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G330Z3 Cooled Infrared Detector with 320x256 Resolution and 3.2μm～3.5μm Spectral Response for Gas Leak Detection

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G330Z3 Cooled Infrared Detector with 320x256 Resolution and 3.2μm～3.5μm Spectral Response for Gas Leak Detection

MOQ:	1
Price:	Negotiable
Payment Method:	T/T

Detail Information

Product Description

Detail Information

Place of Origin

Beijing

Brand Name

BeyondView

Model Number

G330Z3

Sensitive Material:

Mercury Cadmium Telluride (MCT)

Cryo Cooler:

Effective Pixel Rate:

≥99.5%

Spectral Response:

3.2μm±0.1μm～3.5μm±0.1μm

Resolution:

320x256

Typical NETD:

10mK (F1.5)

Pixel Pitch:

Operating Temperature:

-45℃~+71℃

Highlight:

mwir infrared camera core

320x256 thermal camera core

320x256 infrared camera core

Product Description

Cooled FPA MCT MWIR Infrared Camera Core G330Z3 with 320*256 Resolution

Product Overview

The G330Z3 cooled infrared detector for optical gas imaging (OGI) is specially developed for gas leak detection, converting infrared radiation into electrical signals. Featuring standard mechanical, optical, and electronic interfaces, it's widely applicable for environment monitoring, gas leakage detection, and chemical gas detection in petrochemical plants and refineries.

Utilizing advanced MCT (Mercury Cadmium Telluride) material, the G330Z3 offers exceptional sensitivity and accuracy for gas leak detection. Its high performance across infrared wavelengths enables precise detection of low-concentration gases, providing real-time visualizations for rapid assessment and response.

Key Features

Optical Gas Imaging: Long-range non-contact detection with efficient, secure wide-range gas leak identification
High Sensitivity: Cooled infrared detector excels in low gas concentration and slow gas flow applications
Integrator-Friendly Design: Supports 12V power supply with spectral range of 3.2μm±0.1μm～3.5μm±0.1μm

Technical Specifications

Model	G330Z3
Applications	VOCs Petrochemical Gas Detection
Sensitive Material	Mercury Cadmium Telluride (MCT)
Resolution	320*256
Pixel Size	30μm
Spectral Response	3.2μm±0.1μm～3.5μm±0.1μm
Typical NETD	10mK (F1.5)
Effective Pixel Rate	≥99.5%
Response Non-uniformity	≤8%
Cryocooler	RC3
Steady Power Consumption	≤7W
Max. Power Consumption	≤15W
Power Supply	12V DC
Cooling Time	≤7min
Size (mm)	14258.571
Weight (g)	≤600
Working Temperature	-45℃~+71℃

Applications

Technical Support

Our technical support goes beyond issue resolution to help clients build their own maintenance teams. We share knowledge and experience to empower customers, ensuring satisfaction and fostering long-term partnerships.

We provide technical training to enhance product utilization and customer skills, improving operational efficiency and reliability while strengthening our industry reputation.

Frequently Asked Questions

What is infrared thermal imaging technology?

Infrared thermal imaging detects specific infrared band signals from object thermal radiation, converting them into visible images and graphics while calculating temperature values.

What is the wavelength range for infrared thermal imaging?

Infrared radiation is an electromagnetic wave between visible light and microwave. Thermal imaging typically refers to mid-infrared (3-5μm) and far-infrared (8-12μm) bands, focusing on heat sources invisible to the human eye (which sees 0.4-0.7μm).

What is the classification of infrared thermal imaging wavebands?

Infrared thermal imaging has three bands: Shortwave (under 3μm), Medium wave (3-5μm), and Long wave (8-14μm).

What are the applications of infrared detectors and thermal imaging modules?

Applications include thermography, security surveillance, intelligent industry, night vision observation, machine vision, smart driving, UAVs, and consumer infrared products.

Does infrared thermal imaging emit radiation?

No, it passively receives infrared signals emitted by objects above absolute zero, converting them into thermal images without emitting radiation.

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Visible Light Camera Module

G330Z3 Cooled Infrared Detector with 320x256 Resolution and 3.2μm～3.5μm Spectral Response for Gas Leak Detection

MOQ:	1
Price:	Negotiable
Payment Method:	T/T

Detail Information

Product Description

Detail Information

Place of Origin

Beijing

Brand Name

BeyondView

Model Number

G330Z3

Sensitive Material:

Mercury Cadmium Telluride (MCT)

Cryo Cooler:

RC3

Effective Pixel Rate:

≥99.5%

Spectral Response:

3.2μm±0.1μm～3.5μm±0.1μm

Resolution:

320x256

Typical NETD:

10mK (F1.5)

Pixel Pitch:

30μm

Operating Temperature:

-45℃~+71℃

Minimum Order Quantity:

Price:

Negotiable

Payment Terms:

T/T

Highlight

mwir infrared camera core

320x256 thermal camera core

320x256 infrared camera core

Product Description

Cooled FPA MCT MWIR Infrared Camera Core G330Z3 with 320*256 Resolution

Product Overview

Key Features

Optical Gas Imaging: Long-range non-contact detection with efficient, secure wide-range gas leak identification
High Sensitivity: Cooled infrared detector excels in low gas concentration and slow gas flow applications
Integrator-Friendly Design: Supports 12V power supply with spectral range of 3.2μm±0.1μm～3.5μm±0.1μm

Technical Specifications

Model	G330Z3
Applications	VOCs Petrochemical Gas Detection
Sensitive Material	Mercury Cadmium Telluride (MCT)
Resolution	320*256
Pixel Size	30μm
Spectral Response	3.2μm±0.1μm～3.5μm±0.1μm
Typical NETD	10mK (F1.5)
Effective Pixel Rate	≥99.5%
Response Non-uniformity	≤8%
Cryocooler	RC3
Steady Power Consumption	≤7W
Max. Power Consumption	≤15W
Power Supply	12V DC
Cooling Time	≤7min
Size (mm)	14258.571
Weight (g)	≤600
Working Temperature	-45℃~+71℃

Applications

Technical Support

We provide technical training to enhance product utilization and customer skills, improving operational efficiency and reliability while strengthening our industry reputation.

Frequently Asked Questions

What is infrared thermal imaging technology?

Infrared thermal imaging detects specific infrared band signals from object thermal radiation, converting them into visible images and graphics while calculating temperature values.

What is the wavelength range for infrared thermal imaging?

What is the classification of infrared thermal imaging wavebands?

Infrared thermal imaging has three bands: Shortwave (under 3μm), Medium wave (3-5μm), and Long wave (8-14μm).

What are the applications of infrared detectors and thermal imaging modules?

Applications include thermography, security surveillance, intelligent industry, night vision observation, machine vision, smart driving, UAVs, and consumer infrared products.

Does infrared thermal imaging emit radiation?

No, it passively receives infrared signals emitted by objects above absolute zero, converting them into thermal images without emitting radiation.

Tags: