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15 products
| Model No. | M1614-SW | |
| Focal Length | 16mm | |
| Max. Aperture Ratio | 1:1.4 | |
| Max. Image Circle | φ12.3mm | |
| Operation Range | ||
| Iris | F1.4‐ F16C | |
| Focus | 0.3m ‐ Inf. | |
| Control | ||
| Iris | Manual | |
| Focus | Manual | |
| Object Dimension at M.O.D | ||
| 2/3 type | 17.0cm x 12.7cm | |
| 1/2 type | 12.3cm x 9.2cm | |
| Angle of View | ||
|
D |
2/3 type H8.80mm x V6.60mm | 37.7° |
| H | 30.6° | |
| V | 23.2° | |
| D | 1/2 type H6.40mm x V4.80mm | 27.9° |
| H | 22.5° | |
| V | 16.9° | |
| Angle of View ( InGaAs Detector) |
||
| D | 640 x 512 (Pixel Pitch : 15μm) H9.60mm x V7.68mm |
41.7° |
| H | 33.2° | |
| V | 26.8° | |
| D | 320 x 256 (Pixel Pitch : 25μm) 8.00mm x V6.40mm |
35.3° |
| H | 27.9° | |
| V | 22.5° | |
| D | 320 x 256 (Pixel Pitch : 20μm) H6.40mm x V5.12mm |
28.6° |
| H | 22.5° | |
| V | 18.0° | |
| Operating Temperature | -10℃ ‐ +50℃ | |
| Effective Lens Aperture | ||
| Front | φ18.5mm | |
| Rear | φ13.2mm | |
| Distortion | ||
| 2/3 Type | -0.5% (y=5.5) | |
| 1/2 Type | -0.5% (y=4.0) | |
| Back Focal Length | 13.3mm | |
| Flange Back Length | 17.526mm | |
| Mount | C-Mount | |
| Filter Size | M30.5 P=0.5mm | |
| Dimensions | φ33.5mm x 28.2mm | |
| Weight | 60g |
SWIR (Short Wave Infrared) Lenses are specifically designed for Machine Vision applications in NIR and SWIR.
- Unique coating technology delivers high transmission from 800nm-1,700nm
- High-resolution, low-distortion design offers Megapixel clarity in hyperspectral application
- Also available in 16mm, 35mm and 50mm
- Designed around the popular φ12.3mm image circle format
- The industry’s most compact form factor. Fits in most applications
- Compatible with FLIR TAU SWIR
| Model No. | M2514-SW | |
| Focal Length | 25mm | |
| Max. Aperture Ratio | 1:1.4 | |
| Max. Image Circle | φ12.3mm | |
| Operation Range | ||
| Iris | F1.4‐ F16C | |
| Focus | 0.3m ‐ Inf. | |
| Control | ||
| Iris | Manual | |
| Focus | Manual | |
| Object Dimension at M.O.D | ||
| 2/3 type | 10.5cm x 7.8cm | |
| 1/2 type | 7.6cm x 5.7cm | |
| Angle of View | ||
|
D |
2/3 type H8.80mm x V6.60mm | 24.7° |
| H | 19.8° | |
| V | 14.9° | |
| D | 1/2 type H6.40mm x V4.80mm | 18.1° |
| H | 14.5° | |
| V | 10.9° | |
| Angle of View ( InGaAs Detector) |
||
| D | 640 x 512 (Pixel Pitch : 15μm) H9.60mm x V7.68mm |
27.6° |
| H | 21.6° | |
| V | 17.3° | |
| D | 320 x 256 (Pixel Pitch : 25μm) 8.00mm x V6.40mm |
23.0° |
| H | 18.1° | |
| V | 14.5° | |
| D | 320 x 256 (Pixel Pitch : 20μm) H6.40mm x V5.12mm |
18.5° |
| H | 14.5° | |
| V | 11.6° | |
| Operating Temperature | -10℃ ‐ +50℃ | |
| Effective Lens Aperture | ||
| Front | φ17.8mm | |
| Rear | φ12.0mm | |
| Distortion | ||
| 2/3 Type | -0.5% (y=5.5) | |
| 1/2 Type | -0.2% (y=4.0) | |
| Back Focal Length | 13.4mm | |
| Flange Back Length | 17.526mm | |
| Mount | C-Mount | |
| Filter Size | M30.5 P=0.5mm | |
| Dimensions | φ33.5mm x 36mm | |
| Weight | 71.2g | |
SWIR (Short Wave Infrared) Lenses are specifically designed for Machine Vision applications in NIR and SWIR.
