Review of digital mid-wave infrared focal plane array detector assembly

Bai Piji; Zhao Jun; Han Fuzhong; Li Lihua; Wang Bo; Yao Libin; Li Min

doi:10.3788/IRLA201746.0102003

Volume 46 Issue 1

Feb. 2017

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Bai Piji, Zhao Jun, Han Fuzhong, Li Lihua, Wang Bo, Yao Libin, Li Min. Review of digital mid-wave infrared focal plane array detector assembly[J]. Infrared and Laser Engineering, 2017, 46(1): 102003-0102003(8). doi: 10.3788/IRLA201746.0102003

Citation:

Bai Piji, Zhao Jun, Han Fuzhong, Li Lihua, Wang Bo, Yao Libin, Li Min. Review of digital mid-wave infrared focal plane array detector assembly[J]. Infrared and Laser Engineering, 2017, 46(1): 102003-0102003(8). doi: 10.3788/IRLA201746.0102003

Review of digital mid-wave infrared focal plane array detector assembly

doi: 10.3788/IRLA201746.0102003

1.
Kunming Institute of Physics,Kunming 650223,China

Received Date: 2016-08-10
Rev Recd Date: 2016-09-20
Publish Date: 2017-01-25

Abstract

The state and trend of digital cooled infrared focal plane array detector assembly in USA,Israel and France were presented. According to the work mode of digital Read Out Integrated Circuit(ROIC),recent research results on digital cooled infrared focal plane array detector assembly in USA,Israel and France were introduced. By the concept of SWaP, some kinds of small pixel, HOT performance, digital output, million pixels mid-wave infrared focal plane array assembly were developed in Israel and France. At last the research result on digital cooled infrared focal plane array detector assembly in Kunming Institute of Physics was briefly introduced. The key technology of column-level ADC ROIC had been broken through, and the 640512(15, 20, 25 m pitch) column-level ADC digital cooled infrared focal plane array detector assemblies were developed. The performance measures of the digital detector in Kunming institute of physics were comparative with the digital detectors abroad.
- column-level ADC ROIC,
- mid-wave focal plane array,
- digital cooled infrared detector assembly

