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RS50F1.0-384-17
Rising
Thermal Lens Description:
1. Focal Length 50mm F1.0 Infrared Aiming Germanium Lens For 384x288-17um Detector
2. 8-12um Long Wave Infrared Thermal Lens Apply to Thermal Imager, Infrared Camera, Monitor Camera, etc.
3. Infrared multi-layer coating technology, also known as IR Coating, is a technique that enhances the clarity of images by reducing light scattering loss and increasing the lens' light transmittance.
4. This technology specifically improves the anti-reflection of light waves within the wavelength range of 750-1000nm. As a result, the lens surface typically appears in a dark green shade.
5. By improving the near-infrared light transmittance, IR Coating acts as an additional benefit for infrared lenses, ensuring high-definition results.
Thermal Lens Parameters:
| Product Name | Infrared Aiming Lens |
| Focal Length | 50mm |
| F# | 1.0 |
| Material | Chalcogenide, ZnSe(Zinc Selenide), ZnS(Zinc Sulfide), Si(Silicon) |
| Detector | 384x288-17um |
| Average Transmission | >88% |
| Circular FOV | (H)8.8°x(V)7°x(D)11.2° |
| Back Focus Distance | 5.54mm |
| Dimensions | 61.91mm / 66.21mm |
| Focus Type | Manual Focus |
| Focus Range | 1m to infinity |
| Mount Type | Flange |
| Weight | 162g |
| Operating Temperature | -20℃ to +60℃ |
| Storage Temperature | -40℃ to +80℃ |
| External Coating | DLC / AR Coating Available |
Infrared Lens Processing Equipment:
1. Inner carving test platform;
2. Microscope;
3. Opto Tech aspheric processing;
4. Polishing machine;
5. Thickness Gauge;
6. Ultrasonic Cleaner;
7. Workshop;
8. Interferometer;
9. High and low tempera ture test chamber;
10. High polishing machine;
11. Optical bench;
12. Raul milling;
13. Atomic force microscope;
14. Centralinstrument;
15. Hand Grinding and Polishing Machine;
Thermal Lens Description:
1. Focal Length 50mm F1.0 Infrared Aiming Germanium Lens For 384x288-17um Detector
2. 8-12um Long Wave Infrared Thermal Lens Apply to Thermal Imager, Infrared Camera, Monitor Camera, etc.
3. Infrared multi-layer coating technology, also known as IR Coating, is a technique that enhances the clarity of images by reducing light scattering loss and increasing the lens' light transmittance.
4. This technology specifically improves the anti-reflection of light waves within the wavelength range of 750-1000nm. As a result, the lens surface typically appears in a dark green shade.
5. By improving the near-infrared light transmittance, IR Coating acts as an additional benefit for infrared lenses, ensuring high-definition results.
Thermal Lens Parameters:
| Product Name | Infrared Aiming Lens |
| Focal Length | 50mm |
| F# | 1.0 |
| Material | Chalcogenide, ZnSe(Zinc Selenide), ZnS(Zinc Sulfide), Si(Silicon) |
| Detector | 384x288-17um |
| Average Transmission | >88% |
| Circular FOV | (H)8.8°x(V)7°x(D)11.2° |
| Back Focus Distance | 5.54mm |
| Dimensions | 61.91mm / 66.21mm |
| Focus Type | Manual Focus |
| Focus Range | 1m to infinity |
| Mount Type | Flange |
| Weight | 162g |
| Operating Temperature | -20℃ to +60℃ |
| Storage Temperature | -40℃ to +80℃ |
| External Coating | DLC / AR Coating Available |
Infrared Lens Processing Equipment:
1. Inner carving test platform;
2. Microscope;
3. Opto Tech aspheric processing;
4. Polishing machine;
5. Thickness Gauge;
6. Ultrasonic Cleaner;
7. Workshop;
8. Interferometer;
9. High and low tempera ture test chamber;
10. High polishing machine;
11. Optical bench;
12. Raul milling;
13. Atomic force microscope;
14. Centralinstrument;
15. Hand Grinding and Polishing Machine;
