4.6 Article

An Active Bandpass Filter for LTE/WLAN Applications Using Robust Active Inductors in Gallium Nitride

Journal

Publisher

IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TCSII.2021.3054739

Keywords

Active inductor; tunable filter; gallium nitride (GaN); configurable transceiver; gyrator

Funding

  1. Canadian Microelectronics Corporation

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This study demonstrates the performance of the first active bandpass filter to implement an active inductor in GaN technology. The active filter shows a wide tuning range and excellent quality factor, showcasing its capabilities in LTE/WLAN applications.
This brief demonstrates the performance of the first active bandpass filter to implement an active inductor in gallium nitride (GaN) technology. Fabrication of the filter and inductor was done using a 0.5 mu m pHEMT GaN process with the system implemented on one 2 mm by 2 mm die. The tuning range of the active filter was measured to be 749 MHz at a centre frequency of 3.39 GHz with separate amplitude and quality factor tuning. An amplitude range for S-21 was measured to be from -12.2 dB to 13.7 dB within the operating frequency range. Taking advantage of the active inductor's negative impedance the filter was able to produce a quality factor of 138. On-chip, the active inductor occupies an area of 350 mu m by 175 mu m compared to approximately 350 mu m by 350 mu m for their passive counterparts of similar inductance (a 50% decrease in size). The filter was designed for LTE/WLAN applications to demonstrate the capabilities of the active inductor.

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