-
Thermal Camera Core
-
Thermal Security Camera
-
Drone Thermal Camera
-
EO IR Systems
-
Thermal Imaging Binoculars
-
Infrared Thermal Camera Module
-
High Resolution Thermal Camera Module
-
Cooled Infrared Detectors
-
Optical Gas Imaging
-
Thermal Camera For Fever Detection
-
Cooled Camera Modules
-
Vehicle Mounted Thermal Camera
-
Integrated Dewar Cooler Assembly
-
Uncooled Infrared Detectors
OEM Small Size Uncooled LWIR Thermal Imaging Core 256x192 12μM
Contact me for free samples and coupons.
Whatsapp:0086 18588475571
Wechat: 0086 18588475571
Skype: sales10@aixton.com
If you have any concern, we provide 24-hour online help.
xResolution | 256x192 | Pixel Pitch | 12μm |
---|---|---|---|
Spectral Range | 8~14μm | Temperature Range | -20℃~+120℃ (Customizable) |
NETD | ≤45mK | Size | 15x13x6.83mm |
High Light | Thermal Imaging Core 256x192,Small Thermal Imaging Core 12uM,OEM Infrared Thermal Camera Module |
Light Weight LWIR Uncooled Thermal Imaging Core with 256x192 Resolution, 12μm Pixel Size
TIMO256 uncooled IR imaging module, also known as the uncooled thermal module, is one of the TIMO infrared camera module family developed by Global Sensor Technology (GST). It includes an exceptionally small size 256x192 / 12μm wafer level package (WLP) infrared detector that covers long wavelength from 8 to 14 microns.
Thanks to the WLP technology, the TIMO256 thermal IR camera module achieves super micro structure, ultra low cost expenditure while offers greater sensitivity and superior image quality at an affordable price, enabling the customer to choose the most suitable type according to their own requirements.
Due to its fully optimized structure, TIMO256 thermal camera core is popular and widely used in infrared thermal imaging applications such as Thermography, Epidemic Prevention, Smart Hardware, AIoT etc.
- Detector: WLP uncooled microbolometer
- Resolution: 256x192 / 12 μm
- Miniature Size: 15x13x6.83mm
- NETD: ≤45mK
Model | TIMO-256 |
IR Detector Performance | |
Resolution | 256x192 |
Pixel Pitch | 12μm |
Spectral Range | 8~14μm |
NETD | ≤45mK |
Lens Type | WLO |
Focus Mode | Fixed Zoom |
HFOV | 53°±1° |
Depth of Field | 10cm to Infinity |
Frame Rate | 1~30Hz (Customizable) |
Temperature Measurement | |
Temperature Range | -20°C ~ +120°C (Customizable) |
Temperature Accuracy | Customizable (Meet the Requirements of Body or Industrial Thermography) |
Interface/Control | |
AVDD | 3.6V±0.05V |
VSK/VDET | 5.0±0.05V |
DVDD | 1.8V±0.05V |
Interface | Digital Interface |
Power Consumption | 70mW |
Physical Characteristics | |
Dimension (mm) | 15x13x6.83 (The Specifications Shall Prevail) |
Operation Temperature | -20°C ~ +60°C |
Storage Temperature | -40°C ~ +85°C |
The TIMO256 thermal camera core is widely used in many areas, such as Thermography, Intelligent Hardware, Smart Building, Smart Home, AIoT etc.
1. Difference between Thermal Image & Visual Image about Lens
The main difference of the lens is that thermal imaging lens must be made of special materials. The main reason is that infrared heat radiation cannot pass through glass (silicon), so special lenses made of special germanium, chromium and other metal materials are used. This also causes the price of thermal imaging lens to be a bit higher than that of the optical lens, which also increases the price of the whole device.
2. Difference between Thermal Image & Visual Image about Imaging Principle
Their imaging principles are basically the same. Imaging devices image light waves within a certain wavelength range. In nature, the wavelength range of visible light is from 0.39μm to 0.78μm, while the wavelength range of infrared thermal radiation is from 0.75μm to 1000μm. As long as target temperature is higher than absolute zero -273 ℃, there will be infrared radiation.