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Author: Subject: Has anyone made a EBW setup.
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[*] posted on 23-2-2013 at 00:19
Has anyone made a EBW setup.


I have looked around and there isnt much information on how to make one of these or how many volts and joules ect and what kinds of wire will work for the actual EBW and the wires leading from it.

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[*] posted on 23-2-2013 at 01:51


http://www.sciencemadness.org/talk/viewthread.php?tid=15317
https://www.sciencemadness.org/whisper/viewthread.php?tid=12...





Adrenaline filled experimentalism.
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[*] posted on 23-2-2013 at 12:01


Thank you so much! I searched EBW on here and those pages didnt come up.
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[*] posted on 23-2-2013 at 12:07


Thing is though I have no electrical experience and I have no clue as to what they are discussing
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[*] posted on 23-2-2013 at 12:28


I like your sense of humour :D
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[*] posted on 23-2-2013 at 12:37


Yeah, that is funny . . .
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[*] posted on 25-2-2013 at 06:45


I've built one, some videos posted on youtube with "Freepatentsonline" nick.
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[*] posted on 26-2-2013 at 02:15


Seems you need to read a lot more on this topic.

A Guide to Explosives Firing
www.dtic.mil/dtic/tr/fulltext/u2/a322055.pdf

If you want a second opinion _
www.amateurpyro.com/forums/topic/414-ebws-capacitor-discharg...

_______________________________________________________


While on the topic I thought this an interesting development , it's a device that
amplifies the power from a normal blasting machine producing a pulse to fire EBW's.

Blasting Machine Power Multipliers for EBW's
www.teledynerisi.com/1techtopics/pdf/0295.pdf
www.teledynerisi.com/products/0products_2fs_page43.asp

The above would be used for example with a blasting machine like this_
http://cgi.ebay.com/ws/eBayISAPI.dll?ViewItem&item=26117...

.

Blasting Machine.jpg - 41kB
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[*] posted on 26-2-2013 at 05:02


http://www.youtube.com/watch?v=IXMDltOiNpU

With this I detonate ETN directly :D
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[*] posted on 26-2-2013 at 10:55


Are these things reliable? In a way you use electrical energy in the battery to do the job of the primary. How many joules you put in each shot? Did you make experiments with other secondaries?
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[*] posted on 27-2-2013 at 01:37


The energy stored in the capacitor is 8J, from that you can transfer about 0,5-1J into exploding wire
(see http://www.dtic.mil/dtic/tr/fulltext/u2/609449.pdf).

Reliability is 100% for me; at the moment more than 50 test never failed.
Unfotunately I never tried with others primary.
In the future I will try to detonate a very insensitive material like AN-AL.
(see patent US 3,156,186)
If it works I can remove every type of primary :D
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[*] posted on 27-2-2013 at 04:41


Nice, I'd use azide with the wire for critical applications to be sure. Interesting, 1J makes that thing explode, and with enough force to initiate the ETN. I wonder how will it perform in winter at -20, specially if the ETN has previously been a little melted from the heat of the sun near a window :P
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[*] posted on 9-3-2013 at 23:16


Sorry I've been away but this is great information haha and and Fuse I have stumbled apoun your videos in the past ! Great stuff!
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[*] posted on 8-4-2015 at 14:50
EBW HV Power Supply from Handheld Bug Zapper Rackets


I have two hand held bug zappers that were given to me which had mechanical problems of some sort but the power supplies still work fine (is it a bad sign that people keep giving me their old junk?). I also have 6 X 1000V, 1uF film capacitors which I removed from a large burned out VFD (variable frequency drive) for large induction motor speed control found at a scrap yard years ago. I discovered that once the ca. 400V capacitors were removed from these bug zapper power supplies that they could easily charge a several uF capacitor up to 1000V and that two of these in series could easily charge up to 2000V. I haven't tried going much higher except by accident the 3X2 capacitor bank of 6X1000V, 1uF capacitors (total 2000V, 1.5uF) was charged up to about 2200V once. Another 1000v, 1A diode (1N4007), was added in series with each of the two rectifier diodes present on each PS output.

So far I only have 40 gauge copper to make bridge wires and only RG6 coax (cable/satellite television cable) and/or speaker wire for transmission. Charged up to 2000V the 1.5uF capacitor bank can easily detonate ETN through 1ft of 18 gauge speaker wire, however, attempting the same thing with 12ft of RG6 coaxial cable resulted in failures.

