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chargecoupled

Charge-coupled devices (CCDs) are solid-state image sensors that convert light into electrical charge and move that charge across the chip by sequential clocking of electrodes. The term is sometimes written as charge-coupled device or as charge-coupled; the core idea is the coupling of charge packets between neighboring sites rather than direct readout at each pixel.

Operation centers on the collection and transfer of charge. Light exposure generates photoelectrons in each pixel’s

Architectures and variants include full-frame transfer, frame transfer, and interline CCDs. Back-illuminated CCDs improve quantum efficiency

Applications and status: CCDs were dominant in astronomy, scientific imaging, and professional photography from the 1980s

photodiode,
forming
a
charge
packet
stored
in
a
local
potential
well.
Clocking
the
gates
shifts
the
packet
toward
a
serial
readout
node,
where
a
sense
amplifier
converts
the
charge
to
a
voltage
for
digitization.
Because
the
charge
is
moved
across
the
chip
rather
than
read
out
per
pixel,
CCDs
can
achieve
very
low
readout
noise
and
high
image
uniformity.
by
exposing
the
photodiodes
from
the
backside.
Some
devices
use
multiple
parallel
transfer
registers
to
increase
readout
speed.
The
choice
of
architecture
affects
factors
such
as
frame
rate,
fill
factor,
and
susceptibility
to
smearing.
onward.
In
consumer
electronics,
CMOS
sensors
have
largely
supplanted
CCDs
due
to
lower
power,
greater
integration,
and
cost,
but
CCDs
remain
preferred
in
applications
requiring
extremely
low
noise,
high
dynamic
range,
and
uniformity,
such
as
astronomical
imaging
and
certain
research
instruments.