Author Topic: Power MOSFETs with fast recovery body diodes  (Read 9242 times)

Offline John123

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Power MOSFETs with fast recovery body diodes
« on: April 01, 2020, 02:01:30 PM »
On paper a fast recovery body diode seems good, but when I check through other products I notice many manufacturers make the same MOSFET model with fast recovery and slow recovery body diode options (SIHG039N60EF vs SIHG039N60E in my case).

Are there trade offs with the fast recovery versions in general other than cost?
« Last Edit: April 01, 2020, 06:05:51 PM by John123 »

Offline davekni

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Re: Power MOSFETs with fast recovery body diodes
« Reply #1 on: April 01, 2020, 08:47:11 PM »
Usually there's a trade-off that faster diodes have higher forward voltage drop.  To my surprise, that isn't the case for these parts.  I did notice that the avalanche energy rating was a little lower for the fast-diode FET - no idea why.
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Offline John123

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Re: Power MOSFETs with fast recovery body diodes
« Reply #2 on: April 02, 2020, 11:32:19 AM »
Well these days I don't rely on avalanche ratings to protect them, as a teen I would switch inductive loads with no external peak drain-source voltage limiting and wonder why they got hot and popped after a few minutes!  ;D

My thinking with the fast recovery diode version is it'll cope better with high dv/dt turn off pulses. Its to replace a fet in a project which has much higher parasitic input capacitances and is a bit too close to switching back on again under heavy load, I'm thinking 3v gs threshold might help with that too since the current 2v gs-th SIHG73N60E almost couples that back onto its gate during the high dv/dt events.

It's a good mosfet and actually cost me quite a bit of change back in 2014, but I can repurpose it. I've been looking on RS components and hadn't realized how far MOSFET technology has come over the last few years. The high input capacitances of the SIHG73N60E have more than halved. Fets with fast recovery diodes are new to me too  :D

Offline davekni

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Re: Power MOSFETs with fast recovery body diodes
« Reply #3 on: April 02, 2020, 08:09:29 PM »
John,

Yes, I never rely on avalanche ratings either.  However, my limited and unscientific observations would suggest that parts with higher avalanche ratings tend to be more robust.  Perhaps that's due to occasional unintended over-voltage spikes during startup current peaks combined with parasitic wiring inductances.  The reduction with SIHG039N60EF is small, so I'd take the fast diode over the small avalanche energy difference.

That does look like a very nice FET you've found.  That's certainly one I'll consider if designing another high-power FET circuit.  The only caution I have is that the low Crss makes for very rapid slew rate on Vds.  I have some 200V FETs with similar on-resistance and low Crss.  They kept frying in an H-Bridge design with transformer-coupled gate drive because the high slew rate produced gate currents due to winding-to-winding capacitance that were so high frequency that the leakage inductance of the transformer wasn't low enough to shunt them.  That feedback caused a couple cycles of very-high frequency full-amplitude oscillation at each intended H-Bridge switching point.
David Knierim

Offline johnf

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Re: Power MOSFETs with fast recovery body diodes
« Reply #4 on: April 02, 2020, 08:24:07 PM »
Yes things have greatly improved with the reverse diode specs in mosfets and now one can more or less rely on them instead of having to provide faster or lower fwd voltage external.
speed isn't everything the enemy of electroncs is dv/dT and di/dt.
Super fast switching leads to emi issues that can be extremely hard to mitigate
The perfect FET has still to be produced but we now have more options

Offline T3sl4co1l

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Re: Power MOSFETs with fast recovery body diodes
« Reply #5 on: April 04, 2020, 09:01:32 AM »
Recovery only matters if you're off resonance in the wrong direction (for a typical voltage-sourced inverter: below resonance, giving a capacitive load phase).  Under preferred conditions, load current and channel resistance more than force recovery, and soft switching is maintained.

