Wireless charging is the next big thing. Not only is it going to replace clumsy wired cables but it is going to unveil a whole new world of possibilities. Before we get into that, a little bit of tech gyan on how it works. Wireless charging or technically inductive charging is similar in principle to a transformer. The primary coil is in the base unit that creates an alternating electromagnetic field and the secondary winding in the portable device receives the flux and converts it back to alternating current to recharge the battery.
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| Continuous in-road wireless charging |
One of the biggest possibilities of inductive charging is in-road wireless charging. This is similar to the power supply to trains and trams minus the overhead cables and clumsy pantographs. Primary cables are laid inside the road surface to which electricity is supplied and receivers are placed underneath electric vehicles which acts as secondary coil. This non-contact method can be used for charging as well as providing a continuous electrical power supply to vehicles where plugging-in is not convenient or possible. This is weather proof and safer also as no electrical points are exposed.
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| Wireless Mobile Charger |
There are a couple of challenges to be met before this technology
can be put to use. First, the efficiency is lower than conductive
chargers though 90% efficient wireless chargers have been developed at
Utah State University. Secondly, electromagnetic interference with
patients wearing pacemakers is a concern. Qualcomm Halo, a leading
wireless charging developer believes there needs to be an universal set
of regulations and limits to address this. Also the modes of payment by
user needs to be figured out. So far, the pros of this technology does
sound very tempting. The fact that stationary wireless chargers for
mobile phones and electric cars are available commercially is promising enough that the day of in-road wireless chargers is not far away.
