Showing posts with label TRL calibration. Show all posts
Showing posts with label TRL calibration. Show all posts

Dec 1, 2020

[paper] THz characterization and modeling of SiGe HBTs

Sebastien Fregonese, Marina Deng, IEEE member, Marco Cabbia, Chandan Yadav*, IEEE member, Magali De Matos, and Thomas Zimmer, Senior Member, IEEE
THz characterization and modeling of SiGe HBTs
review (invited)
IEEE J-EDS, 2020, pp.1-1 
DOI:10.1109/JEDS.2020.3036135
hal-03014869

IMS Laboratory, University of Bordeaux (F)
*Department of Electronics and Communication Engineering, National Institute of Technology Calicut (IN)


Abstract: This paper presents a state-of-art review of on-wafer S-parameter characterization of THz silicon transistors for compact modelling purpose. After, a brief review of calibration/deembedding techniques, the paper focuses on the on-wafer calibration techniques and especially on the design and dimensions of lines built on advanced silicon technologies. Other information such as the pad geometry, the ground plane and the floorplan of the devices under test are also compared. The influence of RF probe geometry on the coupling with the substrate and adjacent structures is also considered to evaluate the accuracy of the measurement, especially using EM simulation methodology. Finally, the importance of measuring above 110 GHz is demonstrated for SiGe HBT parameter extraction. The validation of the compact model is confirmed thanks to an EM-spice cosimulation that integrates the whole calibration cum deembedding procedure.
Fig: EM probe models based on Picoprobe GGB (a) 1 GHz -110 GHz, (b) WR5, (c) WR3 and d) WR2.2. In all models, white=coaxial insulator, gray=solder, yellow=metal.

A complete description of probe topology and technology is given in:
A. Rumiantsev et R. Doerner; RF Probe Technology: History and Selected Topics; IEEE Microw. Mag., vol. 14, no 7, p. 46‑58, Nov. 2013, DOI: 10.1109/MMM.2013.2280241

Aknowledgement: This work is partly funded by the French Nouvelle-Aquitaine Authorities through the FAST project. The authors also acknowledge financial support from the EU under Project Taranto (No. 737454). The authors would like to thank STM for supplying the silicon wafer.


Sep 27, 2018

[paper] Importance of complete characterization setup on onwafer TRL calibration in sub-THz range

Chandan Yadav, Marina Deng, Magali De Matos, Sebastien Fregonese
and  Thomas Zimmer
IMS Laboratory, University of Bordeaux
351 cours de la LibĂ©ration – 33405 Talence cedex, France

Abstract: In this paper, we present the effect of different sub-mm and mm-wave probe geometry and topology on the measurement results of dedicated test-structures calibrated with on-wafer TRL. These results are compared against 3D EM simulation of the intrinsic test-structures. To analyze difference between the measured and intrinsic EM simulation results, onwafer TRL calibration performed on EM simulation results of a dedicated test-structure is also presented. 

FIG: 3D view of the Open-M1 where metal-1 (M1) does not have connection with ground as shown in the enlarged view.