Max dV/dt is a different parameter, and for that matter, usually hard to exceed without mixing technologies (e.g., you might stress a Si FET with the speed of a SiC or GaN FET).

Avalanche and recovery are indeed in a tradeoff, something to do with minority carriers and their distribution.  Avalanche is best not to rely on in the first place.  Occasional light loading might be fine, but there are few applications where that even comes up, and repetitive full-load avalanche such as a poorly-wired inverter would experience, will quickly lead to destruction.

Tim

Offline John123

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Re: Power MOSFETs with fast recovery body diodes
« Reply #6 on: April 06, 2020, 07:49:30 PM »
Thanks everyone!

Offline John123

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Re: Power MOSFETs with fast recovery body diodes
« Reply #7 on: April 08, 2020, 11:40:04 PM »
I've just noticed a substantial difference, the body diode Reverse recovery current rating IRRM is 14.4 amps for the fast recovery version vs 30 amps for the regular.

Is this likely to cause problems when used as a drop in replacement? Lets say my max peak primary current is around 27 amps at high powers, well that seems like its got a lot of potential to swing back around and exceed 14.4 amps, or am I off base here?

Edit: hmm swapped it out and there's a ton of ringing at turn off, does the lower gate capacitance mean I should increase the gate resistor to compensate?
« Last Edit: April 09, 2020, 04:48:01 AM by John123 »

Offline T3sl4co1l

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Re: Power MOSFETs with fast recovery body diodes
« Reply #8 on: April 09, 2020, 05:10:31 AM »
Again, I_RRM is just what happens during recovery.  Most times you won't be operating in hard switched recovery so this aspect of the waveform will never be seen.

Tim

Offline John123

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Re: Power MOSFETs with fast recovery body diodes
« Reply #9 on: April 09, 2020, 05:32:41 AM »
But it is a hard switched flyback topology I'm using, but it doesn't matter then?

Offline davekni

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Re: Power MOSFETs with fast recovery body diodes
« Reply #10 on: April 09, 2020, 05:47:51 AM »
When you say "hard-switched flyback", is this a resonant design like a normal TV CRT flyback design?  If so, the diode typically does conduct after the resonant flyback pulse.  However, the FET is turned back on while the diode is still conducting.  The diode stops conducting very gently, as the FET takes over current conduction.

If this is a boost-converter type circuit without resonant capacitor, the FET body diode typically never conducts, as there is never reverse drain-source current flowing.
David Knierim

Offline John123

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Re: Power MOSFETs with fast recovery body diodes
« Reply #11 on: April 09, 2020, 06:33:52 AM »
Fair enough then, I guess my intention with swapping to this fast diode fet was to reduce sources of loss and switching noise in the circuit.

Regarding the ringing I mentioned, it appears that having a ferrite bead on the source pin can actually make things worse. I'd already got them on the gate and drain legs but thought I'd add one to the source when I swapped the fet out, but now I've removed it again the turn off is much cleaner (under load). This was also scoping right at the body with the probes bypassing the beads.

There's still the foundation of something there, right as the fet hits the 3vgs threshold voltage at turn off.
« Last Edit: April 09, 2020, 06:39:09 AM by John123 »

Offline T3sl4co1l

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Re: Power MOSFETs with fast recovery body diodes
« Reply #12 on: April 10, 2020, 06:59:00 AM »
But it is a hard switched flyback topology I'm using, but it doesn't matter then?

You gave absolutely no context so I assume the default, a half bridge Tesla Coil or something like that.

Hard switched flyback, forces recovery of the secondary diode.

If you're working with this circuit,
https://highvoltageforum.net/index.php?topic=1007.0
it is also not hard switched, with no diode shown and a snubber provided.

Flybacks are usually driven in quasi-resonant as mentioned above.

Tim

Offline John123

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Re: Power MOSFETs with fast recovery body diodes
« Reply #13 on: April 10, 2020, 07:43:03 AM »
Here's the schematic, the transformer is a TV lopt flyback and does have a secondary rectifier diode (built in).



