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G615Z Cooled MWIR Infrared Detector with 640×512 Resolution for long-range target detection and imaging

G615Z Cooled MWIR Infrared Detector with 640×512 Resolution for long-range target detection and imaging

MOQ: 1
Price: Negotiable
Detail Information
Place of Origin
Beijing
Brand Name
BeyondView
Model Number
G615Z
Response Non-uniformity:
≤8%
Effective Pixel Rate:
≥99.76%
Resolution:
640×512 Pixels
Operating Temperature:
-45℃~+71℃
Typical NETD:
16mK (F2)/18mK (F4)
Max. Frame Rate:
120Hz
Pixel Pitch:
15μm
Spectral Range:
3.7μm±0.2μm~4.8μm±0.2μm
Highlight:

15μm Cooled MWIR Detector

,

MWIR Detector 640x512

,

MCT Sensitive Material MWIR Detector

Product Description
G615Z Cooled MWIR Infrared Detector
Product Description
The cooled 640×512/15μm MWIR infrared detector from BeyondView, model G615Z, features Mercury Cadmium Telluride (MCT) as its sensitive material. Available with either rotary or linear split Stirling cooling systems, this integrated detector dewar cooler assembly ensures optimal performance with advanced cooling technology.
With 640×512 resolution and 15μm pixel size, the G615Z delivers high-definition imaging that captures minute details with precision. Its response non-uniformity of less than 8% enables efficient temperature difference detection across target areas. The spectral range of 3.7μm±0.2μm to 4.8μm±0.2μm makes it ideal for mid-wave infrared radiation detection.
Designed for long-range monitoring applications, this cooled MWIR detector produces high-quality thermal images suitable for surveillance, border security, search and rescue operations, and other critical applications requiring superior imaging performance.
Main Features
  • Wide range of applications: Detection, imaging, monitoring, and high-end specialized applications
  • Medium wave band detection:
    • Long atmospheric transmission distance
    • Effective for long-range target detection and imaging
    • Superior penetration through haze, smoke, and humidity for clear imaging in harsh conditions
Technical Parameters
Model G615Z
Sensitive Material MCT
Resolution 640×512
Pixel Size 15μm
Spectral Response 3.7±0.2μm~4.8±0.2μm
Typical NETD 16mK (F2) / 18mK (F4)
Max. Frame Rate 120Hz
Effective Pixel Rate ≥99.76%
Response Non-uniformity ≤8%
Working Temperature -45℃~+71℃
Cryo Cooler RC2 / RC1 / LC4
Cooling Time (23℃) ≤6min (RC2) / ≤5min30s (RC1) / ≤4min (LC4)
Max. Power Consumption (71℃) ≤13W (RC2) / ≤13W (RC1) / ≤45W (LC4)
Steady Power Consumption (23℃) ≤6W (RC2) / ≤5W (RC1) / ≤10W (LC4)
Size (mm) 145×58.5×71 (RC2) 120×46.5×81.5 (RC1) Compressor Φ46×122; Dewar Φ40×114 (LC4)
Weight (g) ≤650
Applications
G615Z Cooled MWIR Infrared Detector with 640×512 Resolution for long-range target detection and imaging 0
Support and Service
Our cooled MWIR infrared detectors are supported by comprehensive technical services including installation assistance, calibration, and troubleshooting. Our engineering team provides training and consulting services to help integrate our products into your systems and develop customized solutions.
We are committed to customer satisfaction through prompt, effective support for all thermal imaging system needs.
FAQs
What is infrared thermal imaging technology?
Infrared thermal imaging uses photoelectric technology to detect specific infrared band signals of thermal radiation from objects, converts these signals into human-distinguishable images and graphics, and calculates temperature values.
What is the wavelength range for infrared thermal imaging?
Infrared radiation is an electromagnetic wave between visible light and microwave wavelengths. Thermal imaging typically refers to mid-infrared (3-5μm) and far-infrared (8-12μm) imaging, focusing on heat sources rather than visible light. The human eye cannot detect these longer thermal wavelengths.
What is the classification of infrared thermal imaging wavebands?
Infrared thermal imaging is divided into three bands:
  • Shortwave: wavelength range within 3μm
  • Medium wave: 3μm to 5μm
  • Long wave: 8μm to 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?
Infrared thermal imaging passively receives infrared signals emitted by objects and does not emit radiation. All objects above absolute zero emit infrared signals, which are detected and converted into thermal images.
Products
PRODUCTS DETAILS
G615Z Cooled MWIR Infrared Detector with 640×512 Resolution for long-range target detection and imaging
MOQ: 1
Price: Negotiable
Detail Information
Place of Origin
Beijing
Brand Name
BeyondView
Model Number
G615Z
Response Non-uniformity:
≤8%
Effective Pixel Rate:
≥99.76%
Resolution:
640×512 Pixels
Operating Temperature:
-45℃~+71℃
Typical NETD:
16mK (F2)/18mK (F4)
Max. Frame Rate:
120Hz
Pixel Pitch:
15μm
Spectral Range:
3.7μm±0.2μm~4.8μm±0.2μm
Minimum Order Quantity:
1
Price:
Negotiable
Highlight

