Актуальные проблемы электронного приборостроения АПЭП-2012. Материалы 10-й юбилейной Международной научно-технической конференции, 19-20 сентября 2012 г.
In the study presents an approach to the modeling power TWT with stopband sections on the basis of the theory of discrete electron-wave interaction. Designed TWT without the use of equivalent circuits of SWS and with use of local coupling impedance and the characteristic equation of degree four.
With the help of the difference theory of excitation of periodic waveguides obtained by the characteristic equation of the electron waves formed by the interaction of an electron beam with the forward and backward electromagnetic waves periodic waveguides. The resulting characteristic equation describes the electron-wave interaction in the passband and stopband of periodic waveguides and includes as special cases of well-known equation for the «smooth» slow-wave systems and resonator slowwave systems near the cutoff frequency. Found a number of analytical solutions of the characteristic equation, which allowed to compare the properties of the amplification and propagation of electron waves inside and on the border of passband and stopband of periodic waveguides.