References

[1]	Bai Piji, Yao Libin. Read out integrated circuit for third-generation infrared focal plane detector[J]. Infrared Technology, 2015, 37(2):89-96. (in Chinese)白丕绩, 姚立斌. 第三代红外焦平面探测器读出电路[J]. 红外技术, 2015, 37(2):89-96.
[2]	Donald A R, Stuart Horn, James Campbell, et al. Third generation imaging sensor system concepts[C]//SPIE, 1999, 3701:108-117.
[3]	Philippe Tribolet, Grard Destefanis. Third generation and multi-color IRFPA developments:a unique approach based on DEFIR[C]//SPIE, 2005, 5783:578337
[4]	Rogalski A, Antoszewski J, Faraone L. Third-generation infrared photodetector arrays[J]. Journal of Applied Physice, 2009, 105:091101.
[5]	Bai Piji, Zhao Jun, Liu Huiping, et al. Review of ROIC for MCT dual-band infrared focal plane arrays[J]. Infrared Technology, 2015, 37(10):807-813. (in Chinese)白丕绩, 赵俊, 刘会平, 等. 碲镉汞双色红外焦平面读出电路研究进展[J]. 红外技术, 2015, 37(10):807-813.
[6]	Radford W A, Radford W A, Patten E A, et al. Third generation FPA development status at Raytheon vision systems[C]//Proceedings of SPIE, Infrared Technology and Applications XXXI, 2005, 5783:331-339.
[7]	Nesher Ofer, Elkind Shimon, Adin Amnon, et al. Digital cooled InSb detector for IR detection[C]//SPIE, 2003, 5074:10.1117/12.498154.
[8]	Olknine Schlesinger J, Calahorra Z, Uri E, et al. Pelican-SCD's 640512, 15m pitch InSb detector[C]//SPIE, 2007, 6542:654231.
[9]	Alain M, Laurent R, Yann R, et al. Improved IR detectors to swap heavy systems for SWaP[C]//SPIE, 2012, 8353:835334.
[10]	Lutz H, Breiter R, Eich D, et al. High operating temperature IR-modules with small pitch for SWaP reduction and high performance applications[C]//SPIE, 2011, 8185:818504.
[11]	Michel V, Laurent R, Fabien C, et al. HOT infrared detectors using MCT technology[C]//SPIE, 2011, 8012:80122 W.
[12]	Chen Nan, Yao Libin. Analog to digital conversion techniques in array image sensors[J]. Infrared Technology, 2014, 36(10):770-776. (in Chinese)陈楠, 姚立斌. 阵列型图像传感器模数转换技术[J]. 红外技术, 2014, 36(10):770-776.
[13]	Nesher O, Elkind S, Adin A, et al. A digital cooled inSb detector for IR detection[J]. Infrared Technology and Applications XXIX, 2003, 5074:120-129.
[14]	Markovitz T, Pivnik I, Calahorra Z, et al. Digital 640x512/15m InSb detector for high frame rate, high sensitivity and low power applications[J]. Infrared Technology and Applications XXXVII, 2011, 8012:80122Y.
[15]	Krashefski B, Elliott J, Hhan L, et al. A versatile, producible, digital, FPA architecture[C]//SPIE, 2006, 6206:62062W.
[16]	Nesher O, Pivnik I, Ilan E, et al. High resolution 12801024, 15m pitch compact InSb IR detector with on-chip ADC[C]//SPIE, 2009, 7298:72983K.
[17]	Lutz H, Breiter R, Rutzinger S, et al. High-performance IR detector modules for Army applications[C]//SPIE, 2013, 8704:87040A.
[18]	Lior Shkedy, Maya Brumer, Philip Klipstein, et al. Development of 10m pitch XBn detector for Low SWaP MWIR applications[C]//SPIE, 2016, 9819:98191D.
[19]	Shin M S, Kim J B, Kim M K, et al. A 1.92-Megapixel CMOS image sensor with column-parallel low-power and area-effcient SA-ADCs[J]. IEEE Trans. Electron Devices, 2012, 59:1693-1700.
[20]	Fillon P, Dugalleix S, Pistone F, et al. Digital output for high performance MCT staring arrays[J]. Infrared Technology and Applications, 2006, 6206:62060U.
[21]	Guellec F, Villard P, Rothan F, et al. Sigma-delta column-wise A/D conversion for cooled ROIC[J]. Infrared Technology and Applications, 2007, 6542:65423N.
[22]	Yao Libin, Chen Nan, Zhang Jiqing, et al. Digital IRFPA technology[J]. Infrared Technology, 2014, 38(5):357-366. (in Chinese)姚立斌, 陈楠, 张继清, 等. 数字化红外焦平面技术[J]. 红外技术, 2014, 38(5):357-366.
[23]	Matthew G Brown, Justin Baker, Curtis Colonero, et al. Digital-pixel focal plane array development[C]//Proc of SPIE Solid-State Circuits Conference, 2010, 608:7608-76082H.
[24]	Alexandre Guilvard, Josep Segura, Pierre Magnan, et al. A digital high dynamic range CMOS image sensor with multi-integration and pixel readout request[C]//Proc of SPIE in IST Electronic Imaging, 2007, 6501:65010L.
[25]	Matthew G. Brown, Justin Baker, Curtis Colonero, et al. Digital-pixel focal plane array development[C]//Proc of SPIE in Quantum Sensing and Nanophotonic Devices VII, 2010, 7608:76082H.
[26]	Guellec F, Peizerat A, Tchagaspanian M, et al. A 25m pitch LWIR focal plane array with pixel-level 15-bit ADC providing high well capacity and targeting 2 mK NETD[C]//Proc of SPIE in Infrared Technology and Applications XXXVI, 2010, 7660:76603T.

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通讯作者: 陈斌, bchen63@163.com

1.
沈阳化工大学材料科学与工程学院沈阳 110142

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Review of digital mid-wave infrared focal plane array detector assembly

1. Kunming Institute of Physics,Kunming 650223,China

Received Date: 2016-08-10

Rev Recd Date: 2016-09-20

Publish Date: 2017-01-25

Key words:

column-level ADC ROIC /
mid-wave focal plane array /
digital cooled infrared detector assembly

Abstract: The state and trend of digital cooled infrared focal plane array detector assembly in USA,Israel and France were presented. According to the work mode of digital Read Out Integrated Circuit(ROIC),recent research results on digital cooled infrared focal plane array detector assembly in USA,Israel and France were introduced. By the concept of SWaP, some kinds of small pixel, HOT performance, digital output, million pixels mid-wave infrared focal plane array assembly were developed in Israel and France. At last the research result on digital cooled infrared focal plane array detector assembly in Kunming Institute of Physics was briefly introduced. The key technology of column-level ADC ROIC had been broken through, and the 640512(15, 20, 25 m pitch) column-level ADC digital cooled infrared focal plane array detector assemblies were developed. The performance measures of the digital detector in Kunming institute of physics were comparative with the digital detectors abroad.

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Reference (26)

