List of Image Processing products
- classification:Image Processing
6856~6870 item / All 14991 items
It is a historic chemical products trading company founded in the 7th year of the Taisho era, and at the same time, it is a technology company that performs cutting-edge processing such as optical thi...
- Sensors
- Laser Components
- Surveillance Cameras
Added to the technology trend keywords: 'Why thin film metallization is necessary for electrochemical analysis chips in 5 minutes!'
Electrochemical analysis chips are devices that utilize electrical signals such as voltage and current to read chemical reactions. The chip is equipped with working electrodes, counter electrodes, and reference electrodes, allowing for the highly sensitive detection of redox reactions occurring in solution. In recent years, compact devices combining microfluidic technology and MEMS technology have become widespread, rapidly expanding their use in medical POCT (Point of Care Testing), environmental monitoring, food testing, and life sciences. In these applications, there is a demand for higher sensitivity, miniaturization, multiplexing, and speed of detection, and essential to achieving this are the miniaturization of electrode structures and the formation of high-quality metal thin films, namely thin film metallization technology. ◆ Key to electrochemical analysis: The quality of data is determined by the performance of the electrodes ◆ Thus, "thin film metallization" is necessary ◆ Technical points when performing thin film metallization ◆ Examples of performance improvements brought by thin film metallization ◆ Future trends: Demand accelerating with POCT and wearables ◆ The inseparable relationship between electrochemical analysis chips and thin film technology For more details, please check our company website.
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
"I will provide a thorough explanation about ITO (transparent conductive film)!" has been added to the technical trend keywords.
ITO (Indium Tin Oxide) is a special material that is transparent yet possesses high conductivity, making it indispensable in modern display technology, touch panels, and solar cells. In recent years, the demand for ITO has rapidly increased alongside the proliferation of smartphones and flat panel displays. This time, we will provide a detailed explanation of the properties, applications, and manufacturing methods of ITO, and introduce the unique ITO proposals from Adachi New Industry. Please see how ITO, which is transparent yet conducts electricity, supports our daily lives. 1. Summary of ITO properties 2. Applications of ITO 3. Manufacturing methods of ITO 4. Features of ITO from Adachi New Industry For more details, please visit our company website.
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
I have added 'A Comprehensive Explanation of UV-IR Cut Filters in 5 Minutes!' to the technical trend keywords.
The UV-IR cut filter is an optical thin-film filter that selectively removes unwanted light in the ultraviolet (UV) and infrared (IR) wavelength ranges, allowing only specific wavelength bands of light to be transmitted or reflected with high precision. This filter achieves wavelength selectivity by utilizing interference effects through the precise layering of multilayer dielectric films and metal films. Generally, it requires control of film thickness on the order of nanometers, exceeding several tens to over a hundred layers, and its optical properties are determined by multiple parameters such as film thickness accuracy, refractive index of the film material, smoothness of the film interfaces, and adhesion of the films. 1) What is a UV-IR cut filter? 2) Historical background of UV-IR filter manufacturing in Japan 3) Why has overseas manufacturing of UV-IR cut filters progressed? 4) If UV-IR cut filters were to be produced again in Japan... necessary points (hypothesis) 5) Technically important points when selecting UV-IR cut filters 6) Future prospects Conclusion - The efforts of Adachi New Industry Co., Ltd. to focus on domestic production in Japan For more details, please visit our company website.
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
I have added 'Understanding Cutoff and Cut-On in 5 Minutes!' to the technical trend keywords.
Optical filters are important devices used to extract only the necessary wavelengths from light or to block unnecessary wavelengths. They are utilized in a wide range of fields, from cameras and displays that we commonly see, to spectroscopic analysis devices used in medical and bio fields, as well as in industrial applications such as laser processing and optical communication. Light encompasses a broad wavelength range, including ultraviolet, visible, and infrared light; if the desired light cannot be precisely controlled, it can lead to issues such as false detection, increased noise, and decreased image quality. This is where the concepts of "cut-on" and "cut-off" come into play. These concepts indicate the boundary where light begins to transmit and the boundary where transmission ends, forming the foundation of optical filter design. 1. Definition and Basic Principles of Cut-On and Cut-Off The most important parameters for correctly designing and evaluating optical filters are the "cut-on wavelength" and "cut-off wavelength." These are not just names; they are reference values that numerically define the effective performance of the filter, specifically which wavelength ranges are transmitted and which ranges are blocked. 2. Technical Points of Design and Control For more details, please visit 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
I have added 'Understanding Cutoff and Cut-On in 5 Minutes!' to the technical trend keywords.
Optical filters are important devices used to extract only the necessary wavelengths from light or to block unnecessary wavelengths. They are utilized in a wide range of fields, from cameras and displays that we commonly see, to spectroscopic analysis devices used in medical and bio fields, as well as in industrial applications such as laser processing and optical communication. Light encompasses a broad wavelength range, including ultraviolet, visible, and infrared light; if the desired light cannot be precisely controlled, it can lead to issues such as false detection, increased noise, and decreased image quality. This is where the concepts of "cut-on" and "cut-off" come into play. These concepts indicate the boundary where light begins to transmit and the boundary where transmission ends, forming the foundation of optical filter design. 1. Definition and Basic Principles of Cut-On and Cut-Off The most important parameters for correctly designing and evaluating optical filters are the "cut-on wavelength" and "cut-off wavelength." These are not just names; they are reference values that numerically define the effective performance of the filter, specifically which wavelength ranges are transmitted and which ranges are blocked. 2. Technical Points of Design and Control For more details, please visit 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
I have added 'Understanding Cutoff and Cut-On in 5 Minutes!' to the technical trend keywords.
