Modular Design: The UHP-T-LED light sources modular design facilitates easy and robust connection of multiple LED heads. Beam combiners modules and other accessories enable the creation of customized multi-wavelength, collimated, light-guide coupled, or fiber-coupled LED light sources enabling various configurations. For example, in microscopy, the UHP-T-LED light source can be connected to the microscope either directly or via a light guide to achieve optimized light delivery.

Wavelength Range: UHP-T-LED heads available at numerous specific wavelengths ranging UV, Visible, SWIR and White. Multiple interchangeable UHP-T-LED heads can be controlled by a single UHPTLCC controller, offering cost-effective solution for diverse experimental needs.

Adjustable Aspheric Collimator: The high NA aspheric adjustable collimator lens ensures high optical throughput and delivers a uniform collimated LED beam which can be easily optimized for fluorescence microscopes, direct sample illumination or fiberoptic and liquid light guide coupling via an easy to install adapter.

Optimized Thermal Management: Advanced heatsink technology with a thermistor-controlled fan ensures stable, long-term operation, safeguarding the LED from overheating and maintaining consistent output.

Extended Lifespan: : LEDs offer exceptional longevity. Unlike traditional lamps, LEDs can be switched on and off instantly without affecting their lifespan. This, combined with their inherent durability, can extend their useful life to several years. Their lifespan, measured in L70 (the time it takes for the light output to decline to 70% of its initial brightness), varies based on wavelength and chip type. Typically, UV LEDs last around 10,000 hours, visible LEDs around 30,000-40,000 hours, and white LEDs can reach 50,000 hours.

RFI/EMI Shielded LED head: The LED head incorporates advanced electronics, including a high-current driver, into its design. This integrated approach minimizes electromagnetic interference (EMI) and radio frequency interference (RFI), ensuring reliable performance in sensitive environments. Additionally, the integrated electronics provide smart safety features, further enhancing the reliability and durability of the LED head.

Versatile Control Options: The UHP-T-LED series offers flexible control options. Each LED head has a built-in current driver, and the UHPTLCC controller box supports human, TTL, and computer interfaces (Analog input or USB). Multiple interchangeable UHP-T-LED heads can be controlled by a single UHPTLCC controller. The TTL input enables fast light pulsing (rise/fall time ~10us), while the analog input (0-5V) provides enables LED intensity modulation and precise power control.
Prizmatix offers three types of controllers:

• Standard UHPTLCC-02 with manual power control and optically isolated TTL and analog inputs.
• UHPTLCC-02-USB for computer control via USB.
• UHPTLCC-02-STBL with active stabilization for enhanced long-term stability.

Adaptors and Modular Accessories: The UHP-T-LEDs feature a wide range of adapters, ensuring seamless integration with epi-illumination ports of microscopes (Olympus, Leica, Nikon, and Zeiss), fiber and light guide couplers. Beam combiners, filter wheels, and other adapters are available. Explore the Prizmatix OptiBlock modules and accessories below.Read less

UHP-T-SR Series: Featuring a small, ultra-bright LED chip with adjustable aspheric collimator. This series is ideal for applications where power density (high brightness) is important, such as high magnification fluorescence microscopy, fiber coupling, and the creation of multiwavelength imaging systems

UHP-T-EP Series: This series features a larger LED emitter with increased total power, paired. This series is ideal for applications needing a balance of intensity and total power such as electrophysiology, fluorescence microscopy with medium magnification, light guide coupling, and the creation of multiwavelength imaging systems.

UHP-T-DI Series: This series features a larger square, monolithic LED emitter paired, producing uniform, ultra-high-power, flat field, square region of interest (ROI) illumination. The UHP-T-DI LEDs are available in discrete wavelengths, various white temperatures, and high CRI broadband white LED options. The UHP-T-DI Series is well-suited for applications demanding high total power such as large sample illumination, wide field of view imaging systems, and chemical reaction activation.

UHP-T-MP Series: This series features a rectangular, monolithic Ultra High Power LED emitter paired with a specialized high numerical aperture (NA) lens designed to spread rectangular beam for efficient illumination of biological well plates, such as 96-well microplates, from approximately 40-50 cm above.

UHP-T-LA Series: This series utilizes a densely packaged LED array to provide ultra-high power at specific wavelengths. These LEDs are suitable for applications requiring high total power and can be efficiently coupled to a light guide for homogeneous illumination.Read less