Author Of 4 Presentations
TuF2.6 - “HYBRID DAC” APPROACH TO INCREASING DYNAMIC RANGE AND SIGNAL TO NOISE IN IRSP SYSTEMS.
Abstract
Abstract
We propose and show preliminary test results on a system to improve dynamic range and signal to noise ratio (SNR) in an infrared (IR) light-emitting diode (LED) display system by splitting the digital-to-analog conversion between the close-support electronics (CSE) and the read-in integrated-circuit (RIIC).
TuF3.6 - LONGITUDINAL STUDY TO EVALUATE RELIABILITY, REPEATABILITY, AND REPRODUCIBILITY OF INFRARED LED SCENE PROJECTORS
Abstract
Abstract
As Infrared LED (IRLED) scene projector (IRSP) technology advances, the need to test for consistency and longevity also becomes more crucial. This paper characterizes the tests used to measure the reliability, repeatability, and reproducibility (R3) of an IRLED scene projector and the outcomes.
WA4.6 - DEMONSTRATION OF PACKETIZED DISPLAY PROTOCOL (PDP) TO OVERCOME SPEED AND RESOLUTION LIMITATIONS OF CONVENTIONAL DISPLAY PROTOCOLS
Abstract
Abstract
Traditional display protocols have limitations in terms of fixed refresh-rates, high bandwidth requirements, and control over the display of frames. This paper demonstrates the performance results of an alternative approach utilizing a packetized display protocol architecture incorporating dynamic refresh-rates, high-speed capabilities, to bridge performance gaps.
WB2.2 - FABRICATION, EVALUATION, AND IMPROVEMENTS OF 1KX1K AND 2KX2K INFRARED LED SCENE PROJECTOR SYSTEMS
- H. Ahmed (US) University of Delaware
- R. McGee (US) University of Delaware
- J. Marks (US) University of Delaware
- A. Waite (US) University of Delaware
- A. Landwehr (US) University of Delaware
- C. Jackson (US) University of Delaware, ECE
- G. Ejzak (US) University of Delaware
- T. Browning (US) University of Delaware
- P. Barakhshan (US) 139 the Green
- M. Hernandez (US) University of Delaware
- A. Deputy (US) University of Delaware
- T. Lassiter (US) University of Delaware
- C. Campbell (US) university of Delaware
- F. Kiamilev (US) university of Delaware
- J. Prineas (US) University of Iowa
- E. Koerperick (US) Firefly Photonics LLC
Abstract
Abstract
Infrared LED Scene Projector (IRSP) system is an emerging technology that has made numerous progress in its development and testing. That progress ranges from fabrication and evaluation steps to improve the electronics as well as improvements to the 1Kx1K and 2Kx2K hybrid arrays.