ECE 1352 Presentation Active Pixel Imaging Circuits - PowerPoint PPT Presentation

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ECE 1352 Presentation Active Pixel Imaging Circuits

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Title: ECE 1352 Presentation Active Pixel Imaging Circuits


1
ECE 1352 Presentation Active Pixel Imaging
Circuits
  • By
  • Ashkan Olyaei

2
Outline
  • Active Pixel Sensors (APS) Vs. Charge Coupled
    Devices (CCD)
  • APS Design Issues
  • Dynamic Range
  • Noise

3
Defining Some Concepts
  • Quantum Efficiency
  • QE Electrical Energy / Radiant Energy
  • Fill Factor
  • FF Active Area in Pixel / Total Pixel Area
  • Microlenses improve the effective fill factor 2
    or 3 times

4
APS Vs. CCD
  • CCD
  • requires specialized expensive processes not
    easily integrable with CMOS
  • has high Quantum Efficiency, high fill factor and
    low noise
  • lacks random access and fast readouts
  • needs multiple voltages on chip for efficient
    charge transfer
  • APS
  • is lower voltage and lower-power
  • achieves random access and faster readout
  • can yield low noise with peripheral circuitry
  • compatible with CMOS process

5
APS Design
  • A Simple Photodiode APS Cell
  • Described by Noble in 1968
  • Three transistors per pixel
  • High quantum efficiency (no overlying
    polysilicon)

E. R. Fossum, CMOS image sensors Electronic
camera-on-a-chip, in IEEE IEDM Tech. Dig.,
1995.
6
Dynamic Range
  • DRpixel (dB) 20 log (Vmax/Vnoise)
  • Rail-to-rail input swing
  • Wider output swing

Chen Xu, M. Chan The Approach to Rail-to-Rail
CMOS APS for Portable Applications , in IEEE
Tencon. 2001.
7
Dynamic Range
8
Noise Analysis
  • Temporal Noise
  • Time-dependent fluctuations in the signal level
    of fundamental origins.
  • Pixel Noise
  • Photon shot noise (Photon detection a Poisson
    process, Noise N0.5)
  • Reset (kT/C) noise associated with reset level
  • Dark current shot noise proportional to leakage
    current and exposure time
  • MOS device noise (flicker 1/f noise and Thermal
    noise)
  • Column Noise
  • Thermal kT/C noise associated with the sampling
    process
  • Thermal and 1/f noise of the column amplifier MOS
    devices
  • Spatial Noise (FPN)
  • Refers to a non-temporal spatial noise and is due
    to device mismatches in the pixels color
    filters, and variations in column amplifiers.

9
Noise Reduction
  • Correlated Double Sampling (Level 1)
  • Reduce FPN and Temporal noise in pixel
  • Reset Level Transferred to CR
  • Signal Level Transferred to CS
  • CMOS Active Pixel Image Sensors for Highly
    Integrated Imaging Systems
  • Mendis, S.K. Kemeny, S.E. Gee, R.C. Pain, B.
    Staller, C.O. Quiesup Kim Fossum, E.R.
    Solid-State Circuits, IEEE Journal of , Vol. 32
    Issue 2 , Feb. 1997 Page(s) 187 -197

10
Noise Reduction
  • Correlated Double Sampling (Level 2)
  • AJ Blanksby, MJ Loinaz, Performance Analysis of
    a Color CMOS Photogate Image Sensor, IEEE
    Transactions on Electron Devices, Vol. 47, No. 1,
    Jan 2000.

11
Noise Reduction
12
Conclusion
  • Two generation of imagers CCD and APS
  • Dynamic range critical as technology scales
  • Noise an important impediment of APS

13
References
  • CMOS image sensors electronic camera on a chip
    Fossum, E.R. Electron Devices Meeting, 1995.,
    International , 10-13 Dec. 1995
  • The approach to rail-to-rail CMOS active pixel
    sensor for portable applications Chen Xu Mansun
    Chan Electrical and Electronic Technology,
    2001. TENCON. Proceedings of IEEE Region 10
    International Conference on , Volume 2 , 19-22
    Aug. 2001 Page(s) 834 -837 vol.2
  • CMOS Active Pixel Image Sensors for Highly
    Integrated Imaging Systems
  • Mendis, S.K. Kemeny, S.E. Gee, R.C. Pain, B.
    Staller, C.O. Quiesup Kim Fossum, E.R.
    Solid-State Circuits, IEEE Journal of , Vol. 32
    Issue 2 , Feb. 1997 Page(s) 187 -197
  • Performance analysis of a color CMOS photogate
    image sensor Blanksby, A.J. Loinaz, M.J.
    Electron Devices, IEEE Transactions on , Volume
    47 Issue 1 , Jan. 2000 Page(s) 55 -64
  • Two generation of imagers CCD and APS
  • Dynamic range critical as technology
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