Abstract
In this paper, the performance of a wide field of view VLC receiver that includes a silicon photomultiplier (SiPM) is reported. In particular, a receiver field of view of ±45° and On-Off keying data rates of 1.8 Gbps are demonstrated in 500 lux of ambient light. These results are achieved by combining optical absorption filters with a 6 mm by 6 mm SiPM. By absorbing ambient light between 450 nm and 750 nm these filters ensure that the SiPM is not saturated and reduces the transmitter power needed to support the required data rate. Unlike other optical filters the performance of absorption filters is not sensitive to angle of incidence. Consequently, the FOV is explained by a combination of the changes to the receiver’s projected area, the path length of light in the filters and reflections from the filter surfaces. In addition, the results of the calculations, described by the IEC 62471:2006 safety standard, needed to determine the eye safety of a transmitter are reported. These calculations and the resulting irradiance levels available in a representative office scenario are used to show that data rates of more than 1 Gbps could be achieved with eye safe transmitters.
Highlights
In the future Visible Light Communications (VLC) may complement existing Wi-Fi systems in some situations
The capacity of any future VLC channels will be determined by a combination of the channel's bandwidth and the signal to noise ratio (SNR) at the receiver’s output
WDM and polarization multiplexing have been combined to transmit 40.665 Gbps over 2 m [3]. All these VLC systems focused on the transmitter design to achieve higher SNR while their receivers provided a limited field of view (FOV)
Summary
In the future Visible Light Communications (VLC) may complement existing Wi-Fi systems in some situations. WDM and polarization multiplexing have been combined to transmit 40.665 Gbps over 2 m [3] All these VLC systems focused on the transmitter design to achieve higher SNR while their receivers provided a limited field of view (FOV). These relatively large areas and the ability to detect single photons significantly reduces the irradiance needed by a VLC receiver. The irradiances from the transmitter required to support different data rates when the best filter combination and a large SiPM are used, are determined.
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