Akula0083 30 watt self running generator.

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2024-04-25, 19:08:49
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Author Topic: Akula0083 30 watt self running generator. (Read 931157 times)

verpies	Re: Akula0083 30 watt self running generator. « Reply #675 on: 2014-04-15, 23:07:09 »
Group: Professor Hero Member Posts: 3359	Quote from: Matt Watts on 2014-04-15, 22:58:03 Anything else noticed and relevant? The copper shields are coated with some adhesive. The inner shield is gapped. The outer one might be also. Perhaps more details can be gleaned from this video, by people with better eyes. Such as: 1) Turn count 2) Layer count 3) Layer advancement 4) The top winding direction in relation to the bottom winding direction ( a.k.a. dot convention ) 5) Soldered connections on those coppers shields.

verpies	Re: Akula0083 30 watt self running generator. « Reply #676 on: 2014-04-15, 23:09:36 »
Group: Professor Hero Member Posts: 3359	Quote from: Hoppy on 2014-04-15, 23:06:20 For the hell of it, I'll initially try the ICL7660 inverting driver as a comparison to the two versions of the bipolar transistor drivers. I'm currently right out of non-inverting drivers. Yes, you can do that as long as you feed this inverting driver with the signal from pin 11. Don't forget a pullup resistor around 200Ω from pin 11 to +Vcc. At a risk of being boring, I will reiterate for others what modifications should be made to the original Akula circuit for using an inverting integrated MOSFET driver to drive the MOSFET without inverting the total signal path (because of double inversion): IN REFERENCE TO Akula's DIAGRAM: 1) Remove R18, R19, C12, VT2, VD1. 2) Pull out one side of R16 and one side of R17 (the sides at their junction) out of the PCB and connect them together in the air (not touching the PCB) 3) Optionally, you can change R17 to a 0Ω resistor (e.g. wire). 4) Bypass the power supply pins of the integrated MOSFET driver chip with a 470nF (or greater) ceramic capacitor (directly soldered across the supply pins at the underside of the driver chip) 5) Superglue the integrated MOSFET driver chip on its back to the power MOSFET. 6) Connect the positive power supply pin of the integrated MOSFET driver chip to the output pin of the three-terminal 12V linear voltage regulator (or to the positive terminal of C6) with at least 0.5mm dia. wire (short & stranded wire is better) 7) Connect the negative power supply pin (a.k.a. GND) of the integrated MOSFET driver to the ground pin of the three-terminal 12V linear voltage regulator (or to the negative terminal of C6) with at least 0.5mm dia. wire (short & stranded wire is better). 8) Connect the output of the integrated MOSFET driver chip to the gate of the MOSFET through a 4.7Ω carbon resistor. a) use the non-inverting output, or b) ...or use the inverting output 9) Connect the input of the integrated MOSFET driver chip to the junction between R16 and R17 that is hanging in the air. a) if pt.8a was done, then use the inverting input b) if pt.8b was done, then use the non-inverting input For example the TC4428 or the UCC27511 driver can be used in this configuration like this: ------------------------ Akula0083 30 watt self running generator. TC4428inv.PNG (4.86 kB, 264x213 - viewed 2196 times.) Akula0083 30 watt self running generator. UCC27511_inv.PNG (5.37 kB, 446x164 - viewed 2129 times.) « Last Edit: 2014-04-16, 11:32:57 by verpies »

