55mm Lens Optical Gas Imaging Thermal Camera Core Module for Temperature Measurement through Flames
Product Description
In industrial sites such as metallurgy and petrochemicals, equipment such as furnaces, furnace walls, and heating furnaces are in high-temperature combustion environments with strong flame interference. Traditional detection methods are difficult to achieve effective observation of the internal structure or surface state of the equipment.
LFM330Z5 thermal camera core is designed specifically for high-temperature observation applications in flame environments. It has excellent flame penetration capabilities and can accurately image and monitor high-temperature target surfaces such as furnaces and furnace walls, significantly improving inspection efficiency and effectively reducing operational risks.
Main Features
1. Clear gas imaging
High sensitivity optical configuration
2. High reliability
3. Easy integration
Support various interfaces and RAW/YUV image output
4. Wide application scenarios
Integrated applications suitable for handheld, mobile, or fixed platforms
Product Specifications
| Module model |
LFM330Z5 |
| Resolution |
320×256 |
| Pixel size |
30μm |
| Spectral response |
3.8±0.1μm~4.1±0.1μ |
| Typical NETD |
20mK (F3) |
| Frame rate |
30Hz/60Hz |
| 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 |
| Cooling time (23 ℃) |
≤8min@12V |
| Stable power consumption (23 ℃) |
≤10W |
| Size (mm) |
142×58.5×80 |
| Weight (g) |
≤680 |
| Working temperature |
-40℃~+71℃ |
| Focal length |
23mm/55mm |
Industrial Applications
The LFM330Z5 cooled thermal imaging camera core is used for measurement through flames in various industrial processes:
Metallurgical operations including steelmaking, aluminum smelting, and copper refining involving high-temperature furnaces, converters, and ladles with intense flames and smoke
Petrochemical plants operating large-scale fired heaters, reformers, crackers, and incinerators with open flames and heavy smoke
Coal-fired, gas-fired, and biomass power plants relying on boilers with intense flame combustion
Core Technology
Strong R&D capabilities
SensorMicro is one of China's earliest company researching antimonide-based Type-II superlattice (T2SL) cooled infrared detectors. It pioneered the mass production and engineering application of such detectors domestically, with proven capabilities in R&D and manufacturing of high-end advanced devices, including MWIR, LWIR, large-format arrays, and high-operating-temperature (HOT) detectors.
Leading technological achievements
SensorMicro leads the development trend of SWaP³ technology in the industry, and is far ahead of similar products in the fields of large-format array, small pixel, high-temperature operation, miniaturization, high performance, and low power consumption.
Complete supply chain
From cutting-edge chip design, precise cooler manufacturing, to high vacuum packaging processes, we have achieved stable supply chain, reliable quality, and significant cost advantages with integrated technology.
FAQs
1. What are the applications of optical gas imaging infrared camera core?
Real-time temperature profiling of molten metal: Penetrating furnace flames to measure the temperature distribution of steel ladles, blast furnace tuyeres, or aluminum smelting pots, preventing overheating or uneven heating that causes product defects.
Furnace internal condition monitoring: Visualizing the integrity of furnace linings (refractory bricks) through flames—detecting cracks, erosion, or hot spots early to avoid furnace breakdowns and production downtime.
Continuous casting process control: Measuring the temperature of the strand surface and mold interface through the protective flame shroud, optimizing cooling water flow to ensure uniform solidification.
Fired heater tube wall temperature monitoring: Penetrating the flame envelope to measure the temperature of heat exchanger tubes—overheating of tubes leads to coking, corrosion, or rupture, which the camera detects to prevent leaks of flammable/explosive media.
Catalytic cracking unit (CCU) monitoring: Visualizing the temperature distribution of the regenerator bed through combustion flames, ensuring optimal catalyst regeneration efficiency and avoiding catalyst deactivation due to temperature fluctuations.
Waste incinerator emission and combustion control: Measuring the temperature of the incineration chamber through flames to optimize air-fuel ratio, ensuring complete combustion of hazardous waste and compliance with emission standards (e.g., reducing NOₓ and dioxin emissions).
Product Tags:
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55mm Lens Optical Gas Imaging Module For VOCs Gas Leak Detection Images
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