Aspherical Lenses Aspherical lenses are advanced optical components designed to focus or collimate light without the spherical aberration common in simple lenses. By having a non-spherical shape, they efficiently correct for optical distortions, allowing for better image quality and tighter focus of light beams. This makes aspherical lenses invaluable in applications requiring high precision, such as in laser systems, imaging devices, and optical instruments. Their unique design enables compact, lightweight optical assemblies, enhancing performance in a wide range of technological and scientific applications. Types of Aspherical Lenses Asphere Lenses Asphere lenses minimize spherical aberration, enhancing optical performance for sharper imaging and efficient light focusing in compact designs. Precision Polishing Aspherical Lens Precision polishing of aspherical lenses ensures superior optical clarity and accuracy, critical for high-performance imaging and laser applications. IR Asphere Lenses IR asphere lenses optimize infrared light focusing, improving thermal imaging and laser system performance with minimal aberrations. Parabolic Mirrors Parabolic mirrors focus light into parallel beams, eliminating spherical aberration, ideal for telescopes, solar collectors, and high-intensity applications.
Achromatic triplet lenses minimize Seidel aberrations, usually by gluing three lenses together or mounting three lenses in a housing. Suitable for measurement and imaging applications such as projection, photography, fluorescence microscopy, image relay, inspection, spectroscopy, etc. After milling, fine grinding, grinding and polishing, the single lens in the glued lens can reach the optical surface accuracy â?¤0.1 micron, and the surface roughness Raâ?¤0.01 micron. The three lenses are glued to three lenses, and the achromatic triplet lens is glued by using a centering device with a curing device with UV photosensitive adhesive for precision bonding and eccentricity testing. Specifications of Achromatic Triplet Lenses Achromatic Triplet Lenses product parameter table Project Indicator requirements 1.Material A variety of high and low refractive index optical glass, ultraviolet fused quartz elements, optical quartz and other materials 2.Outer Diameter Round OD 300mm, Square L W 210 210mm ±0.05mm 3.Center Thickness T100mm 0.02 or according to customer requirements 4. Effective focal length according to customers needs 5. Working distance according to customers needs 6. Design wavelength according to customers needs 8.Coating AR anti-reflection coating R < 0.5%@ nm according to customers needs 9.eccentricity according to customers needs 10. Effective aperture ED 90% aspherical area 11. Surface Shape Ultra-high precision Rt 0.1 m, high-precision Rt 0.5 m, precision Rt m 12.Surface quality 60-40, 40-20, 20-10, 10-5
Optimum is a registered Turkish brand, which is made in Turkey as well. Our frames are made of 1st class TR90 Gliamid material so they are quite flexible, durable and also lightweight.
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1 Large aperture: Large aperture lenses can shoot in low-light environments for better depth of field control and background blurring. This is very helpful for portrait photography and shooting in low light environments. 2 Infrared function: The infrared lens can capture the infrared band that the human eye can not see, and can shoot a unique infrared effect. This is useful in artistic creation and some special application scenarios. 3 Night vision: Infrared lenses can also shoot in dark environments, often used in surveillance, field exploration and other scenes. It can supplement the lack of vision of the human eye. 4 Privacy protection: In some occasions with privacy requirements, infrared lenses can avoid visible light and shoot, which plays a certain role in privacy protection. 5 High-end image quality: Large aperture infrared lenses usually use high-end optical design and manufacturing processes to ensure image quality, including sharpness, color reproduction, etc F/NO 1.4 SENSOR 1/2.5 EFL 8 FOV 50D
1 Accurate depth information: The TOF camera can provide up to 300,000 depth information points, which is more accurate and rich than traditional binocular vision, helping to build high-precision 3D models. This is very important in scenarios such as autonomous driving and robot navigation. 2Anti-environmental interference :TOF cameras can maintain good depth perception performance in complex environments, such as direct sunlight and haze, overcoming the limitations of traditional vision systems. 3 Cost advantage: As the cost of TOF chips and components declines, the overall cost of TOF cameras is also decreasing, which is conducive to large-scale commercial applications. 4 Wide application prospects: In addition to the fields of autonomous driving, robotics, and medical care you mentioned,TOF technology can also be applied to 3D modeling, AR/VR, human-computer interaction, security monitoring and other fields, with broad prospects. SENSOR 1/4.5 GTO F0503 F/NO 1.2 EFL 1.93 FOV 109.6
