English  |
RSA35F1.0-640-17-WR
Rising
Infrared Athermal Lens Description:
Focal Length 35mm F1.0 Infrared Athermal Lens For 640x512-17um Detector
8-12um Long Wave Infrared Germanium Optical Lens For Drone Monitor.
Application of infrared lens:
With the rapid development of infrared optical technology, infrared lenses are increasingly used in civil, industrial, military and other fields.
Because temperature changes will affect the surface shape of the infrared lens optical components, the refractive index of the optical components, the focal shift of the lens, etc., resulting in poor imaging quality and blurring of the lens. Image and contrast are reduced.
Therefore, athermalization design is one of the essential links in the design process of infrared lens.
Infrared Athermal Lens Parameters:
| Product Name | Infrared Athermal Lens |
| Focal Length | 35mm |
| F# | 1.0 |
| Image Diagonal | 13.93mm(Pixel 17um) |
| Detector | 640x512-17um |
| Circular FOV | (H)17.7°x(V)14°x(D)22° |
| Back Focus Distance | 13mm |
| Back Working Distance | 8mm |
| Back Focus Length | 11.64mm |
| Dimensions | 42mm / 41.8mm |
| Focus Type | Fixed Focal |
| Focus Range | 0.5m to infinity |
| Mount Type | M25x0.5 |
| Weight | 100g |
| Operating Temperature | -40℃ to +80℃ |
| Storage Temperature | -40℃ to +80℃ |
| External Coating | 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;
FAQ:
What Is An AR Coating?
Anti-reflective coating (English: Anti-reflective coating, AR) is a surface optical coating that increases transmittance by reducing light reflection. In complex optical systems, it can improve contrast by reducing scattered light in the system.
Many coatings include transparent film structures with different refractive indices. The thickness of the film determines the wavelength of the reflected light that it acts on. When light is reflected twice on the AR coating, it will interfere with the original reflected light, thereby weakening the reflected light. According to the conservation of energy, the energy of light does not change. Therefore, when the reflected light decreases, the transmitted light increases. This is the principle of AR coating. Generally, when choosing an AR coating, you need to determine the wavelength, such as infrared, visible and ultraviolet.
Infrared Athermal Lens Description:
Focal Length 35mm F1.0 Infrared Athermal Lens For 640x512-17um Detector
8-12um Long Wave Infrared Germanium Optical Lens For Drone Monitor.
Application of infrared lens:
With the rapid development of infrared optical technology, infrared lenses are increasingly used in civil, industrial, military and other fields.
Because temperature changes will affect the surface shape of the infrared lens optical components, the refractive index of the optical components, the focal shift of the lens, etc., resulting in poor imaging quality and blurring of the lens. Image and contrast are reduced.
Therefore, athermalization design is one of the essential links in the design process of infrared lens.
Infrared Athermal Lens Parameters:
| Product Name | Infrared Athermal Lens |
| Focal Length | 35mm |
| F# | 1.0 |
| Image Diagonal | 13.93mm(Pixel 17um) |
| Detector | 640x512-17um |
| Circular FOV | (H)17.7°x(V)14°x(D)22° |
| Back Focus Distance | 13mm |
| Back Working Distance | 8mm |
| Back Focus Length | 11.64mm |
| Dimensions | 42mm / 41.8mm |
| Focus Type | Fixed Focal |
| Focus Range | 0.5m to infinity |
| Mount Type | M25x0.5 |
| Weight | 100g |
| Operating Temperature | -40℃ to +80℃ |
| Storage Temperature | -40℃ to +80℃ |
| External Coating | 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;
FAQ:
What Is An AR Coating?
Anti-reflective coating (English: Anti-reflective coating, AR) is a surface optical coating that increases transmittance by reducing light reflection. In complex optical systems, it can improve contrast by reducing scattered light in the system.
Many coatings include transparent film structures with different refractive indices. The thickness of the film determines the wavelength of the reflected light that it acts on. When light is reflected twice on the AR coating, it will interfere with the original reflected light, thereby weakening the reflected light. According to the conservation of energy, the energy of light does not change. Therefore, when the reflected light decreases, the transmitted light increases. This is the principle of AR coating. Generally, when choosing an AR coating, you need to determine the wavelength, such as infrared, visible and ultraviolet.
