List of Optical Components products
- classification:Optical Components
2191~2205 item / All 4804 items
Achieves high collection efficiency through electrostatic methods. Offers a wide range of products from large to small sizes. Also compatible with water-soluble oil mist.
- air conditioning
◆Quick simultaneous Type A/B/C polarity diagnosis and loss testing◆Simple operability using a touch panel◆Compact and lightweight
- Other optical parts
- Other measurement, recording and measuring instruments
- Other physicochemical equipment
It is a high light-transmitting ITO coating that combines an ITO film (transparent conductive film) with a dielectric multilayer anti-reflective film. It prevents condensation while allowing high tran...
- Other optical parts
- Sensors
- Surveillance Cameras
Added ITO/Near Infrared AR Coat to the Aronics sheet.
A technology that simultaneously imparts conductivity and near-infrared optical properties to rigid resin optical components. In recent years, with the proliferation of automotive LiDAR and various infrared sensors, the demand for optical components that achieve both high transmittance and low reflectance in the 905nm band has rapidly increased. Especially in sensing using ToF methods or pulsed lasers, even slight reflection losses or scattering directly affect detection accuracy, making wavelength-specific optical design essential. On the other hand, the cover materials that protect these sensors from external environments require specific characteristics of resin materials, such as mechanical strength, impact resistance, dimensional stability against temperature changes, processability, and suitability for mass production, making the coexistence of optical and mechanical properties a significant design challenge. At Adachi New Industries, we have established a composite thin-film process that combines the acrylic resin material "Alonix Sheet" from Toa Gosei Co., Ltd. with the following. Please check our company website for more details.
◆ Individually measure the optical power of each lane of the optical transceiver ◆ Compatible with 400G LR4, SR8, DR8, FR8, LR8/ER8
- Other optical parts
- Other measurement, recording and measuring instruments
- Other physicochemical equipment
It is an optical thin-film filter that reduces the reflectance at specific wavelengths and improves transmittance. By increasing the amount of light, it contributes to energy saving and power reductio...
- Other optical parts
- lens
- Sensors
Added 'Co-creation Proposal! Drone x Optical Thin Film' as a technology trend keyword.
The areas where drones are active are rapidly expanding from surveying, infrastructure inspection, agriculture, logistics, and disaster prevention to defense and security fields in recent years. In addition to the demand for high-precision sensing in the private sector, the requirements for optical systems mounted on drones are becoming increasingly stringent in defense applications such as border surveillance, information gathering, search and rescue, and unmanned operational support. While the miniaturization and weight reduction of the aircraft are progressing, the proposition of "obtaining more precise information in harsher environments" remains unchanged. One key to solving this contradiction is optical thin film technology. Optical thin films, which control the reflection, transmission, and blocking of light at the nanometer level, are a technology that fundamentally enhances the performance of mounted sensors across the visible light, near-infrared, and thermal infrared ranges. We will introduce the role that optical thin films play in drone development from the perspectives of industry, agriculture, and defense. 1. What are optical thin films? — Basic knowledge for drone developers 2. By field: The roles played by optical thin films 3. Featured technology: 8-14μm band infrared AR coating 4. Quick reference table for utilization images by development phase 5. Proposal for co-creation — Let's start together from a prototype For more details, please refer to our company website.
◆14-pin butterfly package ◆Wideband, high output ◆Built-in power monitor function included
- Other optical parts
- Other physicochemical equipment
◆Narrow linewidth <2MHz ◆Excellent center wavelength accuracy ◆Mode-hop free
- Other optical parts
- Other semiconductors
- Other physicochemical equipment
It is an optical filter that cuts ultraviolet and infrared light while having a high transmittance in the visible light range.
- Other optical parts
- Surveillance Cameras
- Sensors
Co-creation proposal! Added 'Education, Research, STEAM × Optical Thin Films' as a technology trend keyword.
In recent years, "STEAM education" has rapidly spread in educational settings, increasing the importance of experimental environments and measurement technologies for experiential learning in science and technology. Among these, spectroscopic techniques that analyze substances and environments using light have gained attention. Not only in cutting-edge research fields such as spectroscopic measurement, laser experiments, and biosensing, but also in universities, technical colleges, and high schools, there has been an increase in experiments utilizing optical technologies. The foundation of these technologies is optical thin films (optical filters) that control the wavelength of light. Optical thin films significantly improve the accuracy of spectroscopic measurements and optical sensing by allowing only specific wavelengths to pass through or by blocking unwanted light. Furthermore, they hold potential as educational materials that enable intuitive understanding of the physics of light through phenomena such as interference and structural colors. 1. Compatibility of STEAM education and optical technology 2. Optical thin films used in education and research fields 3. Custom optical thin films required for research applications 4. Potential of optical thin films as educational materials 5. Co-creation proposal: New initiatives with educational and research institutions Optical thin films are materials that connect "learning" and "technology." For more details, please refer to our company website.
