Array:
Mounted
some 190 feet above the ocean surface which provided
its electrical twin, the Titanic's aerial
array provided a conspicuous display of her technical
sophistication.The elements were bare silicon bronze wires with feed lines connected
to their centers.The
configuration is known as "Twin T" because they
were driven in pairs to provide gain.Signal
strength to the sides was enhanced by overlaying
the radiation patterns of two parallel elements.Radio
coverage in the fore and aft direction was correspondingly
reduced.
Each
element of a Marconi aerial is cut to one quarter
wavelength.At Titanic's usual frequency of 600 meters,
this yielded a length of about 450 feet from the
front spreader bar.A
high tension insulator on either end provided electrical
isolation from the rest of the rigging.On
one end was a strong, weatherproofed,elastic
cord to absorb shock and prevent damage to the aerial.From
over the fourth funnel a suspension cable connected
to each element and ran to the rear spreader bar
to make up the 600 feet total distance between masts.The
ash spreader bars that carried the rig were equipped
with hoists and guy lines much like the yards of
earlier square rigged ships.Her
30 foot spreaders provided a 9 foot spacing between
elements.
Pillar:
The
four feed lines were grouped together on an insulated
lead-in stay which ran to a bullseye and anchor
on the radio room roof.This
took the stress of the aerial's movement high overhead.An insulated lead-in from each of the two Twin-Ts
tapped off from the stay and entered the pillar
about 6 feet above deck.The
leads passed through the roof inside the pillar
(conduit).Its
height and the Bradfield insulators on top served
two functions:
1.Minimize leakage.Radio Frequency (RF) energy travels mostly on the surface of a conductor
("skin effect").The
insulator discs were there to present the maximum
non conducting surface path possible to ground,
thus minimizing leakage of RF signal.A cone on top of the pillar deflected spray and
precipitation from the discs as a wet surface is
a much better conductor.
2.Maximize safety.The spark gap transmitter impressed very high voltages on the aerial
leads.Easily
lethal to someone grounded on deck coming in contact
with them."
Emergency Set:
In
addition to the 5 kW main transmitter and magnetic
detector, there was a 1 1/2 kW emergency transmitter
with its own receiver.Likewise,
there was an emergency aerial coiled and stored
below decks for erection and use in the event of
catastrophic loss of the main array.
Radio Shack:
The
"Marconi room" was situated on the boat deck (i.e.:
the same deck as the bridge), at the after end of
the superstructure containing the bridge and officer's
accommodation - it was about 40 feet aft from the
bridge, connected via the corridor which ran down
the port side of the officer's quarters.The room was in the center of the accommodation
- it did not have an outside facing porthole. Natural
light was provided via a skylight in the deckhead
(ceiling).The motor-generator and rotary disc transmitter were housed in a special,
shielded, "silent" room next door to the radio room
to reduce interference to the main receiver. During
commissioning tests Phillips and Bride exchanged
messages with coast stations at Tenerife (2000 miles
away) and even Port Said (more than 3000 miles distant).
The
MARCONIGRAPH:
The
following material is excerpted from the May 1912
edition of The MARCONIGRAPH provided through
the courtesy of Louise Weymouth, Company Archivist,
Marconi plc:
"The wireless equipment of the "Titanic"
was the most powerful possessed by any vessel of
the mercantile marine, and only equaled by that
of the "Olympic".Its generating plant consisted of a 5 kW motor-generator
set, yielding current at 300 volts 60 cycles.The motor of the set was fed at 110 volts DC
from the ships lighting circuit, normally supplied
from steam-drives sets"
"To eliminate as far as possible the spark-gap
and its consequent resistance, which, as is well
known, is the principle cause of the damping of
the waves in the transmitting circuit, the ordinary
Marconi rotary disc discharger was used."
"The guaranteed working range of the equipment
was 250 miles under any atmospheric conditions,
but actually communications could be kept up to
about 400 miles, while at night the range was often
increased to about 2,000 miles.The
aerial was supported by two masts, 200 ft. high,
stepped 600 ft. apart, and had a mean height of
170 ft.It
was of the Twin-T type and was used for the double
purpose of transmitting and receiving.The
earth connection was made by insulated cable to
convenient points on the hull of the vessel."
"The receiver was the Marconi standard
magnetic travelling band used in conjunction with
their multiple tuner, providing for the reception
of all waves between 100 and 2,500 metres."
"By reason of its robust nature the magnetic
detector could be employed permanently connected
to the transmitting aerial, thus dispensing with
all the mechanical change over switching arrangements."
Auxiliary Generating Sets:
To
supply power when the main plant was off-line there
were two 30 kilowatt engines and dynamos situated
on a platform in the turbine engine room casing
on Saloon deck (D) level, 20 ft. above the waterline.There
was a also an independent storage battery and coil
to supply power to the wireless set in the event
of total failure of the current supply from the
ship's dynamos.
Operational Background:
In
1912 radio at sea was only just past the novelty
stage.Of 23,217 registered powered ships, about 1,000 (400 of them British)
were fitted with radio and these were mostly ships
on the busy North Atlantic. Californian's
radio was fitted as late as January, 1912.All
used spark transmitters, which were very wasteful
of power.Titanic's
Marconi set used 5 kW, of which only about 500 watts
actually reached the aerial. The normal wavelength
was 600 meters. On Marconi ships the time of each
message was recorded in GMT, when east of 40°
W and in New York time when to the west. The radio
operators were responsible for maintaining clocks
showing these times.Photos
of the Titanic and Olympic radio rooms
show these two clocks mounted on the bulkhead.
At
the time of the disaster some of the strongest signals
on the air were from installations belonging to
private clubs and individuals.Although initially blamed for interfering with
emergency traffic, on the evening after the sinking
all the amateurs in the New York area voluntarily
stayed off the air.They spent that night copying the intermittent signal of the cruiser
Salem near the scene of the sinking trying
to report the names of the survivors.Through their efforts, and the Newport Naval Base, it was possible
the next day for newspapers to publish a full list
of the survivors of the Titanic disaster.
Author:
I'm
an Electrical Engineer by training and trade and
proud to credit Amateur Radio for most of my radio
savvy.Ham
operators have been at the forefront of technical
experimentation and emergency preparedness from
the very beginning.
For More Information:
THE RMS TITANIC RADIO PAGE
- http://www2.dynamite.com.au/rmstitanic/
How to Become An Antenna Guru
- http://www.borg.com/~warrend/guru.html
The Radio Legacy of the R.M.S.
Titanic - http://avsia.com/djohnson/titanic.html
MARCONI CALLING - http://www.marconicalling.com/
Bright "Sparks". The "Wireless
Telegraphists" and Their Work. - http://www.users.senet.com.au/~gittins/radio.html
BoT "Report on the Loss of the
'Titanic' (s.s)" (Mersey Report)
http://www.titanicinquiry.org/BOTReport/BotRep.htm
Larry Jibson
Titanic Research & Modeling
Association