320×256/30μm MWIR Cooled Infrared FPA Detector for Temperature Measurement in Petrochemical Plants
Price:
Negotiable
MOQ:
1 Piece
Delivery Time:
Negotiable
Brand:
SensorMicro
Product Description
320*256/30μm MWIR Cooled Infrared FPA Detector for Temperature Measurement in Petrochemical Plants
In industrial environments such as metallurgy and petrochemical plants, equipment including furnaces, furnace walls, and heating furnaces operate in high-temperature combustion conditions with significant flame interference. Traditional detection methods struggle to provide effective observation of internal structures or surface conditions.
The LFD330Z5 infrared detector is specifically engineered for high-temperature observation applications in flame environments. It converts infrared radiation from targets within the 3.8~4.1μm wavelength range into electrical signals. Featuring standard mechanical, optical, and electronic interfaces, the LFD330Z5 offers excellent expandability and is widely applicable for temperature monitoring in petrochemical plants and refineries. With superior flame penetration capabilities, it delivers accurate imaging and monitoring of high-temperature surfaces such as furnaces and furnace walls, significantly enhancing inspection efficiency while reducing operational risks.
Main Features
Optical Gas Imaging
- Long-range non-contact detection
- High efficiency, security, and extensive detection range
High Sensitivity
- High-sensitivity cooled infrared detector with exceptional temperature measurement efficiency
High Reliability & Easy Integration
- Supports various interfaces and RAW/YUV image output formats
Wide Application Scenarios
- Integrated applications suitable for handheld, mobile, or fixed platforms
Product 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. In industrial settings such as metallurgy and petrochemical plants, where equipment operates in high-temperature combustion environments with strong flame interference, this cooled thermal sensor enables rapid detection of high-temperature surfaces including furnace chambers and walls. This integration significantly improves inspection efficiency while reducing operational risks.
Technological Advantages of Optical Gas Imaging
- Non-contact & remote detection: Conduct inspections from safe distances in hazardous and complex areas, ensuring personnel safety through non-contact non-destructive testing
- Quickly locate the leakage source: Supports wide-area real-time detection to rapidly identify leakage sources without interrupting production
- Visualize gas leakage: Intuitively displays leakage locations with high efficiency, eliminating the need for point-by-point inspection
- Improve inspection safety: Safer detection methods help reduce accident risks and minimize operational losses
Frequently Asked Questions
What is infrared thermal imaging?
In nature, all objects with temperatures above absolute zero (-273℃) emit infrared radiation. By using an infrared camera detector to measure the infrared radiation temperature difference between targets and their background, different infrared images (thermal images) can be obtained.
How do infrared detectors work?
Infrared radiation emitted by targets enters the thermal detector's sensing range. The infrared detector then converts radiation signals of varying intensity into corresponding electrical signals, which are amplified and processed to form infrared images visible to the naked eye.
What are the advantages of cooled infrared detectors?
Cooled infrared focal plane detectors operate at low temperatures provided by detector dewar coolers (DDC). They offer high sensitivity, enabling detection of more subtle temperature differences than uncooled detectors. Capable of detecting, identifying, and recognizing objects at distances exceeding ten kilometers, cooled detectors feature complex structures that result in relatively higher costs compared to uncooled alternatives.
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Company
Wuhan SensorMicro Technology Co., Ltd
Location
No. 9 Qiming 1st Road, East Lake High-tech Development Zone, Wuhan 430205, P.R.China
Contact Person
Wendy Wang