A self-biased GaN LNA with 30 dB gain and 21 dBm <i>P</i><sub>1dB</sub> for 5G communications

Wang, Yi; Huang, Tongde; Jin, Saisai; Wang, Chong; Ma, Dongdong; Shen, Hongchang; Li, Chong; Li, Yuehua; Wu, Wen

doi:10.1017/s175907872200085x

Int. J. Microw. Wireless Technol.

2022

DOI: 10.1017/s175907872200085x

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A self-biased GaN LNA with 30 dB gain and 21 dBm P_1dB for 5G communications

Yi Wang

Tongde Huang

Saisai Jin³

et al.

Abstract: We present a self-biased three-stage GaN-based monolithic microwave integrated circuit low-noise amplifier (LNA) operating between 26 and 29 GHz for 5G mobile communications. The self-biasing circuit, common-source topology with inductive source feedback, and RLC negative feedback loops between gate and drain of the third transistor were implemented to achieve low noise, good port match, high stability, high gain, and compact size. Measurement results show that the LNA has a high and flat gain of 30.5 ± 0.4 dB… Show more

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2024

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Manufacture and applications of GaN-based piezotronic and piezo-phototronic devices

Niu,

Wang,

Sha

et al. 2024

Int. J. Extrem. Manuf.

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Driven by the urgent demands for information technology, energy, and intelligent industry， third-generation semiconductor GaN has emerged as a pivotal component in electronic and optoelectronic devices. Piezoelectric polarization is the most essential feature of GaN materials. GaN materials based on piezotronics/phototronics combine mechanical signals with electrical signals/optical signals to achieve multi-field coupling of device performance. Piezotronics regulates the carrier transport process in micro-nano devices, which has been proven to significantly improve the performance of devices (such as HEMTs and MicroLEDs) and brings many novel applications. This review examines GaN material properties and the theoretical foundations of piezotronics and phototronics. It also explores GaN device fabrication and integration processes to achieve state-of-the-art device performance. This review also analyzes the impact of introducing three-dimensional stress and regulatory forces on devices' electrical and optical output performance. Additionally, it discusses new applications of GaN devices in neural sensing, optoelectronic output, and energy harvesting. Finally, the potential of piezotronic-controlled GaN devices offers insights for future research and the development of multi-functional, diversified electronic devices.

show abstract

Manufacture and applications of GaN-based piezotronic and piezo-phototronic devices

Niu,

Wang,

Sha

et al. 2024

Int. J. Extrem. Manuf.

View full text Add to dashboard Cite

show abstract

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A self-biased GaN LNA with 30 dB gain and 21 dBm P_1dB for 5G communications

Cited by 1 publication

References 20 publications

Manufacture and applications of GaN-based piezotronic and piezo-phototronic devices

Manufacture and applications of GaN-based piezotronic and piezo-phototronic devices

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A self-biased GaN LNA with 30 dB gain and 21 dBm P1dB for 5G communications

Cited by 1 publication

References 20 publications

Manufacture and applications of GaN-based piezotronic and piezo-phototronic devices

Manufacture and applications of GaN-based piezotronic and piezo-phototronic devices

Contact Info

Product

Resources

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A self-biased GaN LNA with 30 dB gain and 21 dBm P_1dB for 5G communications