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Modular, Microprocessor-Controlled Flash Lighting SystemA microprocessor-controlled lighting system generates brief, precisely timed, high-intensity flashes of light for scientific imaging at frame rates up to about 1 kHz. The system includes an array of light-emitting diodes (LEDs) that are driven in synchronism with an externally generated timing signal (for example, a timing signal generated by a video camera). The light output can be varied in peak intensity, pulse duration, pulse delay, and pulse rate, all depending on the timing signal and associated externally generated control signals. The array of LEDs comprises as many as 16 LED panels that can be attached together. Each LED panel is a module consisting of a rectangular subarray of 10 by 20 LEDs of advanced design on a printed-circuit board in a mounting frame with a power/control connector. The LED panels are controlled by an LED control module that contains an AC-to-DC power supply, a control board, and 8 LED-panel driver boards. In prior LED panels, the LEDs are packaged at less than maximum areal densities in bulky metal housings that reduce effective active areas. In contrast, in the present LED panels, the LEDs are packed at maximum areal density so as to afford 100-percent active area and so that when panels are joined side by side to form the array, there are no visible seams between them and the proportion of active area is still 100 percent. Each panel produces an illuminance of .5 x 10( exp 4) lux at a distance of 5.8 in. (approx.1.6 cm). The LEDs are driven according to a pulse-width-modulation control scheme that makes it safe to drive the LEDs beyond their rated steady-state currents in order to generate additional light during short periods. The drive current and the pulse-width modulation for each LED panel can be controlled independently of those of the other 15 panels. The maximum allowable duration of each pulse of drive current is a function of the amount of overdrive, the total time to be spent in overdrive operation, and the limitations of the LEDs. The system is configured to limit the overdrive according to values specific to each type of LED in the array. These values are coded into firmware to prevent inadvertent damage to the LED panels.
Document ID
20100021309
Acquisition Source
Glenn Research Center
Document Type
Other - NASA Tech Brief
Authors
Kiefer, Dwayne
(QSS Group, Inc. OH, United States)
Gray, Elizabeth
(QSS Group, Inc. OH, United States)
Skupinski, Robert
(QSS Group, Inc. OH, United States)
Stachowicz, Arthur
(ZIN Technologies, Inc. Brook Park, OH, United States)
Birchenough, William
(ZIN Technologies, Inc. Brook Park, OH, United States)
Date Acquired
August 24, 2013
Publication Date
February 1, 2006
Publication Information
Publication: NASA Tech Briefs, February 2006
Subject Category
Man/System Technology And Life Support
Report/Patent Number
LEW-17894-1
Distribution Limits
Public
Copyright
Public Use Permitted.
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