A Study of the Output Power Obtained from Vacuum Tubes of Different Types

Economical operation of the large number of tubes involved in the Bell System makes necessary the adoption of common supply voltages. This requires that repeater tubes of various types be designed to operate at a fixed plate voltage. For this reason the design of amplifier tubes to give as large a p...

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Bibliographic Details
Published in:Proceedings of the Institute of Radio Engineers Vol. 18; no. 2; pp. 266 - 293
Main Authors: Pidgeon, H.A., McNally, J.O.
Format: Journal Article
Language:English
Published: The Institute of Radio Engineers, Inc 01-02-1930
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Summary:Economical operation of the large number of tubes involved in the Bell System makes necessary the adoption of common supply voltages. This requires that repeater tubes of various types be designed to operate at a fixed plate voltage. For this reason the design of amplifier tubes to give as large a power output as possible at the operating plate voltage is of considerable importance. In the case of three-electrode tubes it is possible from theoretical considerations to compute, approximately, the electrical parameters a tube must have in order to give the maximum output power of a given quality obtainable under fixed operating conditions. The electrical characteristics and output of fundamental, second, and third harmonics of two of the more common telephone repeater tubes are given. It is of considerable interest to determine whether greater power output of comparable quality can be obtained from tubes containing more than one grid. Since no sufficiently exact theoretical analysis of multi-grid tubes is yet available to permit the determination of the parameters of optimum tubes, a comparative experimental investigation of a number of such structures has been undertaken. The electrical characteristics and output of fundamental, second, and third harmonics of several such experimental tubes are given. The power output of multi-grid tubes and of three element tubes is compared. The reasons for the comparatively large power output of certain types of multi-grid tubes are discussed.
ISSN:0731-5996
2162-6626
DOI:10.1109/JRPROC.1930.221994