The technology of exterior automotive lighting is undergoing the first major change in a half-century. Manufacturers of road vehicles, including motorcycles, are increasingly using Light Emitting Diode (LED) lamps in the place of incandescent light bulbs in exterior lighting applications, including brake lamps, turn signals and parking lamps. Analysis of incandescent bulb filaments has been well documented, and is a well-accepted practice in accident analysis. But little appears to be known about how, or even if, LED lamps respond to the forces of acceleration or direct-impact events to provide a record of the state of the lamp at the moment of an accident event. This project examined the responses of lighted and unlighted LEDs to both acceleration and direct impact events for indications of their state of operation when damaged. The structures of LED bulbs were examined before they were subjected to controlled acceleration and impact events, and those baseline features were compared to the bulbs following testing. LED lamp arrays were tested in the powered (On) and non-powered (Off) states, in order to look for features analogous to the hot-shock and cold-shock characteristics seen in incandescent lamps. Powered and non powered incandescent lamps were tested alongside the LEDs, to provide a known basis for comparison. Accelerations from 230 to 700 g caused typical hot-shock damage to the filaments of incandescent bulbs, but produced no readily observable changes in the test LED's. Direct impact damage did cause some LED bulbs to malfunction, but even then, no clear-cut features were found to indicate whether the LED had been on or off when damaged. The internal components of the tested LED bulbs are so minute that they cannot be seen in sufficient detail though magnifying lenses or available low to medium powered optical microscopes. The plastic of the LED domes proved to be opaque to the SEM beam, so it presently appears that the best means to look for event-induced changes within an intact LED may be through the use of a high-powered optical microscope. As a next research step, the authors recommend that controlled destructive tests be performed on lighted and non-lighted LEDs.


    Access

    Access via TIB

    Check availability in my library

    Order at Subito €


    Export, share and cite



    Title :

    Bulb usage analysis of LED-type automotive lighting


    Contributors:
    Steiner, J.C. (author) / Clark, N.E. (author) / Thom, D.R. (author)


    Publication date :

    2003


    Size :

    8 Seiten, 7 Bilder, 2 Tabellen, 10 Quellen




    Type of media :

    Conference paper


    Type of material :

    Print


    Language :

    English




    Bulb Usage Analysis of LED-Type Automotive Lighting

    Thom, David R. / Steiner, John C. / Clark, Neil E. | SAE Technical Papers | 2003


    Bulb usage analysis of LED-type automotive lighting

    Steiner,J.C. / Clark,N.E. / Thom,D.R. et al. | Automotive engineering | 2003


    Bulb Usage Analysis of LED-Type Automotive Lighting

    Steiner, J. C. / Clark, N. E. / Thom, D. R. et al. | British Library Conference Proceedings | 2003


    Thermal impact of bulb emissivity and reflector finish in automotive lighting

    Hilburger,F.K. / Guide,US | Automotive engineering | 2004


    Thermal Impact of Bulb Emissivity and Reflector Finish in Automotive Lighting

    Hilburger, F. K. N. / Society of Automotive Engineers | British Library Conference Proceedings | 2004