A Quasi-Doherty SOI CMOS Power Amplifier With Folded Combining Transformer

Kim, Ki-Chul; Lee, Dong‐Ho; Hong, Songcheol

doi:10.1109/tmtt.2016.2577584

Cited by 14 publications

(5 citation statements)

References 24 publications

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“…However, a quarter wave TLine is hard to implement in CMOS as the losses would simply be too high (Reynaert, Cao et al, 2016). Several papers (Ryu, Jang et al, 2014;Reynaert, Cao et al, 2016;Kim, Lee & Hong, 2016) report using series combining transformers in order to imitate the loadpull effect. The effect is reduced, comparing to the traditional DPA, but the benefit of combining a Class AB and a Class C PA still results in a higher overall efficiency and a possibly increased bandwidth.…”

Section: Doherty Architecturementioning

confidence: 99%

“…The effect is reduced, comparing to the traditional DPA, but the benefit of combining a Class AB and a Class C PA still results in a higher overall efficiency and a possibly increased bandwidth. The latter version of DPA is referred to as quasi-DPA (Kim, Lee & Hong, 2016). The same paper reported a quasi-DPA with a 44.4% PAE at P sat = 30.7 dBm and a 39.8% at 3.5 dB back-off.…”

Section: Doherty Architecturementioning

confidence: 99%

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Mid-band 5G wireless network power amplifier research

Vasjanov¹

2019

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Vilnius 2019 Disertacija rengta 2015-2019 metais Vilniaus Gedimino technikos universitete. Vadovas doc. dr. Vaidotas BARZDĖNAS (Vilniaus Gedimino technikos universitetas, elektros ir elektronikos inžinerija-T 001). Vilniaus Gedimino technikos universiteto Elektros ir elektronikos inžinerijos mokslo krypties disertacijos gynimo taryba: Pirmininkas prof. habil. dr. Romualdas NAVICKAS (Vilniaus Gedimino technikos universitetas, elektros ir elektronikos inžinerija-T 001). Nariai: dr. Alvydas LISAUSKAS (Lenkijos mokslų akademijos Aukšto slėgio fizikos institutas, fizika-N 002), doc. dr. Vitalij NOVICKIJ (Vilniaus Gedimino technikos universitetas, elektros ir elektronikos inžinerija-T 001), prof. dr. Šarūnas PAULIKAS (Vilniaus Gedimino technikos universitetas, elektros ir elektronikos inžinerija-T 001), prof. dr. Algimantas VALINEVIČIUS (Kauno technologijos universitetas, elektros ir elektronikos inžinerija-T 001). Disertacija bus ginama viešame Elektros ir elektronikos inžinerijos mokslo krypties disertacijos gynimo tarybos posėdyje 2019 m. birželio 13 d. 10 val. Vilniaus Gedimino technikos universiteto senato posėdžių salėje.

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Section: Doherty Architecturementioning

confidence: 99%

Section: Doherty Architecturementioning

confidence: 99%

Mid-band 5G wireless network power amplifier research

Vasjanov¹

2019

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“…However, a single‐ended class‐AB CMOS PA can hardly meet the more and more stringent requirement of linearity and high power capacity for wireless standards, simultaneously. Several linearization techniques—gm linearization technique, digital predistortion (DPD), harmonic termination (HT), interactive AM‐AM modulation, and dynamic gate bias—were proposed to overcome the disadvantages. Because the performance of a class‐AB PA is strongly dependent on its gate bias condition, integrated adaptive dynamic bias (ADB) network can be utilized to set the optimum bias for linearization.…”

Section: Introductionmentioning

confidence: 99%

A high power CMOS cascode power amplifier with adaptive dynamic bias control for linearity enhancement

Ren

Dai

et al. 2020

Micro & Optical Tech Letters

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This work presents both high power and high linearity CMOS cascode power amplifier (PA) with adaptive dynamic bias (ADB) circuit. The ADB circuit sets appropriate gate bias for the common source and common gate (CG) amplifiers according to the input envelope signal, significantly improving the linearity. Meanwhile, harmonic termination circuits are introduced at the gate of the CG amplifier and the center-tap node of the output transformer to short the second harmonic component to ground, further improving the linearity. In addition, this work utilizes an on-chip series-connected transformerbased power combiner to enhance output power. A fully integrated differential PA including the ADB circuit is fabricated in 0.13 μm radio frequency silicon-oninsulator technology. From 2.5 V supply voltage, the proposed PA produces a saturated output power of 30.3 dBm with a peak power-added efficiency of 43.1%. Thanks to the linearization techniques, the proposed PA transmits 23.5 dBm average linear output power with 3% error vector magnitude for a 20-MHz 64-QAM orthogonal frequency division multiplexing modulated signal without any digital predistortion circuits. K E Y W O R D Sadaptive dynamic bias, harmonic termination, linearization, silicon-oninsulator, transformer-based power combiner

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“…Doherty power amplification exhibits high efficiency over a wide range of output power, but the =4 transmission lines are usually difficult to be integrated in a single die [9]. Transformer power combining technique can dynamically modulate the load by channel switching, hence it is able to keep the high efficiency at back-off region.…”

Section: Introductionmentioning

confidence: 99%

Fully-integrated linear CMOS power amplifier with proportional series combining transformer for S-Band applications

et al. 2018

IEICE Electron. Express

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A novel proportional series combining transformer using for power amplifier (PA) is presented. Compared with balanced series combining structures, the high efficiency range is extended by sophisticated power adjusting and impedance tuning. As a proof-of-concept, a 2.5 V dual-channel PA with the proposed transformer was implemented in standard 0.18-µm CMOS process. The fabricated PA achieved a saturated output power (P sat ) of 28 dBm and a maximum linear output power (P 1-dB ) of 26.8 dBm with the power added efficiency (PAE) of 33.5% and 31%, respectively. With power mode control, the high efficiency range exceeded 8.2 dB. The PA satisfied EVM requirements of LTE 2.3 GHz 20 MHz/64-QAM signal and WLAN 802.11g signal, respectively. Keywords: power amplifier, transformer, power combiner, proportional, power mode control Classification: Integrated circuits

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A Quasi-Doherty SOI CMOS Power Amplifier With Folded Combining Transformer

Cited by 14 publications

References 24 publications

Mid-band 5G wireless network power amplifier research

Mid-band 5G wireless network power amplifier research

A high power CMOS cascode power amplifier with adaptive dynamic bias control for linearity enhancement

Fully-integrated linear CMOS power amplifier with proportional series combining transformer for S-Band applications

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