320×256/30μm
Optical
Gas
Imaging
Infrared
Detector
MWIR
Cooled
for
Visualization
of
Invisible
CO₂
In
carbon
capture,
power
equipment
operation,
and
industrial
production
processes,
CO₂
leakage
not
only
leads
to
the
failure
of
carbon
reduction
targets,
but
long-term
accumulation
may
also
cause
equipment
failures.
Traditional
detection
methods
are
invisible,
unsafe,
and
prone
to
omission,
making
it
difficult
to
achieve
accurate
detection.
The
LFD330Z6
infrared
detector
for
gas
leak
detection
provides
high-precision
and
sensitive
detection.
It
professionally
targets
extremely
low
concentration
CO₂
leakage
scenarios,
achieving
non-contact,
long-distance,
and
visual
leakage
positioning
to
overcome
the
shortcomings
of
traditional
detection
methods.
CO₂
can
also
be
used
as
a
tracer
gas
for
indirect
detection
of
hydrogen
gas,
further
expanding
the
equipment's
application
scenarios.
Main
Features
-
Clear
detection
of
leaks
with
high
effective
pixel
rate
-
Equipped
with
gas
enhanced
HSM
algorithm
(for
module)
-
High
sensitivity
for
precise
gas
detection
-
High
reliability
in
demanding
environments
-
Easy
integration
with
support
for
various
interfaces
-
RAW/YUV
image
output
compatibility
Product
Specifications
|
Detector
model
|
LFD330Z6
|
|
Resolution
|
320×256
|
|
Pixel
size
|
30μm
|
|
Spectral
response
|
4.2±0.1μm~4.4±0.1μm
|
|
Typical
NETD
|
10mK
(F1.5)
|
|
Cooling
time
(23℃)
|
≤7min@12V
|
|
Power
consumption
(23℃)
|
≤15W@12V
(Peak)
≤7W@12V
(Stable)
|
|
Size
(mm)
|
142×58.5×71
|
|
Weight
(g)
|
≤600
|
|
Working
temperature
|
-45℃~+71℃
|
|
Storage
temperature
|
-55℃~+71℃
|
|
MTTF
|
≥10000h
|
Industrial
Applications
The
LFD330Z6
gas
leak
detection
thermal
imaging
detector
provides
reliable
visualization
of
invisible
CO₂
plumes
even
in
harsh
environments.
Applications
include:
Carbon
Capture,
Utilization
and
Storage
(CCUS),
Enhanced
Oil
Recovery
(EOR),
Power
Generation
Industry,
Food
&
Beverage
Industry,
Semiconductor
&
Electronics
Manufacturing,
Greenhouse
Agriculture,
and
Waste
Treatment
&
Biogas
Plants.
Core
Technology
Strong
R&D
Capabilities
SensorMicro
is
one
of
China's
earliest
companies
researching
antimonide-based
Type-II
superlattice
(T2SL)
cooled
infrared
detectors.
It
pioneered
the
mass
production
and
engineering
application
of
such
detectors
domestically,
with
proven
capabilities
in
R&D
and
manufacturing
of
high-end
advanced
devices,
including
MWIR,
LWIR,
large-format
arrays,
and
high-operating-temperature
(HOT)
detectors.
Leading
Technological
Achievements
SensorMicro
leads
the
development
trend
of
SWaP³
technology
in
the
industry,
and
is
far
ahead
of
similar
products
in
the
fields
of
large-format
array,
small
pixel,
high-temperature
operation,
miniaturization,
high
performance,
and
low
power
consumption.
Complete
Supply
Chain
From
cutting-edge
chip
design,
precise
cooler
manufacturing,
to
high
vacuum
packaging
processes,
we
have
achieved
stable
supply
chain,
reliable
quality,
and
significant
cost
advantages
with
integrated
technology.
Frequently
Asked
Questions
What
is
Pseudo
Color?
Pseudo
color,
also
called
false
color,
transforms
the
thermal
distribution
of
objects
into
visual
pictures
through
the
infrared
thermal
imaging
system,
displayed
on
the
monitor
in
grey
level
or
pseudo
color.
This
enables
obtaining
the
temperature
distribution
of
objects.
To
make
thermal
analysis
easier
visually,
false
colors
representing
temperature
differences
are
used.
How
many
pseudo
color
options
does
SensoMicro's
thermal
imaging
module
offer?
The
thermal
imaging
module
offers
multiple
pseudo
color
palettes
including:
White
Hot,
Lava,
Ironbow,
Hot
Iron,
Medical,
Arctic,
Rainbow1,
Rainbow2,
and
Red
Hot.