verpies	Re: Akula0083 30 watt self running generator. « Reply #677 on: 2014-04-15, 23:41:38 »
Group: Professor Hero Member Posts: 3359	At a risk of being boring, I will reiterate for others what modifications should be made to the original Akula circuit for using an inverting integrated MOSFET driver to drive the MOSFET without inverting the total signal path (because of double inversion): IN REFERENCE TO Groundloop's PCB: 1) Remove R2, R4, C1, Q1, D2. 2) Pull out one side of R1 and one side of R3 (the sides at their junction) out of the PCB and connect them together in the air (not touching the PCB) 3) Optionally, you can change R1 to a 0Ω resistor (e.g. wire). 4) Bypass the power supply pins of the integrated MOSFET driver chip with a 470nF (or greater) ceramic capacitor (directly soldered across the supply pins at the underside of the driver chip) 5) Superglue the integrated MOSFET driver chip on its back to the power MOSFET. 6) Connect the positive power supply pin of the integrated MOSFET driver chip to the output pin of the three-terminal 12V linear voltage regulator (or to the positive terminal of C6) with at least 0.5mm dia. wire (short & stranded wire is better) 7) Connect the negative power supply pin (a.k.a. GND) of the integrated MOSFET driver to the ground pin of the three-terminal 12V linear voltage regulator (or to the negative terminal of C6) with at least 0.5mm dia. wire (short & stranded wire is better). 8) Connect the output of the integrated MOSFET driver chip to the gate of the MOSFET through a 4.7Ω carbon resistor. a) use the non-inverting output, or b) ...or use the inverting output 9) Connect the input of the integrated MOSFET driver chip to the junction between R1 and R3 that is hanging in the air. a) if pt.8a was done, then use the inverting input b) if pt.8b was done, then use the non-inverting input For example the TC4428 or the UCC27511 driver can be used in this configuration like this: ------------------------ Akula0083 30 watt self running generator. TC4428inv.PNG (4.86 kB, 264x213 - viewed 4232 times.) Akula0083 30 watt self running generator. UCC27511_inv.PNG (5.37 kB, 446x164 - viewed 2001 times.) « Last Edit: 2014-04-16, 11:32:07 by verpies »

Matt Watts	Re: Akula0083 30 watt self running generator. « Reply #678 on: 2014-04-15, 23:57:39 »
Group: Guest	Quote from: verpies on 2014-04-15, 23:07:09 The copper shields are coated with some adhesive. The inner shield is gapped. The outer one might be also. Perhaps more details can be gleaned from this video, by people with better eyes. Such as: 1) Turn count 2) Layer count 3) Layer advancement 4) The top winding direction in relation to the bottom winding direction ( a.k.a. dot convention ) 5) Soldered connections on those coppers shields. Cannot discern turn count, but outer winding is one complete layer; inner winding is almost two complete layers with no tape between. It appears winding direction is opposite between primary and secondary. Inner winding has two parts; one of which is only a small number of turns and is positioned on one side of the bobbin, not centered over the gap.

verpies	Re: Akula0083 30 watt self running generator. « Reply #679 on: 2014-04-16, 00:03:40 »
Group: Professor Hero Member Posts: 3359	Quote from: Matt Watts on 2014-04-15, 23:57:39 It appears winding direction is opposite between primary and secondary. Didn't he drop the spool and picked it up turned around, making it appear that the winding direction is opposite ? « Last Edit: 2014-04-16, 07:36:43 by verpies »

Matt Watts	Re: Akula0083 30 watt self running generator. « Reply #680 on: 2014-04-16, 00:08:35 »
Group: Guest	Yes, between being clumsy and the camera focus changing, it is hard to tell. I do now see the TWO windings on the inner portion. He unspools to a point where he pulls the bobbin out of his hand. When he picks it back up, he breaks the entire winding which looks to be about a dozen turns. ------------------------ Akula0083 30 watt self running generator. Spool.jpg (9.47 kB, 222x158 - viewed 1934 times.)

Grumpy	Re: Akula0083 30 watt self running generator. « Reply #681 on: 2014-04-16, 04:29:10 »
Group: Tinkerer Hero Member Posts: 3947 tExB=qr	When he disassembles the transformer, is there any indication that the core is magnetized, rather than ferromagnetic?

Peterae	Re: Akula0083 30 watt self running generator. « Reply #682 on: 2014-04-16, 10:38:08 »
Group: Administrator Hero Member Posts: 3867	Grumpy I did an analysis of the core sometime ago, one of his cores had the manufacturers part code on, unfortunately they were no longer in business but i found the data which suggested it was MnZn ferrite material, it appears to be a black almost crumbly looking core material, it has a very low resistance something like 6Ohms per meter. Guys if he is using a double sticky sided tape on the copper foil then that will also insulate it when a layer is placed on top of itself, i dont think there would be any shorted turns in that copper.

