Accurate EM simulation of complete functional RF-IC blocks

H.H.J.M. Janssen; J. Niehof; W.H.A. Schilders; E. Heijden, van der; D. Ioan; G. Ciuprina

Accurate EM simulation of complete functional RF-IC blocks

H.H.J.M. Janssen, J. Niehof, W.H.A. Schilders, E. Heijden, van der, D. Ioan, G. Ciuprina

Scientific Computing

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

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Abstract

Next-generation nano-scale RF-IC designs have an unprecedented complexity and performance that will inevitably lead to costly re-spins and loss of market opportunities. In order to cope with this, the aim of the CHAMELEON RF project is to develop methodologies and prototype tools for a comprehensive and highly accurate analysis of complete functional IC blocks. These blocks operate at RF frequencies of up to 60 GHz. The results achieved in the CHAMELEON RF project are presented on the basis of the simulation of a real-life test case, an LNA for 24 GHz car radar applications, compared to measurements.

Original language	English
Title of host publication	Proceedings 13th Biennial IEEE Conference on Electromagnetic Field Computation (CEFC 2008, Athens, Greece, May 11-15, 2008), Paper PD2-9
Pages	1-4
Publication status	Published - 2009

Cite this

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title = "Accurate EM simulation of complete functional RF-IC blocks",

abstract = "Next-generation nano-scale RF-IC designs have an unprecedented complexity and performance that will inevitably lead to costly re-spins and loss of market opportunities. In order to cope with this, the aim of the CHAMELEON RF project is to develop methodologies and prototype tools for a comprehensive and highly accurate analysis of complete functional IC blocks. These blocks operate at RF frequencies of up to 60 GHz. The results achieved in the CHAMELEON RF project are presented on the basis of the simulation of a real-life test case, an LNA for 24 GHz car radar applications, compared to measurements.",

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Accurate EM simulation of complete functional RF-IC blocks. / Janssen, H.H.J.M.; Niehof, J.; Schilders, W.H.A. et al.
Proceedings 13th Biennial IEEE Conference on Electromagnetic Field Computation (CEFC 2008, Athens, Greece, May 11-15, 2008), Paper PD2-9. 2009. p. 1-4.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

TY - GEN

T1 - Accurate EM simulation of complete functional RF-IC blocks

AU - Janssen, H.H.J.M.

AU - Niehof, J.

AU - Schilders, W.H.A.

AU - Heijden, van der, E.

AU - Ioan, D.

AU - Ciuprina, G.

PY - 2009

Y1 - 2009

N2 - Next-generation nano-scale RF-IC designs have an unprecedented complexity and performance that will inevitably lead to costly re-spins and loss of market opportunities. In order to cope with this, the aim of the CHAMELEON RF project is to develop methodologies and prototype tools for a comprehensive and highly accurate analysis of complete functional IC blocks. These blocks operate at RF frequencies of up to 60 GHz. The results achieved in the CHAMELEON RF project are presented on the basis of the simulation of a real-life test case, an LNA for 24 GHz car radar applications, compared to measurements.

AB - Next-generation nano-scale RF-IC designs have an unprecedented complexity and performance that will inevitably lead to costly re-spins and loss of market opportunities. In order to cope with this, the aim of the CHAMELEON RF project is to develop methodologies and prototype tools for a comprehensive and highly accurate analysis of complete functional IC blocks. These blocks operate at RF frequencies of up to 60 GHz. The results achieved in the CHAMELEON RF project are presented on the basis of the simulation of a real-life test case, an LNA for 24 GHz car radar applications, compared to measurements.

M3 - Conference contribution

SP - 1

EP - 4

BT - Proceedings 13th Biennial IEEE Conference on Electromagnetic Field Computation (CEFC 2008, Athens, Greece, May 11-15, 2008), Paper PD2-9

ER -

Accurate EM simulation of complete functional RF-IC blocks

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