First impressions of the new fet and it would appear that it runs a bit cooler without any tweaks.
« Last Edit: April 10, 2020, 09:44:49 AM by John123 »

Offline davekni

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Re: Power MOSFETs with fast recovery body diodes
« Reply #14 on: April 11, 2020, 01:00:48 AM »
John,

Thank you for sharing the circuit!  That's an interesting variation on a resonant flyback.  What I'm used to seeing is w/o the diodes nor 1.5uH inductor, with the right side of the 220nF capacitor connected to either ground or the +30V supply.

This version has one key advantage:  It will start cleanly if +30V is supplied first and then +18V.  If a normal resonant flyback is started in that sequence, the FET will charge the resonant capacitor (220nF) during it's first gate pulse, dissipating 0.5*C*V*V internally, and with high initial peak FET current.  This can fry the FET on startup if supplies are sequenced with drain voltage before gate.

The disadvantage is that the FET Vds rises rapidly for the initial 30V until the upper diode conducts (and a bit farther due to the diode's forward recovery time and parasitic inductances).  It doesn't rise to peak voltage immediately like a non-resonant circuit would, so is a compromise, semi-hard switching for the off-transition.

The FETs internal body diode is soft-switched as in normal resonant flyback circuits.

BTW, this interesting circuit prompted me to run quick simulations to make sure I was understanding it's operation correctly.
David Knierim

Offline John123

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Re: Power MOSFETs with fast recovery body diodes
« Reply #15 on: April 11, 2020, 01:24:46 AM »
Thanks! It's not my design, a guy named Jan Martis from 4hv actually came up with it around 2009 and it was designed as a more reliable replacement for those 555 flyback drivers floating around the internet. But for some reason it never gained as much popularity as the 555 drivers, plus his website was shut down recently.

Type "non dissipative snubber" into google images you'll get some results for this arrangement, you're right it's like a best of both worlds sort of thing. You don't get that true LC resonance ringing back and forth like on some single ended drivers, so the transistor isn't subjected to those "untimed and untuned rings" if that makes sense. Without feedback to time the pulses the transistor can often turn on at the wrong moment and shunt the contents of the resonant cap, at least that's what I think sometimes happens in those single ended 555 drivers.

I've got a few changes on mine however:
100nF instead of 220nF, helps get bigger arcs with lower supply voltages and smaller flybacks.

SIHG039N60EF 600v fet for the reason above, although a 400v one would be more than adequate. I was just going for a lot of extra headroom, 200v fets however were not enough in my experiments as that's around the level where things start getting good (unless you've got a monster flyback with really high turns ratio).

Soon a TVS string across the drain and source, just incase!

High impedance RCD snubber across the primary coil for measuring peak voltages with a DC voltmeter (UF4007 4.7nF 10 Megaohm), I think it may actually help with the disadvantage you noted as it's a little more stable when producing large arcs with it included. I only found this out by accident, originally the 10 megohm was my multimeter input impedance and when I removed it would change the stability of the arc (when making 5cm+ arcs).
The disadvantage is that the FET Vds rises rapidly for the initial 30V until the upper diode conducts (and a bit farther due to the diode's forward recovery time and parasitic inductances).  It doesn't rise to peak voltage immediately like a non-resonant circuit would, so is a compromise, semi-hard switching for the off-transition.

10 ohm resistor in series with the gate turn off diode, without made the circuit go haywire with the previous fet (probably parasitic inductance and capacitance related).

UCC28C45 instead of UC3844, has lower UVLO and is a modern drop in replacement version, but I didn't really notice any difference other than it works from 12v.

18v zener on the gate.

1 amp schottky diode from ground to pin 6 as recommended in the UC384x datasheets.

RC snubbers across the lossless snubber diodes, I went crazy trying to get a clean current sense signal.

