Photonic crystal structured blue µLED with aperture size dependent data transmission performance in plastic fiber link

Abstract

A comprehensive comparison on the data transmission performance of photonic crystal structured micro light-emitting diodes (PC-µLEDs) with different aperture sizes is realized for high-speed visible light communication application. The 120×120-µm2 large PC-µLED exhibits the largest optical power of 580 µW and the highest external quantum efficiency of 2.5%; however, it also demonstrates the lowest analog modulation bandwidth of only 72 MHz. By contrast, the smallest PC-µLED with 20×20-µm2 aperture emits the lowest optical power of 37 µW but provides the highest 3-dB bandwidth of 162 MHz. After optimizing the operating parameters for data transmission, the trade-off between output power and encoding bandwidth is observed to improve the transmission performance. The PC-µLED with mesa length of 60–80 µm can transmit on-off keying (OOK) data format at 500 Mbit/s under error-free BER criterion. In particular, the device with a mesa area of 80×80-µm2 successfully carries the 300-MBaud 4-level pulse amplitude modulation (PAM-4) data with corresponding data rate of 600 Mbit/s under KP4 forward error correction (FEC) required BER. Furthermore, the quadrature-amplitude-modulation (QAM) orthogonal frequency division multiplexing (OFDM) data transmission is also performed, and the highest data rate of 2 Gbit/s under FEC criterion is allowable by using the PC-µLED with a mesa aperture of 80×80-µm2.