• DocumentCode
    1046289
  • Title

    Metallic Polar-Duplex Telegraph System for Long Small-Gage Cables

  • Author

    Bell, John H. ; Shanck, R B. ; Branson, D.E.

  • Author_Institution
    Bell Telephone Laboratories, Inc.
  • fYear
    1925
  • Firstpage
    316
  • Lastpage
    326
  • Abstract
    In connection with carrying out the toll-cable program of the Bell System, a metallic-circuit polar-duplex telegraph system was developed. The metallic-return type of circuit lends itself readily to the cable conditions, its freedom from interference allowing the use of low potentials and currents so that the telegraph may be superposed on telephone circuits. The new system represents an unusual refinement in d-c. telegraph circuits, the operating current being of the same order of magnitude as that of the telephone circuits on which the telegraph is superposed. The following are some of the outstanding features of the present system. Sensitive relays with closely balanced windings are employed in the metallic circuit, and ``vibrating circuits´´ are provided for minimizing distortion of signals. Repeaters are usually spaced about 100 miles apart. Thirty-four-volt line batteries are used and the line current is four or five milli-amperes on representative circuits. Superposition is accomplished by the compositing method which depends upon frequency discrimination; the telegraph occupying the frequency range below that of the telephone. New local-circuit arrangements have been designed, employing polar relays for repetition of the signals; these arrangements are suitable for use in making up circuits in combination with carriercurrent and ground-return polar-duplex telegraph sections. New forms of mounting are employed in which a repeater is either built as a compact unit or is made up of several units which are mounted on I-beams, and subsequently interconnected.
  • fLanguage
    English
  • Journal_Title
    American Institute of Electrical Engineers, Transactions of the
  • Publisher
    ieee
  • ISSN
    0096-3860
  • Type

    jour

  • DOI
    10.1109/T-AIEE.1925.5061113
  • Filename
    5061113