[1] European Machine Vision Association. EMVA Stard 1288: Stard f Stard f acterization of Image Senss Cameras. Release 3.1[S]. Barcelona: European Machine Vision Association, 2016.

[2] Mao Zhonghui. Study on imaging perfmance test technology of CMOS image sens[D]. Changchun: University of Chinese Academy of Sciences(Changchun Institute of Optics, Fine Mechanics Physics, Chinese Academy of Sciences), 2022. (in Chinese)

[3] Pen Xiaomin. The research of CMOS image sens testing system based on EMVA stard 1288[D]. Harbin: Harbin Engineering University, 2015. (in Chinese)

[4] Zujun Wang, Yuanyuan Xue, Zhibin Yao, . Development of image sensor radiation effect parameters testing system based on EMVA1288 standard. Semiconductor Optoelectronics, 38, 515-520(2017).

[5] Zhiyuan Luo, Jun Xu, Liming Liu, . The Implementation of astronomical CMOS camera test platform and control system. Astronomical Research and Technology, 16, 345-352(2019).

[6] Oxfd Instruments. CCD architecture: full frame CCD, frame transfer interline CCD. [20230529]. https:.oxinst.comlearningviewarticleccdsensarchitectures.

[7] Janesick J R. Scientific geCoupled Devices[M]. Bellingham, Washington, DC: SPIE Press Book, 2001.

[8] Holst G C. CCD Arrays, Cameras, Displays[M]. Bellingham, Washington, DC: SPIE Press Book, 1998.

[9] Rui Tian, Yanying Liu. Design of the drive circuit of the large array CCD camera based on FPGA. Infrared and Laser Engineering, 36, 574-577(2007).

[10] Xiansheng Li, Zhi Wan, Zexun Liu, . Method of CCD test and screening for space camera with wide field of view. Infrared and Laser Engineering, 43, 2245-2250(2014).

[11] Janesick J. Dueling detects[EBOL]. (20020101)[20230529]. https:spie.gnewsduelingdetectsSSO=1.

[12] Edmund Optics. Imaging electronics 101: Understing camera senss f machine vision applications[EBOL]. [20230529]. https:www.edmundoptics.comknowledgecenterapplicationnotesimagingunderstingcamerasenssfmachinevisionapplications.

[13] Oxfd Instruments Group. Rolling shutter vs global shutter sCMOS camera mode[EBOL]. [20230529]. https:.oxinst.comlearningviewarticlerollingglobalshutter.

[14] Baumer Inc. Rolling shutter, global shutter—two principles of exposure[AN201906][EBOL]. [2023−05−29]. https:www.baumer.comcaenservicesuppttechnicalinfmationindustrialcamerasrollingshutterglobalshuttertwoprinciplesofexposurearollingshutterglobalshutter.

[15] Xin Jiang, Huixin Gong, Lei Ding, . Choice of image sensor in high-speed small target imaging system. Infrared and Laser Engineering, 16, 513-516(2007).

[16] Peng Qiu, Yongna Mao, Xiaomeng Lu, et al. Evaluation of a scientific CMOS camera for astronomical observations. Research in Astronomy and Astrophysics, 13, 615-628(2013).

[17] Peng Qiu, Yong Zhao, Jie Zheng, et al. Research on performances of back-illuminated scientific CMOS for astronomical observations. Research in Astronomy and Astrophysics, 21, 268(2021).

[18] Kitchin C R. Astrophysical Techniques[M]. Fourth Edition. Boca Raton: CRC Press, 2003.

[19] Janesick J R. Photon Transfer[M]. Bellingham, Washington, DC: SPIE Press Book, 2007.

[20] Yingwei He, Ping Li, Houping Wu, . Output irradiance uniformity of integrating sphere source. Journal of Applied Optics, 33, 548-553(2012).

[21] Wang Chuanjin, Ye Binxun. Astronomical Visible Light Detect[M]. Beijing: China Science Technology Press, 2013. (in Chinese)

[22] Ming Yan, Qiong Bai, Gang Li, . Study on the performance of high-speed CMOS image sensors in transient imaging mode. Infrared and Laser Engineering, 51, 20210694(2022).

[23] Sicheng Zou, Gang Wang. Development and test of scientific CCD camera for large sky area mult-i object fiber spectroscopic telescope. Acta Armamentarii, 29, 434-439(2008).

[24] T Zhang, X Y Li, J F Li, . sCMOS real-time nonuniformity correction based on adaptive multipoint method. Opto-Electronic Engineering, 48, 86-93(2021).