Inductive charging (also
known as "wireless charging") uses an electromagnetic field to
transfer energy between two objects. This is usually done with a charging
station. Energy is sent through an inductive coupling to an electrical
device, which can then use that energy to charge batteries or run the device.
What
that means is that when you charge your device it uses an
electromagnetic field. So the energy is sent from the primary coil to the
phone. Therefore, making it fully charged when you take it off.
Induction
chargers typically use an induction coil to create an alternating
electromagnetic field from within a charging base station, and a second
induction coil in the portable device takes power from the electromagnetic
field and converts it back into electrical current to charge the battery. The
two induction coils in proximity combine to form an electrical transformer.
What
this means is that the charger uses induction coil. That makes
the electromagnetic field.
Greater
distances between sender and receiver coils can be achieved when the inductive
charging system uses resonant inductive coupling. Recent improvements to
this resonant system include using a movable transmission coil i.e. mounted on
an elevating platform or arm, and the use of advanced materials for the
receiver coil made of sliver plated copper or sometimes
aluminum to minimize weight and decrease resistance due to the skin
effect.
What
this means is that the charger is portable. So when you move the charger it
will be charging still.
Whatever the application, the removal of the
physical connection delivers a number of benefits over traditional cable
connectors, some of which aren’t always obvious. The video below
highlights just some of the benefits and advantages of wireless charging and
offers an insight into a world where wireless power is widely integrated into
the home, office and our everyday lives.
Benefits of wireless chargers
•
Greater convenience and ubiquity for charging
of everyday devices
•
Reduce cost associated with maintaining
mechanical connectors
•
Safe powering or charging devices that need to
remain sterile or hermetically sealed (waterproof)
•
Prevent corrosion due to elements such as
oxygen and water
•
Eliminate sparks and debris associated with
wired contacts
Current
options for wireless charging of smartphones and tablets involve the use of a
charging pad, which acts as the transmitter, transferring power to a miniaturized wireless receiver integrated into
the smartphone or tablet.
The Proxi 2D
Charging Solution is the safest and most efficient wireless charging pad
technology for smartphones, phablets and tablets, delivering simultaneous
wireless charging of multiple devices, with full spatial freedom for the
placement of devices in any position (no exact alignment).
Miniaturized
receivers are integrated directly into the device, removing the need for
external housing covers or sleeves on devices. Follow the link to read
more about our Proxi 2D Pad charging technology. With continued advances
in wireless charging technology, transmitters built into
workstations, desks, tables and a whole range of everyday furniture will
soon become a reality. So in conclusion the wireless charger is portable and efficient.
http://powerbyproxi.com/wireless-charging/
http://electronics.howstuffworks.com/gadgets/other-gadgets/wireless-mobile-charger.htm
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