Close Consumer Electronics TracePro is a powerful software tool for modeling imaging and non-imaging optical devices.Training Courses Lambda Research Corporation is pleased to offer training programs throughout the year to further educate our license holders.
Lamda Research Tracepro V7.04 Software Tool ForStart Date End Date Course Name Location September 22nd, 2020 September 24th, 2020 TracePro Spring US Training (Registration with Pricing) Lambda Research Corporate Head Quarters, 25 Porter Road, Littleton, MA 01460, USA. October 20th, 2020 October 22nd, 2020 TracePro Fall European Training (Registration with Price) Brno University of Technology in Brno, Czech Republic. Note: Location is subject to change due to the ongoing COVID-19 pandemic. Certified Training Unless otherwise noted, all courses are located at Lambda Research Corporation Headquarters in Littleton, MA, USA. Customer Site Training We offer standard and customized on-site training for customers interested in training multiple staff members. Products - TracePro - RayViz - OSLO Support - TracePro - RayViz - OSLO Free Trial Get a Quote Videos Tutorials Latest Releases - TracePro - RayViz - OSLO Contact Us - Sales - Support Distributors News Events Training Press Info Trademarks Privacy Policy License Options University Program Terms Conditions Site Map Feedback Follow Follow Follow Follow Corporate Headquarters 25 Porter Road Littleton, MA 01460 USA 2019 Lambda Research Corporation. Created by Polyphasic Developers Solar Power TracePros Solar Emulator and optimization capabilities have helped manufacturers achieve even greater absorption and collection rates. The optimized design will achieve the ultimate goal of lowering the cost per watt. The Solar Emulator is the only tool for analyzing 3D designs and simulating performance using standardized definitions for geographical location (latitude, longitude, and elevation). Analyze your design for a specified period of sun travel with multiaxial tracking and irradiance for both direct and indirect sun contribution. Analysis output includes irradiance, candela maps, turbidity calculations, total flux, and efficiency over time. TracePros Solar Emulator and design, analysis, and optimization capabilities accurately predict total energy output when solar collector systems are in real-world conditions. TracePros Solar Emulator and optimization features ensure solar collectors perform at peak efficiency. Source modeling based on: Direct and indirect solar radiation Atmospheric scattering Latitude, longitude, and elevation Date and time User-selectable wavelengths User-defined parameters also include step intervals, wavelength, entrance pupil, solar irradiance, number of rays to be traced Irradiance and candela mapping Total collected energy reported in graphical and tabular formats over a calculated period Flux Report based upon sun position Sun Tracking Aim-to-sun Uniaxial Uniaxial coupled with aim-to-sun Global position Predefined city list Google Maps positioning Turbidity Overcast through sunny definitions specified per period Close Stray Light TracePro is used extensively for stray light analysis and related applications, including: Baffle design for stray light suppression Analysis of stray light due to scattering, aperture diffraction, and ghost images Self-emission of infrared and longer wavelength systems Simulation of polarization effects including birefringence Simulation of spectrometers and other multi-spectral systems Thermal effects and loading Narcissus effects Diffraction gratings Due to its generality, TracePro has been used to simulate optical systems operating at wavelengths ranging from the extreme ultraviolet, through the visible and infrared, to millimeter wavelengths. The intuitive user interface and accurate CAD file import reduce setup time needed for stray light analysis. Close Medical Life Sciences TracePro offers life sciences and medical device designers a powerful, complete simulation tool ideally suited to their needs. TracePro facilitates the design and development process by communicating across disciplines including optics, mechanics, materials, chemistry, and biology. This is extremely important for medical instrumentation and device designers who must communicate system level specifications and design elements to both scientists and engineers. Medical system designers use TracePro to minimize the cost and time of iterative hardware prototyping and laboratory and clinical testing. Create models by directly creating the solid geometry in TracePro or by importing from a lens design program or a CAD program. Light rays propagate through the model with portions of the flux of each ray allocated for absorption, specular reflection and transmission, fluorescence, and scattering. TracePro can simulate and analyze many aspects of optical systems including: Light distributions in illumination and imaging systems Stray light, scattered light, and aperture diffraction Throughput, loss, or system transmittance Flux or power absorbed by surfaces and bulk media Light scattering in biological tissue Polarization effects Fluorescence effects Birefringence effects TracePro offers medical systems designers the confidence that the simulated design will predict the performance and accuracy of finished devices, such as: Fluorescence spectroscopy UV, VIS, NIR, IR spectroscopy Flow cytometry Micro arrays and plate readers Nucleic acid amplification Assay, cell, and tissue-based imaging Confocal laser scanning and fluorescence microscopy Medical imaging and endoscopy In-Vitroin-vivo diagnostics Biosensors Molecular detection: quantum dots, nanocrystals, luminescent reporters Laser and LED surgical devices Laser beam delivery systems for surgical instrumentation Laser Induced Fluorescence (LIF) Detection Fluorescence Resonance Energy Transfer (FRET) For more information on Medical Device Design Using TracePro, view the Biomedical Brochure.
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