Soon, wireless power zones to charge your phone | HT Tech

Soon, wireless power zones to charge your phone

What if you are told you can charge your smartphone even if the power source is some distance away on a street or inside a restaurant?

By:IANS
| Updated on: Apr 18 2014, 16:30 IST
image caption

What if you are told you can charge your smartphone even if the power source is some distance away on a street or inside a restaurant?

Taking the wireless technology one step ahead, researchers have removed the last remaining wires altogether by developing wireless power transfer technology.

You may be interested in

MobilesTablets Laptops
3% OFF
Samsung Galaxy Z Fold5
  • Icy Blue
  • 12 GB RAM
  • 256 GB Storage
Vivo X100 Pro 5G
  • Asteroid Black
  • 16 GB RAM
  • 512 GB Storage
8% OFF
Apple iPhone 15 Plus
  • Black
  • 6 GB RAM
  • 128 GB Storage
17% OFF
OPPO F25 Pro
  • Lava Red
  • 8 GB RAM
  • 128 GB Storage

The result is Dipole Coil Resonant System (DCRS) that can charge 40 smartphones simultaneously, even if the power source is 5 metres away.

Also read
Looking for a smartphone? To check mobile finder click here.

"With DCRS, a large LED TV as well as three 40 watt fans can be powered from a 5-metre distance," said Chun T. Rim, a professor of nuclear and quantum engineering at Korea Advanced Institute of Science and Technology (KAIST) in South Korea.

The technology proved the possibility of a new remote power delivery mechanism that has never been tried at such a long distance.

"Just like we see wi-fi zones everywhere today, we will eventually have many wi-power zones at such places as restaurants and streets that provide electric power wirelessly to electronic devices," Rim hypothesised.

We would use all the devices anywhere without tangled wires attached and anytime without worrying about charging their batteries, he added.

To build the system, the KAIST research team used compact ferrite core rods with windings at their centres.

The high frequency AC current of the primary winding generates a magnetic field and then the linkage magnetic flux induces the voltage at the secondary winding, the researchers said.

Catch all the Latest Tech News, Mobile News, Laptop News, Gaming news, Wearables News , How To News, also keep up with us on Whatsapp channel,Twitter, Facebook, Google News, and Instagram. For our latest videos, subscribe to our YouTube channel.

First Published Date: 18 Apr, 16:28 IST
NEXT ARTICLE BEGINS
Not sure which Mobile to buy? Need help?