Compact wideband Wilkinson power divider on gallium arsenide‐based integrated passive device technology

Abstract: In this article, a novel topology of wideband on-chip Wilkinson power divider (WPD) with good insertion loss (IL) performance is proposed and demonstrated on gallium arsenide (GaAs)-based integrated passive device (IPD) technology. The proposed WPD is further analyzed by the even and odd method.To verify the advantage of the proposed WPD against the conventional one, two examples are numerically investigated, showing that the proposed one achieves better performance in terms of IL and isolation. In addition, t… Show more

“…To enhance of harmonic suppression disadvantage, power dividers with H-shaped resonators [8], four isolation stages for ultra-wide operational band [9] and embedding three-line coupled structures [10], are presented. In other designs of power dividers, disadvantages such as large size [11][12][13] and high losses can be seen [14,15].…”

Design of wide rejection harmonic band Wilkinson power divider based on single suppressor topology for UHF applications

“…To enhance of harmonic suppression disadvantage, power dividers with H-shaped resonators [8], four isolation stages for ultra-wide operational band [9] and embedding three-line coupled structures [10], are presented. In other designs of power dividers, disadvantages such as large size [11][12][13] and high losses can be seen [14,15].…”

Design of wide rejection harmonic band Wilkinson power divider based on single suppressor topology for UHF applications

Evaluation of a 40-nm CMOS Process 105-to-145-GHz Differential Wilkinson Coupler