论文信息 - Time-Delay-Integration Architectures in CMOS Image Sensors

Time-Delay-Integration Architectures in CMOS Image Sensors

Difficulty and challenges of implementing time-delay-integration (TDI) functionality in a CMOS technology are studied: synchronization of the samples forming a TDI pixel, adder matrix outside the array, and addition noise. Existing and new TDI sensor architecture concepts with snapshot shutter, rolling shutter, or orthogonal readout are presented. An optimization method is then introduced to inject modulation transfer function and quantum efficiency specification in the architecture definition. Moderate spatial and temporal oversamplings are combined to achieve near charge-coupled device (CCD) class performances, resulting in an acceptable design complexity. Finally, CCD and CMOS dynamic range and signal-to-noise ratio are conceptually compared.

[1] Jerris F. Johnson,et al. Modeling imager deterministic and statistical modulation transfer functions. , 1993, Applied optics.

[2] Eugene S. Schlig,et al. TDI charge-coupled devices: Design and applications , 1992, IBM J. Res. Dev..

[3] Liu Jing,et al. A novel low-power readout structure for TDI ROIC , 2003, ASICON 2003.

[4] Hong-Yi Huang,et al. A time-delay-integration CMOS readout circuit for IR scanning , 2002, 9th International Conference on Electronics, Circuits and Systems.

[5] Hee Chul Lee,et al. Smart CMOS Charge Transfer Readout Circuit for Time Delay and Integration Arrays , 2006, IEEE Custom Integrated Circuits Conference 2006.

[6] Xinyang Wang,et al. Characterization of the Buried Channel n-MOST Source Followers in CMOS Image Sensors , 2007 .

[7] Harald Michalik,et al. CMOS-APS sensor with TDI for high resolution Planetary Remote Sensing , 2005 .

[8] Wim Diels,et al. CMOS long linear array for space application , 2006, Electronic Imaging.