How electricity and magnetism is the yin and yang of wireless charging

1. How Electricity and Magnetism is the Yin and Yang of Wireless charging Sorry to disappoint you, but invisible wireless charging isn't exactly a novel concept. Tesla filed a patent in 1902 for a "Apparatus for Transmitting Electrical Energy," describing how electricity may be transported from one conductor to another. If you've ever used an electric toothbrush, you're aware that wireless charging has been around for a long time. So, how is invisible wireless charging getting so much attention today, when it has been available for years?

2. With the global proliferation of smart phones, the rise of electric vehicles, and a society that shuns fossil fuels, wireless charging may finally be ready for its big break. But how does wireless charging function in practice? It isn't some kind of dark magic; it is science! At long last, electricity and magnetism have come together. Before we get into the specifics of hidden wireless charging, let's take a step back and look at how electricity and magnetism interact. What you may not realize is that these two forces are two sides of the same coin. A magnetic field is created by passing an electric current through a wire, for example. Similarly, placing a copper wire near to an alternating magnetic field will produce an electric current to flow through the wire.

3. Still don't believe us? You may make your own electromagnet using common household items such as a battery, copper wire, and an iron nail: 1.For the first step, coil the copper wire around the iron nail. The ends of your copper wire will next be connected to the terminals of your battery. 2.An electric current will begin to flow through your copper wire once you connect the battery to it. Isn't it self-evident? Place something like a paperclip next to your wire and it will stick to it, thanks to magnetism! 3.You can even make a second coil of wire, put it next to your first coil, then use a voltmeter and you’ll get a voltage reading on the second coil.

4. It’s this direct relationship between electricity and magnetism, called electromagnetism, that is at the heart of wireless charging. How wireless charging works is not much different than the simple experiment that we outlined above and uses an electromagnetic field to transfer energy between something like your smartphone and a concealed wireless chargingpad. Here’s how wireless charging works in a nutshell: 1. First, the voltage is converted to AC, which is then supplied to a coil in a wireless charging pad. The transmitter coil is what it's called. 2. A magnetic field is formed when an electric current travels through this coil, and when another compatible device, such as a smartphone, is placed next to this pad with another coil implanted within, a magnetic field is created between both devices.

5. 3.An electric current can now travel through the receiving coil of your smartphone. This current is then used to charge your smartphone's battery, all without using any wires! Hidden Wireless charging is possible thanks to a magnetic field that stretches between two coils. You'll need specific hardware in both your transmitter and reception devices to charge your gadgets wirelessly. If you put a smartphone on a wireless charging pad that doesn't contain a receiver coil your phone won't charge.For more information on latest wireless chargers please visit our website or email us at @invisQi