Wideband X-Band Microstrip Butler Matrix

Abstract: This paper presents the design of a wideband X-band microstrip 4×4 Butler matrix. The wideband performance of the Butler matrix means that it possesses equal coupling and difference of phases throughout the operating band. Design of the wideband components such as 3-branch branch line hybrid, crossover and Schiffman line phase shifter are presented in this paper. A final design of the Butler matrix is proposed. The Butler matrix exhibits couplings and phase errors within −6.7 ± 0.7 dB and 10 • over a 20% bandw… Show more

“…Butler matrix is the key component of those beamforming networks that are widely applied in smart antennas [1,2]. It is a passive microwave network consisting of N input and N output ports.…”

“…In the literature, a few fully planar structures are proposed, such as the conventional approach of cascading hybrid and symmetric fourport junctions [2,[8][9][10][11][12]. The cascaded structures utilized in [2,8] result in a large size, whereas the use of very thin lines [9] limits the power handling capability, which is crucial factor in the beamforming networks of microwave transmitters.…”

“…The cascaded structures utilized in [2,8] result in a large size, whereas the use of very thin lines [9] limits the power handling capability, which is crucial factor in the beamforming networks of microwave transmitters. The structures presented in [10][11][12] uses slotted grounds and thus they are not perfectly compatible with uniplanar microstrip circuits.…”

Compact Planar Microstrip Crossover for Beamforming Networks

“…Butler matrix is the key component of those beamforming networks that are widely applied in smart antennas [1,2]. It is a passive microwave network consisting of N input and N output ports.…”

“…In the literature, a few fully planar structures are proposed, such as the conventional approach of cascading hybrid and symmetric fourport junctions [2,[8][9][10][11][12]. The cascaded structures utilized in [2,8] result in a large size, whereas the use of very thin lines [9] limits the power handling capability, which is crucial factor in the beamforming networks of microwave transmitters.…”

“…The cascaded structures utilized in [2,8] result in a large size, whereas the use of very thin lines [9] limits the power handling capability, which is crucial factor in the beamforming networks of microwave transmitters. The structures presented in [10][11][12] uses slotted grounds and thus they are not perfectly compatible with uniplanar microstrip circuits.…”

Compact Planar Microstrip Crossover for Beamforming Networks

“…One method is using multilayer technology, such as two-layer substrate integrated waveguide (SIW) [1], multilayer coplanar waveguide (CPW) [2] and stripline coupled line [3]. The other method is based on planar printed circuit technology such as SIW [4] and microstrip lines [5,6].…”

“…In addition, the processing requirements are more rigorous than the single-layer planar circuits. In the study of planar wideband matrices, some researchers adopted SIW technology to design a Butler matrix for wideband applications [4], and some other researchers use disk hybrids [5] or wideband branch-line couplers [6] to compose wideband Butler matrices. These Butler matrices own their superiorities in some aspects as well as some disadvantages in other aspects.…”

DESIGN AND IMPLEMENTATION OF A COMPACT PLANAR 4 x 4 MICROSTRIP BUTLER MATRIX FOR WIDEBAND APPLICATION

Autonomous System of Wireless Power Distribution for Static and Moving Nodes of Wireless Sensor Networks