• [1]

    Z. Cao (LHAASO Collaboration), Chin. Phys. C (HEP NP), 34(2): 249-252(2010)

  • [2]

    Q. An, Y. X. Bai, X. J. Bi et al Nucl. Instrum. Methods A, 724: 12-19(2013)

  • [3]

    Z. Cao, Nucl. Insturm. Methods. A, 742: 95-98(2014)

  • [4]

    M. Bouchel, F. Dulucq, J. Fleury et al. SPIROC (SiPM Integrated Read-out Chip): Dedicated very front-end electronics for an ILC prototype hadronic calorimeter with SiPM read-out., in Proc. of IEEE Conf. on Nucl. Sci. Sym. Honolulu (2007), p. 1857-1860

  • [5]

    S. C. Di Lorenzo, J. E. Campagne, F. Dulucq et al. PARISROC, a photomultiplier array integrated read out chip, in Proc. of IEEE Conf. on Nucl. Sci. Sym. Orlando (2009), p. 1074-1081

  • [6]

    S. Blin, P. Barrillon, C. de La Taille. MAROC, a generic photomultiplier readout chip, in Proc. of IEEE Conf. on Nucl. Sci. Sym. Knoxville, TN (2010), p. 1690-1693

  • [7]

    G. De Geronimo J. Fried, L. Shaorui et al, IEEE Trans. Nucl. Sci., 60 (3): 2314-2321(2013)

  • [8]

    A. Aspell, M. De Gaspari, H. Franca et al, IEEE Trans. Nucl. Sci., 60(2): 1289-1295(2013)

  • [9]

    E. Atkin, V. Ivanov, P. Ivanov et al, J. Instrum., 10: C04006(2015)

  • [10]

    M. J. Lee, D. N. Brown, J. K. Chang et al J. Instrum., 10: P06007(2015)

  • [11]

    H. Abramowicz, FCAL Collaboration. J. Instrum., 10: P05009(2015)

  • [12]

    E. Delagnes, P. Abbon, Y. Bedfer et al, IEEE Trans. Nucl. Sci., 47(4): 14471453(2000)

  • [13]

    H. Nishino, K. Awai, Y. Hayato et al, Nucl. Instrum. Methods A, 610: 710717(2009)

  • [14]

    A. Comerma, D. Gascon, L. Freixas et al. FlexToT-Current mode ASIC for readout of common cathode SiPM arrays, in Proc. of IEEE Conf. on Nucl. Sci. Sym. Seoul (2013), p. 1-2

  • [15]

    S. Ferry, F. Guilloux, S. Anvar et al, Nucl. Instrum. Methods A, 725: 175178(2013)

  • [16]

    E. Delagnes, Y. Degerli, P. Goret et al, Nucl. Instrum. Methods A, 567: 2126(2006)

  • [17]

    E. Oberla, J. F Genat, H. Grabas et al, Nucl. Instrum. Methods A, 735: 452461(2014)

  • [18]

    S. Ritt, Design and performance of the 6 GHz waveform digitizing chip DRS4, in Proc. of IEEE Conf. on Nucl. Sci. Sym. Dresden (2008), p. 1512-1515.

  • [19]

    L. Tibaldo, J. A. Vandenbroucke, A. M. Albert et al. TARGET: toward a solution for the readout electronics of the Cherenkov Telescope Array, in Proc. of 34th ICRC Hague (2015).

  • [20]

    J. F. Liu, L. Zhao, L. Yu et al, arXiv: 1510. 00778

  • [21]

    M. Firlej, T. Fiutowski, M. Idzik et al, J. Instrum., 10: P11012(2015)

  • [22]

    M. Zeloufi (The ATLAS Collaboration), A 12bits 40 MSPS SAR ADC with a redundancy algorithm and digital calibration for the ATLAS LAr calorimeter readout, in Proc. of TWEPP (Lisboa, 2015)

  • [23]

    J. Kuppambatti, J. Ban, T. Andeen et al, J. Instrum., 8: P09008(2013)

  • [24]

    M. Dessouky, A. Kaiser. Electron. Lett., 35 (1): 8-10(1999)

  • [25]

    G. Z. Huang, P. F. Lin, A fast bootstrapped switch for high-speed high-resolution A/D converter, in Proc. of IEEE APCCAS (Kuala Lumpur, 2010), p. 382-385.

  • [26]

    Y. Zhu, C. H Chan, U. F. Chio et al, IEEE J. Solid-ST. Circ., 45 (6): 1111-1121(2010)

  • [27]

    V. Hariprasath, J. Guerber, S-H. Lee et al, Electron. Lett., 46 (9): 620-621(2010)

  • [28]

    G. Van der Plas, B. Verbruggen IEEE J. Solid-ST. Circ., 43 (12): 2631-2640(2008)

  • [29]

    Y. Zhu, C. H. Chan, S. W. Sin et al, IEEE J. Solid-ST. Circ., 47 (11): 2613-2626(2012)

  • [30]

    C. H. Chan, Y. Zhu, U. F. Chio et al. A voltage-controlled capacitance offset calibration technique for high resolution dynamic comparator, in Proc. of ISOCC (Busan, 2009), p. 392-395.

  • [31]

    S.-W. M. Chen R. W. Brodersen. IEEE J. Solid-ST. Circ., 41(12): 2669-2680(2006)

  • [32]

    C. Y. Xue, Y. Wang, F. L. Li et al, An 11-bit 200MS/s SAR ADC IP for wireless communication SOC, in Proc. of ICSICT (Guilin, 2014), p. 1-3

  • [33]

    L. Yuxiao, S. Lu, L Zhe et al, Journal of Semiconductors, 35(4): 045009(2014)

  • [34]

    R. H. Walden. IEEE J. Sel. Areas Commun., 17(4): 539-550(1999)