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Transcript
CMOS Active Pixel Sensors: An
Introduction
Zeynep Dilli, Neil Goldsman,
Martin Peckerar, Nibir Dhar
Active Pixel Sensors
(adapted from El Gamal et al. and Yadid-Pecht et. al.)
Active Pixel Sensor Circuit
• Simple version: 3
transistors (pixel
reset, source follower,
access),
one
photodiode
• Not shown: Row
read circuitry, a
timed buffer
connected to v_out
and activated a set
time after pixel
access
Active Pixel Sensor Circuit
• Operation:
– Reset transistor
gate pulsed,
photodiode
junction cap.
charged up, source
follower output
follows
– Photocurrent starts
discharging, SF
output follows
– Access transistor
gate pulsed, output
cap.charged up
– Bias current
discharges output
voltage linearly
until the set read
time for v_out
•
Operation:
– Reset gate pulsed, photodiode
charged up, SF output follows
– i_pf discharges diode cap., SF
output follows
– Access gate pulsed, output
cap. charged up
– i_bias discharges output until
the set read time for v_out
Active Pixel Sensor Circuit
• Design Features:
– Small circuit, just
three transistors per
pixel: Large fill factor
possible
– Photodiode operation
isolated from readout
circuit
– Flexibility in design
with respect to timing
design vs. power
consumption vs.
readout speed vs.
resolution
– Converts current
information from
photodiode to voltage
information, e.g. to be
read by an A/D
Active Pixel Sensor Circuit
• Design issues:
– Transistor sizes
should be as small as
possible for the
maximum
photodiode/pixel
ratio (“fill factor”)
– Transistor sizes
should be chosen
carefully for enough
current, SF gain, and
isolation of SF output
from the pixel output
– Higher bias current:
readout needs to be
a smaller time after
access is pulsed;
timing gets tighter,
reset period can be
set smaller
– Larger reset period:
Better resolution,
tighter readout
timing required
Active Pixel Sensor Circuit
• Can model photodiode with junction cap. and
ideal current source in parallel