Optical
Gas
Imaging
Infrared
Camera
with
320x256/30μm
Cooled
MWIR
Infrared
Detector
Advanced
Gas
Leak
Detection
Technology
As
industrial
gas
production
and
usage
rapidly
expands,
the
risk
of
hazardous
gas
leaks
increases
significantly.
In
the
petrochemical
industry,
gas
leak
detection
scenarios
occur
frequently.
Traditional
detection
device
has
limited
detection
distance
and
low
detection
efficiency,
making
it
difficult
to
achieve
intuitive
and
accurate
identification
of
common
VOCs
gas
leaks
such
as
methane
and
benzene.
Optical
Gas
Imaging
(OGI)
provides
an
effective
solution
for
detecting
fugitive
emissions
in
industrial
facilities.
LFM330Z3
Infrared
Gas
Detection
Core
The
LFM330Z3
infrared
camera
core
is
specifically
engineered
for
detecting
minute
fugitive
emissions
of
industrial
gases.
Featuring
a
customized
320x256/30µm
cooled
infrared
detector,
it
operates
in
the
3.2~3.5µm
spectral
range
for
precise
VOC
leak
detection.
LFM330Z3
infrared
module
for
gas
leak
detection
is
designed
specifically
for
VOCs
gas
leak
detection.
It
can
remotely
and
visually
detect
minor
leaks
of
VOCs
gases
such
as
methane,
benzene,
and
ethanol,
achieving
efficient
gas
operation
monitoring
and
safety
production
warning.
Key
Features
-
High
reliability
for
continuous
operation
-
Clear
visualization
of
minor
leaks
with
gas-enhanced
HSM
algorithm
-
Multi-scenario
application
compatibility
for
portable
handheld
devices
or
24/7
online
monitoring
-
Easy
integration
with
support
for
various
interfaces
and
RAW/YUV
image
output
Technical
Specifications
|
Module
Model
|
LFM330Z3
|
|
Resolution
|
320*256
|
|
Pixel
Size
|
30μm
|
|
Spectral
Response
|
3.2±0.1μm~3.5±0.1μm
|
|
Typical
NETD
|
10mK
(F1.5)
|
|
Frame
Rate
|
30Hz
|
|
Digital
Video
|
Standard:
DVP/LVDS/USB2.0
Optional:
Cameralink/USB3.0/GigE/SDI/MIPI/Single-mode
fiber/Multi-mode
fiber
|
|
Communication
|
Standard:
USB2.0/LV-TTL
Optional:
RS422/CAN/USB3.0/GigE
|
|
Cryocooler
Options
|
RS058I
|
LS713
|
LS734
|
|
Cooling
Time
(23℃)
|
≤8min@12V
|
≤6.5min@12V
|
≤6.5min@24V
|
|
Stable
Power
Consumption
(23℃)
|
≤10W
|
≤11W
|
≤16W
|
|
Size
(mm)
|
142*58.5*80
|
108*116*73
|
130*131*80
|
|
Weight
(g)
|
≤680
|
≤800
|
≤1610
|
|
Working
Temperature
|
-40℃~+71℃
|
|
Focal
Length
|
23mm/55mm/25-75mm
|
Industrial
Applications
The
LFM330Z3
gas
leak
detection
thermal
imaging
camera
visualizes
invisible
VOCs
(volatile
organic
compounds)
and
detects
gas
leakage
including:
Methane,
Ethane,
Propane,
Butane,
Pentane,
Hexane,
Heptane,
Octane,
Ethylene,
Propylene,
Isoprene,
Methanol,
Ethanol,
Butanone,
Benzene,
Toluene,
Xylene,
Ethylbenzene,
and
more.
Manufacturing
Advantages
-
Strong
R&D
Capabilities:
SensorMicro
pioneered
mass
production
of
antimonide-based
Type-II
superlattice
cooled
infrared
detectors
in
China,
with
proven
expertise
in
MWIR,
LWIR,
large-format
arrays,
and
high-operating-temperature
detectors.
-
Leading
Technological
Achievements:
Industry
leader
in
SWaP³
technology,
excelling
in
large-format
arrays,
small
pixel
technology,
high-temperature
operation,
miniaturization,
high
performance,
and
low
power
consumption.
-
Complete
Supply
Chain:
Integrated
technology
from
chip
design
and
cooler
manufacturing
to
vacuum
packaging
ensures
stable
supply,
reliable
quality,
and
significant
cost
advantages.
Frequently
Asked
Questions
What
is
a
cryocooler
used
for?
Cryocoolers
maintain
sensors
at
extremely
low
temperatures
to
enable
thermal
imaging
during
long-term
missions.
Many
high-end
imaging
applications
require
these
ultra-cold
operating
conditions.
What
are
the
main
factors
to
measure
the
quality
of
a
cryocooler?
Long
battery
life
and
reliable
operation
are
primary
quality
indicators.
SensorMicro
cryocoolers
feature
a
wide
operating
temperature
range
and
excellent
reliability,
with
MTTF
(Mean
Time
to
Failures)
reaching
10,000
hours
to
meet
24/7
continuous
operation
requirements.
What
is
MTTF?
MTTF
(Mean
Time
to
Failure)
measures
component
reliability
by
indicating
average
lifespan
before
replacement.
This
metric
directly
reflects
part
quality
and
value
-
longer-lasting
components
provide
greater
operational
value.
