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UV Intensity Meter: Accurate UV Dose & Intensity

Measure UV dose and intensity accurately in tight spaces with the MicroCure® system. Compact, portable, and ideal for various applications including small container curing, printing, and medical device manufacturing. Accurate, Repeatable UV Measurement for Demanding ApplicationsThe MicroCure® UV Measurement System provides precise and repeatable measurements of UV energy density (Joules/cm²) and peak irradiance (Watts/cm²) in tight spaces. This compact and portable system is ideal for applications where traditional radiometers are too large, offering an affordable and reliable solution for ensuring consistent UV curing. MicroCure® UV Radiometer: Small Size, Big Performance Ultra-Compact: Tiny footprint (1.3” x 0.95” x 0.25” / 33 x 24.13 x 6.35 mm) allows for use in even the most confined areas. Lightweight and Portable: Weighs only 0.33 ounces (9.4 grams) for easy placement and minimal interference. High Sample Rate: 2048 Hz sample rate ensures accurate capture of UV exposure. Multiple Dynamic Ranges: Available in UVA band with 10W, 2W, or 200mW dynamic ranges. Long-Lasting Battery: Battery-powered for portability. Automatic Sleep Mode: Conserves battery life by entering sleep mode if not exposed to UV within four minutes. Limited Use: Each MicroCure is designed for 200 readings or one year of use, whichever comes first. MicroCure® DataReader: Easy Data Retrieval and Display Portable and User-Friendly: Compact device for communicating with and displaying data collected by the MicroCure. Dual Display: Toggles between Energy Density and Irradiance values with the "SELECT" button. Displays the UV band of the MicroCure. MicroCure Activation: Activates the MicroCure unit and initiates data collection with the "RESET" button. Reading Counter: Displays the number of readings an individual MicroCure unit has undergone. Replaceable Battery: Uses a user-changeable 9-volt battery with a low battery indicator and auto shut-off. Universal Compatibility: Works with all MicroCure units. Data Transfer: Data is transferred via the two case halves; avoid shorting them against metal or through handling (conductive coating, moist hands). Applications: The MicroCure® excels in UV applications requiring a small footprint and accurate, repeatable UV values. Ideal for: Narrow Conveyor Curing: Credit card processing and similar applications. Small Container Curing: Bottles, cans, tubes, and other small items. Batch Applications: Semiconductor printing, small part bonding, and more. Printing: Digital, pad, and other printing processes. Part Curing: Where flood lamps in fixtures are used. Dimensional Fixtures: Curing medical products like catheters. Small/Large Object Curing: Furniture, headlamps, dashboards, wood moldings, and more. Flexible Light Guide Systems: Fits easily within light guide setups. Benefits: Accurate and Reliable Measurements: Provides precise readings of UV energy density and peak irradiance. Compact and Portable: Ideal for use in tight spaces and on the production floor. Easy to Use: Simple operation makes it accessible to all personnel. Cost-Effective: An affordable solution for accurate UV measurement. Download MicroCure® & DataReader Brochure Contact us today to learn more about the MicroCure® UV Measurement System and how it can benefit your UV curing processes. Visit www.blazeasia.com to learn more or request a quote.

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February 3, 2025
UV Intensity Meter: Accurate UV Dose & Intensity
LED Instruments / Measurement & Monitoring

LED Instruments | PowerMAP® II & LEDMAP™

Analyze your UV source with precision. The PowerMAP® II (broadband) and LEDMAP™ (LED) measure irradiance, energy density, and temperature for optimized UV curing. Compact, high-speed data capture, and powerful analysis software.The EIT PowerMAP® II and LEDMAP™ are compact, all-in-one profiling radiometers that provide a comprehensive analysis of your UV source. These advanced instruments measure irradiance (W/cm²), energy density (J/cm²), irradiance profile (W/cm² as a function of time), and temperature profile (°C as a function of time), giving you a complete understanding of your UV curing process. 60% smaller than the original EIT PowerMAP and featuring increased memory, these devices offer unparalleled data gathering capabilities. Both instruments utilize EIT’s UV PowerView Software III for detailed visual and numerical analysis. EIT PowerMAP® II: For Broadband UV Sources The EIT PowerMAP® II is designed for measuring broadband (mercury) UV sources across four EIT spectral regions (UVA, UVB, UVC, and UVV). It allows you to easily compare the performance of focused and out-of-focus lamps, providing valuable insights for optimizing your curing process. (See image for visual representation). EIT LEDMAP™: For High-Speed LED Applications The EIT LEDMAP™ is specifically designed for measuring LED sources in high-speed applications. Using EIT’s patented LED L-Bands, the LEDMAP™ accurately captures the individual peaks of multiple LEDs at high speeds. (See image for example of LED peaks captured on a high-speed digital printer). Key Benefits of PowerMAP® II & LEDMAP™ Profiling Radiometers: Comprehensive UV Source Analysis: Gain a complete understanding of your UV source and its delivery to the cure surface. Identify Performance Issues: Quickly and easily identify and track the number of lamps/arrays and their individual performance, focus conditions, bulb/array uniformity, and speed/exposure time. Track System Changes: Monitor system changes over time by comparing current data with stored files. Predict Maintenance Needs: Identify maintenance needs before they impact product quality, preventing costly downtime. Optimize Curing Processes: Fine-tune your UV curing parameters for optimal results. PowerMAP® II/LEDMAP™ Features: Compact Size: 5.5” x 2.1” x 0.55” (13.8 cm x 5.3 cm x 1.27 cm) for easy use on molding lines and chill drums. Adjustable Sample Rate: User-adjustable from 128 to 2048 Hz. Large Memory Capacity: Supports 65 minutes of data collection at 2048 Hz. Temperature Measurement: Integrated J-type thermocouple samples at 32 Hz. Long Battery Life: 100 minutes typical runtime, rechargeable in ~90 minutes via smart charger or USB. Pause Mode: Pause data collection up to eight times before transfer to UV PowerView Software III. PowerMAP® II Responsivity & Ranges: Four-band instrument for broadband (mercury) UV source measurement. UVA (320-390nm), UVB (280-320nm), UVC (250-260nm), UVV (395-445nm). Two dynamic ranges: 10 W/cm² or 100 mW/cm². LEDMAP™ Responsivity & Ranges: Single or four-band instruments for UV LED measurement. Patented EIT L-Band technology. L365 (340-392 nm), L385 (360-412 nm), L395 (370-422 nm), and/or L405 (380-432 nm). Dynamic range: 40 W/cm². UV PowerView Software® III: EIT’s UV PowerView Software III (LabVIEW-based) is compatible with PowerMAP® II, LEDMAP™, and Profiler versions of the Power Puck® II, UviCure Plus® II, and LEDCure®. UV PowerView Software® III Features:…

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February 3, 2025
LED Instruments | PowerMAP® II & LEDMAP™
Measurement & Monitoring / Online Monitoring Systems

Measurement & Monitoring | Online Monitoring Systems

EIT's On-Line Systems provide continuous UV intensity feedback for precise process control. Ideal for challenging applications where traditional radiometers are impractical. Detect changes in UV output, optimize curing, and reduce scrap. EIT On-Line System Components: The system comprises two key components: EIT Compact Sensor: An extremely durable, sealed sensor designed for harsh UV environments. Available for both LED and broadband UV sources. EIT and our representatives can assist you in selecting the optimal optic response, housing shape, aperture size, and mounting location based on your specific UV source and application. EIT DIN Rail Signal-Conditioning Unit: Works in conjunction with the Compact Sensor to provide a 0-10 volt or 4-20 milliamp signal proportional to real-time UV intensity. This signal integrates seamlessly with PLCs or displays for easy monitoring. The DIN Rail unit also enables configurable low-limit alarms and relay control for automated process adjustments. Why Choose EIT On-Line UV Monitoring? EIT On-Line Systems are the ideal solution for situations where: Space is limited: Compact sensors fit where radiometers can't. Obstacles are present: Monitor UV intensity despite obstacles like arms, rollers, or blades. Sources are inaccessible: Monitor enclosed, hard-to-reach, or high-mounted UV sources. Multiple sources are used: Track the performance of multiple UV sources simultaneously. Production speeds are high: Real-time monitoring eliminates manual measurements on fast-moving lines. UV conditions fluctuate: Monitor rapid changes in UV intensity due to off-gassing or contamination. Product quality is critical: Prevent costly scrap by detecting subtle shifts in UV output. Continuous validation is required: Maintain consistent UV conditions for critical processes. Process windows are tight: Ensure UV intensity remains within precise parameters. Applications: EIT On-Line Monitoring Systems are used in diverse industries, including: Web presses Fiber optic draw towers Hard drive manufacturing Printing Medical applications Benefits of Real-Time UV Monitoring: Early Issue Detection: Identify gradual (source aging) or sudden (equipment malfunction) changes in UV intensity before they impact product quality. Proactive Maintenance: Schedule maintenance based on real-time data, minimizing downtime and maximizing efficiency. Improved Product Quality: Ensure consistent UV dosage for optimal curing, bonding, and other UV-dependent processes. Reduced Scrap & Rework: Prevent costly errors by monitoring UV intensity and taking corrective action promptly. Increased Profitability: Optimize production processes and minimize waste for improved bottom-line performance. Relative vs. Absolute Intensity: The On-Line Monitoring System measures relative intensity, allowing you to track changes in UV output over time. While it doesn't provide an absolute (W/cm²) value, it effectively detects both gradual (source aging) and sudden (equipment malfunction) changes in UV intensity, enabling timely intervention. It can be used as the sole means of UV process control or in conjunction with an EIT NIST-traceable UV radiometer. Download Online Monitoring Brochure

