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Defected ground structure

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In printed circuit board manufacturing, a defected ground structure (DGS) is a purposefully-created defect on the ground plane of a printed microstrip board. It is typically created in the form of an etched-out pattern on the ground plane. DGS is a simplified form of an electromagnetic band gap (EBG) structure.[1] This EBG is a periodic pattern featuring a band-stop property in microstrip transmission line and circuit applications, but the DGS comprises a single defect or a very limited number of defects with periodic/aperiodic configurations.

History

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Kim et al.[2] first conceived a limited form of EBG and coined the term ‘DGS’. They used a single unit of dumbbell-shaped defect beneath a microstrip line to use its stop-band characteristics within which it impedes the propagation of electromagnetic (EM) down the line over a range of frequencies. The compact feature and ease of implementation made it popular and several other shapes of DGS evolved very fast for various microwave circuit applications. Printed circuit filter is one of them. Apart from that, DGS has also been used in the circuits of an amplifier, rat-race coupler, branch-line coupler, Wilkinson power divider, etc.[3] DGS was also employed underneath the feed lines to integrated microstrip antenna in order to filter out any unwanted harmonics.

Ideas for antenna applications

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A new concept of its application to microstrip antenna was first reported in 2005 by Guha et al.[4] The main focus was to suppress the cross-polarized radiations in a circular microstrip patch. DGS was strategically used to weaken the cross-pol generating higher-order TM21 mode. The important and necessary condition is that the deployed DGS should not influence or disturb the main resonance, i.e. the primary radiation mode. That work indeed introduced a non-resonant DGS and proved the concept. Subsequently, several advancements both in DGS type, geometry, and cross-polar performance have been achieved.

Yet another idea of patch-DGS integration has advanced the microstrip antenna array design. The issue of mutual coupling among the array elements can be reduced by integrating simple DGS- first reported in 2006.[5] This technique has been matured to address the practical issue of "scan blindness" of large arrays.

This DGS-technique has been proved to be a very useful commercially viable tool to minimize two major issues like scan blindness and cross-polar radiations in phased arrays. New generation airborne and space-borne radars are now being developed using this DGS technology.

References

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  1. ^ Yang, F.; Rahmat-Samii, Y. (2008), "Electromagnetic band gap structures in antenna engineering", Cambridge University Press, ISBN: 9780511754531, doi:10.1017/CBO9780511754531, ISBN 9780521889919
  2. ^ C. S. Kim, J. S. Park, D. Ahn, and J. B. Lim, "A novel 1-D periodic defected ground structure for planar circuits," IEEE Microwave Wireless Components Lett., vol.10, no. 4, pp. 131–133, Apr. 2000
  3. ^ Guha, D.; Biswas, S.; Antar, Y. (2011), Guha, Debatosh; Antar, Yahia M. M. (eds.), "Defected Ground Structure for Microstrip Antennas", In Microstrip and Printed Antennas: New Trends, Techniques, and Applications, John Wiley & Sons: UK, doi:10.1002/9780470973370, ISBN 9780470681923, S2CID 106449287
  4. ^ Guha, D.; Biswas, M.; Antar, Y. (2005), "Microstrip patch antenna with defected ground structure for cross polarization suppression", IEEE Antennas and Wireless Propagation Letters, 4 (1): 455–458, Bibcode:2005IAWPL...4..455G, doi:10.1109/LAWP.2005.860211, S2CID 27170050
  5. ^ Guha, D.; et, al. (2006), "Concentric ring-shaped defected ground structures for microstrip applications", IEEE Antennas and Wireless Propagation Letters, 5 (1): 402–405, Bibcode:2006IAWPL...5..402G, doi:10.1109/LAWP.2006.880691, S2CID 33219655