I am just getting my feet wet with this, but decided to post since I think it is interesting.



Bug Zapper.jpg - 239kB Two Bug Zappers in Series (1).jpg - 284kB Two Bug Zappers in Series (2).jpg - 259kB

I know I should have bypass resistors in parallel with the two sets of series connected capacitors and on the rectifier diodes to ensure even distribution of charge/voltage. I ordered some high voltage, high ohmic value, bleeder resistors today but they will be a while getting to me.

Ideally 4 or even 6kV would be much better than 2kV and if the bridge wire was closer to 50 gauge the power requirements would be much less than they are now using a 40 gauge bridge wire. I think I have some heavy coaxial stored in a shed that was used by someone for Ham radio, which could be a big improvement in the transmission department.

Another couple of bug zapper rackets and I am good to go for 4kV. :D

Does anyone know exactly what type of capacitor this is? The warning on it is a bit ominous and for good reason I guess. A couple of these in series would be 12uF and could be charged to about 4kV. Now that is one hell of a jolt! I came into possession quite a few years ago of a lot of used 1970s electronics and electrical equipment from personnel carriers, etc, when they were being refurbished; a certain piece, of which I had a few dozen I think, had one of these big HV capacitors buried deep inside.

Big HV Capacitor.jpg - 487kB


[Edited on 9-4-2015 by Hennig Brand]




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[*] posted on 9-4-2015 at 06:55
24uF Capacitor Charged To 1600V Discharged Through 12ft RG6 Coax Into 40 Gauge Copper Bridgewire Initiates ETN


I hooked up the big 2kV, 24uF capacitor this morning to the bug zapper HV power supply. A 40 gauge copper bridge wire, about 1.5-2mm long was connected at the other end of 12ft of RG6 coaxial cable. Wrapped around the bridge wire in a bit of plastic wrap was about 50mg of loose, crystalline, ETN. The 24uF capacitor was only charged to 1600V because the bug zapper power supply took almost a full minute to even charge it up that much (batteries are old, so replacing them could make a big difference). There was a huge bang when the wire was touched to the charged capacitor and on inspection the plastic wrap was seen to be blown away and the bit of circuit board/spacer which held the bridge wire was broken away from the solder joints.

Capacitor Energy = 1/2CV^2
Energy = 1/2*0.000024F*1600V^2
Energy = 30.7 Joules

If two were hooked in series and charged to 4000V:

Energy = 1/2*0.000012F*4000V^2
Energy = 96 Joules !!!

I am still just learning, but this amount of capacitance is likely way overkill even with a 40 gauge bridge wire, also, at least 4000V would be much better than 2000V for long cable runs. It should be no problem initiating ETN through 100ft of cable with the right capacitor(s) and cable. I used a half to a full foot of 18 gauge speaker wire on either end of the RG6 coaxial for this test, so a section of consumable wire of some sort could be made as part of each EBW cap assembly with the idea that it would be consumed/destroyed in the blast.

Large Cap EBW.jpg - 299kB Vaporized BW Detonated ETN.jpg - 172kB

I suppose three of these capacitors hooked in series, with appropriate bypass resistors, would have 8uF of capacitance and could be charged as high as 6000V which would be about right probably.

Energy = 1/2CV^2
Energy = 144J !!!


Remote Control of EBW Power Supply Charging and Firing

The big limitation to these systems is the transmission cable, which must be kept as short as possible for practical purposes. I see no reason why heavy cables need to be run all the way back to the operator/shot firer. The power supply, capacitor(s) and firing switch/mechanism could all be fairly close to the blast in a tough enclosure or even buried. Small signal, light gauge, wiring could be run to the distant operator/shot firer so that charging and firing could be controlled as well as voltage/charge monitoring all from a distance. In fact if desired all that needs to be relatively close to the blast is the capacitor(s) and the firing mechanism, the power supply could charge the capacitors through a fairly light copper pair from a distance.


