continues with the same call letters and transmitter 
location.

And, just to make it a little more confusing...

The call letters "WABC" were originally used by a totally different New 
York radio station.

The A. H. Grebe Company was a manufacturer of radio equipment and owned 
a number of radio stations including WAHG in New York City. WAHG became 
WABC which stood for the "Atlantic Broadcasting Company". It operated on 
several frequencies, 950 kHz (1924), 920 kHz (1927), 970 kHz (also 
1927), 860 kHz (1928), and 880 kHz (1941). Eventually, WCBS became the 
station on 880 kHz. References to the call letters "WABC" before 1953 
are referring to this completely different radio station.

Jim Hawkins has the best written and most comprehensive page about the 
WABC transmitter facilities. This is a MUST visit if you would like more 
information about the WABC transmitter facilities (both past and 
present). You can start at his page dedicated the the WABC transmitting 
facilities from 1966 at:

JIM HAWKINS' WABC RADIO 77 Transmitter Page
http://hawkins.pair.com/wabc.shtml