CERN Accelerating science

002861835 001__ 2861835
002861835 003__ SzGeCERN
002861835 005__ 20240705150247.0
002861835 0247_ $$2DOI$$9IOP$$a10.1088/1748-0221/18/02/C02025
002861835 0248_ $$aoai:cds.cern.ch:2861835$$pcerncds:CERN
002861835 035__ $$9HAL$$ahal-03986025
002861835 035__ $$9https://inspirehep.net/api/oai2d$$aoai:inspirehep.net:2631457$$d2023-06-12T09:47:13Z$$h2023-06-14T04:00:12Z$$mmarcxml
002861835 035__ $$9Inspire$$a2631457
002861835 041__ $$aeng
002861835 100__ $$aCecconi, L$$mleonardo.cecconi@cern.ch$$uCERN
002861835 245__ $$9IOP$$aDesign and readout architecture of a monolithic binary active pixel sensor in TPSCo 65 nm CMOS imaging technology
002861835 260__ $$c2023
002861835 300__ $$a9 p
002861835 520__ $$9IOP$$aThe Digital Pixel Test Structure (DPTS) is a monolithic active pixel sensor prototype chip designed to explore the TPSCo 65 nm ISC process in the framework of the CERN-EP R&D; on monolithic sensors and the ALICE ITS3 upgrade. It features a 32 × 32 binary pixel matrix at 15 μm pitch with event-driven readout, with GHz range time-encoded digital signals including Time-Over-Threshold. The chip proved fully functional and efficient in testbeam allowing early verification of the complete sensor to readout chain. This paper focuses on the design, in particular the digital readout and its perspectives with some supporting results.
002861835 542__ $$3publication$$dIOP Publishing Ltd and Sissa Medialab$$g2023
002861835 65017 $$2SzGeCERN$$aDetectors and Experimental Techniques
002861835 6531_ $$9author$$aElectronic detector readout concepts (solid-state)
002861835 6531_ $$9author$$aParticle tracking detectors (Solid-state detectors)
002861835 6531_ $$9author$$aSolid state detectors
002861835 690C_ $$aARTICLE
002861835 690C_ $$aCERN
002861835 693__ $$pCERN-EP-RDET
002861835 700__ $$aPiro, F$$uCERN$$uEcole Polytechnique, Lausanne$$vEPFL, Lausanne, Switzerland
002861835 700__ $$ade Melo, J L A$$uCERN
002861835 700__ $$aDeng, W$$uCERN$$uHua-Zhong Normal U.$$vCentral China Normal University, Wuhan, China
002861835 700__ $$aHong, G H$$uYonsei U.$$uCERN$$vYonsei University, Seoul, South Korea
002861835 700__ $$aSnoeys, W$$uCERN
002861835 700__ $$aMager, M$$uCERN
002861835 700__ $$aSuljic, M$$uCERN
002861835 700__ $$aKugathasan, T$$uCERN
002861835 700__ $$aBuckland, M$$uTrieste U.$$uINFN, Trieste
002861835 700__ $$aAglieri Rinella, G$$uCERN
002861835 700__ $$aLeitao, P V$$uCERN
002861835 700__ $$aReidt, F$$uCERN
002861835 700__ $$aBaudot, J$$uCERN
002861835 700__ $$aBugiel, S$$uStrasbourg, IPHC
002861835 700__ $$aColledani, C$$uStrasbourg, IPHC
002861835 700__ $$aContin, G$$uTrieste U.$$uINFN, Trieste
002861835 700__ $$aHu, C$$uStrasbourg, IPHC
002861835 700__ $$aKluge, A$$uCERN
002861835 700__ $$aKluit, R$$uNIKHEF, Amsterdam$$uCERN$$uMunich, Max Planck Inst.
002861835 700__ $$aVitkovskiy, A$$uNIKHEF, Amsterdam$$uMunich, Max Planck Inst.$$uCERN
002861835 700__ $$aRusso, R$$uNIKHEF, Amsterdam$$uCERN$$uMunich, Max Planck Inst.
002861835 700__ $$aBecht, P$$uCERN
002861835 700__ $$aGrelli, A$$uNIKHEF, Amsterdam$$uCERN$$uMunich, Max Planck Inst.
002861835 700__ $$aHasenbichler, J$$uCERN
002861835 700__ $$aMunker, M$$uCERN
002861835 700__ $$aSoltveit, H K$$uU. Heidelberg (main)
002861835 700__ $$aMenzel, M W$$uU. Heidelberg (main)
002861835 700__ $$aSonneveld, J$$uNIKHEF, Amsterdam$$uCERN$$uMunich, Max Planck Inst.
002861835 700__ $$aTiltmann, N$$uMunster U.
002861835 773__ $$cC02025$$n02$$pJINST$$v18$$wC22-09-19.1$$y2023
002861835 960__ $$a13
002861835 962__ $$b2825397$$kC02025$$nbergen20220919
002861835 980__ $$aARTICLE
002861835 980__ $$aConferencePaper