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| Price | Negotiable |
| MOQ | 1 Piece |
| Delivery Time | Negotiable |
| Brand | SensorMicro |
| Place of Origin | Wuhan, Hubei Province, China |
| Certification | ISO9001:2015; RoHS; Reach |
| Model Number | iHA417 |
| Payment Terms | L/C,T/T |
| Brand Name | SensorMicro | Payment Terms | L/C,T/T |
| Place of Origin | Wuhan, Hubei Province, China | NETD | <50mK |
| Spectral Range | 8~14μm | Price | Negotiable |
| Size | 44.5x42.5x58.9mm | Minimum Order Quantity | 1 Piece |
| Model Number | iHA417 | Certification | ISO9001:2015; RoHS; Reach |
| Resolution | 400x300/17μm |
400x300 / 17μm Uncooled VOx LWIR Fever Screening Thermal Camera for Medical Diagnosis
iHA417 fever screening thermal camera is a hot sale product in the fight against COVID-19. It enables a wide range of applications for the rapid non contact measurement and safe preliminary fever screening. It consists of 400×300 / 17μm infrared detector, 7mm infrared optical lens and a specialized SDK for human body temperature measurement.
Now, iHA417 thermal camera has already been implemented as a means of detecting people with fever-like symptoms in high-traffic areas such as hospital entrances, shopping centres and office buildings, and potentially mass-attendance sporting events when they resume.
-
NETD<30mk,
High
Sensitivity
-
Easy
to
Integrate
-
Non-contact
Design
-
Field
of
View:
37.2°×28.3°
-
Temperature
Difference:
±0.5℃
-
Temperature
Measurement
Distance:
Optimal
5
Meters
| Model | iHA417 |
| IR Detector Performance | |
| Resolution | 400x300 |
| Pixel Pitch | 17μm |
| Spectral Range | 8~14μm |
| NETD | <30mK |
| Image Processing | |
| Frame Rate | 25Hz |
| Start-up Time | <10s |
| Extension Component | USB Video |
| Dimming Mode | Linear/Histogram/Mixed |
| Image Display | Black Hot/White Hot/Pseudo Color |
| Image Direction | Horizontally/Vertically/Diagonally Flip |
| Image Algorithm | NUC/AGC/IDE/DNR |
| Electrical Specification | |
| Standard External Interface | TYPE-C |
| Communication Mode | USB |
| Supply Voltage | 5±0.5V |
| Typical Power Consumption | <1.5W |
| Temperature Measurement | |
| Operating Temperature Range | 16°C ~ 32°C |
| Temperature Range | 20°C ~ 50°C |
| Temperature Accuracy | ≤±0.5°C (No Wind Indoors, 32°C~42°C Target) |
| SDK | ARM/Windows SDK, Full Screen Thermography |
| Physical Characteristics | |
| Dimension (mm) | 44.5x42.5x58.9 (PLUG417S+7mm Lens) |
| Weight | PLUG417S+7mm Lens≤135g |
| Environmental Adaptation | |
| Operation Temperature | -10°C ~ +50°C |
| Storage Temperature | -45°C ~ +85°C |
| Humidity | 5%~95%, Non-condensing |
| Vibration | Random Vibration 5.35grms, 3 Axis |
| Shock | Half-sine Wave, 40g/11ms, 3 Axis 6 Direction |
| Optics | |
| Optional Lens | Fixed Focus Athermal: 7mm |
| Certification | |
| Certification Standards | ROHS/REACH |
The iHA417 thermal camera is widely used in human body temperature measurement and elevated body temperature screening.
SensorMicro is the world leading infrared detector manufacturer and service provider. It is willing to provide customers all over the world with high performance uncooled and cooled thermal imaging detectors and share its professional application experience.
SensorMicro
delivers
advanced
infrared
detectors,
camera
cores,
and
modules
with
versatile
formats
and
wavebands.
Designed
for
clarity,
sensitivity,
and
efficiency,
our
products
integrate
seamlessly
into
diverse
systems—empowering
next-generation
imaging
and
sensing
applications
across
industries.
SensorMicro
detectors
have
been
widely
used
in
thermography,
security
&
surveillance,
personal
vision,
automotive
and
consumer
infrared
products.
The
volume
production
capability
of
SensorMicro
enables
it
to
meet
the
growing
demand
from
all
existing
and
emerging
markets.
1. What is infrared thermal imaging?
In nature, all objects whose temperature is higher than absolute zero (- 273 ℃) can radiate infrared rays. By using the infrared camera detector to measure the infrared radiation temperature difference between the target itself and the background, you can get different infrared images, which are also called thermal images.
2. How do infrared detectors work?
Infrared radiation that emitted by target enters the sensing range of the thermal detector, then the infrared detector converts the radiation signal of different intensity into the corresponding electrical signal, and then through amplification and video processing, forms the infrared image that can be observed by the naked eyes.
3. What are the advantages of cooled infrared detectors?
The cooled infrared focal plane detector operates at a low temperature which is provided by a detector dewar cooler (ddc). It has high sensitivity and can distinguish more subtle temperature difference than uncooled infrared detector. It can detect, identify and recognize objects at a very long range which is more than ten kilometers away. The structure of cooled detector is very complex which results in a relatively high cost than uncooled detector.
