A 28GHz, Switched-Cascode, Class e Amplifier in 22nm CMOS FDSOI Technology

Nourhan Elsayed; Saeedeh Makhsuci; Mihai Sanduleanu

doi:10.1109/JMW.2024.3358627

A 28GHz, Switched-Cascode, Class e Amplifier in 22nm CMOS FDSOI Technology

Nourhan Elsayed
, Saeedeh Makhsuci
, Mihai Sanduleanu

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Using the stacking technique in CMOS technology for Power Amplifiers (PAs), allows the use of a higher supply voltage. This facilitates achieving a higher voltage swing, and delivering more output power while maintaining a high efficiency. This work presents an improved 2-stacked cascode class-E PA at 28 GHz. Unlike existing topologies, a switching input signal is not only applied at the input transistor, but also at the cascode transistor with an added delay. The design was fabricated in 22 nm FDSOI CMOS technology by GlobalFoundries that offers high performance especially at mm-wave frequencies. Measurement results of the cascode Class-E Power Amplifier achieves a peak PAE of 28%, and 41% DE. The switched-cascode topology showed an improved peak PAE of 35% and DE of 45%. Measured power gain was 8.5 dB with saturated output power (Psat) of 13 dBm. This work reports the best Drain Efficiency (DE) and FoM for a fully integrated PA at 28 GHz in 22 nm FDSOI.

Original language	British English
Pages (from-to)	246-252
Number of pages	7
Journal	IEEE Journal of Microwaves
Volume	4
Issue number	2
DOIs	https://doi.org/10.1109/JMW.2024.3358627
State	Published - 1 Apr 2024

Keywords

Class-E
FDSOI CMOS
high efficiency
millimeter-wave
power added efficiency (PAE)
power amplifier (PA)
stacking

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10.1109/JMW.2024.3358627

Cite this

@article{799907b3fdbe403ea889463a3144e453,

title = "A 28GHz, Switched-Cascode, Class e Amplifier in 22nm CMOS FDSOI Technology",

abstract = "Using the stacking technique in CMOS technology for Power Amplifiers (PAs), allows the use of a higher supply voltage. This facilitates achieving a higher voltage swing, and delivering more output power while maintaining a high efficiency. This work presents an improved 2-stacked cascode class-E PA at 28 GHz. Unlike existing topologies, a switching input signal is not only applied at the input transistor, but also at the cascode transistor with an added delay. The design was fabricated in 22 nm FDSOI CMOS technology by GlobalFoundries that offers high performance especially at mm-wave frequencies. Measurement results of the cascode Class-E Power Amplifier achieves a peak PAE of 28\%, and 41\% DE. The switched-cascode topology showed an improved peak PAE of 35\% and DE of 45\%. Measured power gain was 8.5 dB with saturated output power (Psat) of 13 dBm. This work reports the best Drain Efficiency (DE) and FoM for a fully integrated PA at 28 GHz in 22 nm FDSOI.",

keywords = "Class-E, FDSOI CMOS, high efficiency, millimeter-wave, power added efficiency (PAE), power amplifier (PA), stacking",

author = "Nourhan Elsayed and Saeedeh Makhsuci and Mihai Sanduleanu",

note = "Publisher Copyright: {\textcopyright} 2021 IEEE.",

year = "2024",

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doi = "10.1109/JMW.2024.3358627",

language = "British English",

volume = "4",

pages = "246--252",

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T1 - A 28GHz, Switched-Cascode, Class e Amplifier in 22nm CMOS FDSOI Technology

AU - Elsayed, Nourhan

AU - Makhsuci, Saeedeh

AU - Sanduleanu, Mihai

PY - 2024/4/1

Y1 - 2024/4/1

N2 - Using the stacking technique in CMOS technology for Power Amplifiers (PAs), allows the use of a higher supply voltage. This facilitates achieving a higher voltage swing, and delivering more output power while maintaining a high efficiency. This work presents an improved 2-stacked cascode class-E PA at 28 GHz. Unlike existing topologies, a switching input signal is not only applied at the input transistor, but also at the cascode transistor with an added delay. The design was fabricated in 22 nm FDSOI CMOS technology by GlobalFoundries that offers high performance especially at mm-wave frequencies. Measurement results of the cascode Class-E Power Amplifier achieves a peak PAE of 28%, and 41% DE. The switched-cascode topology showed an improved peak PAE of 35% and DE of 45%. Measured power gain was 8.5 dB with saturated output power (Psat) of 13 dBm. This work reports the best Drain Efficiency (DE) and FoM for a fully integrated PA at 28 GHz in 22 nm FDSOI.

AB - Using the stacking technique in CMOS technology for Power Amplifiers (PAs), allows the use of a higher supply voltage. This facilitates achieving a higher voltage swing, and delivering more output power while maintaining a high efficiency. This work presents an improved 2-stacked cascode class-E PA at 28 GHz. Unlike existing topologies, a switching input signal is not only applied at the input transistor, but also at the cascode transistor with an added delay. The design was fabricated in 22 nm FDSOI CMOS technology by GlobalFoundries that offers high performance especially at mm-wave frequencies. Measurement results of the cascode Class-E Power Amplifier achieves a peak PAE of 28%, and 41% DE. The switched-cascode topology showed an improved peak PAE of 35% and DE of 45%. Measured power gain was 8.5 dB with saturated output power (Psat) of 13 dBm. This work reports the best Drain Efficiency (DE) and FoM for a fully integrated PA at 28 GHz in 22 nm FDSOI.

KW - Class-E

KW - FDSOI CMOS

KW - high efficiency

KW - millimeter-wave

KW - power added efficiency (PAE)

KW - power amplifier (PA)

KW - stacking

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DO - 10.1109/JMW.2024.3358627

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EP - 252

JO - IEEE Journal of Microwaves

JF - IEEE Journal of Microwaves

IS - 2

ER -

A 28GHz, Switched-Cascode, Class e Amplifier in 22nm CMOS FDSOI Technology

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Keywords

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