About us

Since our inception in 1992, KUPO Optics has been at the forefront of the optical coatings and filters industry. With a steadfast commitment to quality, we've carved out a distinguished reputation, providing top-tier optical solutions. Our focus on maintaining high standards has positioned us as a leader in the professional optical filter market, catering to a diverse range of industries with unmatched expertise and precision.

State-of-the-art Facilities

Our dedication to excellence is reflected in our investment in cutting-edge production technology. Our arsenal includes advanced planetary coating machines, precise linear and laser cutting tools, and high-resolution spectrometers. This sophisticated equipment enables us to craft filters and coatings with exceptional accuracy and consistency, ensuring each product meets our stringent quality benchmarks.


Wide Range Applications

KUPO Optics' products find their application across a vast array of fields. We cater to sectors as diverse as medical and fluorescence imaging, machine vision, astronomy, defense systems, and entertainment. Our optical filters and coatings are integral in enhancing the performance and functionality of various devices and systems in these industries.


Flexibility and Customization

We understand the urgency and unique requirements of our clients. Our extensive inventory is poised to fulfill rush orders, demonstrating our commitment to responsive service. Furthermore, our seasoned R&D team is adept at developing bespoke filters tailored to meet the most exacting specifications, providing solutions that align perfectly with client needs.


KUPO Dichroic Filter

At KUPO Optics, the precision and consistency of our optical filters are a testament to our advanced coating chambers equipped with planetary revolution and Ion Assistant Deposition (IAD) technology. Adhering to MIL-M-13508C standards, our rigorous manufacturing process ensures each filter withstands environmental challenges, including abrasion, humidity, and flaking. Our commitment to quality is further solidified by our adherence to ISO 9001 standards, guaranteeing uniformity in all our products.
Our relentless pursuit of innovation is grounded in continuous research and development. We are dedicated to exploring new possibilities in optical solutions, striving to exceed expectations in both product quality and customer service. At KUPO Optics, your satisfaction is our priority. We welcome your inquiries and are committed to providing prompt and comprehensive responses to all your needs.


Machine Vision

Enhancing Machine Vision Systems with Precision Optical Filtering
Introduction to Machine Vision and the Role of Optical Filters
Machine vision is a transformative technology that has revolutionized the realm of industrial automation. By equipping machines with the power of sight, machine vision systems enable rapid, accurate, and non-contact analysis of objects for a variety of applications including inspection, guidance, identification, and measurement. At the core of these systems lies the integration of hardware and software components that work in unison to capture and interpret visual information, emulating human vision capabilities.
In such sophisticated systems, optical filters emerge as crucial components. Their primary function is to enhance the contrast or isolate specific wavelengths of light before they reach the camera sensor, thus greatly improving the quality of the captured images. With the right filters, machine vision systems gain enhanced clarity, reduced glare, and improved accuracy for flawless operation even under challenging conditions.
Let us delve into the pantheon of optical filters to uncover how each type can augment machine vision systems in industrial settings.
Dichroic Filters: Precision Wavelength Selection for Clarity and Contrast
Dichroic filters serve as spectral selectors, transmitting certain wavelengths of light while reflecting others. These filters are characterized by high precision and steep edges in their spectral response. In machine vision, dichroic filters can be utilized to:
● Reject Unwanted Light: Often used to prevent ambient light from overwhelming the sensor, ensuring that only the pertinent wavelengths are captured.
● Color Separation: Essential in applications requiring color recognition or sorting, dichroic filters can separate color channels for multi-color imaging systems.
● Fluorescence Applications: Enhance the contrast of fluorescent markers by precisely filtering the excitation and emission wavelengths.
Due to their durability and resistance to heat, dichroic filters are exceptionally suitable for industrial environments where high-intensity lighting or fluctuating temperatures are concerns.
IR Filters: Mastering Machine Vision Beyond the Visible Spectrum
Infrared (IR) filters selectively pass or block infrared wavelengths while controlling the passage of visible light. In a machine vision context, IR filters can be employed to:
● Enhance Material Contrast: Certain materials that look identical in visible light can be distinguished based on their IR reflectance or absorption characteristics.
● Reduce Ambient Light Noise: By blocking out visible light, IR filters can ensure machine vision relies solely on infrared illumination even in daylight conditions.
● Thermal Imaging: For applications that involve heat detection and monitoring, IR filters can be crucial in isolating the relevant thermal signatures.
The incorporation of IR filters is particularly beneficial for around-the-clock surveillance, quality control in manufacturing processes, and agricultural monitoring.
Polarization Filters: Controlling Light for Precision Imaging
Polarizing filters are employed in machine vision to control the state of polarization of the light reaching the camera. Their utility within machine vision includes the following:
● Glare Reduction: Polarizers mitigate reflections from shiny surfaces, which can cause incorrect readings by revealing the true surface features.
● Contrast Enhancement: Improve the contrast of an image in cases where polarization differences can be exploited, such as detecting stress patterns in transparent materials.
● Improved Visibility Through Transparent Objects: Polarizing filters can help machine vision systems see through glass or plastic containers, providing clarity in inspection tasks.
Polarizing filters are indispensable where reflections or birefringence effects may confound image analysis.
Bandpass Filters: Optimizing Detection for Specific Wavelength Regions
Bandpass filters are designed to transmit light within a certain wavelength band while blocking light from both lower and higher wavelengths. Within machine vision, these filters facilitate:
● Minimized Background Interference: By narrowing the spectrum of light reaching the sensor, bandpass filters can reduce the impact of ambient light and enhance the signal-to-noise ratio.
● Targeted Illumination: In conjunction with dedicated lighting sources, bandpass filters ensure that only light from the specific band illuminates the object, pivotal in fluorescence or laser-based systems.
● Spectral Analysis: For applications involving material identification or sorting, bandpass filters can help detect specific spectral signatures unique to certain compounds or elements.
The specificity provided by bandpass filters makes them essential for applications requiring fine-tuned optical performance.
Notch Filters: Excluding Specific Wavelengths with Precision
Notch filters are the antithesis of bandpass filters, designed to reject light within a specified spectral region while transmitting wavelengths outside of this band. They are particularly useful in machine vision to:
● Laser Rejection: In laser-based processing or environments with laser pointers, notch filters can safeguard imaging sensors from being overloaded with intense laser light.
● Ambient Light Suppression: They can be tailored to exclude common wavelengths of ambient lighting while preserving the imaging quality under controlled illumination.
● Enhance Dynamic Range: By eliminating strong or oversaturated spectral regions, notch filters can help prevent sensor blooming and maintain the dynamic range of the system.
In industrial settings where specific light frequencies must be mitigated, notch filters provide a strategic solution.
Conclusion: Elevating Machine Vision with Advanced Optical Filtering
Each type of optical filter offers distinct advantages for enhancing machine vision capabilities. By judiciously applying these filters, industries can vastly improve the accuracy, reliability, and functionality of their machine vision systems. It is evident that optical filters are not merely accessories; they are transformative components that elevate machine vision to its highest potential. 
Companies like KUPO Optics are at the forefront of providing cutting-edge filtering solutions, tailored to meet the precise needs of modern industries. Whether the task at hand is inspection, sorting, measurement, or surveillance, KUPO Optics' extensive portfolio ensures that machine vision systems are equipped with the optimal filters to perform impeccably in any application.