- Unique coating technology delivers high transmission from 800nm-1,700nm
- High-resolution, low-distortion design offers Megapixel clarity in hyperspectral application
- Also available in 16mm, 25mm and 50mm
- Designed around the popular φ12.3mm image circle format
- The industry’s most compact form factor. Fits in most applications
- Compatible with FLIR TAU SWIR
| Model No. | M3514-SW | |
| Focal Length | 35mm | |
| Max. Aperture Ratio | 1:1.4 | |
| Max. Image Circle | φ12.3mm | |
| Operation Range | ||
| Iris | F1.4‐ F16C | |
| Focus | 0.3m ‐ Inf. | |
| Control | ||
| Iris | Manual | |
| Focus | Manual | |
| Object Dimension at M.O.D | ||
| 2/3 type | 8.0cm x 6.0cm | |
| 1/2 type | 5.8cm x 4.4cm | |
| Angle of View | ||
|
D |
2/3 type H8.80mm x V6.60mm | 18.4° |
| H | 14.7° | |
| V | 11.1° | |
| D | 1/2 type H6.40mm x V4.80mm | 13.4° |
| H | 10.7° | |
| V | 8.1° | |
| Angle of View ( InGaAs Detector) |
||
| D | 640 x 512 (Pixel Pitch : 15μm) H9.60mm x V7.68mm |
20.5° |
| H | 16.0° | |
| V | 12.9° | |
| D | 320 x 256 (Pixel Pitch : 25μm) 8.00mm x V6.40mm |
17.1° |
| H | 13.4° | |
| V | 10.7° | |
| D | 320 x 256 (Pixel Pitch : 20μm) H6.40mm x V5.12mm |
13.7° |
| H | 10.7° | |
| V | 8.6° | |
| Operating Temperature | -10℃ ‐ +50℃ | |
| Effective Lens Aperture | ||
| Front | φ24mm | |
| Rear | φ12.0mm | |
| Distortion | ||
| 2/3 Type | -0.1% (y=5.5) | |
| 1/2 Type | 0% (y=4.0) | |
| Back Focal Length | 14.6mm | |
| Flange Back Length | 17.526mm | |
| Mount | C-Mount | |
| Filter Size | M30.5 P=0.5mm | |
| Dimensions | φ33.5mm x 38.2mm | |
| Weight | 87g | |
SWIR (Short Wave Infrared) Lenses are specifically designed for Machine Vision applications in NIR and SWIR.
- Unique coating technology delivers high transmission from 800nm-1,700nm
- High-resolution, low-distortion design offers Megapixel clarity in hyperspectral application
- Also available in 16mm, 25mm and 35mm
- Designed around the popular φ12.3mm image circle format
- The industry’s most compact form factor. Fits in most applications
- Compatible with FLIR TAU SWIR
| Model No. | M5018-SW | |
| Focal Length | 50mm | |
| Max. Aperture Ratio | 1:1.8 | |
| Max. Image Circle | φ12.3mm | |
| Operation Range | ||
| Iris | F1.8‐ F16C | |
| Focus | 0.6m ‐ Inf. | |
| Control | ||
| Iris | Manual | |
| Focus | Manual | |
| Object Dimension at M.O.D | ||
| 2/3 type | 10.4cm x 7.8cm | |
| 1/2 type | 7.6cm x 5.7cm | |
| Angle of View | ||
|
D |
2/3 type H8.80mm x V6.60mm | 13.0° |
| H | 10.4° | |
| V | 7.8° | |
| D | 1/2 type H6.40mm x V4.80mm | 9.5° |
| H | 7.6° | |
| V | 5.7° | |
| Angle of View ( InGaAs Detector) |
||
| D | 640 x 512 (Pixel Pitch : 15μm) H9.60mm x V7.68mm |
14.5° |
| H | 11.3° | |
| V | 9.1° | |
| D | 320 x 256 (Pixel Pitch : 25μm) 8.00mm x V6.40mm |
12.1° |
| H | 9.5° | |
| V | 7.6° | |
| D | 320 x 256 (Pixel Pitch : 20μm) H6.40mm x V5.12mm |
9.7° |
| H | 7.6° | |
| V | 6.1° | |
| Operating Temperature | -10℃ ‐ +50℃ | |
| Effective Lens Aperture | ||
| Front | φ25.5mm | |
| Rear | φ9.6mm | |
| Distortion | ||
| 2/3 Type | -0.3% (y=5.5) | |
| 1/2 Type | -0.1% (y=4.0) | |
| Back Focal Length | 13.6mm | |
| Flange Back Length | 17.526mm | |
| Mount | C-Mount | |
| Filter Size | M30.5 P=0.5mm | |
| Dimensions | φ33.5mm x 38.2mm | |
| Weight | 85g | |
25mm SWIR
Unlimited Applications can benefit from SWIR Technology.