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February 3, 2025
Measurement & Monitoring | Online Monitoring Systems
Uncategorized

EIT SpotCure® UV Intensity Meter: Precise UV Measurement for Spot Curing

The EIT SpotCure® is the industry standard for measuring UV output in spot curing systems. Portable, easy-to-use, and essential for optimizing your UV curing process.  Monitors system performance, lamp output, and light guide degradation.  Accurate and Portable UV Measurement for Optimized Spot Curing The EIT SpotCure® UV Intensity Meter is the industry standard for quantifying UV output in spot curing systems. This portable and easy-to-use device is essential for establishing, validating, and verifying small area and spot curing processes. It's also an invaluable tool for evaluating different UV curing equipment. Key Benefits for Production Environments: Monitor UV Spot Curing System Performance: Track and maintain the consistency of your UV curing processes. Measure Individual UV Lamp Performance: Assess the output of individual UV lamps to identify potential issues. Evaluate Light Guide Degradation: Detect light guide degradation and contamination that can affect curing efficiency. Optimize Light Guide Positioning: Ensure precise light guide placement for optimal curing results. Meet Quality Requirements: Provide documented evidence of consistent UV output to meet quality control standards. EIT SpotCure® UV Intensity Meter: Key Features Compact and User-Friendly: Small and lightweight design for easy handling and operation. Portable and Self-Contained: No cords or cables to manage, making it ideal for use throughout the production floor. Long Battery Life: High-capacity battery provides >100,000 readings, minimizing downtime. Versatile Light Guide Compatibility: Includes three adapters to accommodate multiple light guide sizes. Instant Feedback: Provides immediate readings on spot curing system performance. Two Range Options: Available in Standard Range (up to 20W/cm²) and Extended Range (up to 100W/cm²) to suit your specific intensity requirements. EIT SpotCure® UV Intensity Meter: Specifications Compact Size: 4.60” long x 1.74” diameter. Ergonomic Design: Flashlight-like shape for comfortable one-handed operation. Measurement Head: Contains the optics and accepts various light guide adapters. Optimize Your UV Spot Curing Process The EIT SpotCure® UV Intensity Meter provides operators with instant feedback on the performance of their spot curing systems. Its compact, ergonomic design and ease of use make it an indispensable tool for any manufacturing environment utilizing UV curing. Download SpotCure Brochure Contact us today to learn more about UV intensity meters and how we can help you achieve your project goals. Visit www.blazeasia.com to learn more or request a quote.