[1]	Bai Piji, Yao Libin. Read out integrated circuit for third-generation infrared focal plane detector[J]. Infrared Technology, 2015, 37(2):89-96. (in Chinese)白丕绩, 姚立斌. 第三代红外焦平面探测器读出电路[J]. 红外技术, 2015, 37(2):89-96.
[2]	Donald A R, Stuart Horn, James Campbell, et al. Third generation imaging sensor system concepts[C]//SPIE, 1999, 3701:108-117.
[3]	Philippe Tribolet, Grard Destefanis. Third generation and multi-color IRFPA developments:a unique approach based on DEFIR[C]//SPIE, 2005, 5783:578337
[4]	Rogalski A, Antoszewski J, Faraone L. Third-generation infrared photodetector arrays[J]. Journal of Applied Physice, 2009, 105:091101.
[5]	Bai Piji, Zhao Jun, Liu Huiping, et al. Review of ROIC for MCT dual-band infrared focal plane arrays[J]. Infrared Technology, 2015, 37(10):807-813. (in Chinese)白丕绩, 赵俊, 刘会平, 等. 碲镉汞双色红外焦平面读出电路研究进展[J]. 红外技术, 2015, 37(10):807-813.
[6]	Radford W A, Radford W A, Patten E A, et al. Third generation FPA development status at Raytheon vision systems[C]//Proceedings of SPIE, Infrared Technology and Applications XXXI, 2005, 5783:331-339.
[7]	Nesher Ofer, Elkind Shimon, Adin Amnon, et al. Digital cooled InSb detector for IR detection[C]//SPIE, 2003, 5074:10.1117/12.498154.
[8]	Olknine Schlesinger J, Calahorra Z, Uri E, et al. Pelican-SCD's 640512, 15m pitch InSb detector[C]//SPIE, 2007, 6542:654231.
[9]	Alain M, Laurent R, Yann R, et al. Improved IR detectors to swap heavy systems for SWaP[C]//SPIE, 2012, 8353:835334.
[10]	Lutz H, Breiter R, Eich D, et al. High operating temperature IR-modules with small pitch for SWaP reduction and high performance applications[C]//SPIE, 2011, 8185:818504.
[11]	Michel V, Laurent R, Fabien C, et al. HOT infrared detectors using MCT technology[C]//SPIE, 2011, 8012:80122 W.
[12]	Chen Nan, Yao Libin. Analog to digital conversion techniques in array image sensors[J]. Infrared Technology, 2014, 36(10):770-776. (in Chinese)陈楠, 姚立斌. 阵列型图像传感器模数转换技术[J]. 红外技术, 2014, 36(10):770-776.
[13]	Nesher O, Elkind S, Adin A, et al. A digital cooled inSb detector for IR detection[J]. Infrared Technology and Applications XXIX, 2003, 5074:120-129.
[14]	Markovitz T, Pivnik I, Calahorra Z, et al. Digital 640x512/15m InSb detector for high frame rate, high sensitivity and low power applications[J]. Infrared Technology and Applications XXXVII, 2011, 8012:80122Y.
[15]	Krashefski B, Elliott J, Hhan L, et al. A versatile, producible, digital, FPA architecture[C]//SPIE, 2006, 6206:62062W.
[16]	Nesher O, Pivnik I, Ilan E, et al. High resolution 12801024, 15m pitch compact InSb IR detector with on-chip ADC[C]//SPIE, 2009, 7298:72983K.
[17]	Lutz H, Breiter R, Rutzinger S, et al. High-performance IR detector modules for Army applications[C]//SPIE, 2013, 8704:87040A.
[18]	Lior Shkedy, Maya Brumer, Philip Klipstein, et al. Development of 10m pitch XBn detector for Low SWaP MWIR applications[C]//SPIE, 2016, 9819:98191D.
[19]	Shin M S, Kim J B, Kim M K, et al. A 1.92-Megapixel CMOS image sensor with column-parallel low-power and area-effcient SA-ADCs[J]. IEEE Trans. Electron Devices, 2012, 59:1693-1700.
[20]	Fillon P, Dugalleix S, Pistone F, et al. Digital output for high performance MCT staring arrays[J]. Infrared Technology and Applications, 2006, 6206:62060U.
[21]	Guellec F, Villard P, Rothan F, et al. Sigma-delta column-wise A/D conversion for cooled ROIC[J]. Infrared Technology and Applications, 2007, 6542:65423N.
[22]	Yao Libin, Chen Nan, Zhang Jiqing, et al. Digital IRFPA technology[J]. Infrared Technology, 2014, 38(5):357-366. (in Chinese)姚立斌, 陈楠, 张继清, 等. 数字化红外焦平面技术[J]. 红外技术, 2014, 38(5):357-366.
[23]	Matthew G Brown, Justin Baker, Curtis Colonero, et al. Digital-pixel focal plane array development[C]//Proc of SPIE Solid-State Circuits Conference, 2010, 608:7608-76082H.
[24]	Alexandre Guilvard, Josep Segura, Pierre Magnan, et al. A digital high dynamic range CMOS image sensor with multi-integration and pixel readout request[C]//Proc of SPIE in IST Electronic Imaging, 2007, 6501:65010L.
[25]	Matthew G. Brown, Justin Baker, Curtis Colonero, et al. Digital-pixel focal plane array development[C]//Proc of SPIE in Quantum Sensing and Nanophotonic Devices VII, 2010, 7608:76082H.
[26]	Guellec F, Peizerat A, Tchagaspanian M, et al. A 25m pitch LWIR focal plane array with pixel-level 15-bit ADC providing high well capacity and targeting 2 mK NETD[C]//Proc of SPIE in Infrared Technology and Applications XXXVI, 2010, 7660:76603T.

Review of digital mid-wave infrared focal plane array detector assembly

doi: 10.3788/IRLA201746.0102003

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