Characterization of HV-CMOS detectors in BCD8 technology and of a controlled hybridization technique

A. Andreazz; A. Castoldi; V. Ceriale; G. Chiodini; M. Citterio; M. Dalla; G. Darbo; G. Gariano; A. Gaudiello; C. Guazzoni; V. Liberali; S. Passadore; F. Ragusa; A. Rovani; E. Ruscino; C. Sbarra; H. Shrimali; A. Sidoti; A. Stabile; E. Zaffaroni

Characterization of HV-CMOS detectors in BCD8 technology and of a controlled hybridization technique

A. Andreazz
, A. Castoldi
, V. Ceriale
, G. Chiodini
, M. Citterio
, M. Dalla
, G. Darbo
, G. Gariano
, A. Gaudiello
, C. Guazzoni
, V. Liberali
, S. Passadore
, F. Ragusa
, A. Rovani
, E. Ruscino
, C. Sbarra
, H. Shrimali
, A. Sidoti
, A. Stabile
, E. Zaffaroni

University of Milan
Polytechnic University of Milan
National Institute for Nuclear Physics
University of Bologna
Indian Institute of Technology Mandi

Research output: Contribution to journal › Article › peer-review

Abstract

Radiation detectors built in high-voltage and high-resistivity CMOS technology are an interesting option for the large area pixel-trackers sought for the upgrade of the Large Hadron Collider experiments. A characterisation of the BCD8 technology by STMicroelectronics process has been performed to evaluate its suitability for the realisation of CMOS sensors with a depleted region of several tens of micrometer. Sensors featuring 50 × 250 μm² pixels on a 125 £2 cm resistivity substrate have been characterized. The response to ionizing radiation is tested using radioactive sources and an X-ray tune, reading out the detector with an external spectroscopy chain. Irradiation tests were performed up to proton fluences exceeding 5 • 10¹⁵ p/cm² they show the depletion and breakdown voltages increases with irradiation. A hybridization process for capacitive coupling has been developed. Assemblies have been performed using the ATLAS FE-I4 readout ASIC and prototype CMOS sensors. Measurements show a planarity better than 1.5 μm peak-to-peak on the 5 mm length of the HV-CMOS chip. To evaluate more precisely the achievable uniformity dummy chips of FE-I4 sizes have been made on 6-inch wafers. The measurement of the 24 capacitors on each chip is expected to achieve a precise estimation of the real thickness uniformity. The goal is to achieve less then 10% variation on the glue thickness (∼ 0.5 μm).

Original language	English
Journal	Proceedings of Science
Volume	287
Publication status	Published - 2016
Externally published	Yes
Event	25th International Workshop on Vertex Detectors, Vertex 2016 - La Biodola, Isola d'Elba, Italy Duration: 26 Sep 2016 → 30 Sep 2016

Cite this

Andreazz, A., Castoldi, A., Ceriale, V., Chiodini, G., Citterio, M., Dalla, M., Darbo, G., Gariano, G., Gaudiello, A., Guazzoni, C., Liberali, V., Passadore, S., Ragusa, F., Rovani, A., Ruscino, E., Sbarra, C., Shrimali, H., Sidoti, A., Stabile, A., & Zaffaroni, E. (2016). Characterization of HV-CMOS detectors in BCD8 technology and of a controlled hybridization technique. Proceedings of Science, 287.

@article{2fcf45e348e149c288dd22e2eb8fc939,

title = "Characterization of HV-CMOS detectors in BCD8 technology and of a controlled hybridization technique",

abstract = "Radiation detectors built in high-voltage and high-resistivity CMOS technology are an interesting option for the large area pixel-trackers sought for the upgrade of the Large Hadron Collider experiments. A characterisation of the BCD8 technology by STMicroelectronics process has been performed to evaluate its suitability for the realisation of CMOS sensors with a depleted region of several tens of micrometer. Sensors featuring 50 × 250 μm2 pixels on a 125 £2 cm resistivity substrate have been characterized. The response to ionizing radiation is tested using radioactive sources and an X-ray tune, reading out the detector with an external spectroscopy chain. Irradiation tests were performed up to proton fluences exceeding 5 • 1015 p/cm2 they show the depletion and breakdown voltages increases with irradiation. A hybridization process for capacitive coupling has been developed. Assemblies have been performed using the ATLAS FE-I4 readout ASIC and prototype CMOS sensors. Measurements show a planarity better than 1.5 μm peak-to-peak on the 5 mm length of the HV-CMOS chip. To evaluate more precisely the achievable uniformity dummy chips of FE-I4 sizes have been made on 6-inch wafers. The measurement of the 24 capacitors on each chip is expected to achieve a precise estimation of the real thickness uniformity. The goal is to achieve less then 10\% variation on the glue thickness (∼ 0.5 μm).",

