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Design and Implementation of Low-Complexity Pre-Equalizer for 1.5 GHz VLC System

Runxin Zhang, Jian Xiong, Menghan Li, Lu Lu

2024IEEE photonics journal18 citationsDOIOpen Access PDF

Abstract

Visible light communications (VLC) has experienced rapid development in recent years as a strong competitor for next-generation wireless applications due to its wider bandwidth, higher security, and better electromagnetic immunity compared with conventional radio frequency (RF) microwaves. Although state-of-the-art VLC systems can achieve Gbps data rates by employing equalization schemes, designing a general low-complexity VLC transmitter with hundreds of MHz 3-dB bandwidth is still challenging due to the narrow modulation bandwidth nature of light emitting diodes (LEDs). In this paper, we first present a second-order equivalent circuit model for the LED, based on which we propose a general second-order equalizer (GSE) with low complexities, consisting of less than 5 passive capacitors, inductors, and resistors. We show that the GSE can enlarge the LED transmitter's bandwidth to a few hundred MHz. To validate our GSE, we build a broadband VLC transmitter using commercial-off-the-shelf (COTS) red, green and blue (RGB) LEDs, whose bandwidth is 14 MHz, by summing up three colours. Experimental results show that our proposed GSE can extend the transmitter's 3-dB bandwidth from 14 MHz to 1.5 GHz. Furthermore, we demonstrate that a VLC system utilizing the proposed GSE transmitter can achieve 1.15 Gbps data rates at a distance of 250 cm with a bit error ratios (BERs) below the forward error correction (FEC) limit <inline-formula xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink"><tex-math notation="LaTeX">$3.8 \times 10^{-3}$</tex-math></inline-formula> .

Topics & Concepts

Visible light communicationTransmitterComputer scienceBandwidth (computing)Radio frequencyBit error rateElectronic engineeringLight-emitting diodePIN diodeElectrical engineeringTelecommunicationsDiodeOptoelectronicsDecoding methodsPhysicsChannel (broadcasting)EngineeringOptical Wireless Communication TechnologiesOptical Network TechnologiesAdvanced Photonic Communication Systems
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