IR emitters at 1380 nm enable under-display fingerprint applications without burn-in phenomena but require high-resolution test equipment for precise spectral and power characterization.
IR radiation is ideally suitable for sensors and the transmission of data. Typical applications are 3D sensing in consumer electronics (e.g. time-of-flight), automotive engineering (e.g. LiDAR) and fingerprint sensors. Especially for smartphones, under-display fingerprint scanning is the most widely used technology to unlock a device comfortably and safely. The light output used for this application was previously positioned at a wavelength of around 940 nm. Unfortunately, at this specific wavelength burn-in phenomena occur in OLED displays. A solution for this disadvantage is to use infrared (IR) radiation at 1380 nm. As the application stays the same for the user, the shift from lower to higher wavelengths in the NIR requires other high-resolution and calibrated test equipment for the precise measurement of radiometric quantities, pulse measurement in the µs range and temperature control.
Figure: The IR test systems from Instrument Systems can be configured for all possible IR emitters, for measuring both narrowband sources such as laser diodes/VCSELs, as well as IR-LEDs and other broader-band emitters.
Instrument Systems has developed a modular high-end IR test solution to meet the requirements of optical under-display fingerprint sensors with wavelengths above 1100 nm. The core of this system is a high-end spectroradiometer of the CAS 140CT IR series, optimized for wavelength measurement in the near-infrared range (model IR1). With the cooled InGaAs line sensor, model IR1 covers a wavelength range from 780 nm to 1650 nm and features thermoelectric cooling of the sensors down to a temperature of -10°C. This ensures low noise and excellent long-term stability. The high-gain option enables the sensitivity range to be significantly extended to include low power applications. A high-resolution model with a wavelength range from 1300 to 1440 nm additionally enables detailed investigation of narrow-band radiation sources with an optical resolution <1 nm. Combined with integrating spheres with highly reflective PTFE coating, a calibrated and fast photodiode, and LED-based calibration standards, Instrument Systems offers highly flexible system solutions with a calibration traceable to national standards such as PTB or NIST.
___
© 2021 LED professional / Luger Research e.U.
Over the past 50 years, Nichia has demonstrated its commitment to improving the overall performance…
To fund the acquisition and ongoing operation of the production facility, BluGlass has secured A$3.4…
New CAS 140D IR spectroradiometer with improved optical and electronic components offer the user higher…
SSC boasts world's only LED and LD technology for vehicles using all wavelengths of light…
E-cars do not have a classic radiator grille, so the front of the vehicle…
“We welcome the further alignment of ANSI C137.4-2021 and D4i, which is expected to lead…