Implementation of three-way power divider based on substrate integrated waveguide

“…A three-port Wilkinson power splitter has two λ 4 transformers with a characteristic impedance of 2 √ Z 0 . Moreover, it has a 2Z 0 resistor to provide isolation between the two ports, obtained according to [6]. The Wilkinson power splitter is often made in microstrip form.…”

“…One useful application for power splitters is feeding array antennas [5]. Recently, a 1×3 power divider with substrate integrated waveguide (SIW) structure was proposed by Kiris et al [6], with equal power transmission across all output ports. The measured output power in this power divider is very close to the ideal value of 4.77 dB, with bandwidth of approximately 17.5%, and better reflection coefficient of -18.76 dB at operating frequency of 10 GHz.…”

Design and fabrication of an eight-port binary Wilkinson power splitter

“…A three-port Wilkinson power splitter has two λ 4 transformers with a characteristic impedance of 2 √ Z 0 . Moreover, it has a 2Z 0 resistor to provide isolation between the two ports, obtained according to [6]. The Wilkinson power splitter is often made in microstrip form.…”

“…One useful application for power splitters is feeding array antennas [5]. Recently, a 1×3 power divider with substrate integrated waveguide (SIW) structure was proposed by Kiris et al [6], with equal power transmission across all output ports. The measured output power in this power divider is very close to the ideal value of 4.77 dB, with bandwidth of approximately 17.5%, and better reflection coefficient of -18.76 dB at operating frequency of 10 GHz.…”

Design and fabrication of an eight-port binary Wilkinson power splitter

A Wideband High-power Low-loss Power Divider Using Half-height Pin Gap Waveguide Technology

Three-Way Substrate-Integrated Waveguide Filtering Power Divider with In-Phase and Anti-Phase Outputs