S. Kee scite author profile

Abstract-In this paper, we compare the performance of the newly introduced distributed active transformer (DAT) structure to that of conventional on-chip impedance-transformations methods. Their fundamental power-efficiency limitations in the design of high-power fully integrated amplifiers in standard silicon process technologies are analyzed. The DAT is demonstrated to be an efficient impedance-transformation and power-combining method, which combines several low-voltage push-pull amplifiers in series by magnetic coupling. To demonstrate the validity of the new concept, a 2.4-GHz 1.9-W 2-V fully integrated power-amplifier achieving a power-added efficiency of 41% with 50-input and output matching has been fabricated using 0.35-m CMOS transistors.

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The class-E/F family of ZVS switching amplifiers

Kee

Aoki²,

Hajimiri

et al. 2003

IEEE Trans. Microwave Theory Techn.

231

138

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Abstract-A new family of switching amplifiers, each member having some of the features of both class E and inverse F, is introduced. These class-E/F amplifiers have class-E features such as incorporation of the transistor parasitic capacitance into the circuit, exact truly switching time-domain solutions, and allowance for zero-voltage-switching operation. Additionally, some number of harmonics may be tuned in the fashion of inverse class F in order to achieve more desirable voltage and current waveforms for improved performance. Operational waveforms for several implementations are presented, and efficiency estimates are compared to class-E.

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Fully integrated CMOS power amplifier design using the distributed active-transformer architecture

Aoki

Kee

Rutledge

et al. 2002

IEEE J. Solid-State Circuits

329

128

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Abstract-A novel on-chip impedance matching and powercombining method, the distributed active transformer is presented. It combines several low-voltage push-pull amplifiers efficiently with their outputs in series to produce a larger output power while maintaining a 50-match. It also uses virtual ac grounds and magnetic couplings extensively to eliminate the need for any offchip component, such as tuned bonding wires or external inductors. Furthermore, it desensitizes the operation of the amplifier to the inductance of bonding wires making the design more reproducible. To demonstrate the feasibility of this concept, a 2.4-GHz 2-W 2-V truly fully integrated power amplifier with 50-input and output matching has been fabricated using 0.35-m CMOS transistors. It achieves a power added efficiency (PAE) of 41% at this power level. It can also produce 450 mW using a 1-V supply. Harmonic suppression is 64 dBc or better. This new topology makes possible a truly fully integrated watt-level gigahertz range low-voltage CMOS power amplifier for the first time.

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A Fully-Integrated Quad-Band GSM/GPRS CMOS Power Amplifier

Aoki¹,

Kee²,

Magoon

et al. 2008

IEEE J. Solid-State Circuits

112

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Abstract-Concentric distributed active transformers (DAT) are used to implement a fully-integrated quad-band power amplifier (PA) in a standard 130 nm CMOS process. The DAT enables the power amplifier to integrate the input and output matching networks on the same silicon die. The PA integrates on-chip closedloop power control and operates under supply voltages from 2.9 V to 5.5 V in a standard micro-lead-frame package. It shows no oscillations, degradation, or failures for over 2000 hours of operation with a supply of 6 V at 135 C under a VSWR of 15:1 at all phase angles and has also been tested for more than 2 million device-hours (with ongoing reliability monitoring) without a single failure under nominal operation conditions. It produces up to +35 dBm of RF power with power-added efficiency of 51%.Index Terms-CMOSFET power amplifiers, CMOS RF, distributed active transformer (DAT), global system for mobile communications (GSM), power control, reliability.

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A 2.4-GHz, 2.2-W, 2-V fully-integrated CMOS circular-geometry active-transformer power amplifier

Aoki

Kee

Rutledge

et al.

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A 2.4-GHz, 2.2-W, 2-V fully integrated circular geometry power amplifier with 50 hz input and output matching is fabricated using 2.5V, 0.35 pm CMOS transistors. It can also produce 450mW using a 1V supply. Harmonic suppression is 64dB or better. An on-chip circulargeometry active-transformer is used to combine several push-pull low-voltage amplifiers efficiently to produce a larger output power while maintaining a 50R match.This new on-chip power combining and impedance matching method uses virtual ac grounds and magnetic couplings extensively to eliminate the need for any offchip component such as wirebonds. It also desensitizes the operation of the amplifier to the inductance of bonding wires and makes the design more reproducible. This new topology makes possible a fully-integrated 2.2W, 2.4GHz, low voltage CMOS power amplifier for the first time.

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A Fully Integrated Quad-Band GSM/GPRS CMOS Power Amplifier

Aoki

Kee

Magoon

et al. 2008

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7-MHz, 1.1-kW demonstration of the new E/F/sub 2,odd/ switching amplifier class

Kee

Aoki

Rutledge

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Distributed broad-band frequency translator and its use in a 1-3-GHz coherent reflectometer

Akkaraekthalin

Kee

Weide

1998

IEEE Trans. Microwave Theory Techn.

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S. Kee

Distributed active transformer-a new power-combining and impedance-transformation technique

The class-E/F family of ZVS switching amplifiers

Fully integrated CMOS power amplifier design using the distributed active-transformer architecture

A Fully-Integrated Quad-Band GSM/GPRS CMOS Power Amplifier

A 2.4-GHz, 2.2-W, 2-V fully-integrated CMOS circular-geometry active-transformer power amplifier

A Fully Integrated Quad-Band GSM/GPRS CMOS Power Amplifier

7-MHz, 1.1-kW demonstration of the new E/F/sub 2,odd/ switching amplifier class

Distributed broad-band frequency translator and its use in a 1-3-GHz coherent reflectometer

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