15μm Cooled MWIR Detector

,

MWIR Detector 640x512

,

MCT Sensitive Material MWIR Detector

Product Description
G615Z Cooled MWIR Infrared Detector
Product Description
The cooled 640×512/15μm MWIR infrared detector from BeyondView, model G615Z, features Mercury Cadmium Telluride (MCT) as its sensitive material. Available with either rotary or linear split Stirling cooling systems, this integrated detector dewar cooler assembly ensures optimal performance with advanced cooling technology.
With 640×512 resolution and 15μm pixel size, the G615Z delivers high-definition imaging that captures minute details with precision. Its response non-uniformity of less than 8% enables efficient temperature difference detection across target areas. The spectral range of 3.7μm±0.2μm to 4.8μm±0.2μm makes it ideal for mid-wave infrared radiation detection.
Designed for long-range monitoring applications, this cooled MWIR detector produces high-quality thermal images suitable for surveillance, border security, search and rescue operations, and other critical applications requiring superior imaging performance.
Main Features
  • Wide range of applications: Detection, imaging, monitoring, and high-end specialized applications
  • Medium wave band detection:
    • Long atmospheric transmission distance
    • Effective for long-range target detection and imaging
    • Superior penetration through haze, smoke, and humidity for clear imaging in harsh conditions
Technical Parameters
Model G615Z
Sensitive Material MCT
Resolution 640×512
Pixel Size 15μm
Spectral Response 3.7±0.2μm~4.8±0.2μm
Typical NETD 16mK (F2) / 18mK (F4)
Max. Frame Rate 120Hz
Effective Pixel Rate ≥99.76%
Response Non-uniformity ≤8%
Working Temperature -45℃~+71℃
Cryo Cooler RC2 / RC1 / LC4
Cooling Time (23℃) ≤6min (RC2) / ≤5min30s (RC1) / ≤4min (LC4)
Max. Power Consumption (71℃) ≤13W (RC2) / ≤13W (RC1) / ≤45W (LC4)
Steady Power Consumption (23℃) ≤6W (RC2) / ≤5W (RC1) / ≤10W (LC4)
Size (mm) 145×58.5×71 (RC2) 120×46.5×81.5 (RC1) Compressor Φ46×122; Dewar Φ40×114 (LC4)
Weight (g) ≤650
Applications
G615Z Cooled MWIR Infrared Detector with 640×512 Resolution for long-range target detection and imaging 0
Support and Service
Our cooled MWIR infrared detectors are supported by comprehensive technical services including installation assistance, calibration, and troubleshooting. Our engineering team provides training and consulting services to help integrate our products into your systems and develop customized solutions.
We are committed to customer satisfaction through prompt, effective support for all thermal imaging system needs.
FAQs
What is infrared thermal imaging technology?
Infrared thermal imaging uses photoelectric technology to detect specific infrared band signals of thermal radiation from objects, converts these signals into human-distinguishable images and graphics, and calculates temperature values.
What is the wavelength range for infrared thermal imaging?
Infrared radiation is an electromagnetic wave between visible light and microwave wavelengths. Thermal imaging typically refers to mid-infrared (3-5μm) and far-infrared (8-12μm) imaging, focusing on heat sources rather than visible light. The human eye cannot detect these longer thermal wavelengths.
What is the classification of infrared thermal imaging wavebands?
Infrared thermal imaging is divided into three bands:
  • Shortwave: wavelength range within 3μm
  • Medium wave: 3μm to 5μm
  • Long wave: 8μm to 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?
Infrared thermal imaging passively receives infrared signals emitted by objects and does not emit radiation. All objects above absolute zero emit infrared signals, which are detected and converted into thermal images.