Tiny1-B is a long-wave infrared (8~14μm, LWIR) thermal imaging micromodule capable of converting the thermal radiation of an object into thermal image and temperature data. With compact size, it is applicable to various fields such as security monitoring, temperature measurement tools, personal digital assistants (PDAs), and smart household appliances.
Resolution: 256×192/160×120
Pixel size: 12μm
Lens: 2.0mm, 3.2mm, 4.3mm
Focus on consumer-grade thermal imaging market.
Adopt 12μm WLP VOx uncooled infrared detector is used as the core, providing two available resolutions: 256×192 and 160×120.
25Hz high frame rate.
By combining the excellent optical design of lens with the high-resolution detector, it can provide excellent images.
With built-in shutter, it has a mini size of 13mm×28mm×10mm and is easy to integrate.
Support full-array temperature data output.
Overview | |
Detector Type | Uncooled VOx infrared detector |
Spectral Band | 8~14 μm |
Resolution | 256×192/160×120 |
Pixel Size | 12μm |
NETD | <50mK @25°C, F#1.0, 25Hz |
Thermal Time Constant | <10ms |
Detector Frame Rate | ≤ 25Hz |
Non-uniformity correction | Automatic shutter correction |
Image Output | 14-bit digital output |
Focusing Mode | Athermalized prime lens |
Temperature Measurement | |
Measurement Range | Industrial temperature measurement: -15°C~+150°C (high gain) 0°C~+550°C (low gain) |
Measurement Accuracy | Industrial temperature measurement: ±2°C or 2% of reading |
Measurement Distance | Industrial temperature measurement: ≤5m (3.2mm lens) |
Electricity | |
Input Voltage | 1.8V, 3.3V, 5V |
Image Data Interface | UVC (USB Video Class) |
Control Interface | USB |
Power Consumption | Normal operation: 680mW (typical value) |
Shutter correction: 1.3W (typical value) | |
Mechanical Characteristics | |
Dimensions (W×L×H) | 13mm×28mm×10mm |
Weight | <3g |
Environment | |
Operating Temperature | Imaging: -40°C~+80°C |
Industrial temperature measurement: -10°C~+75°C | |
Storage Temperature | -45°C ~ +85°C |
Impact | 25g, 11ms, half sine wave, 3 axial directions |
12/01/2022
11/22/2022