MWIR Cooled FPA Infrared Detector 320x256 30μm for Optical Gas Imaging
In carbon capture, power equipment operation, and industrial production processes, CO₂ leakage poses significant risks including failure to meet carbon reduction targets and potential equipment failures. Traditional detection methods often prove inadequate due to their invisibility, safety concerns, and susceptibility to omissions.
The LFD330Z6 infrared detector for gas leak detection provides high-precision, sensitive monitoring capabilities. This specialized equipment targets extremely low concentration CO₂ leakage scenarios, enabling non-contact, long-distance visual leak localization that overcomes traditional detection limitations. Additionally, CO₂ serves as a tracer gas for indirect hydrogen gas detection, further expanding the equipment's application scope.
Main Features
- Clear leak detection with high effective pixel rate and gas-enhanced HSM algorithm
- High sensitivity for precise monitoring
- Exceptional reliability in demanding environments
- Easy integration with support for various interfaces and RAW/YUV image output
Product Specifications
| Detector model |
LFD330Z6 |
| Resolution |
320*256 |
| Pixel size |
30μm |
| Spectral response |
4.2±0.1μm~4.4±0.1μm |
| Typical NETD |
10mK (F1.5) |
| 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 |
*MTTF: Mean Time To Failure
Industrial Applications
The LFD330Z6 gas leak detection thermal imaging detector provides reliable visualization of invisible CO₂ plumes even in harsh industrial environments. Key applications include Carbon Capture, Utilization and Storage (CCUS), Enhanced Oil Recovery (EOR), Power Generation Industry, Food & Beverage Industry, Semiconductor & Electronics Manufacturing, Greenhouse Agriculture, and Waste Treatment & Biogas Plants.
Principles of Optical Gas Imaging Technology
As human society and industrial development accelerate, significant quantities of toxic and hazardous gases may leak during production, transportation, and usage, potentially causing fires, explosions, and environmental pollution while posing serious threats to personnel and property safety.
Optical Gas Imaging (OGI) technology leverages the absorption characteristics of gases toward infrared radiation in specific wavelength bands. By detecting infrared radiation differences between gases and their background environment, this technology achieves visual imaging of leaked gases. OGI enables rapid leak detection without work stoppage, precise leak source localization, early hazard identification, and accident prevention.
Frequently Asked Questions
What is an infrared detector / thermal imaging sensor?
Infrared waves are invisible to the human eye. Infrared detectors and thermal imaging sensors are optoelectronic devices that react to infrared radiation and thermal energy, converting it into electrical signals that output visible thermal images.
What is WLP?
WLP refers to wafer level packaging, a process that completes high vacuum packaging directly on the entire MEMS wafer before scribing and cutting to produce individual infrared sensors. Together with metal and ceramic packaging, these represent the three main packaging formats for uncooled infrared detectors.
What are the advantages of WLP?
WLP infrared detectors are specifically designed to meet miniaturization and cost requirements for infrared technology applications in consumer electronics markets. SensorMicro, with volume fabrication capabilities, offers various WLP infrared module solutions to drive new applications in emerging markets.