author = "A. Andreazz and A. Castoldi and V. Ceriale and G. Chiodini and M. Citterio and M. Dalla and G. Darbo and G. Gariano and A. Gaudiello and C. Guazzoni and V. Liberali and S. Passadore and F. Ragusa and A. Rovani and E. Ruscino and C. Sbarra and H. Shrimali and A. Sidoti and A. Stabile and E. Zaffaroni",

note = "Publisher Copyright: {\textcopyright} 2016 Sissa Medialab Srl. All rights reserved.; 25th International Workshop on Vertex Detectors, Vertex 2016 ; Conference date: 26-09-2016 Through 30-09-2016",

year = "2016",

language = "English",

volume = "287",

journal = "Proceedings of Science",

issn = "1824-8039",

publisher = "Sissa Medialab Srl",

}

Andreazz, A, Castoldi, A, Ceriale, V, Chiodini, G, Citterio, M, Dalla, M, Darbo, G, Gariano, G, Gaudiello, A, Guazzoni, C, Liberali, V, Passadore, S, Ragusa, F, Rovani, A, Ruscino, E, Sbarra, C, Shrimali, H, Sidoti, A, Stabile, A & Zaffaroni, E 2016, 'Characterization of HV-CMOS detectors in BCD8 technology and of a controlled hybridization technique', Proceedings of Science, vol. 287.

TY - JOUR

T1 - Characterization of HV-CMOS detectors in BCD8 technology and of a controlled hybridization technique

AU - Andreazz, A.

AU - Castoldi, A.

AU - Ceriale, V.

AU - Chiodini, G.

AU - Citterio, M.

AU - Dalla, M.

AU - Darbo, G.

AU - Gariano, G.

AU - Gaudiello, A.

AU - Guazzoni, C.

AU - Liberali, V.

AU - Passadore, S.

AU - Ragusa, F.

AU - Rovani, A.

AU - Ruscino, E.

AU - Sbarra, C.

AU - Shrimali, H.

AU - Sidoti, A.

AU - Stabile, A.

AU - Zaffaroni, E.

PY - 2016

Y1 - 2016

N2 - Radiation detectors built in high-voltage and high-resistivity CMOS technology are an interesting option for the large area pixel-trackers sought for the upgrade of the Large Hadron Collider experiments. A characterisation of the BCD8 technology by STMicroelectronics process has been performed to evaluate its suitability for the realisation of CMOS sensors with a depleted region of several tens of micrometer. Sensors featuring 50 × 250 μm2 pixels on a 125 £2 cm resistivity substrate have been characterized. The response to ionizing radiation is tested using radioactive sources and an X-ray tune, reading out the detector with an external spectroscopy chain. Irradiation tests were performed up to proton fluences exceeding 5 • 1015 p/cm2 they show the depletion and breakdown voltages increases with irradiation. A hybridization process for capacitive coupling has been developed. Assemblies have been performed using the ATLAS FE-I4 readout ASIC and prototype CMOS sensors. Measurements show a planarity better than 1.5 μm peak-to-peak on the 5 mm length of the HV-CMOS chip. To evaluate more precisely the achievable uniformity dummy chips of FE-I4 sizes have been made on 6-inch wafers. The measurement of the 24 capacitors on each chip is expected to achieve a precise estimation of the real thickness uniformity. The goal is to achieve less then 10% variation on the glue thickness (∼ 0.5 μm).

AB - Radiation detectors built in high-voltage and high-resistivity CMOS technology are an interesting option for the large area pixel-trackers sought for the upgrade of the Large Hadron Collider experiments. A characterisation of the BCD8 technology by STMicroelectronics process has been performed to evaluate its suitability for the realisation of CMOS sensors with a depleted region of several tens of micrometer. Sensors featuring 50 × 250 μm2 pixels on a 125 £2 cm resistivity substrate have been characterized. The response to ionizing radiation is tested using radioactive sources and an X-ray tune, reading out the detector with an external spectroscopy chain. Irradiation tests were performed up to proton fluences exceeding 5 • 1015 p/cm2 they show the depletion and breakdown voltages increases with irradiation. A hybridization process for capacitive coupling has been developed. Assemblies have been performed using the ATLAS FE-I4 readout ASIC and prototype CMOS sensors. Measurements show a planarity better than 1.5 μm peak-to-peak on the 5 mm length of the HV-CMOS chip. To evaluate more precisely the achievable uniformity dummy chips of FE-I4 sizes have been made on 6-inch wafers. The measurement of the 24 capacitors on each chip is expected to achieve a precise estimation of the real thickness uniformity. The goal is to achieve less then 10% variation on the glue thickness (∼ 0.5 μm).

UR - https://www.scopus.com/pages/publications/85054983226

M3 - Article

AN - SCOPUS:85054983226

SN - 1824-8039

VL - 287

JO - Proceedings of Science

JF - Proceedings of Science

T2 - 25th International Workshop on Vertex Detectors, Vertex 2016

Y2 - 26 September 2016 through 30 September 2016

ER -

Characterization of HV-CMOS detectors in BCD8 technology and of a controlled hybridization technique

Abstract

Other files and links

Fingerprint

Cite this