Highly Linear mm-Wave CMOS Power Amplifier

Park, Byungjoon; Jin, Sangsu; Jeong, Daechul; Kim, Jooseung; Cho, Yunsung; Moon, Kibong; Kim, Bumman

doi:10.1109/tmtt.2016.2623706

Cited by 145 publications

(40 citation statements)

References 28 publications

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“…specifications, this PA delivers 5.9dB and 4.7dB higher average P OUT than [1] and [3] respectively, despite the lower V DD . The PA in [2] is the only work that achieves higher P OUT under modulated signal but with a much higher (x2.4) supply voltage and much lower modulation bandwidth (less than 32%). Moreover, the very low AM-PM distortion of the presented PA enables state-of-the-art ACPR and up to 6Gb/s data rate at 5.9dBm P OUT with EVM<-25dBc.…”

Section: Resultsmentioning

confidence: 99%

“…The frequency spectrum above 24GHz will be a key enabler for future Gb/s fifth generation (5G) wireless communication systems [1,2]. To maximize the data rate, high order modulation schemes (e.g.…”

Section: Introductionmentioning

confidence: 99%

“…However, the BW, average P OUT and ACPR under modulated signal considerably limit the achievable link distance and coexistence with adjacent channels. 2 nd harmonic shorts are introduced in [2] to enhance the PA linearity, achieving excellent PAE under modulated signal but with very limited bandwidth. Clearly, the effectiveness of harmonics traps increase with their quality factor, directly trading with bandwidth.…”

Section: Introductionmentioning

confidence: 99%

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A 29-to-57GHz AM-PM compensated class-AB power amplifier for 5G phased arrays in 0.9V 28nm bulk CMOS

Vigilante

Reynaert

2017

2017 IEEE Radio Frequency Integrated Circuits Symposium (RFIC)

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Abstract-This paper presents a 29-to-57GHz (65% BW) AM-PM compensated class-AB power amplifier tailored for 5G phased arrays. Designed in 0.9V 28nm CMOS without RF thick top metal, the PA achieves a Psat=15.1dBm±1.6dB and │AM-PM│<1° from 29-to-57GHz, with a peak PAE of 24.2%. Techniques are studied to realize the required load impedance and distortion cancellation over the wide band of operation, while allowing 2-way power combining to further increase the delivered POUT. The very low AM-PM distortion of the realized PA enables up to 10.1, 8.9, 5.9dBm average POUT while amplifying a 1.5, 3, 6Gb/s 64-QAM respectively at 34GHz with EVM/ACPR better than -25dBc/-30dBc, without any digital pre-distortion.Index Terms-5G mobile communication, power amplifiers, AM-PM, broadband, wideband, coupled resonators, gain-bandwidth product, GBW, mm-Wave, CMOS. I. INTRODUCTIONThe frequency spectrum above 24GHz will be a key enabler for future Gb/s fifth generation (5G) wireless communication systems [1,2]. To maximize the data rate, high order modulation schemes (e.g. 64-QAM) with large RF bandwidth (>100MHz) will be adopted. At the transmitter side, this implies several design challenges. 1) A wideband PA is needed to cover several channels, amplify wideband signals and ensure robust performance against PVT variations. 2) Modulated signals with high spectral efficiency show large peak-to-average-powerratio, challenging the linearity vs. efficiency trade-off for a given average P OUT . 3) Digital pre-distortion is not easily applicable when several PAs are integrated in an array [1]. Therefore, techniques to compensate AM-PM distortion over a large bandwidth are desirable to improve both inband and out-of-band linearity (i.e. EVM and ACPR).Recently, the work in [1] has shown the feasibility of 28GHz CMOS PAs with outstanding efficiency. However, the BW, average P OUT and ACPR under modulated signal considerably limit the achievable link distance and coexistence with adjacent channels. 2

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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A 29-to-57GHz AM-PM compensated class-AB power amplifier for 5G phased arrays in 0.9V 28nm bulk CMOS

Vigilante

Reynaert

2017

2017 IEEE Radio Frequency Integrated Circuits Symposium (RFIC)

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“…In analog systems, design and implementing analog filters carry significance, particularly in signal processing applications. In analog filters, which are active filters where operational amplifiers form the active element, design criteria are too critical for varying requirements and linearity plays a pivotal role in design [2]. The high gain amplifiers, as operational amplifiers are commonly attributed, it offers good bandwidth at the cost of temperature performance, power dissipation etc.…”

Section: Introductionmentioning

confidence: 99%

“…A topology employing CFA-OTA as input stage cascaded with class AB cross coupled buffer as output stage in .35 µm is discussed in paper [1]. A Ka band linear power amplifier is implemented in 28 nm bulk technology in paper [2]. Also another CMOS CFOA design with 100 MHz bandwidth is presented in paper [11].…”

Section: Introductionmentioning

confidence: 99%

DESIGN AND SIMULATION OF CURRENT FEEDBACK OPERATIONAL AMPLIFIER IN 180nm AND 90nm CMOS PROCESSES

Sajin¹,

Ramrosh²,

A³

2017

IJME

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Millimeter‐Wave RF Designs

Wang

2019

Wiley 5G Ref

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In this article, the topic of millimeter wave radio frequency (RF) designs is introduced for the fifth‐generation communication system. State‐of‐the‐art studies in both academia and industry are reviewed, from four perspectives of architecture, radio frequency integrated circuit (RFIC) design, package, and measurement. The base station and user equipment architectures are illustrated in details, and the RFIC design, especially for the phased array, is emphasized with several important components, such as power amplifier and on‐chip antenna. Then, antenna‐in‐package technology is illustrated. Later, the over‐the‐air measurement is discussed to resolve the measurement issues. Finally, the current and future challenges in research and practice are pointed out.

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Highly Linear mm-Wave CMOS Power Amplifier

Cited by 145 publications

References 28 publications

A 29-to-57GHz AM-PM compensated class-AB power amplifier for 5G phased arrays in 0.9V 28nm bulk CMOS

A 29-to-57GHz AM-PM compensated class-AB power amplifier for 5G phased arrays in 0.9V 28nm bulk CMOS

DESIGN AND SIMULATION OF CURRENT FEEDBACK OPERATIONAL AMPLIFIER IN 180nm AND 90nm CMOS PROCESSES

Millimeter‐Wave RF Designs

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