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CCDsensor

CCDSensor, short for charge-coupled device sensor, is an image sensor technology that converts light into electronic signals using the charge-coupled device architecture. In a CCD sensor, photons generate photoelectrons in photosites (pixels) on a silicon substrate. The accumulated charge is stored in potential wells and is then transferred, or clocked, across the chip to a readout node where it is converted to a voltage and digitized for image formation.

The readout process is centralized rather than parallel at each pixel. Charges are shifted through a series

Common performance characteristics include high dynamic range, excellent uniformity, and strong linearity, along with good spectral

Historically, CCDs were widely adopted in professional and scientific imaging since the 1970s. While CMOS sensors

of
capacitive
stages
or
registers
to
a
single
or
a
few
output
amplifiers.
This
transfer
happens
in
a
controlled
sequence,
typically
row
by
row,
which
makes
CCDs
known
for
low
readout
noise
and
high
photometric
accuracy.
Variants
include
full-frame
CCDs,
where
the
entire
image
area
is
exposed
before
readout;
interline
transfer
devices,
which
incorporate
masked
or
transparent
columns
to
enable
faster
frame
rates;
and
frame-transfer
devices,
which
allow
rapid
image
capture
by
quickly
moving
the
image
to
a
dedicated
storage
region.
response
in
the
visible
range.
Drawbacks
often
cited
are
higher
power
consumption,
more
complex
manufacturing,
and
slower
readout
speeds
compared
to
modern
CMOS
sensors.
Sensor
designers
also
pursue
enhancements
such
as
back-illumination
to
improve
quantum
efficiency
and
back-side
processing
to
reduce
noise.
have
become
dominant
in
consumer
cameras
due
to
integration
and
speed
advantages,
CCD
sensors
remain
in
use
in
astronomy,
high-end
scientific
instruments,
and
some
specialized
imaging
applications
where
low
noise
and
high
image
quality
are
paramount.