A review of technologies and design techniques of millimeter-wave power amplifiers
V Camarchia, R Quaglia, A Piacibello… - IEEE Transactions …, 2020 - ieeexplore.ieee.org
This article reviews the state-of-the-art millimeter-wave (mm-wave) power amplifiers (PAs),
focusing on broadband design techniques. An overview of the main solid-state technologies …
focusing on broadband design techniques. An overview of the main solid-state technologies …
4.1 A 39GHz-band CMOS 16-channel phased-array transceiver IC with a companion dual-stream IF transceiver IC for 5G NR base-station applications
Increasing demands on high-data-rate and low-latency cellular communications are
accelerating the developments of millimeter-wave (mm-wave) systems for 5G NR in 28 and …
accelerating the developments of millimeter-wave (mm-wave) systems for 5G NR in 28 and …
A Multi-Band 16–52-GHz Transmit Phased Array Employing 4 × 1 Beamforming IC With 14–15.4-dBm Psat for 5G NR FR2 Operation
This article introduces a millimeter-wave (mm-wave) multi-band transmit (Tx) phased-array
design supp-orting the fifth-generation (5G) new radio frequency range 2 (NR FR2) bands …
design supp-orting the fifth-generation (5G) new radio frequency range 2 (NR FR2) bands …
A 37–42-GHz 8× 8 phased-array with 48–51-dBm EIRP, 64–QAM 30-Gb/s data rates, and EVM analysis versus channel RMS errors
This article presents a 5G 37-42-GHz 8× 8 phased array. The array is based on 2× 2 SiGe
transmit/receive (TRX) beamformer chips in the SiGe technology with 6 bits of phase control …
transmit/receive (TRX) beamformer chips in the SiGe technology with 6 bits of phase control …
64-element 16–52-GHz transmit and receive phased arrays for multiband 5G-NR FR2 operation
This article presents 16–52-GHz multiband transmit and receive phased arrays designed to
support multistandard 5G communications. The 64-element arrays are built using linear …
support multistandard 5G communications. The 64-element arrays are built using linear …
Single transformer-based compact Doherty power amplifiers for 5G RF phased-array ICs
We present a broadband parallel-combined compact Doherty power amplifier (PA) in a 28-
nm bulk complementary metal–oxide–semiconductor (CMOS) device technology for fifth …
nm bulk complementary metal–oxide–semiconductor (CMOS) device technology for fifth …
Design and analysis of a 140-GHz T/R front-end module in 22-nm FD-SOI CMOS
This article presents novel methodologies and practical design considerations for a-band
transmit/receive (T/R) front-end module (FEM) in 22-nm fully depleted silicon-on-insulator …
transmit/receive (T/R) front-end module (FEM) in 22-nm fully depleted silicon-on-insulator …
2.1 mm-wave 5G radios: Baseband to waves
There are many challenges in building millimeter-Wave (mmW) 5G radios [1]-[3]. Some of
the key challenges are the cost, heat dissipation, and array calibration. This paper describes …
the key challenges are the cost, heat dissipation, and array calibration. This paper describes …
Millimeter-wave band CMOS RF phased-array transceiver IC designs for 5G applications
This paper presents design challenges and solutions for the fifth generation (5G) phased-
array transceiver ICs in millimeter-wave (MMW) frequency bands. A 28nm bulk CMOS …
array transceiver ICs in millimeter-wave (MMW) frequency bands. A 28nm bulk CMOS …
A 24.5–29.5 GHz broadband parallel-to-series combined compact Doherty power amplifier in 28-nm bulk CMOS for 5G applications
This paper proposes a parallel-to-series combined Doherty power amplifier (PA) in 28-nm
bulk CMOS technology that improves the operation bandwidth and minimizes the die area …
bulk CMOS technology that improves the operation bandwidth and minimizes the die area …