High Sensitive MWIR Optical Gas Imaging Cooled 320x256/30μm Infrared Detector
Product Overview
The LFD330Z5 infrared detector is specifically engineered for high-temperature observation applications in flame environments. It converts infrared radiation from targets with 3.8~4.1μm wavelength into electrical signals, featuring commonly used mechanical, optical, and electronic interfaces for easy expansion.
This detector excels in flame penetration capabilities, enabling accurate imaging and monitoring of high-temperature surfaces such as furnaces and furnace walls in petrochemical plants and refineries, significantly improving inspection efficiency while reducing operational risks.
Main Features
- Optical Gas Imaging: Long-range non-contact detection with high efficiency, security, and wide detection range
- High Sensitivity: Cooled infrared detector with exceptional temperature measurement efficiency
- High Reliability & Easy Integration: Supports various interfaces and RAW/YUV image output
- Wide Application Scenarios: Suitable for handheld, mobile, or fixed platform integration
Technical Specifications
| Detector model |
LFD330Z5 |
| Resolution |
320*256 |
| Pixel size |
30μm |
| Spectral response |
3.8±0.1μm~4.1±0.1μm |
| Typical NETD |
20mK (F3) |
| Cooling time (23 ℃) |
≤7min@12V |
| Power consumption (23 ℃) |
≤15W@12V (Peak) ≤7W@12V (Stable) |
| Size (mm) |
142*58.5*71 |
| Weight (g) |
≤600 |
| Working temperature |
-45℃~+71℃ |
| Storage temperature |
-55℃~+71℃ |
| MTTF |
≥10000h |
Industrial Applications
The LFD330Z5 cooled MWIR thermal imaging detector is designed for customers with strong development capabilities operating in industrial environments such as metallurgy and petrochemicals. It enables rapid detection of high-temperature target surfaces including furnace chambers and walls in high-temperature combustion environments with strong flame interference.
Technological Advantages
Non-contact & Remote Detection
Conduct non-contact non-destructive testing from safe distances in dangerous and complex areas, ensuring personnel safety
Quick Leakage Source Location
Support wide area real-time detection to quickly locate leakage sources without interrupting production
Visualize Gas Leakage
Intuitively display leakage locations with high efficiency, eliminating the need for point-by-point inspection
Enhanced Inspection Safety
Safer detection reduces accident risks and minimizes operational losses
Frequently Asked Questions
What is infrared thermography?
Thermography is an effective non-invasive diagnostic technology based on object surface temperature detection. The infrared radiation emitted from an object is recorded and visualized as a temperature distribution map.
What can infrared thermography be used for?
Infrared thermal imaging can be used for home inspections, structural defect identification, electrical and mechanical fault detection, physiological changes in people & animals, and numerous other applications.
What are the advantages of infrared thermography?
For non-destructive testing: simple operation, quick response without damage, resulting in cost savings, increased work efficiency, and reduced manpower and equipment depreciation. For medical thermography: efficient detection of hidden health issues, 100% safe without radiation, making it an ideal tool for early health screening.