Compact Millimeter-Wave On-Chip Dual-Band Bandpass Filter in 0.15-μm GaAs Technology

Article Engineering, Electrical & Electronic

W-Band E-Plane Waveguide Bandpass Filter Based on Meander Ring Resonator

Kai-Da Xu et al.

Summary: A W-band E-plane waveguide bandpass filter using an embedded substrate with metal strips and a meander ring resonator is proposed, allowing for easy adjustment of center frequency, bandwidth, and skirt selectivity. A simplified LC equivalent circuit is provided to understand the operational mechanism and investigate transmission zeros and poles. A prototype example was manufactured and measured to demonstrate a center frequency at 91.3 GHz, bandwidth from 88.9 to 93.7 GHz, and minimum insertion loss of 1.6 dB within the passband.

IEEE MICROWAVE AND WIRELESS COMPONENTS LETTERS (2021)

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Article Engineering, Electrical & Electronic

Millimeter-Wave Dual-Band Bandpass Filter With Large Bandwidth Ratio Using GaAs-Based Integrated Passive Device Technology

Guangxu Shen et al.

Summary: This study proposes a mm-wave dual-band bandpass filter with large bandwidth ratio using GaAs IPD technology, achieving a significant fractional bandwidth ratio and low insertion loss for the lower passband at 28 GHz. The design of a dual-mode on-chip resonator and the introduction of electric and magnetic couplings between adjacent resonators contribute to the realization of this dual-band filter for potential applications in mm-wave wireless systems.

IEEE ELECTRON DEVICE LETTERS (2021)

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Article Engineering, Electrical & Electronic

60-GHz Compact Dual-Mode On-Chip Bandpass Filter Using GaAs Technology

Kai-Da Xu et al.

Summary: This paper presents a 60-GHz compact dual-mode on-chip bandpass filter using gallium arsenide technology, with an LC equivalent circuit model constructed to analyze the transmission poles and zeros. A prototype was fabricated and tested, showing good agreement between simulated and measured results. The measured performance includes a center frequency of 58.7 GHz, a bandwidth of 18.4%, and a minimum insertion loss of 2.42 dB within the passband, with a chip size of approximately 0.158 mm x 0.344 mm (excluding feedings).

IEEE ELECTRON DEVICE LETTERS (2021)

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Article Engineering, Electrical & Electronic