Report number
| ATL-LARG-PROC-2009-016 |
Title
| Development of new readout electronics for the ATLAS LAr Calorimeter at the sLHC |
Author(s)
| Strässner, A (Dresden, Tech. U.) |
Collaboration
| on behalf of the ATLAS Liquid Argon Calorimeter Group |
Publication
| CERN, 2009 |
Imprint
| 21 Oct 2009 |
Number of pages
| 5 |
In:
| Proceedings of the Topical Workshop on Electronics for Particle Physics, pp.165 |
DOI
| 10.5170/CERN-2009-006.165
|
Subject category
| Detectors and Experimental Techniques |
Accelerator/Facility, Experiment
| CERN SLHC ; ATLAS |
Free keywords
| sLHC ; Liquid Argon Calorimeter ; ATLAS Upgrade ; front-end electronics |
Abstract
| The readout of the ATLAS Liquid Argon (LAr) calorimeter is a complex multi-channel system to amplify, shape, digitize and process signals of the detector cells. The current on-detector electronics is not designed to sustain the ten times higher radiation levels expected at sLHC in the years beyond 2019/2020, and will be replaced by new electronics with a completely different readout scheme. The future on-detector electronics is planned to send out all data continuously at each bunch crossing, as opposed to the current system which only transfers data at a trigger-accept signal. Multiple high-speed and radiation-resistant optical links will transmit 100 Gb/s per front-end board. The off-detector processing units will not only process the data in real-time and provide digital data buffering, but will also implement trigger algorithms. An overview about the various components necessary to develop such a complex system is given. The current R&D activities and architectural studies of the LAr Calorimeter group are presented, in particular the on-going design of the mixed-signal and radiation hard front-end ASICs, the Silicon-on-Saphire based optical-link, the high-speed off-detector FPGA based processing units, and the power distribution scheme. |
Copyright/License
| Preprint: (License: CC-BY-4.0) |