Compact circular waveguide TM
            <sub>02</sub>
            ‐TE
            <sub>11</sub>
            mode converter

Zhang, Xinge; Shao-fu, LI

doi:10.1049/iet-map.2016.0450

Cited by 3 publications

(1 citation statement)

References 23 publications

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“…The device under test (DUT) is designed to achieve 1GW peak power handling capacity and 98.5% power conversion efficiency within 14.6～15.4GHz, which measures 20cm long by 3cm inner waveguide diameter with an overmoded ratio of about 1.5. To characterize single target mode converter, our idea is to employ a TM 01 mode generator A and a TE 11 mode generator B to conduct a "TM01A+Mode Converter+TE11B" measurement [19], as shown in Fig. 4, then to remove the TM01A and TE11B mode generators' influence from the composite measurement results through de-embedding calculation [20] for the net Sparameters of the target TM 01 -TE 11 mode converter.…”

Section: Figure 1 Schematic Of the Back-to-back Methods For Measuringmentioning

confidence: 99%

A Method for Accurately Characterizing Single Overmoded Circular TM₀₁-TE₁₁ Mode Converter

et al. 2020

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In the case of characterizing waveguide mode converter, the widely applied back-to-back method can only extract two mode converters' joint S-parameters, the accuracy of the far-field radiation pattern method is limited. This paper experimentally demonstrates a method for accurately characterizing single circular TM 01-TE 11 mode converter, which consists of extracting the asymmetric two-port TM 01 and TE 11 mode generator test fixtures' S-parameters and de-embedding them from the "TM 01 mode generator+ TM 01-TE 11 mode Converter+TE 11 mode generator" cascade measurement results. The peak problem occurring in measuring overmoded circular waveguide devices with VNA is analyzed and settled with an offset waveguide based peak-shifting tactic plus the Loess smoothing method. Fairly good agreement between the simulated and finally extracted complex S-parameter matrix of a TM 01-TE 11 mode converter throughout the device's working frequency span validates the proposed method's merits over traditional methods. INDEX TERMS asymmetric fixture, de-embedding, mode generator, overmoded mode converter, offset waveguide, S-parameter, thru-reflect-line (TRL) calibration.

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Section: Figure 1 Schematic Of the Back-to-back Methods For Measuringmentioning

confidence: 99%

A Method for Accurately Characterizing Single Overmoded Circular TM₀₁-TE₁₁ Mode Converter

et al. 2020

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Wideband Printed TM₀₁ to TE₁₁ Mode Converters

et al. 2019

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Different structures for three categories of the TM 01 -TE 11 mode converters; i.e., dielectric loaded-based, metallic septum-based, and mode converter with intermediate modes; are proposed and investigated for the aim of wider operational bandwidth. The principles of operation of all mode converters are explained in detail. Thanks to 3D printing capabilities, the design can be very flexible and the optimal results are achieved using more complicated structures in an easy and realizable fabrication process. The simulation and measurement results of the proposed TM 01 -TE 11 mode converters, including reflection coefficients and radiation patterns, show great conversion efficiency and wideband performances with fractional bandwidths up to 20.8%.INDEX TERMS Dielectric loaded, high power microwave (HPM) source, intermediate modes, metallic septum based, mode converters, three-dimensional (3D) printing.

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Mixed-Modes Conversion Method for Dual-Mode Relativistic Backward-Wave Oscillators

Gui

Xiao

et al. 2021

IEEE Microw. Wireless Compon. Lett.

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Compact circular waveguide TM ₀₂ ‐TE ₁₁ mode converter

Cited by 3 publications

References 23 publications

A Method for Accurately Characterizing Single Overmoded Circular TM₀₁-TE₁₁ Mode Converter

A Method for Accurately Characterizing Single Overmoded Circular TM₀₁-TE₁₁ Mode Converter

Wideband Printed TM₀₁ to TE₁₁ Mode Converters

Mixed-Modes Conversion Method for Dual-Mode Relativistic Backward-Wave Oscillators

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Compact circular waveguide TM 02 ‐TE 11 mode converter

Cited by 3 publications

References 23 publications

A Method for Accurately Characterizing Single Overmoded Circular TM01-TE11 Mode Converter

A Method for Accurately Characterizing Single Overmoded Circular TM01-TE11 Mode Converter

Wideband Printed TM01 to TE11 Mode Converters

Mixed-Modes Conversion Method for Dual-Mode Relativistic Backward-Wave Oscillators

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Product

Resources

About

Compact circular waveguide TM ₀₂ ‐TE ₁₁ mode converter

A Method for Accurately Characterizing Single Overmoded Circular TM₀₁-TE₁₁ Mode Converter

A Method for Accurately Characterizing Single Overmoded Circular TM₀₁-TE₁₁ Mode Converter

Wideband Printed TM₀₁ to TE₁₁ Mode Converters