Asymmetrical 4 x 4 Butler Matrix and its Application for Single Layer 8 x 8 Butler Matrix

The design procedure and measured results of a novel 4 x 4 Butler matrix are presented in this paper. This asymmetrical structure provides fairly flexible phase outputs; therefore, the array radiation pattern can be rotated around the array normal axis. The structure of this modified Butler matrix is discussed in detail, and the explicit design formulas are derived to achieve the arbitrary main beams direction. Using the proposed design procedure, the Butler matrix can provide even broadside and endfire beams. In addition, this structure is employed to design two Butler matrices, which generate similar patterns as a conventional 8x8 Butler matrix, using only single layer circuits with significantly lower sizes. Both structures are implemented for Wi-Fi frequency (2.45 GHz), and the measured results are presented. The first structure employs two asymmetrical 4 x 4 Butler matrices, while the second one uses only one 4x4 Butler matrix with single-pole double-throw (SPDT) switches added to select the proper constant phase shifts. The measured return loss, the average insertion loss, and the fractional bandwidth for the first structure are >= 23 dB, 6.6 dB, and 24%, respectively. These parameters for the second structure are >= 17 dB, 7.8 dB, and 20%, respectively. Moreover, the size reduction for the first and second structures compared to a conventional 8x8 Butler matrix is about 50% and 80%, respectively.