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Optical Gas Imaging Camera with 320x256/30μm Cooled MWIR Infrared Detector for Gas Leak Detection
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xProduct Details
| Spectral Range | 3.2±0.1~3.5±0.1μm | Sensor | IR Sensor |
|---|---|---|---|
| Technology | Infrared | Resolution | 320x256 / 30μm |
| Frame Rate | 30Hz | Typical NETD | 10mK (F1.5) |
| Highlight | 30μm Optical Gas Imaging Camera,320x256 Optical Gas Imaging Camera |
||
Product Description
Optical Gas Imaging Infrared Camera with 320x256/30μm Cooled MWIR Infrared Detector
Advanced Gas Leak Detection Technology
As industrial gas production and usage rapidly expands, the risk of hazardous gas leaks increases significantly. In the petrochemical industry, gas leak detection scenarios occur frequently. Traditional detection device has limited detection distance and low detection efficiency, making it difficult to achieve intuitive and accurate identification of common VOCs gas leaks such as methane and benzene. Optical Gas Imaging (OGI) provides an effective solution for detecting fugitive emissions in industrial facilities.
LFM330Z3 Infrared Gas Detection Core
The LFM330Z3 infrared camera core is specifically engineered for detecting minute fugitive emissions of industrial gases. Featuring a customized 320x256/30µm cooled infrared detector, it operates in the 3.2~3.5µm spectral range for precise VOC leak detection.
LFM330Z3 infrared module for gas leak detection is designed specifically for VOCs gas leak detection. It can remotely and visually detect minor leaks of VOCs gases such as methane, benzene, and ethanol, achieving efficient gas operation monitoring and safety production warning.
Key Features
- High reliability for continuous operation
- Clear visualization of minor leaks with gas-enhanced HSM algorithm
- Multi-scenario application compatibility for portable handheld devices or 24/7 online monitoring
- Easy integration with support for various interfaces and RAW/YUV image output
Technical Specifications
| Module Model | LFM330Z3 |
|---|---|
| Resolution | 320*256 |
| Pixel Size | 30μm |
| Spectral Response | 3.2±0.1μm~3.5±0.1μm |
| Typical NETD | 10mK (F1.5) |
| Frame Rate | 30Hz |
| Digital Video | Standard: DVP/LVDS/USB2.0 Optional: Cameralink/USB3.0/GigE/SDI/MIPI/Single-mode fiber/Multi-mode fiber |
| Communication | Standard: USB2.0/LV-TTL Optional: RS422/CAN/USB3.0/GigE |
| Cryocooler Options | RS058I | LS713 | LS734 |
| Cooling Time (23℃) | ≤8min@12V | ≤6.5min@12V | ≤6.5min@24V |
| Stable Power Consumption (23℃) | ≤10W | ≤11W | ≤16W |
| Size (mm) | 142*58.5*80 | 108*116*73 | 130*131*80 |
| Weight (g) | ≤680 | ≤800 | ≤1610 |
| Working Temperature | -40℃~+71℃ |
| Focal Length | 23mm/55mm/25-75mm |
Industrial Applications
The LFM330Z3 gas leak detection thermal imaging camera visualizes invisible VOCs (volatile organic compounds) and detects gas leakage including: Methane, Ethane, Propane, Butane, Pentane, Hexane, Heptane, Octane, Ethylene, Propylene, Isoprene, Methanol, Ethanol, Butanone, Benzene, Toluene, Xylene, Ethylbenzene, and more.
Manufacturing Advantages
- Strong R&D Capabilities: SensorMicro pioneered mass production of antimonide-based Type-II superlattice cooled infrared detectors in China, with proven expertise in MWIR, LWIR, large-format arrays, and high-operating-temperature detectors.
- Leading Technological Achievements: Industry leader in SWaP³ technology, excelling in large-format arrays, small pixel technology, high-temperature operation, miniaturization, high performance, and low power consumption.
- Complete Supply Chain: Integrated technology from chip design and cooler manufacturing to vacuum packaging ensures stable supply, reliable quality, and significant cost advantages.
Frequently Asked Questions
What is a cryocooler used for?
Cryocoolers maintain sensors at extremely low temperatures to enable thermal imaging during long-term missions. Many high-end imaging applications require these ultra-cold operating conditions.
What are the main factors to measure the quality of a cryocooler?
Long battery life and reliable operation are primary quality indicators. SensorMicro cryocoolers feature a wide operating temperature range and excellent reliability, with MTTF (Mean Time to Failures) reaching 10,000 hours to meet 24/7 continuous operation requirements.
What is MTTF?
MTTF (Mean Time to Failure) measures component reliability by indicating average lifespan before replacement. This metric directly reflects part quality and value - longer-lasting components provide greater operational value.
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