Self-heating and memory effects in RF power amplifiers explained through electro-thermal

Wei Wei; Ole Kiel Jensen; Jan H. Mikkelsen

doi:10.1109/NORCHIP.2013.6702015

Self-heating and memory effects in RF power amplifiers explained through electro-thermal

Wei Wei, Ole Kiel Jensen, Jan H. Mikkelsen

Institut for Elektroniske Systemer

Publikation: Bidrag til bog/antologi/rapport/konference proceeding › Konferenceartikel i proceeding › Forskning › peer review

6 Citationer (Scopus)

1580 Downloads (Pure)

Abstrakt

Self-heating has already been proven to be one of the key sources to memory effects in RF power amplifiers (PAs). However, mechanisms behind the generation of memory effects, as caused by self-heating have not been well documented. On basis of transistor physical properties this paper proposes a simple electro-thermal model and shows how self-heating can generate different types of memory effects, such as bandwidth dependent intermodulation components and hysteresis loops. In addition, it is shown that self-heating can result in generation of new spectral components even in an otherwise linear PA. A time domain modeling framework is implemented to investigate memory effects generated by self-heating and simulation results are shown to agree with theoretical analysis.

Originalsprog	Engelsk
Titel	IEEE Press
Antal sider	4
Forlag	IEEE
Publikationsdato	2013
Sider	1-4
ISBN (Elektronisk)	978-1-4799-1647-4
DOI	https://doi.org/10.1109/NORCHIP.2013.6702015
Status	Udgivet - 2013
Begivenhed	IEEE 31st NORCHIP conference - Vilnius, Litauen Varighed: 11 nov. 2013 → 12 nov. 2013

Konference

Konference	IEEE 31st NORCHIP conference
Land/Område	Litauen
By	Vilnius
Periode	11/11/2013 → 12/11/2013

Adgang til dokumentet

10.1109/NORCHIP.2013.6702015

Self-heating and memory effects in RF power amplifiers explained through electro-thermalIndsendt manuskript, 272 KB

Citationsformater

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abstract = "Self-heating has already been proven to be one of the key sources to memory effects in RF power amplifiers (PAs). However, mechanisms behind the generation of memory effects, as caused by self-heating have not been well documented. On basis of transistor physical properties this paper proposes a simple electro-thermal model and shows how self-heating can generate different types of memory effects, such as bandwidth dependent intermodulation components and hysteresis loops. In addition, it is shown that self-heating can result in generation of new spectral components even in an otherwise linear PA. A time domain modeling framework is implemented to investigate memory effects generated by self-heating and simulation results are shown to agree with theoretical analysis.",

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AB - Self-heating has already been proven to be one of the key sources to memory effects in RF power amplifiers (PAs). However, mechanisms behind the generation of memory effects, as caused by self-heating have not been well documented. On basis of transistor physical properties this paper proposes a simple electro-thermal model and shows how self-heating can generate different types of memory effects, such as bandwidth dependent intermodulation components and hysteresis loops. In addition, it is shown that self-heating can result in generation of new spectral components even in an otherwise linear PA. A time domain modeling framework is implemented to investigate memory effects generated by self-heating and simulation results are shown to agree with theoretical analysis.

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