mLED provide two demonstrator kits for purchase. The developer kits are a true turnkey solution for system innovators. The Graphical User Interface (GUI) provides an easy to use, functional platform for proof of concept validation.
4096 Matrix Developer Kit
mLED’s ultra high brightness MicroLED 4096 developer kit is the first micro pixellated GaN solution to provide 4096 matrix addressable microLEDs. The high pixel density (16 μm emitter on 50 μm centre to centre pitch) provides compactness for advanced miniature applications.
The passive matrix addressable microLED chip is optimised to work in scanning mode. This provides the means to generate and display patterns. The control software enables the brightness, scan rate and voltage to be adjusted equally for all addressed pixels.
An extra feature has been added to enable single pixel illumination in CW mode. This is used to qualify the maximum output power and power density of an individual pixel. This extra capability is also for single pixel high brightness application.
The robust, solid state microdisplay provides unparalleled brightness levels, providing consistent clarity of information. Luminance capabilities of 30,000 Cd/m2 and more are provided for the standard demonstrator system.
64 Individually Addressable Developer Kit
mLED’s microLED 64 develop kit is a micro pixellated CMOS driven “mini light engine” that delivers unparalleled performance. The high efficiency engine is CMOS driven, offering the ability to individually address each of the 64 flip-chipped micro-emitters.
By using a custom-designed CMOS driver it is possible to provide pulses into the subnanosecond regime (low power operation), high optical output power per pixel (Typical- 1300 mW/mm2 at 450 nm) and versatile control of the emission characteristics. Pulsed mode operation of 25 ns pulse width of 85 pJ at 405 nm and ~500 pJ at 450 nm have been demonstrated.
CMOS backplane technology provides the means to individually control high output power microLED operation. To date the power densities are some of the highest reported for LED technology. Life science applications such as lab-on-chip can also benefit from having access to the inert, impervious sapphire window .
Please contact us if you would like more details.