StingRay specializes in bringing the best possible optics to market. The rest is up to you. New SWIR Applications are discovered every day and StingRay looks forward to service these future markets. StingRay's Goal is to stay one step ahead of detector technology.
Applications for SWIR:
- Plastic Sorting
- Agriculture Sorting
- Solar Cell Inspection
- Glass Inspection
StingRay SWIR Lenses are crafted using SWIR specific materials and coatings. Lower cost alternatives are generally inexpensive visible lenses that are coated with a 'SWIR-specific' coating. While this might work for some applications, the system will suffer from low overall transmission of SWIR light as well as focus shift across the SWIR band. This will produce a dark, fuzzy image.
StingRay lenses provide a boosted transmission which provides for a bright image and also gives a crisp focus due to it's achromatic correction.
What is SWIR?
Shortwave Infrared (SWIR) is identified as 900-1700nm.
Essentially, think of SWIR as 'light' that the human eye can't see. Unlike thermal infrared, SWIR behaves much like visible light as it is reflected as opposed to emitted.
How can we see it?
Humans can't see SWIR energy. By pairing an InGaAs
50mm SWIR
Unlimited Applications can benefit from SWIR Technology.
StingRay specializes in bringing the best possible optics to market. The rest is up to you. New SWIR Applications are discovered every day and StingRay looks forward to service these future markets. StingRay's Goal is to stay one step ahead of detector technology.
Applications for SWIR:
- Plastic Sorting
- Agriculture Sorting
- Solar Cell Inspection
- Glass Inspection
StingRay SWIR Lenses are crafted using SWIR specific materials and coatings. Lower cost alternatives are generally inexpensive visible lenses that are coated with a 'SWIR-specific' coating. While this might work for some applications, the system will suffer from low overall transmission of SWIR light as well as focus shift across the SWIR band. This will produce a dark, fuzzy image.
StingRay lenses provide a boosted transmission which provides for a bright image and also gives a crisp focus due to it's achromatic correction.
What is SWIR?
Shortwave Infrared (SWIR) is identified as 900-1700nm.
Essentially, think of SWIR as 'light' that the human eye can't see. Unlike thermal infrared, SWIR behaves much like visible light as it is reflected as opposed to emitted.
How can we see it?
Humans can't see SWIR energy. By pairing an InGaAs
25mm SWIR
Unlimited Applications can benefit from SWIR Technology.
StingRay specializes in bringing the best possible optics to market. The rest is up to you. New SWIR Applications are discovered every day and StingRay looks forward to service these future markets. StingRay's Goal is to stay one step ahead of detector technology.
Applications for SWIR:
- Plastic Sorting
- Agriculture Sorting
- Solar Cell Inspection
- Glass Inspection
StingRay SWIR Lenses are crafted using SWIR specific materials and coatings. Lower cost alternatives are generally inexpensive visible lenses that are coated with a 'SWIR-specific' coating. While this might work for some applications, the system will suffer from low overall transmission of SWIR light as well as focus shift across the SWIR band. This will produce a dark, fuzzy image.
StingRay lenses provide a boosted transmission which provides for a bright image and also gives a crisp focus due to it's achromatic correction.
What is SWIR?
Shortwave Infrared (SWIR) is identified as 900-1700nm.
Essentially, think of SWIR as 'light' that the human eye can't see. Unlike thermal infrared, SWIR behaves much like visible light as it is reflected as opposed to emitted.
How can we see it?
Humans can't see SWIR energy. By pairing an InGaAs
50mm SWIR
Unlimited Applications can benefit from SWIR Technology.
StingRay specializes in bringing the best possible optics to market. The rest is up to you. New SWIR Applications are discovered every day and StingRay looks forward to service these future markets. StingRay's Goal is to stay one step ahead of detector technology.
Applications for SWIR:
- Plastic Sorting
- Agriculture Sorting
- Solar Cell Inspection
- Glass Inspection
StingRay SWIR Lenses are crafted using SWIR specific materials and coatings. Lower cost alternatives are generally inexpensive visible lenses that are coated with a 'SWIR-specific' coating. While this might work for some applications, the system will suffer from low overall transmission of SWIR light as well as focus shift across the SWIR band. This will produce a dark, fuzzy image.
