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The clock distribution system for the ATLAS Liquid Argon Calorimeter Phase-I Upgrade Demonstrator
/ Deng, Binwei (Shandong U. ; Southern Methodist U.) ; Chen, Hucheng (Brookhaven) ; Chen, Kai (Brookhaven) ; Chen, Jinghong (Houston U. ; Southern Methodist U.) ; Gong, Datao (Southern Methodist U.) ; Guo, D. (Southern Methodist U. ; Hefei, CUST) ; Hu, Xueye (Brookhaven) ; Huang, Deping (Southern Methodist U.) ; Kierstead, James (Brookhaven) ; Li, Xiaoting (Southern Methodist U. ; Hua-Zhong Normal U.) et al.
A prototype Liquid-argon Trigger Digitizer Board (LTDB), called the LTDB Demonstrator, has been developed to demonstrate the functions of the ATLAS Liquid Argon Calorimeter Phase-I trigger electronics upgrade. Forty Analog-to-Digital converters and four FPGAs with embedded multi-gigabit-transceivers on each Demonstrator need high quality clocks. [...]
arXiv:2401.15750.-
2015-01-09 - 8 p.
- Published in : JINST
Fulltext: PDF;
In : Topical Workshop on Electronics for Particle Physics 2014, Aix En Provence, France, 22 - 26 Sep 2014, pp.C01004
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Design and hardware evaluation of the optical-link system for the ATLAS Liquid Argon Calorimeter Phase-II Upgrade
/ Deng, Binwei (HBPU, Huangshi ; ZEPC, Yixing ; Southern Methodist U. ; Hua-Zhong Normal U.) ; Liu, Chonghan (Hua-Zhong Normal U.) ; Gong, Datao (Hua-Zhong Normal U.) ; Chen, Chufeng (Southern Methodist U. ; Hua-Zhong Normal U.) ; Huang, Xing (Southern Methodist U. ; Hua-Zhong Normal U.) ; Hou, Suen (Taiwan, Inst. Phys.) ; Liu, Tiankuan (Southern Methodist U.) ; Sun, Hanhan (Southern Methodist U. ; Hua-Zhong Normal U.) ; Zhang, Li (Southern Methodist U. ; Hua-Zhong Normal U.) ; Zhang, Wei (Southern Methodist U. ; Hua-Zhong Normal U.) et al.
An optical link system is being developed for the ATLAS Liquid Argon Calorimeter Phase-II upgrade. The optical link system is responsible for transmit the data of over 182 thousand detector channels from 1524 Front-End Boards (FEBs) through 26 optical fibers per FEB over 150 meters to the counting room and brings clocks, bunch crossing reset signals and slow control/monitoring signals back to the FEBs. [...]
arXiv:2007.15854.-
2020-11-21 - 12 p.
- Published in : Nucl. Instrum. Methods Phys. Res., A 981 (2020) 164495
Fulltext: PDF;
In : 12th international "Hiroshima" Symposium on the Development and Application of Semiconductor Tracking Detectors (HSTD), Hiroshima, Japan, 14 - 18 Dec 2019, pp.164495
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Two low-power optical data transmission ASICs for the ATLAS Liquid Argon Calorimeter readout upgrade
/ Xiao, Le (Hua-Zhong Normal U., LQLP ; Southern Methodist U.) ; Zhou, Wei (Hua-Zhong Normal U., LQLP ; Southern Methodist U.) ; Sun, Quan (Southern Methodist U.) ; Deng, Binwei (Hubei Norm. U.) ; Gong, Datao (Southern Methodist U.) ; Guo, Di (Hua-Zhong Normal U., LQLP ; Southern Methodist U.) ; He, Huiqin (SZPT, Shenzhen) ; Hou, Suen (Taiwan, Inst. Phys.) ; Liu, Chonghan (Southern Methodist U.) ; Liu, Tiankuan (Southern Methodist U.) et al.
A serializer ASIC and a VCSEL driver ASIC are needed for the front-end optical data transmission in the ATLAS liquid argon calorimeter readout phase-I upgrade. The baseline ASICs are the serializer LOCx2 and the VCSEL driver LOCld, designed in a 0.25-{\mu}m Silicon-on-Sapphire (SoS) CMOS technology and consumed 843 mW and 320 mW, respectively. [...]
arXiv:2009.06148.-
2019-04-21 - 12 p.
Fulltext: PDF;
In : 11th International "Hiroshima" Symposium on the Development and Application of Semiconductor Tracking Detectors (HSTD11) in conjunction with 2nd Workshop on SOI Pixel Detectors (SOIPIX2017) at OIST, Okinawa, Japan, Okinawa, Japan, 10 - 15 Dec 2017, pp.160-165
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1.28 and 5.12 Gbps multi-channel twinax cable receiver ASICs for the ATLAS Inner Tracker Pixel Detector Upgrade
/ Chen, Chufeng (Southern Methodist U. ; Hua-Zhong Normal U.) ; Gong, Datao (Southern Methodist U.) ; Hou, Suen (Academia Sinica, Taiwan) ; Huang, Guangming (Hua-Zhong Normal U.) ; Huang, Xing (Southern Methodist U. ; Hua-Zhong Normal U.) ; Kulis, Szymon (CERN) ; Leroux, Paul (Leuven U.) ; Liu, Chonghan (Southern Methodist U.) ; Liu, Tiankuan (Southern Methodist U.) ; Moreira, Paulo (CERN) et al.
