Design and Simulation of Broadband One-Four Wilkinson Power Divider

“…The transmission line in [1] is replaced by a tapered transmission line [6], [11]- [13], [16], [18], [20], resulting in a designed Wilkinson divider that is wideband which can operate at frequencies ranging from 28 to 29 GHz. The scattering parameters can be used to explain a 2-way Wilkinson power divider circuit behavior.…”

“…In microwave applications, Wilkinson power dividers are commonly used to evenly divide the input power between output ports [1]. The Wilkinson power divider received high attention due to its simple design structure and high isolation between output ports while keeping impedance at all ports matched [2]- [20]. Although Wilkinson power divider-based feeding networks have been described in many research studies, previous communication systems are primarily developed for 4G wireless communication networks and are rarely designed for 5G systems [2]- [20].…”

“…The Wilkinson power divider received high attention due to its simple design structure and high isolation between output ports while keeping impedance at all ports matched [2]- [20]. Although Wilkinson power divider-based feeding networks have been described in many research studies, previous communication systems are primarily developed for 4G wireless communication networks and are rarely designed for 5G systems [2]- [20]. A wideband 2-way Wilkinson power divider functioning at high frequency band 28 GHz is investigated and presented in this paper.…”

Design of Wilkinson power divider at 28 GHz for 5G applications

“…The transmission line in [1] is replaced by a tapered transmission line [6], [11]- [13], [16], [18], [20], resulting in a designed Wilkinson divider that is wideband which can operate at frequencies ranging from 28 to 29 GHz. The scattering parameters can be used to explain a 2-way Wilkinson power divider circuit behavior.…”

“…In microwave applications, Wilkinson power dividers are commonly used to evenly divide the input power between output ports [1]. The Wilkinson power divider received high attention due to its simple design structure and high isolation between output ports while keeping impedance at all ports matched [2]- [20]. Although Wilkinson power divider-based feeding networks have been described in many research studies, previous communication systems are primarily developed for 4G wireless communication networks and are rarely designed for 5G systems [2]- [20].…”

“…The Wilkinson power divider received high attention due to its simple design structure and high isolation between output ports while keeping impedance at all ports matched [2]- [20]. Although Wilkinson power divider-based feeding networks have been described in many research studies, previous communication systems are primarily developed for 4G wireless communication networks and are rarely designed for 5G systems [2]- [20]. A wideband 2-way Wilkinson power divider functioning at high frequency band 28 GHz is investigated and presented in this paper.…”

Design of Wilkinson power divider at 28 GHz for 5G applications

Research and Design of Dual-Band 1:8 Wilkinson Power Dividers for 5G Application

A Low-Profile Broadband Antenna Array