Cooled MWIR Thermal Imaging Detector with 320x256/30μm for VOCs Gas Leak Detection at 10mK NETD

Price	Negotiable
MOQ	1 Piece
Delivery Time	Negotiable
Brand	SensorMicro
Place of Origin	Wuhan, Hubei Province, China
Certification	RoHS; Reach
Model Number	LFD330Z3
Payment Terms	L/C,T/T

Product Details

Product Specification

Place of Origin	Wuhan, Hubei Province, China	NETD	10mK
Spectral Range	3.2±0.1~3.5±0.1μm	Detector Resolution	320x256
Cryo Cooler	RS058I/LS713/LS734	Pixel Size	30μm
Model Number	LFD330Z3	Certification	RoHS; Reach
Brand Name	SensorMicro	Payment Terms	L/C,T/T
Function	Gas Leak Detection	Price	Negotiable
Minimum Order Quantity	1 Piece

Product Description

VOCs Optical Gas Imaging Cooled MWIR Thermal Imaging Detector 320x256/30μm

Advanced Gas Leak Detection Technology

The LFD330Z3 cooled infrared detector is specifically engineered for VOCs gas leak detection, converting infrared radiation in the 3.2~3.5μm wavelength range into electrical signals for precise gas visualization.

Key Product Features

Optical Gas Imaging: Long-range non-contact detection with efficient, secure wide-area gas leak monitoring
High Sensitivity: Cooled infrared detector technology effective for low concentration and slow gas flow applications
Versatile Design: Multiple cryocooler options available for lightweight, low-power, long-life operation

Technical Specifications

Detector model	LFD330Z3
Resolution	320×256
Pixel size	30μm
Spectral response	3.2±0.1μm～3.5±0.1μm
Typical NETD	10mK (F1.5)
Cryocooler	RS058I	LS713	LS734
Cooling time (23 ℃)	≤7min@12V	≤5min@12V
Power consumption (23 ℃)	≤13W (Peak) ≤7W (Stable)	≤18W (Peak) ≤7W (Stable)	≤35W (Peak) ≤15W (Stable)
Size (mm)	142×58.5×71	Compressor φ33.5×68 Dewar φ41×86	Compressor φ46×122 Dewar φ46.5×112
Weight (g)	≤600	≤350	≤1200
Working temperature	-45℃～+71℃
Storage temperature	-55℃～+71℃
*MTTF	≥10000h		≥30000h

Industrial Applications

The LFD330Z3 cooled MWIR thermal imaging detector enables developers to detect and visualize invisible VOCs (volatile organic compounds), preventing potential damage. Compatible gases include Methane, Ethane, Propane, Butane, Pentane, Hexane, Heptane, Octane, Ethylene, Propylene, Isoprene, Methanol, Ethanol, Butanone, Benzene, Toluene, Xylene, Ethylbenzene and more.

Frequently Asked Questions

Advantages of Optical Gas Imaging

Time-saving & Efficient: Supports large-scale real-time detection with rapid leak location without production interruption
Long Range Detection: Non-contact testing from safe distances in hazardous areas
Easy to Analyze: Intuitive imaging with instant storage and convenient analysis capabilities
Multi-function Inspection: Detects multiple gases while providing excellent remote temperature measurement

Working Principle of Optical Gas Imaging

Optical gas imaging utilizes infrared technology to visualize invisible industrial gases. When gases absorb infrared radiation at specific wavelengths, they create radiation differences between the gas and background. The LFD330Z3 detector with built-in narrowband filter captures these differences, converting gas presence into visible infrared images through radiation contrast analysis.

About SensorMicro

SensorMicro specializes in infrared thermal imaging technology, developing advanced infrared products and application solutions. Our gas leak detection portfolio includes medium to long wave infrared detectors and thermal modules tailored to different gas spectral characteristics, enabling rapid development of handheld devices, online monitoring systems, and UAV payload solutions for environmental protection, energy efficiency, and safety production across multiple industries.

Cooled MWIR Thermal Imaging Detector with 320x256/30μm for VOCs Gas Leak Detection at 10mK NETD

Product Details

Product Specification

Product Description

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