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400–2500 nm | China-made SWIR InGaAs | USB3/CameraLink | Cooled | Short-Wave Infrared Cameras

Product Introduction

The SWIR 400–2500 nm series cameras are designed for ultra-wide spectrum high-end applications, featuring advanced InGaAs sensors and deep cooling architecture, covering the 400–2500 nm spectrum. Suitable for laser measurement, solar cell inspection, material sorting, spectral imaging, and scientific research. The USB3.0 high-speed data interface facilitates rapid integration and data processing. This series supports high frame rate acquisition, global shutter, wide dynamic range, and multi-platform SDK development, offering excellent imaging consistency and long-term operational stability. An ideal choice for research institutes and industrial automation systems.

Product Features

  • 400–2500 nm wide spectrum InGaAs sensors
  • High sensitivity and deep cooling
  • Global shutter
  • High frame rate acquisition
  • USB3.0 high-speed data interface
  • 4 Gb memory
  • Multi-platform SDK development support
  • Rich I/O and external triggering
  • Field firmware upgrade and OEM customization support
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Product Models

Selectable 400–1700/1000–1900/1200–2200 | USB 3.0 Cooled 400–2500 nm Cameras

Product Model Sensor Resolution Pixel Size Spectral Range Frame Rate Data Interface Dynamic Range Actions
SWIR339KMB-E0417-CL700
China-made 640×512 (InGaAs) 9.60 mm × 7.68 mm
0.33 MP (640×512) 15 µm × 15 µm
400–1700 nm
724 fps@640×512
CameraLink
-
View Details
SWIR339KMB-E0417-U700
China-made 640×512 (InGaAs) 9.60 mm × 7.68 mm
0.33 MP (640×512) 15 µm × 15 µm
400–1700 nm
724 fps@640×512
USB3
-
View Details
SWIR333KMB-E1019-U240
China-made 640×512 (InGaAs) 9.60 mm × 7.68 mm
0.33 MP (640×512) 15 µm × 15 µm
1000–1900 nm
240 fps@640×512
USB3
-
View Details
SWIR333KMB-E1222-U270
China-made 640×512 (InGaAs) 9.60 mm × 7.68 mm
0.33 MP (640×512) 15 µm × 15 µm
1200–2200 nm
240 fps@640×512
USB3
-
View Details

Frequently Asked Questions

Learn more about SWIR short-wave infrared camera technology

Electromagnetic spectrum diagram: UV 200–380 nm, Visible light 380–750 nm, Near infrared 750–1100 nm, Short-wave infrared 1100–2500 nm, Long-wave infrared 8000–14000 nm
A SWIR camera is a professional imaging device that operates in the short-wave infrared spectrum (approximately 400~1700 nanometers). It can achieve imaging effects that go beyond visible light but differ from thermal imaging cameras (LWIR), making it widely applicable in scenarios requiring high standards for materials, structures, and details.

SWIR cameras have wide applications including industrial inspection, machine vision, material sorting, food testing, scientific research, medical diagnostics, security monitoring, process control, and transportation. They are particularly outstanding in material analysis, moisture detection, penetration through fog/smoke/dust, and night surveillance.

Yes! SWIR cameras can see through certain materials that are opaque to visible light, such as certain plastics and silicon wafers. This capability is extremely valuable for semiconductor inspection, material testing, and other industries.

SWIR cameras primarily capture reflected or emitted light in the short-wave infrared range, unlike thermal imaging cameras (LWIR) which rely on thermal radiation from objects. SWIR cameras have lower thermal sensitivity than thermal imaging cameras and are better suited for structural analysis and material identification rather than direct temperature detection.

Theoretically, yes. SWIR cameras can identify objects or components that cannot be distinguished in visible light through differences in reflection and transmission of materials under short-wave infrared light. They are widely used in security screening, industrial sorting, and inspection applications.

Deep Understanding of SWIR Cameras

Short-Wave Infrared (SWIR) cameras and their core sensors are important components of advanced imaging systems. SWIR technology covers the 900~1700 nanometer wavelength band and has excellent penetration capabilities in harsh environments, such as penetrating fog, smoke, and dust to achieve clear imaging under extreme conditions.

SWIR cameras primarily rely on short-wave infrared light reflection, similar to the visible light band, complementing the application range that thermal imaging cameras (LWIR) cannot cover, providing more complete imaging solutions. They are compact and flexibly integrated, making them easy to apply in various industrial and commercial systems.

The high resolution and high sensitivity of SWIR cameras can meet precision detection and high-requirement applications, capable of detecting minute changes and anomalies in samples, making them very suitable for quality control and defect detection. Some models support cooling, further ensuring imaging quality in high-temperature or high-noise environments.

To reduce system costs and improve integration efficiency, modern SWIR cameras commonly adopt standard optical interfaces and compact designs to accommodate broader application requirements. With the continuous development of imaging markets and technology, SWIR cameras have become one of the key technologies for high-end imaging and sensing in multiple industries due to their unique advantages.

Application Examples

Demonstration of SWIR camera applications in real-world scenarios

SWIR Application Example
Semiconductor Observation

Silicon wafer defect detection and analysis
SWIR Application Example
Long-distance Observation

Clear imaging through haze penetration
SWIR Application Example
Fruit Moisture Observation

Moisture content detection and quality analysis
SWIR Application Example
Temperature Observation

Imaging monitoring in high-temperature environments
SWIR Application Example
Agricultural Spectral Remote Sensing

UAV multispectral monitoring applications
SWIR Application Example
Material Sorting

Intelligent plastic waste classification
SWIR Application Example
Liquid Level Detection

Liquid level monitoring in opaque containers
SWIR Application Example
Glass Defect Detection

High-temperature glass penetration inspection

More Application Industry References

  • Semiconductor Industry: Solar cell and chip inspection
  • Agriculture: Spectral remote sensing applications via multirotor aircraft
  • Recycling Industry: Material sorting of plastics, waste, and other materials
  • Medical Imaging and Research: Hyperspectral and multispectral imaging
  • Food Industry: Quality inspection and grading
  • Beverage Industry: Liquid level detection in opaque containers
  • Packaging: Seal inspection
  • Glass Industry: High-temperature glass penetration defect detection
  • Printing Industry: See-through hidden features
  • Video Surveillance: Visual enhancement (e.g., smoke penetration)
  • Security: Counterfeit detection, such as currency, wigs, or skin