Updated LightTools 8.3 Speeds the Design of Luminaires with a New Advanced Design Module

Highlights:
•    The LightTools Advanced Design Module provides specialised tools for the design of freeform optics for a wide range of illumination applications
•    New capabilities help users model spatial temperature and power density variations in phosphor based LEDs
•    A new application programming interface (API) allows users to develop custom volume scattering components
•    The Volume Scatter Logger reports scattering and phosphor conversion events in surface materials
Key features in the Advanced Design Module include:
•    Freeform Design features for modeling freeform reflective and refractive surfaces that are automatically shaped to form the resulting light pattern. Freeform design features are especially advantageous for systems with small light sources, such as LEDs and halogen lamps
•    MacroFocal Reflector tool for designing multi surface segmented reflectors, with different spreads for each facet. MacroFocal Reflector is useful when designing lighting systems for applications that need precise control of the light pattern or sharp intensity cutoffs at one or more sides of the beam. Applications include street lights, outdoor and architectural lighting systems
•    Procedural Rectangle Lens tool for designing surfaces with pillowed optical arrays, which enable precise light distribution control in LED luminaires and signal lighting, as well as in applications that require superposition of optical distributions
•    LED Lens tool for creating various types of freeform LED collimator lenses, which are effective for producing efficient, highly directed light distributions

Advanced Design Module
The new LightTools Advanced Design Module introduces a set of specialised tools to enable fast, robust modelling of reflective and refractive freeform optics in both single surface and segmented configurations for a diverse set of illumination applications. Freeform optical surfaces provide many advantages over conventional optics for meeting complex illumination requirements, such as precise light control, innovative styling, compact system dimensions and energy efficiency.
In addition, the Advanced Design Module leverages proprietary algorithms from Synopsys’ LucidShape® products that automatically calculate and construct optical geometries based on user-defined illuminance and intensity patterns. This unique, functional approach gives designers the freedom to focus on overall design objectives rather than the implementation details of complex optical components.

“As the lighting industry continues to evolve, LEDs have become integral components in architectural lighting, and the use of freeform lenses and freeform reflectors has led to new photometric design possibilities,” said Dr. Matthias Bremerich, chief illumination engineer at ERCO. “The new LightTools Freeform Design features enable us to develop these sophisticated optical parts. We are impressed by the accuracy and speed of these tools.”

“With the LightTools Advanced Design Module, designers have powerful new tools to streamline the design of innovative luminaires,” said George Bayz, vice president and general manager of Synopsys’ Optical Solutions Group. “Enabled by the Advanced Design Module features, illumination engineers can take advantage of the cost and performance benefits that freeform optics offer, such as the ability to produce small, energy efficient light sources with design characteristics tailored to their application requirements.”

Temperature and power density effects for phosphor based LEDs
LightTools 8.3 includes new capabilities to assist designers in modelling spatial temperature and power density variations in phosphor based LEDs. Phosphors are known to change output under various conditions, including wide temperature ranges and changes in power density. These factors are important to consider when modelling phosphor layers in applications such as high power white LED packages.

User defined volume scattering API
LightTools 8.3 includes a new application programming interface (API) that gives users a high level of flexibility for developing custom volume scattering components that can be dynamically linked with LightTools. The API is particularly useful for defining interactions in phosphor based LEDs.

Volume Scatter Logger Utility
A new Volume Scatter Logger has been added to the LightTools Utility Library. The utility creates a log of scattering and phosphor conversion events to show what is happening in a scattering material, such as the amount of absorbed and lost energy, as well as shifts in wavelength. Without this type of capability, designers must infer what is happening within the volume by looking at the exiting rays. The new utility gives users greater insight into where energy density changes occur within the material.

Availability and resources
LightTools version 8.3 is available now. Customers with a current maintenance agreement can download this version from the Synopsys website using their SolvNet® account.

About Synopsys’ LightTools
LightTools is a 3D optical engineering and design software product that supports virtual prototyping, simulation, optimisation and photorealistic renderings of illumination applications. For more information, visit http://ift.tt/1fsEWhV.

About Synopsys:
Synopsys, Inc. (Nasdaq: SNPS) is the Silicon to Software™ partner for innovative companies developing the electronic products and software applications we rely on every day. As the world’s 15th largest software company, Synopsys has a long history of being a global leader in electronic design automation (EDA) and semiconductor IP, and is also a leader in software quality and security testing with its Coverity® solutions. Whether you’re a system on chip (SoC) designer creating advanced semiconductors, or a software developer writing applications that require the highest quality and security, Synopsys has the solutions needed to deliver innovative, high quality, secure products.
Learn more at www.synopsys.com.

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