[Edited on 9-4-2015 by Hennig Brand]




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[*] posted on 9-4-2015 at 09:25


You need a beefier power supply for the cap. Using this bug zapper is like trying to fill a pool with a bucket :)

E.g. a topology like this one:

http://www.hvlabs.hu/inverter/fcsinverter.gif

The IR2153 or 21531 are selfresonating drivers that can be tuned in on the sweet spot of the transformer and operated in halfbridge or push pull mode. They are cheap and quite reliable, requiring very limited amount of external parts, but one has to limit the current through the chip Vcc leg to max 5mA. This can be done via a resistor of appropriate size if the supply voltage is fairly constant. With a battery though, I would suggest a sepic converter for that job. It is very annoying when the circuit draws big amps from the battery dropping the voltage below the UVLO treshold of the driver chip (9,5-10V) and the circuit starts to softswitch itself on and off. Then one tries to decrease the limiting resistor value and the chip gives off the ghost when a fresh battery with higher voltage is connected...
A sepic converter will feed a stable voltage of appropriate value to power the chip independent of the input voltage from the battery and eliminates the overcurrent problem very efficiently.
The output of the transformer can be driven through a simple voltage multiplier to get the required kV.




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[*] posted on 9-4-2015 at 14:27


Thanks, not a bad idea. You know though, the two series connected bug zappers have no problem charging up 1.5uF to 2000V, from just a couple of 1.5V AA cells, in well under 10 seconds. The last capacitor used really is a beast at 24uF and 2000V. Would be pretty funny to have an EBW power supply made with eight or ten series/parallel connected bug zapper power supplies. :D They are only $3-4 dollars each new IIRC and the first two were given to me broken so they were free. Pretty sure the transformers in them could handle more current so I could probably crank them up some. :D

Here is a power supply I have used in the past that works great and is not picky at all about component choice (pretty much any transistors that can handle the voltage and current within reason). I built a stun gun eight years ago or so and used the front half of one of these circuits when I built it (up to and including T1). It made a simple and tough little HV supply.


Stungun 2.png - 11kB

Stun Gun 3.png - 9kB

The circuits were taken from the following website which also has some assembly instructions.

http://chemelec.com/Projects/Stun-Gun-1/Stun-Gun.htm

I think it was probably the second one I used, but like I said before component choice is flexible. I wound my own transformers, or rewound I should say T1 from a salvaged switching supply transformer. Some voltage multiplier stages after T1 and you have everything you need. What you suggested could be a better solution, but it doesn't have to be too sophisticated and I kind of like working with garden variety discrete components such as transistors, capacitors, resistors, etc.


[Edited on 9-4-2015 by Hennig Brand]




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[*] posted on 10-4-2015 at 01:56


I'm sure both options will work just fine....and usually whichever one is simpler will do a better job.

And then there are the days when simple stuff gets kinda out of hands :D :D :

WP_20141112_005[1].jpg - 1.4MB

WP_20141112_012[1].jpg - 1.3MB WP_20141112_007[1].jpg - 1.2MB

WP_20141102_001[1].jpg - 1.4MB




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[*] posted on 10-4-2015 at 06:11


Looks very nice. Is that an EBW power supply?

Also, forgot to mention that there were high ohmic value bleeder resistors across the original HV storage capacitors on the bug zappers' outputs. These resistors as well as the original ca. 400V capacitors were removed so that the zapper supplies could be used to charge 1000V capacitors.

As was mentioned already, with two AA, 1.5 volt cells, the two series connected bug zapper power supplies took about a minute to charge the 24uF capacitor up to 1600V. The two AA batteries (3V total) were replaced with a small sealed lead acid battery (4V) which enabled the bug zapper supplies to charge the 24uF capacitor up to the full 2000V in 30-40 seconds. I was just going to add more AA batteries in series/parallel to get higher voltage/current capability, but this lead acid battery was sitting right on the table looking at me already. Components (transistors and transformers) were monitored for excessive heating during charging and were found to get only slightly warm if at all. These bug zapper supplies could probably be run from even higher supply voltages.

Almost like my brother knew what I needed when he dropped off the battery a couple of days ago which he said came out of a junked handheld spotlight (like the ones used for jacking deer).


Sealed Lead Acid Battery.jpg - 346kB


I have some RG-213 stored in a shed, but will have to dig it out to know for sure how much. It can be bought for $1/foot or less sometimes if you can make a deal with some of the Ham radio nuts (have heard of it being sold sometimes for as little as 50 cents per foot). Here is a picture of RG-213. It is a very heavy coaxial with 12.5 gauge center conductor I believe and very heavy braided shielding. According to the literature RG-213 is very suitable for use as EBW transmission line. The table was taken from "Explosives Engineering", by Cooper.