Shot with advanced 8K Ultra HD cameras, capturing aerial footage with stunning detail and full color for a stunning visual experience Wide color gamut imaging technology delivers natural, rich, layered aerial photography, making beautiful scenery appear. Dynamic aerial photography is combined with static panoramic shots to show a multi-dimensional perspective from the overlook to the ground, allowing you to experience the dynamic charm of the city and nature. Professional aerial photography equipment with the operation of senior aerial photography team, to capture stable and smooth aerial pictures, for you to present a visual feast. High-quality aerial photography equipment to achieve a variety of angles of shooting, overlooking, circling, showing the charm of the scenery in all aspects, take you to enjoy the shock of different perspectives. SENSOR 1/2 IMX586 48mp F/NO 2.8 EFL 14
Achromatic cylindrical lens optical glass material
1 Focal length adjustment flexibility: The focal length can be manually adjusted from wide Angle to telephoto to meet the needs of different shooting scenes.Creative space for more composition and perspective. 2 Aperture control: Aperture size can be manually adjusted to control depth of field and exposure. A large aperture can blur the background, and a small aperture can increase the depth of field. In low light, exposure can be improved by increasing the aperture. 3 Reliability and durability: The mechanical structure is relatively simple, the failure rate is low, and the service life is long. It is also more reliable when working in harsh environments. EFL 5-50 F/NO 1.6IRIS SENSOR 1/2.5
1 Large sensor size: The one-inch sensor size provides a larger aperture with greater low light capability and shallower depth of field control. Picture quality, dynamic range, and noise performance are generally better than common 1/2.3 or 1/1.8 inch sensors. 2 High resolution: One-inch industrial lenses typically support high-resolution imaging of 12MP and above, which is suitable for applications that require high image quality and detail. 3 Wide view design: One-inch industrial camera lenses are often equipped with wide-angle designs with a field of view of 90 degrees or more, suitable for applications that require extensive coverage such as surveillance and machine vision. EFL 9 F/NO 1:2.4-16 IRIS FD 0.1---~~~
Large aperture: Large aperture lenses can shoot in low-light environments for better depth of field control and background blurring. This is very helpful for portrait photography and shooting in low light environments. 2 Infrared function: The infrared lens can capture the infrared band that the human eye can not see, and can shoot a unique infrared effect. This is useful in artistic creation and some special application scenarios. 3 Night vision: Infrared lenses can also shoot in dark environments, often used in surveillance, field exploration and other scenes. It can supplement the lack of vision of the human eye. 4 Privacy protection: In some occasions with privacy requirements, infrared lenses can avoid visible light and shoot, which plays a certain role in privacy protection. 5 High-end image quality: Large aperture infrared lenses usually use high-end optical design and manufacturing processes to ensure image quality, including sharpness, color reproduction, etc F/NO 1.4 SENSOR 1/2.5 EFL 8 FOV 50D
Model:SHG378AF02BW Depth perception :3D machine vision lenses can perceive the three-dimensional depth information of the scene, which is more rich than 2D cameras. This is helpful for application scenarios that require accurate measurement of size and position, such as industrial automation, robotic navigation, and more. Stereoscopic imaging :3D machine vision lenses can obtain real stereoscopic images, and can provide better visual experience than 2D in some application scenarios, such as medical imaging, virtual reality, etc. Occlusion resistance: Compared to 2D cameras,3D machine vision lenses can better handle occlusion problems and improve the reliability of object detection and tracking. Rich application scenarios :3D machine vision technology is not only used in industrial automation, but also widely used in medical imaging, entertainment interaction, intelligent transportation and other fields. F/NO 1.2 EFL 0.9 SENSOR 1/4 FOV 158D
microscope camera lens, with its outstanding optical design, provides you with unmatched microscopic images. The ultra-high magnification rate of more than 1000 times allows you to explore the magical details of the microscopic world; The high-definition, high-resolution imaging effect captures every detail of the picture. Whether it is bright field, dark field or phase contrast viewing mode, this lens is flexible to provide you with the best microscopic imaging experience. The digital image processing function allows you to easily collect, store and analyze the observed microscopic images. The lightweight and portable design makes this lens perfect for your microscope anytime, anywhere. Explore the endless mysteries of the microscopic world, starting with this microscope camera lens. TTL 40 SENSOR 1/1.8 Sc2210 RATE 8-1000X
