Educational Kit #10-416 "Resonant Circuits"

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Oh hey!!! I made that video!

That's a great video!

Do you remember how many turns the primary coil has?

and the secondary coil?

and the values for primary capacitor and the secondary capacitor?

and at what frequency did resonance occur?

It was mostly an iterative process. I picked a rather large coil (few hundred turns) and a smallish cap, say around 01µf. I placed them in parallel and used a frequency generator and oscilloscope to find their resonant frequency. Then I simply matched it on the second coil and cap. This way I essentially had two resonant systems matched to the same frequency. Simple as that.

you could also figure out the whole process on paper first with some minor adjustments. This would be helpful for example if you wanted the system to work at a specific frequency.

https://www.allaboutcircuits.com/tex...uit-resonance/

Please explain your method of finding resonant frequency

Thank you

That was a very helpful demonstration of some basics for me. So mehow in a crude way it gave me a handle on how radio seems to work.

Thank you

That was a very helpful demonstration of some basics for me. Somehow in a crude way it gave me a handle on how radio seems to work.

Two methods. One is to place the oscilloscope probe hear the coil and note when you have maximum peak to peak voltage. Two, place some sort of visual indicator in line with the resonant circuit....In this case a incandescent lamp. When the lamp is brightest you have minimum impedance within the circuit indicating resonant frequency.

Thanks.

So, basically, I need two identical coils and caps. I can find the inductance of the coils with an inductance meter.

Then just plug in the values in the formula to find the resonant frequency.

Then dial in the frequency generator to above frequency, fine tune, and then I should hit resonance.

That would make an awesome kit to sell on ebay.

Added content: I found a way to calculate the inductance of the coil.

Go here: https://www.eeweb.com/tools/coil-ind...CS%20TUTORIALS

Another L calculator: Coil32 - the coil inductance calculator

Coil on a ferrite core: Coil32 - Ferrite Rod Coil Calculator


Wire size conversion to mm: https://www.engineeringtoolbox.com/a...uge-d_731.html

Cool video and thread. In the past I had wondered if someday in the future, when they have non-polarized caps, with a high enough Farad value that can handle the voltage, they might be able to run AC induction motors that way.

edit,,,
Maybe induction motor wasn't the best choice, maybe some other kind of motor

online circuit simulator



Based on values found in https://www.allaboutcircuits.com/tex...uit-resonance/

To see online circuit simulator

https://www.falstad.com/circuit/circuitjs.html?cct=$+1+0.000005+0.8372897488127266 +50+5+43%0AT+240+176+416+256+0+0.1+1+0.00005687677 4040653705+0.09948247117298062+0.999%0A181+416+176 +480+176+0+300.6741295351522+10+10+0.4+0.4%0Ac+480 +176+480+256+0+0.000009999999999999999+1.105547423 7398257%0Aw+416+256+480+256+0%0Aw+240+176+192+176+ 0%0Aw+240+256+192+256+0%0Ac+192+176+192+256+0+0.00 0009999999999999999+1.052886168659392%0Av+80+176+8 0+256+0+1+159.155+10+0+0+0.5%0Aw+240+176+240+128+0 %0Aw+240+256+240+304+0%0Aw+240+304+80+304+0%0Aw+80 +304+80+256+0%0A181+80+128+240+128+0+300.672741212 7089+10+10+0.4+0.4%0Aw+80+176+80+128+0%0A

or

http://tinyurl.com/y2anfemb

Maybe somebody can tweek it.


image source: https://postimg.cc/Z075YyTw/b1c99d35

Simulator

For some reason, the circuit in the video doesn't work in the simulator, as illustrated by the third schematic.



