1-Grad total dose evaluation of 65 nm CMOS technology for the HL-LHC upgrades

Menouni, M.; Barbero, M.; Bompard, F.; Bonacini, S.; Fougeron, D.; Gaglione, R.; Rozanov, A.; Valerio, P.; Wang, A.

doi:10.1088/1748-0221/10/05/c05009

Cited by 52 publications

(45 citation statements)

References 7 publications

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“…In a second step, annealing at 100 • C was performed and measured after 4 and 24 hours. The annealing was performed with the circuit biased in normal operating conditions, which has the most damaging effect [21]. The second sample was irradiated up to 600 Mrad and measured after 24 hours room temperature annealing and 24 hours annealing at 100…”

Section: Tid Irradiationmentioning

confidence: 99%

“…Compared to the LC-oscillator, a large annealing effect is observed. According to [21], this is due to the short-channel devices in the cells for which the effects are triggered after high-temperature annealing. The large variation in tuning characteristics caused the PLL to be unable to lock after being irradiated to 600 Mrad since the oscillator could no longer run at 2.56 GHz.…”

Section: B Ring Oscillatormentioning

confidence: 99%

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Comparison of a 65 nm CMOS Ring- and LC-Oscillator Based PLL in Terms of TID and SEU Sensitivity

Prinzie

Christiansen

Moreira

et al. 2017

IEEE Trans. Nucl. Sci.

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Abstract-In this work, a comparison has been made between a low noise ring-oscillator and an LC-oscillator Phase Locked Loop (PLL). An ASIC has been developed to conduct irradiation experiments targeting high-energy physics applications. Two different samples were irradiated up to a total ionizing dose (TID) in SiO2 of 200 Mrad and 600 Mrad with a 100• C thermal annealing step. Single-Event Upset (SEU) tests were performed with heavy ions with LETs (Linear Energy Transfer) between 3.2 and 69.2 MeV.cm 2 /mg. A Two-photon absorption (TPA) laser facility has been used to provide detailed results on the SEU sensitivity. Both independent PLLs have identical loop dynamics to allow a fair comparison including a Triple-Modular Redundant (TMR) divider and TMR phase detector. Furthermore these circuits consume the same amount of power. The PLLs were processed in a commercial 65 nm CMOS technology.

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Section: Tid Irradiationmentioning

confidence: 99%

Section: B Ring Oscillatormentioning

confidence: 99%

Comparison of a 65 nm CMOS Ring- and LC-Oscillator Based PLL in Terms of TID and SEU Sensitivity

Prinzie

Christiansen

Moreira

et al. 2017

IEEE Trans. Nucl. Sci.

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“…X-rays provide a good way to compare old with new data, even though very long exposure times are needed to reach TID levels up to 1 Grad: a review of the results can be found in [16]. The results show significant degradation above 100 Mrad, particularly in core minimum size pMOSFETs.…”

Section: Radiation Effectsmentioning

confidence: 99%

Recent progress of RD53 Collaboration towards next generation Pixel Read-Out Chip for HL-LHC

et al. 2016

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A: This paper is a review of recent progress of RD53 Collaboration. Results obtained on the study of the radiation effects on 65 nm CMOS have matured enough to define first strategies to adopt in the design of analog and digital circuits. Critical building blocks and analog very front end chains have been designed, tested before and after 5-800 Mrad. Small prototypes of 64 × 64 pixels with complex digital architectures have been produced, and point to address the main issues of dealing with extremely high pixel rates, while operating at very small in-time thresholds in the analog front end. The collaboration is now proceeding at full speed towards the design of a large scale prototype, called RD53A, in 65 nm CMOS technology.

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“…Simulations show that its pixel detectors will integrate a fluence (1 MeV neutron equivalent) of about 10 16 n/cm 2 and a Total Ionizing Dose (TID) of 10 MGy (1 Grad). The radiation damage on the proposed 65 nm technology, due to both total dose and single event effects, has been studied by the RD53 Radiation Working Group [3]. Tests were done on single transistors with different geometries.…”

Section: Radiation Hardnessmentioning

confidence: 99%

65 nm Technology for HEP: Status and Perspective

Valerio¹

2015

Proceedings of the 23rd International Workshop on Vertex Detectors — PoS(Vertex2014)

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The RD53 Collaboration † The development of new experiments such as CLIC and the the foreseen Phase 2 pixel upgrades of ATLAS and CMS have very challenging requirements for the design of hybrid pixel readout chips, both in terms of performances and reliability. To face these challenges, the use of a more downscaled CMOS technology compared to previous projects is necessary. The CERN RD53 collaboration is undertaking a R&D programme to evaluate the use of a commercial 65 nm technology and to develop tools and frameworks which will help to design future pixel detectors. This paper gives a short overview of the RD53 collaboration activities and describes some examples of recent developments.

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1-Grad total dose evaluation of 65 nm CMOS technology for the HL-LHC upgrades

Cited by 52 publications

References 7 publications

Comparison of a 65 nm CMOS Ring- and LC-Oscillator Based PLL in Terms of TID and SEU Sensitivity

Comparison of a 65 nm CMOS Ring- and LC-Oscillator Based PLL in Terms of TID and SEU Sensitivity

Recent progress of RD53 Collaboration towards next generation Pixel Read-Out Chip for HL-LHC

65 nm Technology for HEP: Status and Perspective

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