Uncooled 256×192/12μm Thermal Camera Core for Temperature
Measurement
Product Overview
The Mini212G2 infrared module features a temperature measurement
range from -20℃ to +550℃ with accuracy of ±2℃ or ±2%. Equipped with
a wafer-level packaged 256×192/12μm uncooled infrared detector,
this micro infrared camera module offers ultra-compact dimensions
ideal for space-constrained applications.
Engineered to meet the evolving requirements of fast-growing
markets including AIoT, Machine Vision, Industrial Vision, Security
Monitoring, and Night Observation, the Mini212G2 combines
miniaturized design with high-end infrared detection performance.
It serves as a core sensor to overcome traditional imaging
limitations while delivering accurate, reliable performance across
diverse scenarios.
Main Features
- Miniature Module with Direct Thermal Imaging Output
- Self-developed 256×192/12μm wafer-level infrared detector with
significant cost advantages
- Ultra-compact design: 17×17mm PCBA size, weighing only 4g
- Integrated ISP processing board and advanced image algorithms for
clear thermal imaging
- Precise Detection, Flexible Configuration
- High-precision temperature measurement with ±2℃ accuracy
- Supports spot, area, and full-frame measurement modes
- Multiple field-of-view lens options available
- Rich Interfaces for Easy Integration
- Multiple digital video outputs: USB2.0, MIPI, DVP, BT.656, LVDS
- Fully compatible with industry-standard interfaces
Product Specifications
| Model | Mini212G2 |
|---|
| Resolution | 256×192 |
|---|
| Pixel Size | 12μm |
|---|
| Spectral Response | 8~14μm |
|---|
| NETD | ≤50mK |
|---|
| Output Data | 14bit Raw |
|---|
| Frame Rate | Thermography: 25Hz, Imaging: 50Hz |
|---|
| Focus Mode | Focus Free |
|---|
| Lens (HFOV/FL) | 17.5°/10mm | 25°/7mm | 56°/3.2mm | 90°/2.1mm |
|---|
| Weight (g) | 7.1 | 6.4 | 4 | 6.8 |
|---|
| PCBA Size (mm) | 17×17 |
|---|
| Digital Video Interface | USB2.0 / MIPI / DVP / BT.656 / LVDS |
|---|
| Analog Video Interface | CVBS (PAL/NTSC) |
|---|
| Operating Voltage | 3.3V±0.1V |
|---|
| Typical Power Consumption | 330mW |
|---|
| Temperature Measurement Range | -20℃~+550℃ (-20℃~+150℃ | +100℃~550℃) |
|---|
| Temperature Measurement Accuracy | Greater of ±2℃ / ±2% |
|---|
| Operating Temperature | -40℃~+70℃ |
|---|
| Humidity | 5%~85% |
|---|
| Storage Temperature | -45℃~+85℃ |
|---|
| Certification | RoHS 2.0 / Reach |
|---|
Industrial Applications
- AIoT: Integration into compact AIoT devices including smart home
appliances, wearable devices, and intelligent environmental
monitors
- Machine Vision & Industrial Vision: Real-time monitoring of industrial equipment, laser processing,
welding scenarios, and semiconductor detection
- Security Monitoring: Detection of illegal intruders with real-time alarm triggering
capabilities
- Night Observation: Enhanced visibility in low-light conditions
Your Trusted Partner in Infrared Sensing
Deep Technical Expertise: Years of experience in infrared sensor technology research,
development, and application with strong capabilities across chip
design, wafer fabrication, packaging, testing, and system
integration.
Focused on Innovation: Commitment to driving technological breakthroughs in thermal
imaging, pushing boundaries in NETD, SWaP, and operating
temperature parameters.
Diversified Product Portfolio: Comprehensive range of infrared detection components including
both cooled and uncooled solutions for various industries.
Rigorous Reliability Validation: Robust quality management system with multiple testing procedures
to ensure long-term stability and reliability.
Professional Technical Support: Engineering team collaboration with customer R&D teams to
accelerate system integration and shorten time-to-market.
Frequently Asked Questions
What is infrared thermal imaging?
Infrared thermal imaging is a method that uses infrared radiation
and thermal energy to gather information about objects, enabling
image formation and temperature measurement even in low visibility
environments.
How does Infrared Thermal Imaging Work?
Infrared thermal imaging systems use passive non-contact detection
technology. The system focuses infrared radiation from the scene
onto a focal plane array infrared detector through infrared optics.
The thermal detector converts radiation signals of varying
intensity into corresponding electrical signals, which are then
amplified and processed to form visible infrared images.
Uncooled Thermal Imaging Camera Module with 256x192 Resolution and 12μm Pixel Pitch for Easy Integration
