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My Tesla Coil Project
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<blockquote data-quote="Einstein" data-source="post: 91536" data-attributes="member: 288"><p>No ground plane at all on my PC board. I'm still checking out the Miller effect. So far from what I've read on it suggests this is not a contributing factor. </p><p></p><p>The oscillator is feedback controlled. But other than that the main power MosFet is the only part that actually keeps the oscillation going. So basically the Tesla coil in this configuration is just a basic oscillator. Although using a power MosFet does serve a dual purpose in that the oscillator is also an amplifier as well. I am suspecting that this configuration is also similar to a non-inverting op-amp. </p><p></p><p>I did move the power MosFet off the PC board yesterday to see if there was any improvement in start-up operation. It will work in continuous mode but not in on-off pulsed mode. But I did notice the voltage swing on the field voltage dropped from +/-32 volts down to +/- 23 volts.</p><p></p><p>There is something I might mention. You'll notice in the schematic I have the secondary coil connected directly to the input pin of the MosFet driver. With two fast diodes clamping the voltage swing to just 12 volts of the power supply. The diodes clip the input voltage into a square wave. And also prevent any over-voltage condition to the MosFet driver. With the addition of two capacitors at the input I was able to get this to work perfectly on the bread board. I think this allows the secondary coil to continue to ring after turning off the power MosFet. On the scope, I could see this ringing take a while before dissipating. I believe it's this ringing that allows the coil to turn back on during on-off-on-off operation. </p><p></p><p>But this didn't work on a PC board. The way I got it to work in just continuous mode was to add a capacitor and resistor in parallel with the power side diode. And I did get it to intermittently work in on-off-on-off mode by holding my hand close to the wire connection during start-up. </p><p></p><p>To me this is all trial and error. I'm going to explore the op-amp angle today. And also Ironcladmarmallows suggestion on adding resistance to see if I can get the ringing oscillation to slow down.</p></blockquote><p></p>
[QUOTE="Einstein, post: 91536, member: 288"] No ground plane at all on my PC board. I'm still checking out the Miller effect. So far from what I've read on it suggests this is not a contributing factor. The oscillator is feedback controlled. But other than that the main power MosFet is the only part that actually keeps the oscillation going. So basically the Tesla coil in this configuration is just a basic oscillator. Although using a power MosFet does serve a dual purpose in that the oscillator is also an amplifier as well. I am suspecting that this configuration is also similar to a non-inverting op-amp. I did move the power MosFet off the PC board yesterday to see if there was any improvement in start-up operation. It will work in continuous mode but not in on-off pulsed mode. But I did notice the voltage swing on the field voltage dropped from +/-32 volts down to +/- 23 volts. There is something I might mention. You'll notice in the schematic I have the secondary coil connected directly to the input pin of the MosFet driver. With two fast diodes clamping the voltage swing to just 12 volts of the power supply. The diodes clip the input voltage into a square wave. And also prevent any over-voltage condition to the MosFet driver. With the addition of two capacitors at the input I was able to get this to work perfectly on the bread board. I think this allows the secondary coil to continue to ring after turning off the power MosFet. On the scope, I could see this ringing take a while before dissipating. I believe it's this ringing that allows the coil to turn back on during on-off-on-off operation. But this didn't work on a PC board. The way I got it to work in just continuous mode was to add a capacitor and resistor in parallel with the power side diode. And I did get it to intermittently work in on-off-on-off mode by holding my hand close to the wire connection during start-up. To me this is all trial and error. I'm going to explore the op-amp angle today. And also Ironcladmarmallows suggestion on adding resistance to see if I can get the ringing oscillation to slow down. [/QUOTE]
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