1nF+1.2k for the current sense RC filter, I think this is where I went wrong but its all I had at the time. 1k + 470pF seems common online for this IC, could mine be too large?

What do you use for simulations? I could do with some kind of simulator myself for this sort of thing.
« Last Edit: April 11, 2020, 04:07:00 AM by John123 »

Offline davekni

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Re: Power MOSFETs with fast recovery body diodes
« Reply #16 on: April 11, 2020, 04:47:39 AM »
Adding the TVS diodes may help the same issue as the RCD snubbing was helping.  Either solution is to handle parasitic inductance.  Even the normal flyback could need snubbing if parasitic inductance is high.  The extra diode in this circuit just adds a bit to parasitic inductance.  At FET turn-off, the FET current suddenly transfers to a path through the 100nF cap, diode, and bypass capacitance from +30V back to ground.  (The current-sense resistors are also in the parasitic-inductance loop, as the current stops through them.)  So, that entire path needs to be low inductance, short connections ideally as copper against a ground plane.  For most such circuits, I either cut gaps in one side of two-sided copper-clad board to make circuit nodes, or apply copper tape to a thin dielectric (phenolic or mylar) - ground on one side and interconnect sections on the other side.

The big advantage of UCC28C45 or similar chips over 555 is current sensing.  This fixes issues of accidentally setting too long a FET on-time, and partially-fixes issues of too short a FET off-time.  If the off-time is too short, the FET turns-on with high Vds.  The UCC28C45 current sense will shut it off, hopefully before the FET fries.  If this continues for many cycles, however, the FET may still eventually fry.  That's the biggest issues with your 1.2us long current-sense filter.  It slows down response to short off-time high-current conditi9ons.

Changing 220nF to 100nF should make your primary and secondary peak voltages higher.  Going too low can hurt performance, however, if the primary resonance is too fast for the secondary to track due to its parasitic winding capacitance.

There are several free analog simulators available.  The one I prefer (and have been using for 20+ years at home and work) is LTSpice (also sometimes called SwitcherCad).  It's from Linear Technology, which was purchased by Analog Devices.  The standard documentation is a bit basic, but there's lots of great information on user groups etc.  LTSpice has all sorts of shortcuts and features that aren't formally documented, but that are very useful, such as plotting power dissipation of parts (alt-left-click to probe).  I'd be happy to send my simulation file if you are interested.  (I'll try attaching it, but that likely won't work, so send me an email at davekni@yahoo.com.)
* flyback.zip
I included my local FET library file as well.  That isn't necessary if you change the FET to something in LTSpice's standard library.  (There's an independent program called MOSTool for taking data-sheet parameters and converting them into LTSpice FET models.  That's where all the FETs in the attached library come from.)
David Knierim

Offline SteveN87

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Re: Power MOSFETs with fast recovery body diodes
« Reply #17 on: April 11, 2020, 01:25:10 PM »
Quote
f the off-time is too short, the FET turns-on with high Vds.

My 1990's ignition coil driver attempted to address that with crude voltage sensing:



It's basically a transistorised Ruhmkorff coil. Q1 defaults to ON, the primary current builds up until there's about 0.7 V across R4, then Q2 starts to pull the FET gate down. At some point, the drain voltage will start to rise and C1 will accelerate the turn off of Q1, keeping it off until the drain voltage returns to a low value. Q2 eventally turns off and the cycle repeats. C1 and R3 also form an RC snubber.

Such a simple circuit obviously has limitations: e.g. the gate drive waveform is awful and hold-off action diminishes with increased output loading.