RG-213 Heavy Coaxial.png - 61kB Impedances of Common EBW Detonator Cables.jpg - 49kB


[Edited on 10-4-2015 by Hennig Brand]




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[*] posted on 11-4-2015 at 07:10
High Voltage/High Current Relay


This relay which I built in the last hour or two is extremely crude, but something much more refined could be easily built. Other than the foot long piece of 1/2" brass rod purchased for $5 everything else was from the junk pile. The idea is that the capacitor(s) can be charged through the low current normally closed contact (brass wood screw) and then once charged the solenoid could be activated which would dump the high current pulse through the 1/2" brass contact and into the transmission line and bridge wire thereby initiating the cap. Of course the relay could also connect the capacitor(s) to some other more efficient switching mechanism which could then dump the stored charge into the transmission line and bridge wire. The relay can be operated remotely using a length of light gauge wire.

Here is a picture of the crude high voltage/ high current relay and also a tiny video of it in operation.

High Voltage High Current Relay.jpg - 279kB

Attachment: Relay in Action.mp4 (9.2MB)
This file has been downloaded 1384 times


The solenoid is much bigger than it needs to be. It is rated for 120V and when kept mostly retracted it generates lots of force even when powered by only an 18V cordless drill battery pack (as was done in the video). Also from reading some of the Tesla coil sites, it seems that contacts with large, smooth surfaces with the right curvature can really reduce inductance and losses at a spark gap. I tried for 1" brass rod for contacts, but all I could locate yesterday was 1/2".


The pivot screw has been replaced with a pivot bolt which looks a little less foolish and will work better and for longer too. The spring was also positioned so that a little more tension was put on the contacts in the normally closed position. Picture below.

Relay Improved.jpg - 260kB


[Edited on 11-4-2015 by Hennig Brand]




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[*] posted on 12-4-2015 at 04:54
Triggered Spark Gap Switch


From the little bit I have learned about it so far, trigatrons appears to be much more controllable, more reliable, faster and more efficient than passive spark gaps (non-triggered spark gaps).


Here is a snip-it from the Wiki page on trigatrons:

"
A trigatron is a type of triggerable spark gap switch designed for high current and high voltage, (usually 10-100 kV and 20-100 kA, though devices in the mega-ampere range exist as well). It has very simple construction and in many cases is the lowest cost high energy switching option. It may operate in open air, it may be sealed, or it may be filled with a dielectric gas other than air or a liquid dielectric. The dielectric gas may be pressurized, or a liquid dielectric (e.g. mineral oil) may be substituted to further extend the operating voltage. Trigatrons may be rated for repeated use (over 10,000 switching cycles), or they may be single-shot, destroyed in a single use.

A trigatron has three electrodes. The heavy main electrodes are for the high current switching path, and a smaller third electrode serves as the trigger. During normal operation, the voltage between the main electrodes is somewhat lower than the breakdown voltage corresponding to their distance and the dielectric between them (usually air, argon-oxygen, nitrogen, hydrogen, or sulfur hexafluoride). To switch the device, a high voltage pulse is delivered to the triggering electrode. This ionizes the medium between it and one of the main electrodes, creating a spark which shortens the thickness of non-ionized medium between the electrodes. The triggering spark also generates ultraviolet light and free electrons in the main gap. These lead to the rapid electrical breakdown of the main gap, culminating in a low resistance electric arc between the main electrodes. The arc will continue to conduct until current flow drops sufficiently to extinguish it.

The triggering electrode is most often mounted through a hole in the center of the positive main electrode. The undrilled main electrode is the negative electrode. When switching high currents, the electrodes undergo considerable heat stress, as they are directly involved in the electric arc. This causes the surfaces to undergo gradual vaporization, so some designs incorporate methods to easily adjust the distance between the electrodes or to actually replace the electrodes. The main electrodes are typically fabricated from brass, or alloys of copper and tungsten for longer electrode life."


