With an 8 mm aperture and support for up to 50 Watts of optical power, the LST400-C2 offers rapid switching in just 20 ms. Tailored for CO2 laser beam modulation, it’s equipped with logic position sensors for precise control, ensuring accuracy in medical and industrial tasks. Built for reliability, it maintains safety and efficiency in demanding environments.
Supporting up to 50 W of optical power through its 8 mm aperture, this model boasts a 20 ms switching speed and enhanced safety features like logic position sensors. Perfect for medical treatments and research, it offers quick response and robust performance.
Tailored for YAG laser use, with an 8 mm aperture, supporting up to 50 W. Swift switching (20 ms) and logic position sensors make it ideal for medical treatments.
Versatile and safe, with an 8 mm aperture and 50 W capacity. Rapid switching (20 ms) suits various industrial and scientific needs.
Versatile and high-powered, the LST400 sports an 8 mm aperture, managing up to 50 W optical power. Featuring built-in position sensors for precise monitoring, it ensures safety and control in medical treatments and industrial processes.
Key Features of Our LST4WBK2-D123 Laser Shutters
Optical Power Handling: 100 W
Aperture: 15 mm
High Rep Rate: 15 Hz
High LIDT: 2 J/cm2 @ 10 ns
Wavelength: 1064, 532, 355 nm
Supporting up to 100 Watts of optical power and featuring a 15 mm aperture, the LST500-C2 is designed for high-power applications. Its advanced safety features prevent unintended exposure to intense CO2 laser beams, making it ideal for industrial processes and scientific research requiring robust laser control.
Key Features of Our LST500-AL Laser Shutters
Optical Power Handling: 20 W
Aperture: 15 mm
High Rep Rate: 10 Hz
High LIDT: 500 mJ/cm2
Optics: Aluminum
The LST500-123-HP is designed for applications that require precise control of laser pulses up to 2 joules/cm^2. It features a 15 mm aperture and offers quick switching speeds, making it perfect for environments where timing is critical, such as in research labs and industrial settings.
Tailored for higher power tasks, the LST500 offers a 15 mm aperture and handles up to 100 W optical power. With a high 15 Hz repetition rate, it excels in large beam applications needing modulation, and prioritizing durability.
Engineered for the most challenging tasks, the LST800-C2 handles up to 300 W of optical power with a 16 mm aperture. Its 40 ms switching speed ensures stable and secure control of high-intensity CO2 laser beams. Designed for durability and comprehensive safety, it’s perfect for continuous use in industrial and research settings.
Designed for heavy-duty applications, this robust shutter with a 16 mm aperture can handle up to 300 W of optical power. With a 40 ms switching speed and advanced safety features, it’s suitable for industrial manufacturing and scientific research involving high-intensity UV lasers.
Versatile and powerful, the LST800 suits high-power applications, managing beam diameters up to 16 mm, with the option for modification up to 20 mm. With a capacity of up to 300 W of optical power, it offers reliable and precise control, complemented by advanced safety features and a consistent switching speed of 40 ms.
Key Features of Our LST800-4 Laser Shutter
Optical Power Handling: 300 W
Aperture: 16 mm
Switching Speed: 40 ms
LSTXYW8 Upgrade
Wavelength: 266 nm
Key Features of Our LST800-3 Laser Shutter
Optical Power Handling: 300 W
Aperture: 16 mm
Switching Speed: 40 ms
LSTXYW8 Upgrade
Wavelength: 355 nm
The LST800 can manage up to 300 watts of continuous optical power and pulses of up to 12 joules/cm^2. With a 16 mm aperture, it’s ideal for large beam applications. This model offers a 40 ms switching speed, which is great for heavy-duty tasks in industrial and scientific fields. It includes robust safety measures and high-damage-threshold optics to ensure safe operation under extreme conditions.
Designed for extreme power, the LST800 manages up to 300 W optical power with a 16 mm aperture. While it boasts a slower 40 ms switching speed, it delivers robust performance in heavy-duty industrial and scientific tasks, especially those requiring large beam diameters and high-energy pulse gating.
Key Features of LST4WBK2-3 Laser Shutters
Optical Power Handling: 50 W
Aperture: 4 mm
Switching Speed: 10 ms
Logic Position Sensors
Wavelength: 355 nm
With a 4 mm aperture and a power handling capability of up to 50 W, this model ensures rapid and precise control of UV light with its 10 ms switching speed. Equipped with logic position sensors, it’s ideal for high-precision scientific and industrial tasks.
Key Features of Our LST4WBK2-D123 Laser Shutters
Optical Power Handling: 50 W
Aperture: 4 mm
Switching Speed: 10 ms
Logic Position Sensors
Wavelength: 1064, 532, 355 nm
A versatile, high-speed optical shutter with a 4 mm aperture, managing up to 50 W of power. Its 10 ms switching speed and logic position sensors offer accurate control, making it ideal for robust performance and quick light modulation in high-precision applications.
Operating directly on a 5V DC power supply, this compact optical shutter has a 3 mm aperture supporting up to 2 W of optical power. With a rapid 2 ms switching speed, it suits applications prioritizing space and simplicity, ideal for low-power optical systems requiring direct control.
A high-speed optical shutter with a 2.3 or 3mm aperture, handling up to 2 W of optical power. Its swift 1 ms switching speed makes it perfect for biotech exposures and high-speed imaging, ensuring durability with billions of cycles without failure for reliable, long-term operation in continuous environments.
Built for high reliability and precision, it boasts a 4 mm aperture handling up to 6 W of optical power. Featuring an 8 ms switching speed and position sensors for accurate monitoring, it excels in high-speed optical switching and precise light control for biotech and research.
Handles up to 10 W of power with a 10.5 mm aperture, ideal for larger optical systems requiring robust performance and broad beam diameter.
Features
Now Available with Enclosure Box
Fastest Switching Speeds
High Peak Currents
Analog/Digital Modes
Programmable Parameters