002287117 001__ 2287117
002287117 003__ SzGeCERN
002287117 005__ 20200828145540.0
002287117 0247_ $$2DOI$$9Elsevier$$a10.1016/j.nima.2016.03.065
002287117 0248_ $$aoai:inspirehep.net:1481301$$pcerncds:CERN:FULLTEXT$$pcerncds:FULLTEXT$$pcerncds:CERN$$qINSPIRE:HEP$$qForCDS
002287117 035__ $$9OSTI$$a1333141
002287117 035__ $$9http://inspirehep.net/oai2d$$aoai:inspirehep.net:1481301$$d2017-10-04T14:25:03Z$$h2017-10-05T04:00:08Z$$mmarcxml
002287117 035__ $$9Inspire$$a1481301
002287117 041__ $$aeng
002287117 088__ $$aFERMILAB-PUB-16-532-CD
002287117 100__ $$aGuo, Di$$uSouthern Methodist U.$$uHefei, CUST$$vState Key Laboratory of Particle Detection and Electronics, University of Science and Technology of China, Hefei Anhui, 230026, China
002287117 245__ $$aA 4×8-Gbps VCSEL array driver ASIC and integration with a custom array transmitter module for the LHC front-end transmission
002287117 260__ $$c2016
002287117 300__ $$a7 p
002287117 520__ $$9Elsevier$$aThis paper describes the design, fabrication and experiment results of a 4×8-Gbps Vertical-Cavity Surface-Emitting Laser (VCSEL) array driver ASIC with the adjustable active-shunt peaking technique and the novel balanced output structure under the Silicon-on-Sapphire (SOS) process, and a custom array optical transmitter module, featuring a compact size of 10 mm×15 mm×5.3 mm. Both the array driver ASIC and the module have been fully tested after integration as a complete parallel transmitter. Optical eye diagram of each channel passes the eye mask at 8 Gbps/ch with adjacent channel working simultaneously with a power consumption of 150 mW/ch. The optical transmission of Bit-Error Rate (BER) less than 10E-12 is achieved at an aggregated data rate of 4×8-Gbps.
002287117 542__ $$fElsevier B.V.
002287117 65017 $$2SzGeCERN$$aDetectors and Experimental Techniques
002287117 6531_ $$9author$$aOptical detector readout concepts
002287117 6531_ $$9author$$aFront-end electronics for detector readout
002287117 6531_ $$9author$$aLasers Driver ASIC
002287117 6531_ $$9author$$aArray optical transmission
002287117 690C_ $$aCERN
002287117 693__ $$aCERN LHC$$eCMS
002287117 700__ $$aLiu, Chonghan$$uSouthern Methodist U.
002287117 700__ $$aChen, Jinghong$$uHouston U.
002287117 700__ $$aChramowicz, John$$uFermilab
002287117 700__ $$aGong, Datao$$uSouthern Methodist U.
002287117 700__ $$aHe, Huiqin$$uSouthern Methodist U.$$uShenzhen, SUSTC$$vShenzhen Polytechnic, Shenzhen, 518055, PR China
002287117 700__ $$aHou, Suen$$uTaiwan, Inst. Phys.
002287117 700__ $$aLiu, Tiankuan$$uSouthern Methodist U.
002287117 700__ $$aProsser, Alan$$iINSPIRE-00002019$$uFermilab
002287117 700__ $$aTeng, Ping-Kun$$uTaiwan, Inst. Phys.
002287117 700__ $$aXiang, Annie C$$uSouthern Methodist U.
002287117 700__ $$aXiao, Le$$uSouthern Methodist U.$$uHua-Zhong Normal U.$$vDepartment of Physics, Central China Normal University, Wuhan, Hubei, 430079, PR China
002287117 700__ $$aYe, Jingbo$$uSouthern Methodist U.
