Wideband multilayer directional coupler with tight coupling and high directivity

Abstract: A novel, wideband, symmetrical, printed directional coupler is described, which has tight coupling and high directivity. The coupler consists of four interconnected strips printed in two layers. The dimensions of the strips are optimized to minimize the dispersion of propagating modes. Design data are provided for some typical practical cases. The theoretical results are verified experimentally. © 2012 Wiley Periodicals, Inc. Microwave Opt Technol Lett 54:2261–2267, 2012; View this article online at wileyonlin… Show more

“…The new structure is based on a four-port coupler, which is traditionally used in microwave designs to reduce reflection issues in signal split. We base our coupler on a recent design [40] that has excellent directivity and frequency characteristics. A simple coupler consists of two TL structures running in parallel close to each other, as shown in Figure 2a.…”

Automatic OpenCL work-group size selection for multicore CPUs

“…The new structure is based on a four-port coupler, which is traditionally used in microwave designs to reduce reflection issues in signal split. We base our coupler on a recent design [40] that has excellent directivity and frequency characteristics. A simple coupler consists of two TL structures running in parallel close to each other, as shown in Figure 2a.…”

Automatic OpenCL work-group size selection for multicore CPUs

“…Characterization techniques for symmetric coupled transmission lines have been a topic of active research for years since the use of differential circuits is notably increasing in microwave technology. This particular case of multiconductor transmission lines is widely used for several applications in the microwave and millimeter-wave frequency bands where devices such as filters [1], power dividers [2], and directional couplers [3] are extensively used. The knowledge of the actual propagation constant of quasi-TEM modes is of great This work is licensed under a Creative Commons Attribution 4.0 License.…”

Performance Evaluation of Broadband Characterization of Coupled Transmission Lines Even- and Odd-Mode Propagation Constants Using Differential and Common Mode S-Parameters

A Switched Beamforming Network for 5G Modern Wireless Communications Applications.