002710214 001__ 2710214
002710214 003__ SzGeCERN
002710214 005__ 20200303164039.0
002710214 0247_ $$2DOI$$9SISSA$$a10.22323/1.343.0074
002710214 0248_ $$aoai:inspirehep.net:1747409$$pcerncds:CERN$$qINSPIRE:HEP$$qForCDS
002710214 035__ $$9HAL$$ahal-02283506
002710214 035__ $$9http://inspirehep.net/oai2d$$aoai:inspirehep.net:1747409$$d2020-02-18T16:08:35Z$$h2020-02-19T05:00:08Z$$mmarcxml
002710214 035__ $$9Inspire$$a1747409
002710214 041__ $$aeng
002710214 100__ $$aPrathapan, Mridula$$uKIT, Karlsruhe
002710214 245__ $$9SISSA$$aDesign of a HVCMOS pixel sensor ASIC with on-chip readout electronics for ATLAS ITk Upgrade
002710214 260__ $$bSISSA$$c2019
002710214 300__ $$a5 p
002710214 520__ $$9SISSA$$aATLASpix is a series of monolithic High Voltage CMOS (HVCMOS) sensor chips that are engineered to meet the requirements of outer layers of ATLAS ITk pixel tracker for HL-LHC upgrade. They are large collection electrode designs on high resistive wafers to ensure high detection efficiency and radiation tolerance. The readout electronics are placed on the chip periphery. ATLASpix1_M2 prototype is fabricated in a commercial 180 nm CMOS technology and has an active area of 1.6 cm × 0.33 cm. No clock signals are propagated inside the pixel matrix reducing the crosstalk and helping to achieve an estimated power consumption of 300 mW/cm$^2$. This work presents the design of ATLASpix_M2 with emphasis on its readout electronics, together with some experimental results.
002710214 540__ $$3Publication$$aCC-BY-NC-ND-4.0$$bSISSA
002710214 65017 $$2SzGeCERN$$aDetectors and Experimental Techniques
002710214 690C_ $$aCERN
002710214 700__ $$aBarrillon, Pierre$$uMarseille, CPPM
002710214 700__ $$aBenoit, Mathieu$$uCERN
002710214 700__ $$aCasanova, Raimon$$uBarcelona, IFAE
002710214 700__ $$aEhrler, Felix$$uKIT, Karlsruhe
002710214 700__ $$aPangaud, Patrick$$uMarseille, CPPM
002710214 700__ $$aPusti, Sourav$$uIIT Research Inst., Annapolis
002710214 700__ $$aSchimassek, Rudolf$$uKIT, Karlsruhe
002710214 700__ $$aVilella, Eva$$uLiverpool U.
002710214 700__ $$aWeber, Alena Larissa$$uHeidelberg U.
002710214 700__ $$aWong, Winnie$$uCERN
002710214 700__ $$aZhang, Hui$$uKIT, Karlsruhe
002710214 700__ $$aPeric, Ivan$$uKIT, Karlsruhe
002710214 773__ $$01747162$$c074$$pPoS$$vTWEPP2018$$wC18-09-17.5$$y2019
002710214 960__ $$a13
002710214 962__ $$b2636295$$k074$$nantwerp20180917
002710214 980__ $$aARTICLE
002710214 980__ $$aConferencePaper
002710214 999C5 $$01402887$$cATLAS Collaboration$$mLHCC-I-023, Dec$$o1$$rCERN-LHCC-2012-022$$tCERN Letter of Intent for the Phase-II Upgrade of the ATLAS Experiment, Technical Report$$y2012$$z0
002710214 999C5 $$01496415$$hBenoit, M.$$mTestbeam results of irradiated ams H18 HV-CMOS pixel sensor prototypes$$o2$$sJINST,13,P02011$$y2018$$z0
002710214 999C5 $$0773801$$hPeríc, I.$$mA novel monolithic pixelated particle detector implemented in high-voltage CMOS technology$$o3$$sNucl.Instrum.Meth.,A582,876-885$$y2007$$z0
002710214 999C5 $$01727103$$adoi:10.1016/j.nima.2018.06.060$$hPeríc, I.$$mA high-voltage pixel sensor for the ATLAS upgrade, Nuclear Inst. and Methods in Physics Research, A$$o4$$y2018$$z0
002710214 999C5 $$01741656$$adoi:10.1016/j.nima.2018.11.022$$hM.Prathapan$$mTowards the large area HVCMOS demonstrator for ATLAS ITk, Nuclear Inst. and Methods in Physics Research, A$$o5$$y2018$$z0
002710214 999C5 $$adoi:10.1147/rd.275.0440$$hWidmer, A.X.$$hDC-balanced, P.A. Franaszek A.$$mpartitioned-block, 8B/10B transmission code, IBM Journal of Research and Development, v.27 n.5, p.440-451, September[doi>$$o6$$y1983$$z0