Groundloop	Re: Akula0083 30 watt self running generator. « Reply #683 on: 2014-04-16, 11:14:06 »
Sr. Member Posts: 336	@All, First test run of my Akyla board. I have connected a 12 Volt 3,5 Watt LED lamp to the output. The Input is 8,2 Volt @ 0,26 Amp. The voltage over the LED lamp is 13,7 Volt. LED lamp seems to be full brightness. Nothing is heating up in my circuit and the MOSFET is cold. I'm running with the "STOP" switch open. I did try to close the "STOP" switch but the input current just went up to over 1 Ampere so I guess I did get the windings on the L2 coil the wrong way around. Only the OSC adjustment had any effect. I just adjusted the OSC pot-meter until I got the highest voltage output. I'm running a N27 core right now. My coil data: L1 = 76 turn 0,5mm, L2 = 186 turn 0,5mm, L1/L2 Ratio = 1:2,447. Coil is standard with L1 first then L2 on top of that. The LED lamp is slightly warm. Added: Test 2 IN = 08,00 Volt @ 0,22 A = 1,76 Watt OUT= 12,63 Volt @ 0,10 A = 1,26 Watt COP = 0,72 GL. ------------------------ Akula0083 30 watt self running generator. FirstRun01.jpg (102.99 kB, 681x1114 - viewed 1350 times.) « Last Edit: 2014-04-16, 12:16:08 by Groundloop »

Hoppy	Re: Akula0083 30 watt self running generator. « Reply #684 on: 2014-04-16, 12:08:19 »
Group: Guest	@ all, I have now modified the GL PCB to drive the mosfet from an ICL7600 chip. Current consumption is much better at 2.4A @ 12V (as read from my bench PSU) on max frequency of 131.6KHz. Lowest frequency is 18.9KHz. See attached scope shot 16 taken at mosfet gate and shot 17 across R17. The 'duty' pot can be adjusted to allow a sharp transition from LED lit to LED extinguished by operation of the 'STOP' switch. Duty cycle is 42% at top of frequency range and 43.9% at bottom of range. Must now get some work done! ------------------------ Akula0083 30 watt self running generator. Akula 16.jpg (89.51 kB, 640x480 - viewed 925 times.) Akula0083 30 watt self running generator. Akula 17.jpg (88.52 kB, 640x480 - viewed 628 times.)

Hoppy	Re: Akula0083 30 watt self running generator. « Reply #685 on: 2014-04-16, 12:11:50 »
Group: Guest	Nice neat build GL. I note that you have a lot more turns on your L1 & L2 coils than Akula. Hoppy

Groundloop	Re: Akula0083 30 watt self running generator. « Reply #686 on: 2014-04-16, 12:18:17 »
Sr. Member Posts: 336	Quote from: Hoppy on 2014-04-16, 12:11:50 Nice neat build GL. I note that you have a lot more turns on your L1 & L2 coils than Akula. Hoppy Hoppy, Yes, that is correct. I want lower current usage and I wanted to see if more turns makes any different result for the feedback from L2. But I think I got my L2 backwards. GL.

T-1000	Re: Akula0083 30 watt self running generator. « Reply #687 on: 2014-04-16, 12:26:18 »
Sr. Member Posts: 375	Hi guys Akula showed more details as per my request - https://www.youtube.com/watch?v=_DkjdsQ9vug In first part he showed effect what happens when Tesla coil effect is applied perpendicularly to normal windings on 90 degrees. Obviously this big toroid was not good success for first intended OU device. The ground wire is used there as well. In second part of video the circuit board is from LEDs 1W schematics using toroid from 1st part. This is where it was OK on self running it seems... Cheers!

verpies	Re: Akula0083 30 watt self running generator. « Reply #688 on: 2014-04-16, 12:26:38 »
Group: Professor Hero Member Posts: 3359	Quote from: Hoppy on 2014-04-16, 12:08:19 scopeshot 17 across R17. With C12 removed on GL's PCB ?

verpies	Re: Akula0083 30 watt self running generator. « Reply #689 on: 2014-04-16, 12:47:29 »
Group: Professor Hero Member Posts: 3359	Quote from: T-1000 on 2014-04-16, 12:26:18 Obviously this big toroid was not good success for first intended OU device. What's under all these windings? A ferrite core?

Hoppy	Re: Akula0083 30 watt self running generator. « Reply #690 on: 2014-04-16, 12:49:44 »
Group: Guest	Quote from: verpies on 2014-04-16, 12:26:38 With C12 removed on GL's PCB ? No, C12 is in.