Inspection methods 1. Staff: The appearance of the inspectors to be trained and the capacity of normal color vision, Its vision to achieve more than 1.0 (after correction can also be reached more than 1.0), Color vision capability should be available through standard tests. 2. Tool: Connect the computer, Testing images withAmcap software. 3. Distance and Time: Observation distance: 60cm, Observation time for each surface: 3 ~ 5seconds 4.Test condition: Visual inspection should be conducted under anti-glare fluorescent lamp with min 100 feet candela luminace, or under 60 watt fluorescent lamp of 1.5m distance. Accept criteria 1. The image has no mess, color screen and discoloration. 2. There is no white spot, black spot, dirt or dark angle in the image. 3. The image is same clear on all cornors Test methods 1. Staff: The appearance of the inspectors to be trained and the capacity of normal color vision, Its vision to achieve more than 1.0 (after correction can also be reached more than 1.0), Color vision capability should be available through standard tests. 2. Distance and Time: Observation distance: 30 ~ 40cm, Observation time for each surface: 3 ~ 5seconds 3. Test condition: Visual inspection should be conducted under anti-glare fluorescent lamp with min 100 feet candela luminace, or under 60 watt fluorescent lamp of 1.5m distance. 4. Observation angle: Observation angle between 40~ 50
Diameter: from 0.5mm to 2500mm,Surface Quality: 10-5 S/D... Material::BK7, fused silica, borofloate, CaF2, MgF2, Ge, Si, ZnSe, ZnS, SF, LaF, BaK... Coating: AR coating,Al/Au reflective coating,BBAR coating,DLC coating,Dielectric HR coating... Application: In the field of Defence,Imaging,medical,laser,sensor,Biochemical.. Features: Optical Dome Port Lenses provide protective boundaries while allowing for a clear view between two environments. An optical dome is a lens with two concentric spheres. Sometimes they are referred to as curved planar parallel plates. Benefits: Improved Optical Clarity: Glass optical domes provide superior optical clarity due to their high transmission capabilities in both the visible and infrared spectrums. They can also be coated with anti-reflective coatings to minimize the amount of light scattering and unwanted reflections, ensuring the transmission of higher-quality images. Durable and Stable: Glass optical domes are strong, stable, and long-lasting. They can withstand harsh weather conditions, such as heavy rain and strong winds, and extreme temperature fluctuations. As a result, glass optical domes are suitable for outdoor applications. Customizable Shapes and Sizes: Glass optical domes can be fabricated into various shapes and sizes, depending on the intended application. Glass optical domes can be molded or cut into custom shapes required for specific optical applications.
Lens: Diameter from 0.5mm to 2500mm,Surface Quality: 10-5 S/D... Material::BK7, fused silica, borofloate, CaF2, MgF2, Ge, Si, ZnSe, ZnS, SF, LaF, BaK... Coating: AR coating,Al/Au reflective coating,BBAR coating,DLC coating,Dielectric HR coating... Application: In the field of Defence,Imaging,medical,laser,sensor,Biochemical... Features: Germanium (Ge) Optical Components are used in many Infrared (IR) applications or systems, including thermal imaging, spectroscopy, or with monochromatic light sources such as quantum cascade lasers. German (Ge) Optical Components are Optical Components designed for high performance in the Infrared (IR) spectrum without the use of Infrared (IR) anti-reflection coatings. Germanium (Ge) Optical Components can range from Optical Lenses to Prisms or Optical Filters. Benefits: High transmission and low dispersion for superior image quality Precise focal length for accurate focus and optimal clarity Durable and rugged design for long-lasting performance Customizable mounting options for easy integration
A Telecentric lens is a kind of lens that the chief rays are parallel to the optical axis. There are three kinds of telecentric lens, that is the object-space telecentric lens, image-space telecentric lens, and the bi-telecentric lens. Telecentric lens is always the core business of� Canrill Lens. After continuous research and development for 11 years, Canrill has successfully developed 1700+ kinds of lenses, and the number is still increasing, to meet the diverse and growing applications at the best telecentric lens price. Difference Between Object Space Telecentric Lens And Bi Telecentric Lens Telecentric lenses have two types of telecentricity: telecentric objective space and image space telecentricity (referring to the entrance and exit pupil positions, respectively). Therefore, telecentric lenses are divided into: object space telecentric lens, image space telecentric lens, and bi telecentric lens. Object Space Telecentric Lens In general, a machine vision telecentric lens refers to an object space telecentric lens. If the entrance pupil of the lens is located at an infinite position in the image side (all objects behind the objective lens), it can be called an object space telecentric lens.� The chief ray originated from optical axis is parallel with optical axis in object side ( or to say have very small angle �¸ which is called telecentricity in telecentric lens specs), while in image side is not parallel. china bi telecentric lens with entrance pupil projected to infinity on the image side In the optical design, object space telecentricity is achieved by placing the system's iris diaphragm at the intersection of the front-end groups. Since the entrance pupil is at infinity, the field of view is constant and has no field angle. Since the chief ray (which defines the system's field of view) passes through the optical axis at the aperture stop, when the pupil is at infinity, the ray is parallel to the optical axis and the field of view is zero. By contrast, any entrance pupil within a finite distance of the lens results in a non-parallel fiber.
