logo
Products
PRODUCTS DETAILS
Home > Products >
RC2 Integrated Dewar Cooler Assembly with Fast Cooling Compact Structure and High Efficiency for Cooled IR Detectors

RC2 Integrated Dewar Cooler Assembly with Fast Cooling Compact Structure and High Efficiency for Cooled IR Detectors

MOQ: 1
Price: Negotiable
Payment Method: T/T
Detail Information
Place of Origin
Beijing
Brand Name
BeyondView
Certification
RoHS2.0
Model Number
RC2
Type:
Rotary Stirling Cooler
Input Voltage:
18-28VDC/12-16VDC
Cooling Time (23℃):
≤5min (250J@77K@20℃)
Steady Power Consumption (23℃):
≤5.5W (220mW@77K@20℃)
Highlight:

Integrated Dewar Cooler Assembly

,

IR Detectors Dewar Cooler Assembly

,

Fast Cooling Dewar Cooler Assembly

Product Description
RC2 Integrated Dewar Cooler Assembly Fast Cooling for Cooled IR Detectors
Product Description
The Cryocooler is an essential component for cooled infrared detectors, providing a cryogenic environment for focal plane arrays to ensure proper operation. The Integrated Dewar Cooler Assembly (IDCA) delivers compact and efficient performance.
The RC2 cryocooler offers a versatile and efficient cooling solution compatible with all types of cooled IR detectors. Available in rotary configuration, these cryocoolers provide flexibility and reliability for diverse infrared detection applications. Designed for seamless integration with various cooled IR detectors, they ensure optimal performance and extended detector lifespan.
The RC2 rotary cryocooler incorporates advanced technologies including high-efficiency brushless DC motor drive, wear-resistant coatings, and precision miniature bearing support. Its compact, lightweight design withstands harsh environments and is widely used in electro-optical systems such as handheld imagers, pods, turrets, security monitoring, and ADAS applications.
Main Features
  • Meets various integration requirements
  • Fast cooling with high flexibility and reliability
  • Extended operation capability (7*24H continuous use)
  • Mean Time To Failure (MTTF): ≥10,000 hours
Technical Parameters
Model RC2
Type Rotary Stirling Cooler
Cooling Power ≥550mW (@77K@20℃)
Input Voltage 18-28VDC/12-16VDC
Max. Power Consumption (71℃) ≤14W
Steady Power Consumption (23℃) ≤5.5W (220mW@77K@20℃)
Cooling Time (23℃) ≤5min (250J@77K@20℃)
Cold Finger Size Φ8mm
Max. Size (mm) 116*58.5*71
Weight ≤430g
Working Temperature -45℃~+71℃
Storage Temperature -55℃~+85℃
Electronic Control Drive Built-in
MTTF ≥10000h
Applications
RC2 Integrated Dewar Cooler Assembly with Fast Cooling Compact Structure and High Efficiency for Cooled IR Detectors 0
Support and Services
Our thermal imaging solutions come with comprehensive technical support and services:
  • Product training and education
  • Technical troubleshooting and support
  • Repair and calibration services
  • Customized solutions and consulting
Our team of professionals is committed to delivering exceptional service and support. Contact us for more information about our technical services.
FAQs
What is infrared thermal imaging technology?
Infrared thermal imaging uses photoelectric technology to detect specific infrared band signals from object thermal radiation, converting these signals 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 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 is sensitive to 0.4-0.7μm wavelengths and cannot see thermal energy at longer wavelengths.
What is the classification of infrared thermal imaging wavebands?
Infrared thermal imaging is divided into three bands: Shortwave (within 3μm), Medium wave (3-5μm), and Long wave (8-14μm).
What are the applications of infrared detectors and thermal imaging modules?
These components are used in 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. Any object above absolute zero emits infrared signals, which are detected and converted into thermal images.
Products
PRODUCTS DETAILS
RC2 Integrated Dewar Cooler Assembly with Fast Cooling Compact Structure and High Efficiency for Cooled IR Detectors
MOQ: 1
Price: Negotiable
Payment Method: T/T
Detail Information
Place of Origin
Beijing
Brand Name
BeyondView
Certification
RoHS2.0
Model Number
RC2
Type:
Rotary Stirling Cooler
Input Voltage:
18-28VDC/12-16VDC
Cooling Time (23℃):
≤5min (250J@77K@20℃)
Steady Power Consumption (23℃):
≤5.5W (220mW@77K@20℃)
Minimum Order Quantity:
1
Price:
Negotiable
Payment Terms:
T/T
Highlight

Integrated Dewar Cooler Assembly

,

IR Detectors Dewar Cooler Assembly

,

Fast Cooling Dewar Cooler Assembly

Product Description
RC2 Integrated Dewar Cooler Assembly Fast Cooling for Cooled IR Detectors
Product Description
The Cryocooler is an essential component for cooled infrared detectors, providing a cryogenic environment for focal plane arrays to ensure proper operation. The Integrated Dewar Cooler Assembly (IDCA) delivers compact and efficient performance.
The RC2 cryocooler offers a versatile and efficient cooling solution compatible with all types of cooled IR detectors. Available in rotary configuration, these cryocoolers provide flexibility and reliability for diverse infrared detection applications. Designed for seamless integration with various cooled IR detectors, they ensure optimal performance and extended detector lifespan.
The RC2 rotary cryocooler incorporates advanced technologies including high-efficiency brushless DC motor drive, wear-resistant coatings, and precision miniature bearing support. Its compact, lightweight design withstands harsh environments and is widely used in electro-optical systems such as handheld imagers, pods, turrets, security monitoring, and ADAS applications.
Main Features
  • Meets various integration requirements
  • Fast cooling with high flexibility and reliability
  • Extended operation capability (7*24H continuous use)
  • Mean Time To Failure (MTTF): ≥10,000 hours
Technical Parameters
Model RC2
Type Rotary Stirling Cooler
Cooling Power ≥550mW (@77K@20℃)
Input Voltage 18-28VDC/12-16VDC
Max. Power Consumption (71℃) ≤14W
Steady Power Consumption (23℃) ≤5.5W (220mW@77K@20℃)
Cooling Time (23℃) ≤5min (250J@77K@20℃)
Cold Finger Size Φ8mm
Max. Size (mm) 116*58.5*71
Weight ≤430g
Working Temperature -45℃~+71℃
Storage Temperature -55℃~+85℃
Electronic Control Drive Built-in
MTTF ≥10000h
Applications
RC2 Integrated Dewar Cooler Assembly with Fast Cooling Compact Structure and High Efficiency for Cooled IR Detectors 0
Support and Services
Our thermal imaging solutions come with comprehensive technical support and services:
  • Product training and education
  • Technical troubleshooting and support
  • Repair and calibration services
  • Customized solutions and consulting
Our team of professionals is committed to delivering exceptional service and support. Contact us for more information about our technical services.
FAQs
What is infrared thermal imaging technology?
Infrared thermal imaging uses photoelectric technology to detect specific infrared band signals from object thermal radiation, converting these signals 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 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 is sensitive to 0.4-0.7μm wavelengths and cannot see thermal energy at longer wavelengths.
What is the classification of infrared thermal imaging wavebands?
Infrared thermal imaging is divided into three bands: Shortwave (within 3μm), Medium wave (3-5μm), and Long wave (8-14μm).
What are the applications of infrared detectors and thermal imaging modules?
These components are used in 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. Any object above absolute zero emits infrared signals, which are detected and converted into thermal images.