Design of waveguide finline arrays for spatial power combining

Abstract: Dense arrays of tapered-slot or finline transitions have proven useful in the design of compact spatial power combiners. In this paper, a design procedure is established for tapered finline arrays, providing a broad-band impedance match to a target load over the waveguide band. The procedure is based on an extension of the Klopfenstein optimal taper design to a non-TEM waveguiding structures, and employs the spectral-domain method to the computation of propagation constants in the array structure. The method h… Show more

“…Modern radar requires multi-function, multi-target, high data rate, high reliability and high adaptive ability. For the search radar system that uses digital technology for signal processing and data processing, this means that the data rate, storage capacity and algorithm complexity of the system are increasing, requiring the radar signal processing system and data processing system to complete the processing of the echo data in a very short time, that is, requiring the radar data processor and signal processor to have the ability to process in real time You will lose the target and even cause the system to crash [1][2][3][4][5][6].…”

Design of data processing for integrated search and tracking radar

“…Modern radar requires multi-function, multi-target, high data rate, high reliability and high adaptive ability. For the search radar system that uses digital technology for signal processing and data processing, this means that the data rate, storage capacity and algorithm complexity of the system are increasing, requiring the radar signal processing system and data processing system to complete the processing of the echo data in a very short time, that is, requiring the radar data processor and signal processor to have the ability to process in real time You will lose the target and even cause the system to crash [1][2][3][4][5][6].…”

Design of data processing for integrated search and tracking radar

Finline Components

Investigation of a power divider using a coaxial probe array in a coaxial waveguide