We present two prototypes of a gigabit transceiver ASIC, GBCR1 and GBCR2, both designed in a 65-nm CMOS technology for the ATLAS Inner Tracker Pixel Detector readout upgrade. The first prototype, GBCR1, has four upstream receiver channels and one downstream transmitter channel with pre-emphasis. [...]
arXiv:2008.09738.-
2020-11-21 - 7 p.
- Published in : Nucl. Instrum. Methods Phys. Res., A 981 (2020) 164439
Fulltext: PDF;
In : 12th international "Hiroshima" Symposium on the Development and Application of Semiconductor Tracking Detectors (HSTD), Hiroshima, Japan, 14 - 18 Dec 2019, pp.164439
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Mid-board miniature dual channel optical transmitter MTx and transceiver MTRx
/ Zhao, Xiandong (Southern Methodist U.) ; Liu, Chonghan (Southern Methodist U.) ; Gong, Datao (Southern Methodist U.) ; Chen, Jinghong (Houston U.) ; Guo, Di (Southern Methodist U.) ; He, Huiqin (SZPT, Shenzhen) ; Hou, Suen (Taiwan, Inst. Phys.) ; Huang, Guangming (Hua-Zhong Normal U.) ; Li, Xiaoting (Hua-Zhong Normal U.) ; Liu, Tiankun (Southern Methodist U.) et al.
We report the development of a mid-board, TOSA and ROSA based miniature dual channel optical transmitter (MTx) and a transceiver (MTRx). The design transmission data rate is 5.12 Gbps per channel and receiving data rate 4.8 Gbps. [...]
arXiv:2009.08623.-
2016-03-24 - 5 p.
- Published in : JINST
Fulltext: PDF;
In : Topical Workshop on Electronics for Particle Physics, Lisbon, Portugal, 28 Sep - 2 Oct 2015, pp.C03054
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The latency validation of the optical link for the ATLAS Liquid Argon Calorimeter Phase-I trigger upgrade
/ Deng, Binwei (HBPU, Huangshi ; Southern Methodist U.) ; Xiao, Le (Southern Methodist U. ; Hua-Zhong Normal U.) ; Zhao, Xiandong (Southern Methodist U.) ; Baker, Emily (Unlisted, US, TX) ; Gong, Datao (Southern Methodist U.) ; Guo, D. (Southern Methodist U. ; Hua-Zhong Normal U.) ; He, Huiqin (PCL, Shenzhen) ; Hou, Suen (Academia Sinica, Taiwan) ; Liu, Chonghan (Southern Methodist U.) ; Liu, Tiankuan (Southern Methodist U.) et al.
Two optical data link data transmission Application Specific Integrated Circuits (ASICs), the baseline and its backup, have been designed for the ATLAS Liquid Argon (LAr) Calorimeter Phase-I trigger upgrade. The latency of each ASIC and that of its corresponding receiver implemented in a back-end Field-Programmable Gate Array (FPGA) are critical specifications. [...]
arXiv:2009.06143.-
2018-05-02 - 13 p.
- Published in : JINST
Fulltext: PDF;
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A High-Resolution Clock Phase-Shifter in a 65 nm CMOS Technology
/ Yang, Dongxu (Hefei, CUST) ; Kulis, Szymon (CERN) ; Gong, Datao (Southern Methodist U.) ; Ye, Jingbo (Southern Methodist U.) ; Moreira, Paulo (CERN) ; Wang, Jian (Hefei, CUST)
The design of a high-resolution phase-shifter which is part of the LpGBT, a low power upgrade of the gigabit transceiver (GBTX) for the LHC upgrade program, is presented. The phase-shifter circuit aims at producing a programmable phase rotation (up to 360°) with a time resolution of 48.8 ps for several input clock frequencies: 40, 80, 160, 320, 640 or 1280 MHz. [...]
2018 - 5 p.
- Published in : Springer Proc. Phys. 212 (2018) 158-162
In : International Conference on Technology and Instrumentation in Particle Physics 2017, Beijing, China, 21 - 26 May 2017, pp.158-162
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28.6 A 78.5dB-SNDR radiation- and metastability-tolerant two-step split SAR ADC operating up to 75MS/s with 24.9mW power consumption in 65nm CMOS
/ Xu, Hongda (Texas U., Dallas) ; Cai, Yongda (Texas U., Dallas) ; Du, Ling (UESTC, Chengdu) ; Zhou, Yuan (Broadcom, Irvine) ; Xu, Benwei (Southern Methodist U.) ; Gong, Datao (Southern Methodist U.) ; Ye, Jingbo (Southern Methodist U.) ; Chiu, Yun (Texas U., Dallas)
High-resolution, low-power radiation-tolerant ADCs are under great demand from medical, aerospace and high-energy physics applications. In the ATLAS Liquid Argon Calorimeter of the LHC experiment at CERN, the radiation operation condition coupled with the large dynamic range (>12b ENOB), 40-80MS/s sample rate and low power (for cooling system requirement) specs [1] make the design of such ADCs a very challenging task..
2017 - 2 p.
- Published in : 10.1109/ISSCC.2017.7870468
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