Optical filters are important devices used to extract only the necessary wavelengths from light or to block unnecessary wavelengths. They are utilized in a wide range of fields, from cameras and displays that we commonly see, to spectroscopic analysis devices used in medical and bio fields, as well as in industrial applications such as laser processing and optical communication. Light encompasses a broad wavelength range, including ultraviolet, visible, and infrared light; if the desired light cannot be precisely controlled, it can lead to issues such as false detection, increased noise, and decreased image quality. This is where the concepts of "cut-on" and "cut-off" come into play. These concepts indicate the boundary where light begins to transmit and the boundary where transmission ends, forming the foundation of optical filter design. 1. Definition and Basic Principles of Cut-On and Cut-Off The most important parameters for correctly designing and evaluating optical filters are the "cut-on wavelength" and "cut-off wavelength." These are not just names; they are reference values that numerically define the effective performance of the filter, specifically which wavelength ranges are transmitted and which ranges are blocked. 2. Technical Points of Design and Control For more details, please visit our company website.
A work analysis and improvement tool that combines AI (machine learning) and skeletal detection technology for visualizing and monitoring human tasks such as assembly work.
- Surveillance Camera System
- Image Processing Software
- Other assembly machines
Fabrik_PC: A PC strong in video editing tasks, equipped with RTX and designed for high durability for creators.
- Image Processing Equipment
- Encoder/Decoder
- Image Processing Software
This is an infrared wavelength filter optimized for optics, with plasma control technology enhanced to its limits.
- Surveillance Cameras
- Transport and handling robots
- Plastic processing machines (cutting and rolling)
"I will provide a thorough explanation about infrared windows!" has been added to the technical trend keywords.
"We will provide a thorough explanation of infrared windows!" has been added to the technical trend keywords. Optical windows used in the far infrared region (8-14μm) for infrared sensors, thermography, CO₂ lasers, and NDIR gas analysis require a balance of transmittance, environmental resistance, manufacturability, cost, and supply stability. In other words, it is a component that requires multi-axis evaluation of "optical performance × environmental resistance × manufacturability × economic viability × procurement capability," and selecting the optimal material according to the application influences the product's performance, reliability, and cost competitiveness. 1. The technical importance of far infrared windows 2. Optical properties and selection guidelines for representative far infrared window materials 3. What are the typical applications? 4. Trade friction and material availability: supply risks and trends in domestic production 5. A bridge to stable supply and future markets For more details, please check our company website.
Transmit HDMI signals with a single coaxial cable! HE01C supports re-extension as well!
- Image Transmission Equipment
- Other security and surveillance systems
- others
![[Information] Understanding Manufac...](https://image.mono.ipros.com/public/product/image/568/2000654437/IPROS36878556019800042245.png?w=280&h=280){kind=small}
Published are 4-step problem-solving methods utilizing simulations! DX technology that predicts the future and leads to optimal solutions.
- simulator
- Virtual Reality Related
- Other production management systems
The production simulator GD.findi MS will be renewed.
The production simulator GD.findi MS will be renewed on September 2, 2024. It will be transformed into a standalone version that runs the application on a single PC, making it easier to implement and enhancing security. For more details, please visit the solution site linked below.
Perfect for replacing visual inspections! Support all the way to environmental setup!
- Image Processing Software
- Defect Inspection Equipment
- Flaw detection testing
"Notice of Participation in the Industrial Exchange Exhibition 2023" Chuo Electric Instrument Manufacturing Co., Ltd.
We will be exhibiting at the "Industrial Exchange Exhibition 2023" held at Tokyo Big Sight for three days from November 20 (Monday) to November 22 (Wednesday). 【Details】 Exhibition Name: Industrial Exchange Exhibition 2023 URL: https://www.sangyo-koryuten.tokyo/ Dates: November 20 (Monday) to November 22 (Wednesday) 10:00 AM to 6:00 PM (until 5:00 PM on the 22nd) Venue: Tokyo Big Sight, West Exhibition Hall Booth Number: West Hall 3 & 4, National Zone All-52-10 Admission: Free, pre-registration required via the URL below Pre-registration URL: https://www.sangyo-koryuten.tokyo/pg2023/mypage/ ★ Online exhibition is also ongoing ★ Dates: November 6 (Monday) to November 29 (Wednesday) on the official website 【Main Exhibited Products】 "Portable Remote Monitoring System 'Smart i Catch'" https://www.e-cew.co.jp/products/smart_i_catch/ If you have any questions, please feel free to contact us.
Fully automated AI appearance inspection combining object detection and robotics.
- Image Processing Software
- Flaw detection testing
- Defect Inspection Equipment
We undertake design and development work in a wide range of fields such as semiconductors, automobiles, batteries, medical, and food.
- Machinery and equipment installation/dismantling/relocation
- Other cutting tools
- Other image-related equipment