Analysis of Coupled Planar Helices with Straight-Edge Connections for Application in Millimeter-Wave TWTs

Two different types of coupled planar helix structures with straight-edge connections (PH-SECs), namely, an unconnected pair and a coaxial pair of planar helices, are proposed and analyzed in the context of application in millimeter-wave traveling-wave tubes. It is shown that the nature of the propagating modes, dispersion characteristics, field distribution, and coupling impedance for the proposed structures can be obtained as special cases of a generic structure that consists of four parallel infinite unidirectionally conducting screens. For both the coupled planar helix structures, the results based on simple analytical approximations of the generic structure match well with the simulation results. As an application of these structures, simulation results are presented to show that the unconnected pair of planar helices has a reduced interaction with backward waves compared with that for a corresponding single planar helix. The proposed PH-SECs offer easier fabrication using printed-circuit or microfabrication techniques compared with their circular counterparts.

[1]  D.T. Lopes,et al.  Characterization of Ring-Bar and Contrawound Helix Circuits for High-Power Traveling-Wave Tubes , 2008, IEEE Transactions on Electron Devices.

[2]  Lei Wang,et al.  Microfabrication and Characterization of W-Band Planar Helix Slow-Wave Structure With Straight-Edge Connections , 2011, IEEE Transactions on Electron Devices.

[3]  Jinjun Feng,et al.  A Novel V-Shaped Microstrip Meander-Line Slow-Wave Structure for W-band MMPM , 2012, IEEE Transactions on Plasma Science.

[4]  John R. Whinnery,et al.  Slow Waves Guided by Parallel Plane Tape Guides , 1982 .

[5]  R. Arora Surface waves on a pair of parallel undirectionally conducting screens , 1966 .

[6]  Marvin Chodorow,et al.  Cross‐Wound Twin Helices for Traveling‐Wave Tubes , 1955 .

[7]  Yubin Gong,et al.  Dispersion Characteristics of a Rectangular Helix Slow-Wave Structure , 2008, IEEE Transactions on Electron Devices.

[8]  C. Quate,et al.  Coupled helices , 1956 .

[9]  A. N. Vlasov,et al.  Novel slow-wave structure for high voltage TWTs , 2012, IVEC 2012.

[10]  Zhongxiang Shen,et al.  Planar Helix With Straight-Edge Connections in the Presence of Multilayer Dielectric Substrates , 2010, IEEE Transactions on Electron Devices.

[11]  B. B. Pal,et al.  Equivalent circuit analysis of a system of coupled helical transmission lines in a complex environment , 1983 .

[12]  R. Ives,et al.  Microfabrication of high-frequency vacuum electron devices , 2004, IEEE Transactions on Plasma Science.

[13]  S. K. Datta,et al.  Novel Multi helix structure for high frequency application , 2012, IVEC 2012.

[14]  J. Pierce,et al.  Traveling-Wave Tubes , 1947, Proceedings of the IRE.