DC-DC converters with reduced mass for trackers at the HL-LHC

A. Affolder; B. Allongue; G. Blanchot; F. Faccio; C. Fuentes; A. Greenall; S. Michelis

doi:10.1088/1748-0221/6/11/C11035

DC-DC converters with reduced mass for trackers at the HL-LHC

A. Affolder
, B. Allongue
, G. Blanchot
, F. Faccio
, C. Fuentes
, A. Greenall
, S. Michelis

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

29 Scopus citations

Abstract

The development at CERN of low noise DC-DC converters for the powering of front-end systems enables the implementation of efficient powering schemes for the physics experiments at the HL-LHC. Recent tests made on the ATLAS short strip tracker modules confirm the full electromagnetic compatibility of the DC-DC converter prototypes with front-end detectors. The integration of the converters in the trackers front-ends needs to address also the material budget constraints. The impact of the DC-DC converters onto the material budget of the ATLAS tracker modules is discussed and mass reduction techniques are explored, leading to a compromise between electromagnetic compatibility and mass. Low mass shield implementations and Aluminum core inductors are proposed. Also, the impact on emitted noise due to a size reduction of critical components is discussed. Finally, material reduction techniques are discussed at the board layout and manufacturing levels.

Original language	English
Article number	C11035
Journal	Journal of Instrumentation
Volume	6
Issue number	11
DOIs	https://doi.org/10.1088/1748-0221/6/11/C11035
State	Published - Nov 2011
Externally published	Yes

Keywords

Analogue electronic circuits
Front-end electronics for detector readout
Radiation-hard electronics
Voltage distributions

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10.1088/1748-0221/6/11/C11035

Cite this

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title = "DC-DC converters with reduced mass for trackers at the HL-LHC",

abstract = "The development at CERN of low noise DC-DC converters for the powering of front-end systems enables the implementation of efficient powering schemes for the physics experiments at the HL-LHC. Recent tests made on the ATLAS short strip tracker modules confirm the full electromagnetic compatibility of the DC-DC converter prototypes with front-end detectors. The integration of the converters in the trackers front-ends needs to address also the material budget constraints. The impact of the DC-DC converters onto the material budget of the ATLAS tracker modules is discussed and mass reduction techniques are explored, leading to a compromise between electromagnetic compatibility and mass. Low mass shield implementations and Aluminum core inductors are proposed. Also, the impact on emitted noise due to a size reduction of critical components is discussed. Finally, material reduction techniques are discussed at the board layout and manufacturing levels.",

keywords = "Analogue electronic circuits, Front-end electronics for detector readout, Radiation-hard electronics, Voltage distributions",

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AU - Affolder, A.

AU - Allongue, B.

AU - Blanchot, G.

AU - Faccio, F.

AU - Fuentes, C.

AU - Greenall, A.

AU - Michelis, S.

PY - 2011/11

Y1 - 2011/11

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AB - The development at CERN of low noise DC-DC converters for the powering of front-end systems enables the implementation of efficient powering schemes for the physics experiments at the HL-LHC. Recent tests made on the ATLAS short strip tracker modules confirm the full electromagnetic compatibility of the DC-DC converter prototypes with front-end detectors. The integration of the converters in the trackers front-ends needs to address also the material budget constraints. The impact of the DC-DC converters onto the material budget of the ATLAS tracker modules is discussed and mass reduction techniques are explored, leading to a compromise between electromagnetic compatibility and mass. Low mass shield implementations and Aluminum core inductors are proposed. Also, the impact on emitted noise due to a size reduction of critical components is discussed. Finally, material reduction techniques are discussed at the board layout and manufacturing levels.

KW - Analogue electronic circuits

KW - Front-end electronics for detector readout

KW - Radiation-hard electronics

KW - Voltage distributions

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JO - Journal of Instrumentation

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ER -

DC-DC converters with reduced mass for trackers at the HL-LHC

Abstract

Keywords

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