Edit: A simulation of this shows that it doesn't do a very good job of holding off until Vds drops to an acceptably low value. There are conflicting requirements for the snubber action on the hold-off action. Good snubbing = poor hold-off. The MK2 version will separate the two functions...
« Last Edit: April 11, 2020, 08:52:33 PM by SteveN87 »

Offline John123

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Re: Power MOSFETs with fast recovery body diodes
« Reply #18 on: April 13, 2020, 11:53:36 AM »
Adding the TVS diodes may help the same issue as the RCD snubbing was helping.  Either solution is to handle parasitic inductance.  Even the normal flyback could need snubbing if parasitic inductance is high.  The extra diode in this circuit just adds a bit to parasitic inductance.  At FET turn-off, the FET current suddenly transfers to a path through the 100nF cap, diode, and bypass capacitance from +30V back to ground.  (The current-sense resistors are also in the parasitic-inductance loop, as the current stops through them.)  So, that entire path needs to be low inductance, short connections ideally as copper against a ground plane.  For most such circuits, I either cut gaps in one side of two-sided copper-clad board to make circuit nodes, or apply copper tape to a thin dielectric (phenolic or mylar) - ground on one side and interconnect sections on the other side.

The big advantage of UCC28C45 or similar chips over 555 is current sensing.  This fixes issues of accidentally setting too long a FET on-time, and partially-fixes issues of too short a FET off-time.  If the off-time is too short, the FET turns-on with high Vds.  The UCC28C45 current sense will shut it off, hopefully before the FET fries.  If this continues for many cycles, however, the FET may still eventually fry.  That's the biggest issues with your 1.2us long current-sense filter.  It slows down response to short off-time high-current conditi9ons.

Changing 220nF to 100nF should make your primary and secondary peak voltages higher.  Going too low can hurt performance, however, if the primary resonance is too fast for the secondary to track due to its parasitic winding capacitance.

There are several free analog simulators available.  The one I prefer (and have been using for 20+ years at home and work) is LTSpice (also sometimes called SwitcherCad).  It's from Linear Technology, which was purchased by Analog Devices.  The standard documentation is a bit basic, but there's lots of great information on user groups etc.  LTSpice has all sorts of shortcuts and features that aren't formally documented, but that are very useful, such as plotting power dissipation of parts (alt-left-click to probe).  I'd be happy to send my simulation file if you are interested.  (I'll try attaching it, but that likely won't work, so send me an email at davekni@yahoo.com.)
* flyback.zip
I included my local FET library file as well.  That isn't necessary if you change the FET to something in LTSpice's standard library.  (There's an independent program called MOSTool for taking data-sheet parameters and converting them into LTSpice FET models.  That's where all the FETs in the attached library come from.)

Wow thanks Dave! The simulation file works fine, been having a play with it.

I did notice reduced performance with less snubbing capacitance with that other driver I've been messing with, it switches much slower anyway but going below 47nF makes the output power diminish. Like the voltage might get a tad higher but it goes really weak and spindly.

Yeah I'll swap out the RC filter for one with a lower time constant then.

When there's a current sense resistor in series with the fet source pin should the TVS go from drain-ground or drain-source (same goes for that snubber inductor), the simulation would appear to suggest the position of the snubber inductors low end doesn't really matter. But that doesn't take into account parsitics.

Quote
f the off-time is too short, the FET turns-on with high Vds.

My 1990's ignition coil driver attempted to address that with crude voltage sensing:

 [ Invalid Attachment ]

It's basically a transistorised Ruhmkorff coil. Q1 defaults to ON, the primary current builds up until there's about 0.7 V across R4, then Q2 starts to pull the FET gate down. At some point, the drain voltage will start to rise and C1 will accelerate the turn off of Q1, keeping it off until the drain voltage returns to a low value. Q2 eventally turns off and the cycle repeats. C1 and R3 also form an RC snubber.

Such a simple circuit obviously has limitations: e.g. the gate drive waveform is awful and hold-off action diminishes with increased output loading.

Edit: A simulation of this shows that it doesn't do a very good job of holding off until Vds drops to an acceptably low value. There are conflicting requirements for the snubber action on the hold-off action. Good snubbing = poor hold-off. The MK2 version will separate the two functions...

What about a seperate snubber, could that perhaps solve the hold off problem?