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February 3, 2025
EIT SpotCure® UV Intensity Meter: Precise UV Measurement for Spot Curing
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What is UV-C Light Used For? A Powerful Tool for Disinfection and Purification

UV-C light effectively eliminates bacteria, viruses, and other pathogens. Used in water treatment, air purification, surface disinfection, and more, UV-C technology plays a crucial role in creating safer environments. Learn about its applications and safety considerations.Understanding UV-C Light: UV-C light falls within the ultraviolet spectrum, specifically between 200 and 280 nanometers. It's the shortest wavelength and most energetic form of UV radiation. This high energy level allows UV-C light to disrupt the DNA and RNA of microorganisms, effectively killing or inactivating them. It's important to note that UV-C radiation from the sun is completely absorbed by the Earth's atmosphere and does not reach the surface. Key Applications of UV-C Light: UV-C light's germicidal properties make it a valuable tool for disinfection and purification in various settings: Water Treatment: UV-C is used to disinfect drinking water, wastewater, and pool water, effectively eliminating bacteria, viruses, and other pathogens without the use of chemicals. Air Purification: UV-C lamps are incorporated into HVAC systems and standalone air purifiers to kill airborne microorganisms, improving indoor air quality and reducing the spread of airborne illnesses. Surface Disinfection: UV-C light is used to sanitize surfaces in hospitals, laboratories, clean rooms, and other environments where microbial contamination is a concern. Robotic UV-C disinfection systems are increasingly used for large-scale surface disinfection. Medical Sterilization: UV-C is used to sterilize medical equipment and instruments, ensuring they are free from harmful microorganisms. Food Processing: UV-C can be used to disinfect food surfaces and packaging, extending shelf life and enhancing food safety. HVAC Systems: UV-C light can be installed in HVAC ducts to prevent mold growth on coils and improve system efficiency, in addition to disinfecting the air. Research and Laboratory Use: UV-C is a valuable tool in research laboratories for sterilizing equipment, disinfecting surfaces, and treating samples. How UV-C Light Works: UV-C light's effectiveness stems from its ability to damage the genetic material (DNA and RNA) of microorganisms. This damage prevents the microorganisms from replicating, effectively killing or inactivating them. The specific wavelength of 254 nanometers is particularly effective for this purpose. Is UV-C Light Safe? While UV-C light is a powerful disinfectant, it's also important to use it safely. Direct or prolonged exposure to UV-C light can be harmful to the skin and eyes. Therefore, UV-C devices are designed with safety features to prevent exposure during operation. It's crucial to follow manufacturer instructions and safety guidelines when using UV-C equipment. Never look directly at a UV-C lamp. Choosing the Right UV-C System: The appropriate UV-C system will depend on the specific application. Factors to consider include: Type of microorganism: Different microorganisms have varying levels of susceptibility to UV-C light. Intensity and exposure time: The required UV-C dose depends on the target microorganism and the specific application. Size and scale: Consider the size of the space or the volume of water or air to be treated. Safety features: Ensure the chosen system has appropriate safety mechanisms to prevent UV-C exposure. Maintenance requirements: Consider the maintenance needs of the UV-C system, such…

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February 3, 2025
Uncategorized

