A New 12-Term Open–Short–Load De-Embedding Method for Accurate On-Wafer Characterization of RF MOSFET Structures

Author

Tiemeijer, Luuk F. ; Pijper, Ralf M T ; Van Steenwijk, J. Anne ; Van der Heijden, Edwin

Author_Institution

NXP-TSMC Res. Centre, Eindhoven, Netherlands

Volume

58

Issue

2

fYear

2010

Firstpage

419

Lastpage

433

Abstract

A new algorithm for open-short-load de-embedding of on-wafer S-parameter measurements is presented. Since in typical on-wafer RF transistor test-structures the imperfect grounding of the internal ports is the dominant source of crosstalk between ports, our proposed open-short-load approach resolving a 12-term error model is equally accurate as the current more general 15-term approach, which requires five dummy structures. To demonstrate this, experimental results obtained for six different increasingly sophisticated on-wafer correction schemes using 2-8 different de-embedding standards and resolving between 8-22 error terms, using S -parameter data taken up to 110 GHz on 65- and 45-nm node MOSFET devices are compared.

Keywords

MOSFET; S-parameters; crosstalk; semiconductor device testing; 12-term error model; 12-term open-short-load deembedding method; 15-term approach; 2-8 different deembedding standard; MOSFET devices; RF MOSFET structures; S-parameter data; crosstalk; imperfect grounding; internal ports; on-wafer RF transistor test-structures; on-wafer S-parameter measurement; on-wafer characterization; on-wafer correction; open-short-load approach; size 45 nm; size 65 nm; 45-nm node CMOS; Calibration; integrated circuits; on-wafer microwave measurements; open–short–load de-embedding;

fLanguage

English

Journal_Title

Microwave Theory and Techniques, IEEE Transactions on

Publisher

ieee

ISSN

0018-9480

Type

jour

DOI

10.1109/TMTT.2009.2038453

Filename

5395606