Offline SteveN87

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Re: Power MOSFETs with fast recovery body diodes
« Reply #19 on: April 13, 2020, 12:57:56 PM »
Quote
What about a seperate snubber, could that perhaps solve the hold off problem?

Yes - it does. The MK2 version is looking good on the simulator. I'm using @davekni's resonant rise and your filtered current sense signal suggestions (many thanks to you both). The hold off now takes the form of a very long off time that gets cancelled by the zero crossing of the drain/collector voltage. The gate drive waveform has been improved too.

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Re: Power MOSFETs with fast recovery body diodes
« Reply #19 on: April 13, 2020, 12:57:56 PM »

 


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post Re: DRSSTC Questions
[Dual Resonant Solid State Tesla coils (DRSSTC)]
alan sailer
March 25, 2024, 04:27:22 PM
post Re-chargeable 1.5 volt lithium ion AAA batteries
[General Chat]
MRMILSTAR
March 25, 2024, 03:57:34 PM
post Re: CM400 Induction Heater
[Electronic Circuits]
markus
March 25, 2024, 02:06:41 PM
post Re: Odd MOSFET Driver Behavior
[Solid State Tesla Coils (SSTC)]
KrisPringle
March 25, 2024, 04:43:25 AM
post Re: Odd MOSFET Driver Behavior
[Solid State Tesla Coils (SSTC)]
davekni
March 25, 2024, 02:39:40 AM
post Re: Odd MOSFET Driver Behavior
[Solid State Tesla Coils (SSTC)]
KrisPringle
March 25, 2024, 12:47:09 AM
post Re: capacitor and diodes. Voltage values for a CW
[Voltage Multipliers]
Alberto
March 24, 2024, 07:36:32 PM
post Re: My completed 14-stage Cockroft-Walton voltage multiplier
[Voltage Multipliers]
Alberto
March 24, 2024, 07:27:24 PM
post Re: capacitor and diodes. Voltage values for a CW
[Voltage Multipliers]
MRMILSTAR
March 24, 2024, 04:25:23 AM
post Re: capacitor and diodes. Voltage values for a CW
[Voltage Multipliers]
Alberto
March 23, 2024, 10:47:35 PM
post Re: capacitor and diodes. Voltage values for a CW
[Voltage Multipliers]
MRMILSTAR
March 23, 2024, 09:30:21 PM
post Re: capacitor and diodes. Voltage values for a CW
[Voltage Multipliers]
Alberto
March 23, 2024, 04:34:31 PM
post Re: capacitor and diodes. Voltage values for a CW
[Voltage Multipliers]
MRMILSTAR
March 23, 2024, 03:04:25 PM
post Re: capacitor and diodes. Voltage values for a CW
[Voltage Multipliers]
Alberto
March 23, 2024, 01:38:34 PM
post Re: capacitor and diodes. Voltage values for a CW
[Voltage Multipliers]
MRMILSTAR
March 23, 2024, 04:20:03 AM
post Re: Welcome new members, come say hello and tell a little about yourself :)
[General Chat]
davekni
March 23, 2024, 12:54:30 AM
post Re: Smoke Screen Machine Protect 950 XP - Teardown of a Smoke Cannon!
[Electronic Circuits]
davekni
March 23, 2024, 12:05:57 AM
post capacitor and diodes. Voltage values for a CW
[Voltage Multipliers]
Alberto
March 22, 2024, 11:45:03 PM
post Re: Welcome new members, come say hello and tell a little about yourself :)
[General Chat]
OmGigaTron
March 22, 2024, 11:30:09 PM
