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Optical Gas Imaging MWIR Cooled Camera RS058 For Visualizing Invisible VOCs
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xProduct Details
| Function | Gas Leak Detection | Cryo Cooler | RS058 |
|---|---|---|---|
| Detector Resolution | 320x256 | Pixel Size | 30μm |
| NETD | ≤15mK | Spectral Range | 3.2±0.1~3.5±0.1μm |
| High Light | RS058 MWIR Cooled Camera,Invisible VOCs MWIR Cooled Camera |
||
Product Description
MWIR Cooled Optical Gas Imaging Camera RS058 For Visualizing Invisible VOCs
GAS330 Cooled Infrared Module
320x256 / 30μm MWIR Cooled Optical Gas Imaging Camera for Visualizing Gas Leaks
Product Description
With high performance signal processing circuit and advanced image processing algorithm, GAS330 cooled thermal module for gas leak detection is developed on the basis of HgCdTe mid-wave cooled infrared detector. By using the infrared thermal imaging technology, GAS330 can visualize the VOCs gas (volatile organic compounds) that can't be seen by naked eyes. It is effective to detect VOCs leakage in the production and transportation process of petrochemical enterprises, and has great application value in safety production, environmental protection supervision, cost saving.
Main Features
High Sensitivity Detection
• Highly sensitive infrared detector, NETD≤15mK
• Quite efficient in application of low gas concentration and slow gas flow
• Long distance non-contact detection of VOCs gas includes alkanes, alkenes, alcohols, benzenes, ketones etc.
Superior Performance
• Professional gas detection image processing algorithm
• Various lenses, more FOV & scenes available
Easy Integration
• Cameralink/DVP/USB/ GIG-E image output interface for quick integration into thermal imagers
Product Specifications
| Model | GAS330 |
| IR Detector Performance | |
| Resolution | 320x256 |
| Pixel Pitch | 30μm |
| Cryocooler | RS058 |
| Spectral Range | 3.2μm±0.1μm~3.5μm±0.1μm MW |
| Cooling Time (20°C) | ≤8min |
| NETD (20°C) | ≤15mK |
| Image Processing | |
| Frame Rate | 30Hz |
| Dimming Mode | Linear/Histogram/Mixed |
| Digital Zoom | ×1/×2/×4 |
| Image Direction | Horizontally/Vertically/Diagonally Flip |
| Image Algorithm | NUC/AGC/IDE |
| Electrical Specification | |
| Standard External Interface | J30JZ 25pin |
| Analog Video | PAL |
| Digital Video | 16bit RAW/YUV: 16bit DVP/Cameralink Output |
| External Sync | Frame External Sync: RS422 Level |
| Communication | RS422, 115200bps |
| Power Supply | 20~28VDC |
| Stable Power Consumption | 12W |
| Dimension (mm) | 155×67×80 |
| Weight | ≤900g |
| Operation Temperature | -40°C ~ +60°C |
| Vibration Magnitude | Vibration: GJB Vehicle-mounted High Speed Transport Shock: Half-sine Wave, 40g 11 ms, 3 Axis 6 Direction 3 Times Each |
| Optical Lens | |
| Optional Lens | Fixed Zoom: 23mm/F1.5; 55mm/F1.5 |
Industrial Applications
The GAS330 gas leak detection thermal imaging camera is used for visiualizing the invisible VOCs (volatile organic compounds) and detecting gas leakage such as: Methane, Ethane, Propane, Butane, Pentane, Hexane, Heptane, Octane, Ethylene, Propylene, Isoprene, Methanol, Ethanol, Butanone, Benzene, Toluene, Xylene, Ethylbenzene etc.
Exhibitions
FAQs
1. Advantages of Optical Gas Imaging
Time-saving & Efficient: support large-scale real-time detection, rapid leak location, no need for interrupting production.
Long Range Detection: away from dangerous and complex areas, non-contact non-destructive testing, without additional radiation source
Easy to Analyze: intuitive imaging, instant storage, convenient analysis
Multi-function Inspection: a variety of gases can be detected, with excellent remote temperature measurement function
2. Working Principle of Optical Gas Imaging
Optical gas imaging is a kind of infrared technology that could see invisible industrial gases.
After absorbing infrared radiation at specific wavelengths, infrared radiation difference will cause between the gas and the background.
The gas leak detection infrared detector with built-in narrowband filter only receives the infrared band near the gas infrared absorption peak, and can convert the gas into visible infrared images through the radiation difference between the gas and the background.
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