UNDERWATER TELEGRAPH CABLE DETAILS
W1TP TELEGRAPH AND SCIENTIFIC INSTRUMENT MUSEUMS: http://w1tp.com
Tom Perera - W1TP

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This very early telegraph cable connected Havana, Cuba and the United States in the late 19th Century. It was recovered from the Atlantic Ocean by Tom Perera in January of 1997. It was conserved in an electrolytic bath for 4 months and then cut into smaller pieces and carefully dissected to reveal its inner construction.

The various layers of the cable are shown and described below:

OVERVIEW OF THE CABLE AND ITS LAYERS:

This view shows all of the various layers of the cable. Each of these layers is described below. Some erosion of the outermost layer is apparent due to its submersion for over 100 years in salt water.

OUTER LAYER - 1: STEEL WIRES:

The outer layer consists of a total of 10 strands of steel wire. Each strand had an outside diameter of 3/8-inch. This layer was designed to provide great strength and resistance to abraision from coral and rocks.

LAYER 2 - TAR-IMPREGNATED HEMP:

This layer was designed to provide a waterproof seal. It was wound in the opposite direction from the outer layer in an attempt to reduce torsional twisting of the cable.

LAYER 3 - SPIRAL-WOUND COPPER SHEET:

This copper sheet layer was included to prevent the Torado worms from working their way into the Gutta Percha insulation and allowing salt water to short out the inner conductor. Although it looks like the shield in a modern coaxial cable, it actually had no electrical function.

LAYER 4 - SPIRAL-WOUND COPPER SHEET:

A second layer of copper sheeting was wound just under layer 3. It was also designed to further deter the Torado worms.

LAYER 5 - GUTTA PERCHA INSULATION:

Gutta Percha is a rubber-like Malayan gum obtained from trees which is liquid when heated and solid when cool. It is an excellent insulator and was used as the main cable insulation.

LAYER 6 - SPIRAL-WOUND STEEL WIRE:

A continuous wrapping of .020-inch. diameter steel wire provided inductive loading to partially cancel out the large values of capacitance generated in such a long cable. Cancelling out some of the the capacitance reduced the time-constant of the cable and increased the speed that It could carry information.

LAYER 7 - SPIRAL-WOUND COPPER SHEETS wound around the
LAYER 8 - SOLID COPPER INNER CONDUCTOR:

The 5/32-inch outside diameter layer of spiral wound copper sheets decoupled and isolated the steel wire from the 1/8-inch outside diameter solid copper inner conductor which carried the positive and negative voltages of the telegraph signals.

In the future, I plan to add information about the electrical characteristics of this cable. I will also update these pages as I try to recover all six of the underwater cables. They will provide samples of the technological improvements in cables from 1866 to the 1900's and allow me to analyze how well they have survived over 100 years under the ocean.

Internet On-Line Telegraph & Scientific Instrument Museums:
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Internet ENIGMA Museum:
https://EnigmaMuseum.com

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