To extract parameter sets for Spice-like multidomain models of LEDs needs appropriate
set of input data, including forward current - flux, and forward current -forward
voltage characteristics of LED packages, performed under isothermal conditions at
known values of the junction temperature also known as isothermal IVL characterization,
along with the dynamic thermal properties of the LED package in question. The optical
and thermal laboratory test procedures, if properly combined, may provide the right
set of test data, if both the forward current and the junction temperature are swept
over the foreseen operating domain of the LED package to be modelled. The major bottleneck
however is, that the industry standard laboratory test procedures (both the optical
and thermal ones) require reaching the operating steady state before the actual data
acquisition can start, resulting in an impedingly long measurement time. The goal
of the present work is to provide an overview of the options of speeding up the overall
measurement procedure or the average throughput of the tests for a LED population
that provides a representative set of data for multi-domain modelling.
