-Input Signal: 188 KHz, square wave AC, 20 Volts Peak to Peak (Vpp) or 10 Volts Root Main Square (RMS) from a Signal Generator -Capacitors: Unpolarized, in parallel with coil (not mandatory to have capacitor at the transmitter, but increases slightly led brightness) -Coils: length=5 meters, diameter=1 mm, single wire, single layer, cylinder diameter= 12 cm, speaker cable for both transmitter & receiver (coil shape matters !!!) -LED: 1 bright 3Volt white LED at the receiver coil -Resonance occurs at more frequencies: 16, 20, 26, 36, 59, 188 KHZ (led is brightest at 188 KHz)
Monday, October 29, 2012
Wireless electricity transfer through electric resonance
Wireless electricity transfer through electric resonance Tube. Duration : 2.00 Mins.
-Input Signal: 188 KHz, square wave AC, 20 Volts Peak to Peak (Vpp) or 10 Volts Root Main Square (RMS) from a Signal Generator -Capacitors: Unpolarized, in parallel with coil (not mandatory to have capacitor at the transmitter, but increases slightly led brightness) -Coils: length=5 meters, diameter=1 mm, single wire, single layer, cylinder diameter= 12 cm, speaker cable for both transmitter & receiver (coil shape matters !!!) -LED: 1 bright 3Volt white LED at the receiver coil -Resonance occurs at more frequencies: 16, 20, 26, 36, 59, 188 KHZ (led is brightest at 188 KHz)
-Input Signal: 188 KHz, square wave AC, 20 Volts Peak to Peak (Vpp) or 10 Volts Root Main Square (RMS) from a Signal Generator -Capacitors: Unpolarized, in parallel with coil (not mandatory to have capacitor at the transmitter, but increases slightly led brightness) -Coils: length=5 meters, diameter=1 mm, single wire, single layer, cylinder diameter= 12 cm, speaker cable for both transmitter & receiver (coil shape matters !!!) -LED: 1 bright 3Volt white LED at the receiver coil -Resonance occurs at more frequencies: 16, 20, 26, 36, 59, 188 KHZ (led is brightest at 188 KHz)
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