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Analytical prediction with multidimensional computer programs and experimental verification of the performance, at a variety of operating conditions, of two traveling wave tubes with depressed collectorsExperimental and analytical results are compared for two high performance, octave bandwidth TWT's that use depressed collectors (MDC's) to improve the efficiency. The computations were carried out with advanced, multidimensional computer programs that are described here in detail. These programs model the electron beam as a series of either disks or rings of charge and follow their multidimensional trajectories from the RF input of the ideal TWT, through the slow wave structure, through the magnetic refocusing system, to their points of impact in the depressed collector. Traveling wave tube performance, collector efficiency, and collector current distribution were computed and the results compared with measurements for a number of TWT-MDC systems. Power conservation and correct accounting of TWT and collector losses were observed. For the TWT's operating at saturation, very good agreement was obtained between the computed and measured collector efficiencies. For a TWT operating 3 and 6 dB below saturation, excellent agreement between computed and measured collector efficiencies was obtained in some cases but only fair agreement in others. However, deviations can largely be explained by small differences in the computed and actual spent beam energy distributions. The analytical tools used here appear to be sufficiently refined to design efficient collectors for this class of TWT. However, for maximum efficiency, some experimental optimization (e.g., collector voltages and aperture sizes) will most likely be required.
Document ID
19790014204
Acquisition Source
Legacy CDMS
Document Type
Technical Publication (TP)
Authors
Dayton, J. A., Jr.
(NASA Lewis Research Center Cleveland, OH, United States)
Kosmahl, H. G.
(NASA Lewis Research Center Cleveland, OH, United States)
Ramins, P.
(NASA Lewis Research Center Cleveland, OH, United States)
Stankiewicz, N.
(NASA Lewis Research Center Cleveland, OH, United States)
Date Acquired
September 3, 2013
Publication Date
May 1, 1979
Subject Category
Electronics And Electrical Engineering
Report/Patent Number
E-9728
NASA-TP-1449
Report Number: E-9728
Report Number: NASA-TP-1449
Accession Number
79N22375
Funding Number(s)
PROJECT: RTOP 506-20
Distribution Limits
Public
Copyright
Work of the US Gov. Public Use Permitted.
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