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Closed-form design method for tight parallel-coupled microstrip coupler with ultra-wideband performance and practical dimensions

Closed-form design method for tight parallel-coupled microstrip coupler with ultra-wideband performance and practical dimensions

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© The Institution of Engineering and Technology
Published

A closed-form method for designing a microstrip coupler that has a simple planar structure, tight coupling, practical dimensions, and ultra-wideband performance is presented. According to the proposed method, the coupled microstrip structure is divided into three sections. A theoretical model based on the even-odd mode analysis of four-port networks is derived and used to find the optimum length and coupling factor for each of those sections to get an ultra-wideband performance. According to the model, the central section is designed to have a tight coupling by utilising a slotted ground plane and one lumped capacitor, whereas the two side sections have loose coupling. The presented method is validated by building a compact 3 dB coupler that has more than 116% fractional bandwidth.

Inspec keywords: ultra wideband technology; multiport networks; microstrip couplers

Other keywords: ultra wideband performance; closed-form design method; four-port networks; even-odd mode analysis; parallel-coupled microstrip coupler; coupling factor; tight coupling; slotted ground plane

Subjects: Waveguide and microwave transmission line components

References

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      • Y. Xu , G. Bossisio . A novel structure of tightly coupled lines for MMIC/MHMIC couplers and phase shifters. IEEE Trans. Microw. Theory Tech. , 1594 - 1599
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      • Kim, C., Kim, Y., Song, S., Jung, W., Kang, K., Park, J., Ahn, D.: `A design of microstrip directional coupler for high directivity and tight coupling', 31stEuropean Microwave Conf., 2001, London, UK.
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