StingRay lenses provide a boosted transmission which provides for a bright image and also gives a crisp focus due to it's achromatic correction.
What is SWIR?
Shortwave Infrared (SWIR) is identified as 900-1700nm.
Essentially, think of SWIR as 'light' that the human eye can't see. Unlike thermal infrared, SWIR behaves much like visible light as it is reflected as opposed to emitted.
How can we see it?
Humans can't see SWIR energy. By pairing an InGaAs
25mm SWIR
Unlimited Applications can benefit from SWIR Technology.
StingRay specializes in bringing the best possible optics to market. The rest is up to you. New SWIR Applications are discovered every day and StingRay looks forward to service these future markets. StingRay's Goal is to stay one step ahead of detector technology.
Applications for SWIR:
- Plastic Sorting
- Agriculture Sorting
- Solar Cell Inspection
- Glass Inspection
StingRay SWIR Lenses are crafted using SWIR specific materials and coatings. Lower cost alternatives are generally inexpensive visible lenses that are coated with a 'SWIR-specific' coating. While this might work for some applications, the system will suffer from low overall transmission of SWIR light as well as focus shift across the SWIR band. This will produce a dark, fuzzy image.
StingRay lenses provide a boosted transmission which provides for a bright image and also gives a crisp focus due to it's achromatic correction.
What is SWIR?
Shortwave Infrared (SWIR) is identified as 900-1700nm.
Essentially, think of SWIR as 'light' that the human eye can't see. Unlike thermal infrared, SWIR behaves much like visible light as it is reflected as opposed to emitted.
How can we see it?
Humans can't see SWIR energy. By pairing an InGaAs
StingRay 100mm SWIR Manual Focus and Iris
100mm SWIR
Unlimited Applications can benefit from SWIR Technology.
StingRay specializes in bringing the best possible optics to market. The rest is up to you. New SWIR Applications are discovered every day and StingRay looks forward to service these future markets. StingRay's Goal is to stay one step ahead of detector technology.
Applications for SWIR:
- Plastic Sorting
- Agriculture Sorting
- Solar Cell Inspection
- Glass Inspection
StingRay SWIR Lenses are crafted using SWIR specific materials and coatings. Lower cost alternatives are generally inexpensive visible lenses that are coated with a 'SWIR-specific' coating. While this might work for some applications, the system will suffer from low overall transmission of SWIR light as well as focus shift across the SWIR band. This will produce a dark, fuzzy image.
StingRay lenses provide a boosted transmission which provides for a bright image and also gives a crisp focus due to it's achromatic correction.
What is SWIR?
Shortwave Infrared (SWIR) is identified as 900-1700nm.
Essentially, think of SWIR as 'light' that the human eye can't see. Unlike thermal infrared, SWIR behaves much like visible light as it is reflected as opposed to emitted.
How can we see it?
Humans can't see SWIR energy. By pairing an InGaAs
75mm SWIR
Unlimited Applications can benefit from SWIR Technology.
StingRay specializes in bringing the best possible optics to market. The rest is up to you. New SWIR Applications are discovered every day and StingRay looks forward to service these future markets. StingRay's Goal is to stay one step ahead of detector technology.
Applications for SWIR:
- Plastic Sorting
- Agriculture Sorting
- Solar Cell Inspection
- Glass Inspection
StingRay SWIR Lenses are crafted using SWIR specific materials and coatings. Lower cost alternatives are generally inexpensive visible lenses that are coated with a 'SWIR-specific' coating. While this might work for some applications, the system will suffer from low overall transmission of SWIR light as well as focus shift across the SWIR band. This will produce a dark, fuzzy image.
StingRay lenses provide a boosted transmission which provides for a bright image and also gives a crisp focus due to it's achromatic correction.
What is SWIR?
Shortwave Infrared (SWIR) is identified as 900-1700nm.
Essentially, think of SWIR as 'light' that the human eye can't see. Unlike thermal infrared, SWIR behaves much like visible light as it is reflected as opposed to emitted.
How can we see it?
Humans can't see SWIR energy. By pairing an InGaAs
200mm SWIR
Unlimited Applications can benefit from SWIR Technology.
StingRay specializes in bringing the best possible optics to market. The rest is up to you. New SWIR Applications are discovered every day and StingRay looks forward to service these future markets. StingRay's Goal is to stay one step ahead of detector technology.
