• Optronic Laboratories Inc

    4632 36th St
    Orlando, FL 32811
    United States
    407-422-3171
    Visit Company Website
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    More Info on Optronic Laboratories Inc

    Optronic Laboratories, Inc., enjoys a worldwide reputation for providing a high-performance, optical radiation measurement systems, sources, standards, and calibration services.

    Products

    The OL 458-4 is a NIST-traceable white LED-based integrating sphere calibration standard, designed for accurately calibrating micro- and telephotometers, image intensifiers, and...
    G&H Instruments offers a variety of integrating spheres. When coupled to our OL 770-LED system, they are ideal for IES LM-79 compliance testing of your large sources and luminaries...
    The OL 770-LED is a high-speed, CCD-based spectroradiometer that can be customized to any LED measurement application to provide high-precision, fast, and accurate research-grade...

    Articles

    (Courtesy of EnvisionTEC)
    Digital light processing (DLP) technology used in concert with a laser-assisted manufacturing, rapid-prototyping process can speed dental and hearing aid implant manufacture by varying the illumination intensity (and corresponding cure depth) pixel-by-pixel in the fabrication process.
    Microelectromechanical systems (MEMS)-based digital-light-processing (DLP) technology from Texas Instruments (TI; Dallas, TX) is finding its way into many more arenas than just...
    FIGURE 1. Integrating spheres can be manufactured at sizes from 1 mm up to 3 m in diameter. This 65 in. spectral lamp measurement system is used in standards laboratories around the world as a calibration source for lamps and LEDs (left; courtesy of Sphereoptics). A tiny 16 mm integrating sphere is incorporated into a detector for radiant power measurement (right; courtesy of Gigahertz-Optik).
    Integrating spheres present a dizzying array of specifications and an infinite number of configurations. Here’s where to start to narrow down the choices.
    The OL 490 Agile Light Source from Optronic Laboratories (Orlando, FL) is unlocking new applications that require a programmable, digital spectral source. The Laboratory of Biomedical...
    FIGURE 1. The current response for a commercially available amorphous-silicon photodiode as a function of illumination follows an exponential curve.
    While it is impossible to reproduce the brightness level of the Sun, it is possible to simulate a photovoltaic detector’s response with improved accuracy by integrating a white...

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