DocumentCode
1309014
Title
Continuous waves in long distance radio telegraphy
Author
Fuller, Lynn F.
Volume
34
Issue
4
fYear
1915
fDate
4/1/1915 12:00:00 AM
Firstpage
567
Lastpage
585
Abstract
Ability to predetermine the probable normal daylight-sending radius of high-powered radio telegraphic stations is of prime importance in their design. The theoretical transmission equations for both continuous and damped waves are discussed and the empirical formulas for the latter are given. Experiments with continuous waves over a period of six months between San Francisco and Honolulu, a distance of 2100 nautical miles (3880 km.), are described, and an empirical formula for the calculation of probable sending radius with such waves is proposed. This is checked by experiments between Tuckerton, N. J., and Honolulu, 4330 nautical miles (8000 km.) Curves giving the energy received at Honolulu from San Francisco under both day and night conditions are shown, and the effects of changes in wave length upon transmission efficiency are discussed. Evidence strengthening theories of the reflection, refraction and interference of Hertzian waves in long distance transmissions and experimental data showing interference bands not over 18 miles in width is given. The great value of easy and rapid changes in wave length, especially at night, is apparent from the curves. Final conclusions drawn from a comparison of the empirical transmission formulas for continuous and for damped waves are that the transmission efficiency of continuous waves is somewhat higher than that of damped waves on wave lengths of approximately 3000 m. or above, and that this advantage increases with the wave length.
Keywords
Atmospheric waves; Earth; Equations; Radio transmitters; Surface waves; Telegraphy; Terrestrial atmosphere;
fLanguage
English
Journal_Title
American Institute of Electrical Engineers, Proceedings of the
Publisher
ieee
ISSN
0097-2444
Type
jour
DOI
10.1109/PAIEE.1915.6590305
Filename
6590305
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