Showing posts with label Substrates. Show all posts
Showing posts with label Substrates. Show all posts

Apr 3, 2024

[paper] CMOS Technology for Analog Applications in High Energy Physics

Gianluca Traversi, Luigi Gaioni, Lodovico Ratti, Valerio Re and Elisa Riceputi
Characterization of a 28 nm CMOS Technology
for Analog Applications in High Energy Physics 
in IEEE Transactions on Nuclear Science
DOI: 10.1109/TNS.2024.3382348

1 INFN Pavia and Dipartimento di Ingegneria e Scienze Applicate, Uni. Bergamo, Italy
2 INFN Pavia and Dipartimento di Ingegneria Industriale e dell’Informazione, Uni. Pavia, Italy

Abstract: In the last few years, the 28 nm CMOS technology has raised interest in the High Energy Physics community for the design and implementation of readout integrated circuits for high granularity position sensitive detectors. This work is focused on the characterization of the 28 nm CMOS node with a particular focus on the analog performance. Small signal characteristics and the behavior of the white and 1/f noise components are studied as a function of the device polarity, dimensions, and bias conditions to provide guidelines for minimum noise design of front-end electronics. Comparison with data extracted from previous CMOS generations are also presented to assess the performance of the technology node under evaluation. 

Fig: Transconductance efficiency gm/ID as a function of the normalized
drain current IDL/W for NMOS (a) and PMOS (b) devices (|VDS| = 0.9 V)


Acknowledgment: The activity leading to the results presented in this paper was carried out in the framework of the Falaphel project, funded by the Italian Institute for Nuclear Physics (INFN). The authors wish to thank Prof. Massimo Manghisoni (University of Bergamo) for the valuable advice which contributed to improve this work and Dr. Stefano Bonaldo (University of Padova) for fruitful discussions on the measurement results. The authors wish to thank also Barbara Pini (INFN Torino) for the wire bonding of the chips, Emilio Meroni and Nicola Cattaneo (University of Bergamo) for the characterization activity.



Jul 25, 2017

[paper] Compact On-Wafer Test Structures for Device RF Characterization

B. Kazemi Esfeh, K. Ben Ali and J. P. Raskin IEEE Fellow
Compact On-Wafer Test Structures for Device RF Characterization
in IEEE TED, vol. 64, no. 8, pp. 3101-3107, Aug. 2017
doi: 10.1109/TED.2017.2717196

Abstract: The main objective of this paper is to validate the radio frequency (RF) characterization procedure based on compact test structures compatible with 50um pitch RF probes. It is shown that by using these new test structures, the layout geometry and hence the on-chip space consumption for complete sets of passive and active devices, e.g., coplanar waveguide transmission lines and RF MOSFETs, is divided by a factor of two. The validity domain of these new compact test structures is demonstrated by comparing their measurement results with classical test structures compatible with 100–150um pitch RF probes. 50um -pitch de-embedding structures have been implemented on 0.18um RF silicon-on-insulator (SOI) technology. Cutoff frequencies and parasitic elements of the RF SOI transistors are extracted and the RF performance of trap-rich SOI substrates is analyzed under small- and large-signal conditions [read more...]