Power combining characteristics of backed-off traveling wave tubes for communications applications

Traveling wave tubes (TWTs) used in multi-tone and digital communications applications are typically operated backed off from saturation in order to improve the amplifier linearity. This reduces the bit error rate (BER), decreases intermodulation distortion and lowers adjacent channel power; all at...

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Bibliographic Details
Published in:IEEE transactions on electron devices 2003-06, Vol.50 (6), p.1537-1542
Main Authors: Kubasek, S.E., Goebel, D.M., Menninger, W.L., Schneider, A.C.
Format: Article
Language:English
Subjects:
Construction
Gain
Linearity
Multibeam antennas
Noise levels
Phased arrays
Power combiners
Saturation
Standard deviation
Telecommunications
Traveling wave tubes
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Summary:Traveling wave tubes (TWTs) used in multi-tone and digital communications applications are typically operated backed off from saturation in order to improve the amplifier linearity. This reduces the bit error rate (BER), decreases intermodulation distortion and lowers adjacent channel power; all at the expense of reducing the average output power. For emerging telecommunications applications, the average power requirement is increasing to provide higher bit rates and lower BER, and often exceeds the power obtainable from backed-off space or telecommunications TWTs. One solution is to power combine TWTs that are operated 3 to 10 dB backed off from saturation. Efficient power combining requires that the phase and gain of the signal from each TWT be closely matched. To understand the variation in these parameters across a build-set of tubes, the phase and gain versus drive of 35 Boeing S-band 5525H TWTs were measured. The standard deviation in the phase about the mean phase shift measured at saturation was found to be 2.6/spl deg/, with a related standard deviation of the gain compression at saturation of 0.22 dB. These levels result in small power combining losses and small errors in phased-array fed multi-beam antennas in broadband multi-tone applications.
ISSN:0018-9383
1557-9646
DOI:10.1109/TED.2003.813325