UV vs. UV-C: Understanding the Key Differences in Ultraviolet Light

UV light is categorized into UV-A, UV-B, and UV-C. While UV (including UV-A and UV-B) is associated with sunburns, UV-C is a powerful germicidal form of UV radiation used for disinfection and sterilization. Learn about the key differences and safety considerations. Understanding the UV Spectrum: The UV spectrum is further divided into three main categories based on wavelength: UV-A (315-400 nm): This is the longest wavelength UV light and makes up the majority of the UV radiation that reaches the Earth's surface. UV-A is relatively harmless but can contribute to skin aging and some types of skin cancer over long periods of exposure. UV-B (280-315 nm): UV-B radiation is more energetic than UV-A and is responsible for sunburns. It also plays a role in vitamin D production in the skin, but excessive exposure can significantly increase the risk of skin cancer and other skin damage. Much of the sun's UV-B radiation is absorbed by the ozone layer. UV-C (200-280 nm): This is the shortest wavelength and most energetic form of UV radiation. UV-C is germicidal, meaning it can kill or inactivate microorganisms like bacteria, viruses, and mold. Fortunately, UV-C radiation from the sun is completely absorbed by the Earth's atmosphere and doesn't reach the surface. The Key Difference: Wavelength and Energy: The primary difference between UV and UV-C lies in their wavelength and energy levels. UV is a general term encompassing all three types (UV-A, UV-B, and UV-C). UV-C is a specific, shorter wavelength type of UV radiation. Because of its shorter wavelength, UV-C carries more energy than UV-A or UV-B. This higher energy level is what makes UV-C effective at disrupting the DNA and RNA of microorganisms, leading to their inactivation or death. UV-C: The Germicidal Powerhouse: UV-C's germicidal properties make it incredibly useful for disinfection and sterilization applications. You'll find UV-C light used in: Water treatment: Disinfecting drinking water and wastewater. Air purification: Killing airborne pathogens in HVAC systems and standalone air purifiers. Surface disinfection: Sanitizing surfaces in hospitals, laboratories, and other environments. Medical sterilization: Sterilizing medical equipment and instruments. Is All UV Light Dangerous? While UV-B and excessive exposure to UV-A can be harmful, UV-C's danger comes from its high energy. Because it's so effective at damaging DNA, it can also damage human skin and eyes with prolonged or direct exposure. However, because it doesn't penetrate deeply into the skin, the primary risk is to the surface of the skin and the eyes. This is why UV-C sanitizing devices are designed with safety measures to prevent exposure during operation. It's crucial to use UV-C devices responsibly and according to manufacturer instructions. In Summary: UV is a broad term that includes UV-A, UV-B, and UV-C. UV-C is a specific, high-energy type of UV radiation with germicidal properties. UV-C is used for disinfection and sterilization, while UV-A and UV-B have other applications and potential health risks. Safe use of UV-C devices is essential to prevent harm to skin and eyes. Understanding the difference between UV and UV-C is vital…

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February 3, 2025
Measurement & Monitoring

What Does a UV Radiometer Do? Your Guide to Understanding UV Measurement

UV radiometers measure the intensity and dose of ultraviolet (UV) radiation, crucial for applications from disinfection and sterilization to UV curing and safety monitoring. Learn about different types and how to choose the right one for your needs.Ultraviolet (UV) radiation is a powerful tool used in various applications, from disinfecting water and sterilizing medical equipment to curing inks and treating certain skin conditions. But how do we know how much UV energy is being emitted? That's where a UV radiometer comes in. This blog post will explain what a UV radiometer does, why it's important, and the different types available. What is a UV Radiometer? A UV radiometer is an instrument used to measure the intensity or dose of ultraviolet (UV) radiation. Think of it as a light meter specifically designed for UV light. It tells you how much UV energy is present in a given area or being emitted by a UV source. Key Terms Explained: UV Intensity (Irradiance): This measures the amount of UV power falling on a surface per unit area. It's typically measured in Watts per square centimeter (W/cm²) or milliwatts per square centimeter (mW/cm²). Think of it as the "brightness" of the UV light. UV Dose (Radiant Exposure): This measures the total amount of UV energy received by a surface over a specific period. It's calculated by multiplying the UV intensity by the exposure time. It's typically measured in Joules per square centimeter (J/cm²) or millijoules per square centimeter (mJ/cm²). Think of it as the total "amount" of UV light the surface received. What a UV Radiometer Measures: A UV radiometer can measure either UV intensity or UV dose, depending on the type of radiometer and how it's used. Some radiometers can even measure both. Why is UV Measurement Important? Accurate UV measurement is crucial for several reasons: Ensuring Effective Disinfection/Sterilization: In applications like water treatment or medical sterilization, knowing the UV dose ensures that the process is effective in killing harmful microorganisms. Too little UV light might not be sufficient, while too much could be wasteful or even damaging. Controlling UV Curing Processes: In manufacturing, UV curing is used to harden inks, coatings, and adhesives. Precise UV dose control is essential for achieving the desired product quality and consistency. Protecting People and Materials: Overexposure to UV radiation can be harmful. UV radiometers are used to monitor UV levels in workplaces and ensure that safety limits are not exceeded. They are also used to assess the UV degradation of materials. Optimizing UV System Performance: Regular UV measurements can help track the performance of UV lamps and systems, indicating when they need maintenance or replacement. Research and Development: UV radiometers are essential tools for researchers studying the effects of UV radiation on various materials and organisms. Types of UV Radiometers: UV radiometers come in various forms, each designed for specific applications: Broadband UV Radiometers: These measure UV radiation across a broad range of wavelengths. Narrowband UV Radiometers: These are designed to measure UV radiation within a…

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February 3, 2025