Abstract
This paper shows fundamentals and results that support a promising methodology for evaluation in locus of a LED from its own radiating signal, and that allows monitoring of its aging by remote inference on which degradation mechanism is acting internally to the device's structure. It brings out also an alternative route for estimation of parameters of the Shockley's equation directly from small-signal ac analysis in a simple bench circuit. This last approach is shown to be effective and advantageous relatively to methods which take near a hundred points to achieve good estimations, while it uses only two points of the I-V static characteristic. Both approaches __ referred to as remote inference method (RIM) and two-points method (TPM) __ are applied together to show that external quantum efficiency (EQE) can be closely correlated to the injection process assumed to take place in that emitting device, meanwhile overvalued serial resistances due to neutral layers and ohmic contacts in electrodes affect only its electrical performance.
Highlights
Static I-voltage signal source (Vs) plots use to be analyzed to quality evaluation of diodes or parameterization of their electrical behavior in terms of charge-carrier transport and injection phenomenology, according to the theoretical model adopted a priori
__ i.e, their current are due to either diffusion of minority carriers (p-n barrier junction) or thermionic emission of majority carriers (Schottky barrier junction) [1] __ deviations from the ideal exponential dependence of current on voltage predicted by theory are “saw” by means of an ideality factor (n)
They are composed by one voltage supply (VCC) to bias the PD, and one ac voltage signal source (Vs), with internally adjustable dc off-set voltage, which is used to bias and simultaneously to excite the device under test (DUT) properly
Summary
Static I-V plots use to be analyzed to quality evaluation of diodes or parameterization of their electrical behavior in terms of charge-carrier transport and injection phenomenology, according to the theoretical model adopted a priori. Even for complex last generation LEDs evaluating the n is still a practical use for quality control [2] Such parameter exhibit values, for example, lying in the range 1
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