Applications for SWIR:
- Plastic Sorting
- Agriculture Sorting
- Solar Cell Inspection
- Glass Inspection
StingRay SWIR Lenses are crafted using SWIR specific materials and coatings. Lower cost alternatives are generally inexpensive visible lenses that are coated with a 'SWIR-specific' coating. While this might work for some applications, the system will suffer from low overall transmission of SWIR light as well as focus shift across the SWIR band. This will produce a dark, fuzzy image.
StingRay lenses provide a boosted transmission which provides for a bright image and also gives a crisp focus due to it's achromatic correction.
What is SWIR?
Shortwave Infrared (SWIR) is identified as 900-1700nm.
Essentially, think of SWIR as 'light' that the human eye can't see. Unlike thermal infrared, SWIR behaves much like visible light as it is reflected as opposed to emitted.
How can we see it?
Humans can't see SWIR energy. By pairing an InGaAs
30-300mm SWIR
Unlimited Applications can benefit from SWIR Technology.
StingRay specializes in bringing the best possible optics to market. The rest is up to you. New SWIR Applications are discovered every day and StingRay looks forward to service these future markets. StingRay's Goal is to stay one step ahead of detector technology.
Applications for SWIR:
- Plastic Sorting
- Agriculture Sorting
- Solar Cell Inspection
- Glass Inspection
StingRay SWIR Lenses are crafted using SWIR specific materials and coatings. Lower cost alternatives are generally inexpensive visible lenses that are coated with a 'SWIR-specific' coating. While this might work for some applications, the system will suffer from low overall transmission of SWIR light as well as focus shift across the SWIR band. This will produce a dark, fuzzy image.
StingRay lenses provide a boosted transmission which provides for a bright image and also gives a crisp focus due to it's achromatic correction.
What is SWIR?
Shortwave Infrared (SWIR) is identified as 900-1700nm.
Essentially, think of SWIR as 'light' that the human eye can't see. Unlike thermal infrared, SWIR behaves much like visible light as it is reflected as opposed to emitted.
How can we see it?
Humans can't see SWIR energy. By pairing an InGaAs
25-250mm SWIR
Unlimited Applications can benefit from SWIR Technology.
StingRay specializes in bringing the best possible optics to market. The rest is up to you. New SWIR Applications are discovered every day and StingRay looks forward to service these future markets. StingRay's Goal is to stay one step ahead of detector technology.
Applications for SWIR:
- Plastic Sorting
- Agriculture Sorting
- Solar Cell Inspection
- Glass Inspection
StingRay SWIR Lenses are crafted using SWIR specific materials and coatings. Lower cost alternatives are generally inexpensive visible lenses that are coated with a 'SWIR-specific' coating. While this might work for some applications, the system will suffer from low overall transmission of SWIR light as well as focus shift across the SWIR band. This will produce a dark, fuzzy image.
StingRay lenses provide a boosted transmission which provides for a bright image and also gives a crisp focus due to it's achromatic correction.
What is SWIR?
Shortwave Infrared (SWIR) is identified as 900-1700nm.
Essentially, think of SWIR as 'light' that the human eye can't see. Unlike thermal infrared, SWIR behaves much like visible light as it is reflected as opposed to emitted.
How can we see it?
Humans can't see SWIR energy. By pairing an InGaAs
25-250mm SWIR
Unlimited Applications can benefit from SWIR Technology.
StingRay specializes in bringing the best possible optics to market. The rest is up to you. New SWIR Applications are discovered every day and StingRay looks forward to service these future markets. StingRay's Goal is to stay one step ahead of detector technology.
Applications for SWIR:
- Plastic Sorting
- Agriculture Sorting
- Solar Cell Inspection
- Glass Inspection
StingRay SWIR Lenses are crafted using SWIR specific materials and coatings. Lower cost alternatives are generally inexpensive visible lenses that are coated with a 'SWIR-specific' coating. While this might work for some applications, the system will suffer from low overall transmission of SWIR light as well as focus shift across the SWIR band. This will produce a dark, fuzzy image.
StingRay lenses provide a boosted transmission which provides for a bright image and also gives a crisp focus due to it's achromatic correction.
What is SWIR?
Shortwave Infrared (SWIR) is identified as 900-1700nm.
Essentially, think of SWIR as 'light' that the human eye can't see. Unlike thermal infrared, SWIR behaves much like visible light as it is reflected as opposed to emitted.
How can we see it?
Humans can't see SWIR energy. By pairing an InGaAs