Hoppy	Re: Akula0083 30 watt self running generator. « Reply #691 on: 2014-04-16, 12:52:53 »
Group: Guest	Quote from: T-1000 on 2014-04-16, 12:26:18 Hi guys This is where it was OK on self running it seems... Cheers! Do we take it then, that the two 30W versions we are working on never self-ran?

T-1000	Re: Akula0083 30 watt self running generator. « Reply #692 on: 2014-04-16, 13:09:16 »
Sr. Member Posts: 375	Quote from: verpies on 2014-04-16, 12:47:29 What's under all these windings? A ferrite core? I can assume, - yes, most likely just still question what made of ferrite - hard or soft. All OU effects I observerd over last few years was with hard ferrite http://en.wikipedia.org/wiki/Ferrite_%28magnet%29#Hard_ferrites Quote from: Hoppy on 2014-04-16, 12:52:53 Do we take it then, that the two 30W versions we are working on never self-ran? Interesting question which can be answered only after 1:1 replication. I can assume it was self running if there was NMR effect involved. Also I had conversation with Delamorto (where this saga began from with LEDs self runners in Youtube) and asked him to check something on ferrite because he did not know what type of ferrite it was and the compass needle was reacting to that ferrite even without pre-magnetization so this ferrite is presumably hard type which was same as in Lithuanian Yoke experiment material... Cheers!

verpies	Re: Akula0083 30 watt self running generator. « Reply #693 on: 2014-04-16, 16:22:21 »
Group: Professor Hero Member Posts: 3359	Quote from: T-1000 on 2014-04-16, 13:09:16 the compass needle was reacting to that ferrite A ferrite can concentrate Earth's magnetic field and make the compass needle react to this concentration. The inductance with known turn count, core size and gap width, as well as resistivity between two drops of salt water (5mm apart - not touching!) and the sound the ferrite makes after being struck while being suspended on a thread, can aid in ferrite identification better than the compass test.

T-1000	Re: Akula0083 30 watt self running generator. « Reply #694 on: 2014-04-16, 17:19:33 »
Sr. Member Posts: 375	Quote from: verpies on 2014-04-16, 16:22:21 A ferrite can concentrate Earth's magnetic field and make the compass needle react to this concentration. If you try that with soft ferrite - won't work Also the hard ferrite has distinctive black color and soft ones from China - greyish...

verpies	Re: Akula0083 30 watt self running generator. « Reply #695 on: 2014-04-16, 18:19:01 »
Group: Professor Hero Member Posts: 3359	Color is a much better indicator than a compass test.

verpies	Re: Akula0083 30 watt self running generator. « Reply #696 on: 2014-04-16, 18:20:33 »
Group: Professor Hero Member Posts: 3359	Quote from: Hoppy on 2014-04-16, 12:49:44 No, C12 is in. So R17 bypassed by a cap is not a good Current Sensing Resistor.

Hoppy	Re: Akula0083 30 watt self running generator. « Reply #697 on: 2014-04-16, 18:53:05 »
Group: Guest	Quote from: verpies on 2014-04-16, 18:20:33 So R17 bypassed by a cap is not a good Current Sensing Resistor. Yes, I do know that and just wanted to record the waveform for comparative purposes for other builders.

From Other Planet	Re: Akula0083 30 watt self running generator. « Reply #698 on: 2014-04-16, 19:01:34 »
Group: Guest	Quote from: verpies on 2014-04-16, 18:19:01 Color is a much better indicator than a compass test. Do you maybe have a close up picture of a ferrite type u think will work? And thank you very much for ur proposed integrated MOSFET driving mod, i think i will try directly with that mod when i assemble my akula 30w the next days. I will use the MIC4422BM, its working pretty good in my other builds at the moment, as long as switching frequency is below 300kHz, more than 300-400kHz destroys it. kind regards and peace, From other Planet

Grumage	Re: Akula0083 30 watt self running generator. « Reply #699 on: 2014-04-16, 19:58:33 »
Group: Moderator Hero Member Posts: 2737	Dear All. I carried out the mod's to the circuit today. I have used a TC4428 A. Unfortunately I have no gate pulse at all !! Do I need to isolate the Mosfet gate from the board ?? As I see it R4 ( GL's board ) is also in circuit !! HELP please !! Cheers Grum. --------------------------- Nanny state ? Left at the gate !!

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