It is a filter that efficiently cuts (reflects) short-wavelength UV (ultraviolet) light while allowing visible light to pass through.
- Sensors
- Other optical parts
- Lighting for image processing
Added 'Co-creation Proposal! Drone x Optical Thin Film' as a technology trend keyword.
The areas where drones are active are rapidly expanding from surveying, infrastructure inspection, agriculture, logistics, and disaster prevention to defense and security fields in recent years. In addition to the demand for high-precision sensing in the private sector, the requirements for optical systems mounted on drones are becoming increasingly stringent in defense applications such as border surveillance, information gathering, search and rescue, and unmanned operational support. While the miniaturization and weight reduction of the aircraft are progressing, the proposition of "obtaining more precise information in harsher environments" remains unchanged. One key to solving this contradiction is optical thin film technology. Optical thin films, which control the reflection, transmission, and blocking of light at the nanometer level, are a technology that fundamentally enhances the performance of mounted sensors across the visible light, near-infrared, and thermal infrared ranges. We will introduce the role that optical thin films play in drone development from the perspectives of industry, agriculture, and defense. 1. What are optical thin films? — Basic knowledge for drone developers 2. By field: The roles played by optical thin films 3. Featured technology: 8-14μm band infrared AR coating 4. Quick reference table for utilization images by development phase 5. Proposal for co-creation — Let's start together from a prototype For more details, please refer to our company website.
It is a dielectric multilayer film filter that transmits visible light and reflects near-infrared light.
- Other optical parts
- Color camera
- Sensors
Added 'Co-creation Proposal! Drone x Optical Thin Film' as a technology trend keyword.
The areas where drones are active are rapidly expanding from surveying, infrastructure inspection, agriculture, logistics, and disaster prevention to defense and security fields in recent years. In addition to the demand for high-precision sensing in the private sector, the requirements for optical systems mounted on drones are becoming increasingly stringent in defense applications such as border surveillance, information gathering, search and rescue, and unmanned operational support. While the miniaturization and weight reduction of the aircraft are progressing, the proposition of "obtaining more precise information in harsher environments" remains unchanged. One key to solving this contradiction is optical thin film technology. Optical thin films, which control the reflection, transmission, and blocking of light at the nanometer level, are a technology that fundamentally enhances the performance of mounted sensors across the visible light, near-infrared, and thermal infrared ranges. We will introduce the role that optical thin films play in drone development from the perspectives of industry, agriculture, and defense. 1. What are optical thin films? — Basic knowledge for drone developers 2. By field: The roles played by optical thin films 3. Featured technology: 8-14μm band infrared AR coating 4. Quick reference table for utilization images by development phase 5. Proposal for co-creation — Let's start together from a prototype For more details, please refer to our company website.
We offer mirrors that combine reflective performance and cost-effectiveness. The main feature is that they have low dependence on the angle of incidence.
- mirror
- Plastic processing machines (cutting and rolling)
- Sensors
Added 'A Comprehensive Comparison of Metal Mirrors in 5 Minutes!' to the technology trend keywords.
Among optical components, metal mirrors possess characteristics such as "broadband and stable reflection performance," "minimal variation in properties with respect to incident angle," and "excellent durability," making them a crucial factor that influences the reliability of devices. They can cover not only visible light but also infrared (IR) and even ultraviolet (UV) regions, leading to their widespread adoption from fundamental research to industrial applications. In this article, we will thoroughly compare the types of representative metal mirrors and their features, clearly organizing selection points based on applications and purposes. We aim to provide helpful information for those wondering, "Which metal is best suited for my device?" 1. The mechanism of metal mirrors and representative coating materials 2. Evaluation criteria for major metal mirrors 3. Aluminum mirrors (Al) 4. Silver mirrors (Ag) 5. Gold mirrors (Au) 6. Aluminum enhanced mirrors (Al Enhanced Mirror) 7. Recommended metal mirrors by application (selection guide based on technical background) 8. The added value that Adachi New Industry can provide (technology + proposal capability)
◆Adjustable output between 10% and 100%◆With protection features for overcurrent/voltage/temperature
- Other optical parts
- Other physicochemical equipment
◆ Wavelength stability: 0.02nm/℃, 0.05nm/A ◆ Spectral width: <0.5nm ◆ 0.22NA fiber
- Other semiconductors
- Laser Components
- Other optical parts
Han's TCS is a company that sells semiconductor laser modules and systems with fiber couplings.
- Other semiconductors
- Other optical parts
- Other physicochemical equipment
◆1.25 to 11.3 Gbps ◆Compact 4mm x 4mm QFN28 package ◆Constant current (200mW chip power)
- Other optical parts
- Other physicochemical equipment
◆11.3Gbps TIA 10G APD◆Automatic Gain Controller included Ultra High Sensitivity TIA◆Compact die size
- diode
- Other optical parts
- Other measurement, recording and measuring instruments