post Smoke Screen Machine Protect 950 XP - Teardown of a Smoke Cannon!
[Electronic Circuits]
Mads Barnkob
March 22, 2024, 10:20:35 PM
post Re: Where's all this voltage coming from?
[Spark Gap Tesla Coils (SGTC)]
Benbmw
March 22, 2024, 09:21:13 PM
post Re: What actually kills MOSFETs?
[Beginners]
AstRii
March 22, 2024, 03:37:11 PM
post What actually kills MOSFETs?
[Beginners]
FPS
March 22, 2024, 05:09:20 AM
post Re: Benjamin's DRSSTC 2 in progress
[Dual Resonant Solid State Tesla coils (DRSSTC)]
Benjamin Lockhart
March 22, 2024, 03:57:54 AM
post Re: Benjamin's DRSSTC 2 in progress
[Dual Resonant Solid State Tesla coils (DRSSTC)]
davekni
March 22, 2024, 02:59:25 AM
post Re: Benjamin's DRSSTC 2 in progress
[Dual Resonant Solid State Tesla coils (DRSSTC)]
Benjamin Lockhart
March 21, 2024, 06:31:42 PM
post Re: 2x Panasonic Inverter Microwaves - what to salvage, dangers?
[General Chat]
rikkitikkitavi
March 21, 2024, 03:08:01 PM
post Re: [WTS] IGBT, Ferrite, Capacitors, Tools, PSU, Industrial components and parts
[Sell / Buy / Trade]
Mads Barnkob
March 21, 2024, 01:37:32 PM
post Re: Difference between these transformers
[Transformer (Ferrite Core)]
Alberto
March 21, 2024, 11:42:07 AM
post Re: Phase Lead Questions
[Dual Resonant Solid State Tesla coils (DRSSTC)]
davekni
March 21, 2024, 04:09:14 AM
post Re: Benjamin's DRSSTC 2 in progress
[Dual Resonant Solid State Tesla coils (DRSSTC)]
Benjamin Lockhart
March 21, 2024, 02:15:31 AM
post My Homemade Structural Analysis X-Ray Machine
[X-ray]
Luca c.
March 21, 2024, 01:35:40 AM
post Re: Phase Lead Questions
[Dual Resonant Solid State Tesla coils (DRSSTC)]
Saattvik24
March 20, 2024, 10:40:00 PM
post Re: Difference between these transformers
[Transformer (Ferrite Core)]
Mads Barnkob
March 20, 2024, 08:03:41 PM
post Re: 2x Panasonic Inverter Microwaves - what to salvage, dangers?
[General Chat]
Mads Barnkob
March 20, 2024, 07:51:57 PM
post Re: Benjamin's DRSSTC 2 in progress
[Dual Resonant Solid State Tesla coils (DRSSTC)]
Mads Barnkob
March 20, 2024, 10:39:47 AM
post Re: Phase Lead Questions
[Dual Resonant Solid State Tesla coils (DRSSTC)]
davekni
March 20, 2024, 04:09:59 AM
post Re: 160mm DRSSTC II project | Questions
[Dual Resonant Solid State Tesla coils (DRSSTC)]
Benjamin Lockhart
March 20, 2024, 01:13:23 AM
post Re: Phase Lead Questions
[Dual Resonant Solid State Tesla coils (DRSSTC)]
Keybored
March 20, 2024, 12:45:16 AM
post Re: Benjamin's DRSSTC 2 in progress
[Dual Resonant Solid State Tesla coils (DRSSTC)]
flyingperson23
March 20, 2024, 12:30:30 AM
post Re: Benjamin's DRSSTC 2 in progress
[Dual Resonant Solid State Tesla coils (DRSSTC)]
Benjamin Lockhart
March 19, 2024, 11:12:24 PM
post Re: 160mm DRSSTC II project | Questions
[Dual Resonant Solid State Tesla coils (DRSSTC)]
Late
March 19, 2024, 09:47:49 PM
post Re: 160mm DRSSTC II project | Questions
[Dual Resonant Solid State Tesla coils (DRSSTC)]
Late
March 19, 2024, 09:44:19 PM
post Phase Lead Questions