002287117 773__ $$c276-282$$pNucl. Instrum. Methods Phys. Res., A$$v831$$wC15-09-25$$y2016
002287117 8564_ $$81354499$$s528273$$uhttps://cds.cern.ch/record/2287117/files/fermilab-pub-16-532-cd.pdf$$yFulltext
002287117 960__ $$a13
002287117 962__ $$b2061545$$k276-282$$nxian20150925
002287117 980__ $$aARTICLE
002287117 980__ $$aConferencePaper
002287117 999C5 $$hChramowicz, J.$$lJ.Instrum.,7,C01007$$o1$$sJINST,7,C01007$$tEvaluation of emerging parallel optical link technology for high energy physics$$v7$$y2012
002287117 999C5 $$01305021$$9refextract$$cATLAS Collaboration$$mATLAS liquid argon calorimeter phase-I upgrade technical design report September$$o2$$rCERN-LHCC-2013-017$$rATL-TDR-022$$y2013
002287117 999C5 $$9refextract$$cATLAS Collaboration$$mLetter of Intent Phase-II Upgrade LHCC-I-023, December$$o3$$rCERN-2012-022$$y2012
002287117 999C5 $$hAmaral, L.$$hDris, S.$$hGerardin, A.$$hHuffman, T.$$hIssever, C.$$hPacheco, A.J.$$lJ.Instrum.,4,P12003$$o4$$sJINST,4,P12003$$tThe versatile link, a common project for super-LHC$$v4$$y2009
002287117 999C5 $$hXiaoting, L.$$lJ.Instrum.,9,C03007$$o5$$sJINST,9,C03007$$tOptical data transmission ASICs for the high-luminosity LHC (HL-LHC) experiments$$v9$$y2014
002287117 999C5 $$hLiang, F.$$o6$$sJ.Instrum.$$tThe design of 8-Gbps VCSEL drivers for ATLAS liquid argon calorimeter upgrade$$y2013
002287117 999C5 $$9refextract$$hD. Childers et al.$$mMiniature detachable photonic turn Connector for Optical Module Interface, in: proceedings of the 61st Electronic Components and Technology Conference (ECTC),, pp. 1922-1927$$o7$$pIEEE$$y2011
002287117 999C5 $$hTroska, J.$$mDecember$$o8$$sIEEE Trans.Nucl.Sci.,58,December$$tRadiation damage studies of lasers and photodiodes for use in multi-Gb/s optical data links$$v58$$y2011
002287117 999C5 $$hGuo, D.$$lJ.Instrum.,10,C01034$$o9$$sJINST,10,C01034$$tThe VCSEL-based array optical transmitter (ATx) development towards 120-Gbps link for collider detector: development update$$v10$$y2015
002287117 999C5 $$9refextract$$hT. Liu et al.$$mTotal Ionization Dose Effects and Single-Event Effects Studies of a 0.25 µm Silicon-On-Sapphire CMOS technology, in: Proceedings at the 9th European Conference on Radiation and Its Effects on Components and Systems, RADECS, Deauville France$$o10$$y2007
002287117 999C5 $$hLi, X.$$lJ.Instrum.,10,C02017$$o11$$sJINST,10,C02017$$t8-Gbps-per-channel radiation-tolerant VCSEL drivers for the LHC detector upgrade$$v10$$y2015
002287117 999C5 $$hLee, T.$$mChap. 8$$o12$$pCambridge University Press New York U.S.A$$tThe Design of CMOS Radio-Frequency Integrated Circuits$$y1998
002287117 999C5 $$hSackinger, E.$$o13$$sIEEE J.Solid-State Circ.,35$$tA 3-GHz 32-db CMOS limiting amplifier for SONET OC-48 receiver$$v35$$y1884
002287117 999C5 $$hGuo, D.$$lJ.Instrum.,9,C02007$$o14$$sJINST,9,C02007$$tThe 120 Gbps VCSEL array based optical transmitter (ATx) development for the High-Luminosity LHC (HL-LHC) experiments$$v9$$y2014
002287117 999C5 $$o15
002287117 999C5 $$hKing, R.$$lProc.SPIE,8276,82760G$$o16$$sProc.SPIE Int.Soc.Opt.Eng.,8276,82760G$$tCommercial VCSELs and VCSEL arrays designed for FDR (14 Gbps) optical links, Vertical-Cavity Surface-Emitting Lasers XVI$$v8276$$y2012