https://www.falstad.com/circuit/circuitjs.html?cct=$+1+0.000005+0.625470095193633+ 33+5+43%0Aw+240+176+192+176+0%0Aw+240+256+192+256+ 0%0Ac+192+176+192+256+0+0.000009999999999999999+-5.775940672112673%0Av+80+176+80+256+0+1+159.155+10 +0+0+0.5%0Aw+240+176+240+128+0%0Aw+240+256+240+304 +0%0Aw+240+304+80+304+0%0Aw+80+304+80+256+0%0Aw+80 +176+80+128+0%0Al+240+176+240+256+0+0.1+-0.0670542779041831%0Ad+240+128+288+80+2+default%0A d+192+80+240+128+2+default%0Ad+240+32+288+80+2+def ault%0Ad+192+80+240+32+2+default%0Aw+240+32+240+0+ 0%0Aw+240+0+80+0+0%0Aw+80+0+80+128+0%0Aw+192+80+16 0+80+0%0Aw+160+80+160+144+0%0Aw+160+144+320+144+0% 0Aw+288+80+320+80+0%0A162+352+80+352+144+2+default-led+1+0+0+0.01%0Aw+320+80+352+80+0%0Aw+320+144+352 +144+0%0Av+416+176+416+288+0+1+159.155+10+0+0+0.5% 0Aw+576+176+576+144+0%0Ad+576+144+624+96+2+default %0Ad+528+96+576+144+2+default%0Ad+528+96+576+48+2+ default%0Ad+576+48+624+96+2+default%0Aw+576+48+576 +16+0%0Aw+576+16+416+16+0%0Aw+416+16+416+176+0%0Al +576+176+576+256+0+0.1+7.606334670731876%0Aw+528+9 6+496+96+0%0Aw+496+96+496+160+0%0Aw+496+160+672+16 0+0%0Aw+624+96+672+96+0%0A162+672+96+672+160+2+def ault-led+1+0+0+0.01%0Ac+576+256+576+336+0+0.00001+-938.9000653929287%0Aw+576+336+416+336+0%0Aw+416+33 6+416+288+0%0Av+768+208+768+272+0+1+159.155+10+0+0 +0.5%0Aw+768+272+880+272+0%0Aw+880+272+880+256+0%0 Aw+880+256+832+256+0%0Aw+832+208+880+208+0%0Ac+832 +208+832+256+0+0.00001+4.234457622416979%0AT+880+2 08+960+256+2+0.1+1+0.01014735322846631+-0.06992442300395967+0.999%0Ac+960+256+1040+256+0+0 .00001+-0.9329180901231808%0Aw+960+208+960+176+0%0Aw+960+1 76+928+176+0%0Aw+1040+256+1040+208+0%0Aw+992+208+9 92+144+0%0Ad+992+144+1024+112+2+default%0Ad+960+11 2+992+144+2+default%0Ad+960+112+992+80+2+default%0 Ad+992+80+1024+112+2+default%0Aw+960+112+944+112+0 %0Aw+944+112+944+160+0%0Aw+944+160+1072+160+0%0Aw+ 1024+112+1040+112+0%0Aw+1040+112+1040+80+0%0Aw+104 0+80+1072+80+0%0A162+1072+80+1072+160+2+default-led+1+0+0+0.01%0Aw+928+176+928+48+0%0Aw+928+48+992 +48+0%0Aw+992+48+992+80+0%0Aw+992+208+1040+208+0%0 Aw+880+208+880+176+0%0Aw+880+176+816+176+0%0Aw+816 +176+816+144+0%0Ad+816+144+848+112+2+default%0Ad+7 84+112+816+144+2+default%0Ad+784+112+816+80+2+defa ult%0Ad+816+80+848+112+2+default%0A162+896+64+896+ 160+2+default-led+1+0+0+0.01%0Aw+848+112+864+112+0%0Aw+864+112+8 64+64+0%0Aw+864+64+896+64+0%0Aw+896+160+768+160+0% 0Aw+768+160+768+112+0%0Aw+768+112+784+112+0%0Aw+81 6+80+816+64+0%0Aw+816+64+752+64+0%0Aw+752+64+752+1 76+0%0Aw+752+176+768+176+0%0Aw+768+176+768+208+0%0 A

or

http://tinyurl.com/yyelcglc


Image Source: https://postimg.cc/WD4TTR2K/54127a3e

Why did you throw full wave bridges in there? Diodes can cause clipping. I doubt that that simulation is accurate enough to demonstrate that, but still, my original circuit did not have those. Not to say you couldn't, but that's why I used a resistive load like incandescent bulbs.

I just put in the FWBR because I was using LEDs.

I'm having a problem modeling the circuit with the simulator.

I don't doubt for even a moment that the circuit works.