[Dual Resonant Solid State Tesla coils (DRSSTC)]
Saattvik24
March 19, 2024, 06:52:09 PM
post Re: 160mm DRSSTC II project | Questions
[Dual Resonant Solid State Tesla coils (DRSSTC)]
flyingperson23
March 19, 2024, 05:02:44 PM
post Re: Welcome new members, come say hello and tell a little about yourself :)
[General Chat]
Mads Barnkob
March 19, 2024, 05:01:41 PM
post Re: Benjamin's DRSSTC 2 in progress
[Dual Resonant Solid State Tesla coils (DRSSTC)]
Mads Barnkob
March 19, 2024, 04:31:02 PM
post Re: 160mm DRSSTC II project | Questions
[Dual Resonant Solid State Tesla coils (DRSSTC)]
Mads Barnkob
March 19, 2024, 03:59:54 PM
post Re: Benjamin's DRSSTC 2 in progress
[Dual Resonant Solid State Tesla coils (DRSSTC)]
Benjamin Lockhart
March 19, 2024, 06:41:39 AM
post Re: Welcome new members, come say hello and tell a little about yourself :)
[General Chat]
davekni
March 19, 2024, 04:05:49 AM
post Re: Welcome new members, come say hello and tell a little about yourself :)
[General Chat]
OmGigaTron
March 18, 2024, 09:08:35 PM
post Re: Can I Trust This Super Cheap Site?
[General Chat]
2020-Man
March 18, 2024, 09:07:35 PM
post Re: Can I Trust This Super Cheap Site?
[General Chat]
Twospoons
March 18, 2024, 08:57:06 PM
post Re: Can I Trust This Super Cheap Site?
[General Chat]
MRMILSTAR
March 18, 2024, 03:51:33 PM
post Re: 160mm DRSSTC II project | Questions
[Dual Resonant Solid State Tesla coils (DRSSTC)]
Late
March 18, 2024, 02:59:46 PM
post Re: 160mm DRSSTC II project | Questions
[Dual Resonant Solid State Tesla coils (DRSSTC)]
Late
March 18, 2024, 02:33:25 PM
post Can I Trust This Super Cheap Site?
[General Chat]
2020-Man
March 18, 2024, 11:02:12 AM
post Re: Where's all this voltage coming from?
[Spark Gap Tesla Coils (SGTC)]
Twospoons
March 18, 2024, 02:36:11 AM
post Re: Best forum for vacuum tube amplifiers?
[General Chat]
Mads Barnkob
March 17, 2024, 07:42:55 PM
post Re: 2x Panasonic Inverter Microwaves - what to salvage, dangers?
[General Chat]
Michelle_
March 17, 2024, 04:15:14 PM
post Re: 2x Panasonic Inverter Microwaves - what to salvage, dangers?
[General Chat]
Michelle_
March 17, 2024, 05:05:04 AM
post Re: Where's all this voltage coming from?
[Spark Gap Tesla Coils (SGTC)]
davekni
March 17, 2024, 04:50:51 AM
post Re: 2x Panasonic Inverter Microwaves - what to salvage, dangers?
[General Chat]
Twospoons
March 17, 2024, 04:45:17 AM
post 2x Panasonic Inverter Microwaves - what to salvage, dangers?
[General Chat]
Michelle_
March 17, 2024, 04:17:51 AM
post Where's all this voltage coming from?
[Spark Gap Tesla Coils (SGTC)]
Terry
March 17, 2024, 01:29:32 AM
post Re: DRSSTC Questions
[Dual Resonant Solid State Tesla coils (DRSSTC)]
flyingperson23
March 17, 2024, 12:33:06 AM
post Re: DRSSTC Questions
[Dual Resonant Solid State Tesla coils (DRSSTC)]
Keybored
March 16, 2024, 08:46:20 PM
post Re: Bleeder resistor for MMC
[Dual Resonant Solid State Tesla coils (DRSSTC)]
Hydron
March 16, 2024, 08:39:24 PM

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