Telecentric illuminator is of great significance to the image processing system. Providing stable and reproducible illumination conditions, the telecentric illuminator produced by Canrill can help the image processing tools, such as our� machine vision telecentric lens, to better capture the visual image of the object. Better clarity and WBC, higher telecentricity Especially suitable for round workpiece measurement Machine Vision Illuminator Specification Telecentric Illumination Regarding the illumination techniques in machine vision, the concept of telecentric light rays collimating and parallel to the optical axis also applies. Canrill telecentric illuminator machine uses optical devices to direct light from fiber-optic guides or LEDs to the object being examined, producing high-contrast silhouettes. TV central luminescence improves edge contrast and measurement accuracy by reducing diffuse reflection from objects. The collimating light leaves the illuminator and remains on the collimating surface as it strikes the object. In contrast, light from a standard backlight expands and interferes with each other, resulting in diffuse reflection. If you are looking for a reliable lens manufacturer, don't hesitate to contact us!
Payments:T/T Delivery:2days for stock,OEM about 3-5weeks Origin:CHINA Packing:optical package Inspection:MIL Samples:Charge Sample Price:$0.10 UPT can offer high specs of C lens, Dimension as 1.0-3.5mm, detail specs of C lens material :N-SF11,N-BK7,H-K9L,7980OF or other optical glass dimension tolerance:+ 0.000 / -0.010 mm, for example 0.500-3.50 mm Thickness tolerance:±0.02mm CA:> 90% Focal length tolerance :±3% design wavelength :632.8nm SQ :S/D 40-20 or 20-10 Flatness:
Payments:T/T Delivery:2days for stock,OEM about 3-5weeks Origin:CHINA Packing:optical package Inspection:MIL Samples:Charge Sample Price:$0.10 Spherical lens Achromatic Lenses Cylindrical Lenses Lenses Lenses have many applications ranging from the simple collection of a laser beam to precision imaging and image transfer. Lenses are classified as single lenses, cylindrical lenses and achromatic lenses. These lenses are made of BK7, fused silica and CaF2. Special focusing systems can be designed by our engineers upon request. Spherical lens LENSE TYPE MATERIALS ILLUSTRATION .. Read more Achromatic Lenses These lenses are made of BK7, fused silica and CaF2. Special focusing systems can be designed by our engineers upon request. LENSES .. Read more Cylindrical Lenses Cylindrical lenses are used to correct astigmatism in the eye and in rangefinders, to produce astigmatism, stretching a point of light into a line, they are widely used in bar code scanning, projectio.. Read more LENSE TYPE MATERIALS ILLUSTRATION PROPERTIES AND APPLICATIONS Plano-Convex Lens BK7/ Fused Silica/ Sapphire CaF2/other optical glass Positive focus length. Most suitable where one conjugate is more than five times the other, e.g. in sensor applications or for use with near collimated light. Also where both conjugates are on the same side of the lens, e.g. as an add-on lens to increase the numerical aperture. Double-Convex Lens BK7/ Fused Silica/ Sapphire CaF2/other optical glass Most suitable where the conjugates are on opposite sides of the lenses and the ratio of the distances is less than 5:1, e.g. as simple image relay components. Plano-Concave Lens BK7/ Fused Silica/ Sapphire CaF2/other optical glass Negative lens with the form most suitable where one conjugate is more than five times the other, e.g. producing divergent light from a collimated input beam. Double-Concave Lens BK7/ Fused Silica/ Sapphire CaF2/other optical glass Negative lens with the form most suitable to producing divergent light or a virtual image, where the input light is converging. Positive Meniscus Lens BK7/ Fused Silica/ Sapphire CaF2/other optical glass These lenses may be used to increase the numerical aperture of a positive lens assembly, without an undue increase in the aberrations. Negative Meniscus Lens BK7/ Fused Silica/ Sapphire CaF2/other optical glass These lenses may be used to increase the numerical aperture of a positive lens assembly, without an undue increase in the aberrations. Mount For Lenses Black Anodized Aluminum Used to fix position of lenses.Surface irregularity < �»/4 < �»/8 Protective bevel 0.25 + 0.25, -0.0mm 0.2 ± 0.1mm