Found a good website with lots of technical data sheets for triggered spark gaps. Attached are a couple of related ones from the site.

http://www.reb3.com/


Attachment: Specifications for Spark-Gap Switches.pdf (951kB)
This file has been downloaded 2136 times

Attachment: Application Information for Spark-Gap Switches.pdf (326kB)
This file has been downloaded 2939 times


Here is a good DIY HV page with some simple firing circuits for trigatrons and where I found the link to the above commercial site:

http://hotstreamer.deanostoybox.com/ross/projects/Pulse/puls...


Here is a good electrical engineering journal article on trigatrons:

Attachment: Triggering in trigatron spark gaps - A fundamental study.pdf (1.8MB)
This file has been downloaded 1083 times



Threaded Switch Doesn't Bounce

The reason attention is being put on designing a triggered spark gap is because normal switches and relays have a variety of problems, such as switch bounce, which can cause erratic behavior especially with such high currents and short pulse durations where perfect switching is vital to performance. With the exception of not having timing as precise as with a trigatron, I think I may have a fairly simple solution for spark gap switching. One of the electrodes could be fixed and the other could be set into an electrically insulated track and moved towards the other electrode until arc over occurred firing the EBW. Timing would be awful compared to a trigatron, but how much does 1 or 2 seconds delay matter for general purpose blasting? Unlike a true static spark gap, where firing voltage/charge is somewhat uncertain, the capacitor(s) could be charged up to the desired level with the electrodes far enough apart to not result in premature firing and then when desired the movable electrode could be threaded into firing position.


[Edited on 13-4-2015 by Hennig Brand]




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[*] posted on 12-4-2015 at 22:01


Here's a link to a US co that manufactures ebw switches don't think you could buy off them but they have data sheets on line cheers nuxy.
http://www.highenergydevices.com/products/three-electrode%20...
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[*] posted on 13-4-2015 at 12:49



Get Cooks book as it has lots of info.

Some reading on EBW's attached.

Attachment: ebw.rar (1.8MB)
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[*] posted on 13-4-2015 at 13:15
Screw Triggered Spark Gap


Thanks, that site looks interesting. There are also at least a few sites online with peoples' descriptions of how they have built their own. They aren't terribly complicated and I probably will eventually build one.

Here are a couple pictures of the "Screw Gap". It works, but I have not tested it yet with proper transmission cable, proper EBW and explosives in a cap.

Screw Gap (1).jpg - 243kB Screw Gap (2).jpg - 258kB


Thanks for the reading material Jock88.

edit:

Static Gap

A plain old static gap with a threaded adjustment for width would be the simplest thing, however, at these relatively low voltages the spark gap is very narrow especially with large curved electrodes which are used because they are much more efficient than fine point contacts. A very narrow gap and slight changes in the surface of the contacts (any kind of roughness or buildup) could make the gap fire early and wear or other changes could cause the gap to fail to fire. Since energy is proportional to the capacitor(s) voltage squared the gap would need to be very carefully adjusted in order to get good results.

I used the calculator from the following site, which is apparently based on empirical data, to get data points for the attached graph which was made in Excel. The other graph, showing higher voltages, came from the site linked to above regarding stun gun HV PS circuits.

https://www.cirris.com/learning-center/calculators/50-high-v...


Arc Distance In Air versus DC Voltage.jpg - 44kB Arc Length Versus Voltage.png - 18kB



Here is the same graph as above, but this time with extrapolated values from 3000-6000V.


Arc Distance versus DC Voltage (400-3000V) Plus Extrapolated Values from 3000-6000V.jpg - 46kB



Ok, I just found the following appendix from the article, "Electrostatic Discharge: Understand, Simulate, and Fix ESD Problems, Third Edition
Published Online: 22 SEP 2009", which has tables giving break over voltages for spherical and pointed contacts. This looks like a decent reference.


Attachment: Spark Over Voltages (Wiley).pdf (429kB)
This file has been downloaded 1096 times


[Edited on 14-4-2015 by Hennig Brand]




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[*] posted on 14-4-2015 at 12:04



I wrongly give a book name above in my last post as Cook. That should be Cooper. There is a very useful chapter on EBW's.

Also the compressed .rar file in my last post needs to be decompressed and the starting point for reading the whole 'web page' is the file called EBW_INFO.HTML


The attached file is from 'Twospoons' from this thread:
http://www.sciencemadness.org/talk/viewthread.php?tid=10874

May help in spark gap firing.

Jock88


Attachment: swinging cascade.pdf (59kB)
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[Edited on 14-4-2015 by jock88]
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