kirlian photos using transparent electrodes
TRANSCRIPT
Kirlian Photos Using Transparent Electrodes
This method allows you to photograph or view electric field around object wit the naked eye. It works by
creating a high voltage field between an object and a transparent electrode. The high voltage field causes
ionisation of the air which is visible as a purple glow known as corona.
The image above shows one of our Plasma Photo Plates resting on some high voltage insulators. You can
use any insulator such as some plastic cups or glasses. Our electrode plates are provided with a filling
syringe and caps so that it is easy to get started.
Connected to the electrode plate is a high voltage spark coil which is being driven by our Power Pulse
Modulator. The Power pulse modulator (PWM-OCXI) allows the high voltage coil to be driven with a
variable frequency and power levels. This allows for different effects to be produced.
At high frequencies, the plasma (or "aura") tends to be softer and gives a smooth glow over most of the
objects surface. At low frequencies the plasma tends to be longer and more jagged like lightning. It also
tends to come mostly from the edges of the object rather than its surface.
Filling the Electrode Plates
First of all, the electrode plate must be filled with an electrically conductive solution. This is simply made by
dissolving salt into ordinary tap water. You should add as much salt as will dissolve without making the
water cloudy. Its is best to prepare the solution an hour before so that it has time to dissolve fully.
Connect the pipe to the end of the syringe provided and then draw some salt water into the syringe. (The
amount needed will depend upon which size electrodes you have)
Carefully put the other end of the pipe over one of the small plastic tubes on the edge of the electrode, tilt it
as shown in the image and then slowly inject the solution into it. Make sure you go slowly to prevent leaks.
Fill until a little solution comes out of the other plastic pipe, and then seal this with one of the caps. Remove
the pipe and syringe and replace with the other cap.
Wipe the electrode with a damp cloth and then make sure it is thoroughly dry and
clean.
Attaching a Sample
Take your sample such as a leaf or coin and tape it to the surface of the electrode as
shown below.
Tape a piece of wire to the back of the sample and connect the other end of this wire to
ground. The ground connection should be the same as the ground or earth connection of your power supply.
Turn the electrode over so that the sample sits underneath and place it on top of some insulators. You can
use any non conductive object such as plastic cups or glasses.
Connect the High voltage coil (or other HV power supply) to the metal connector on the electrode either
directly as shown, or using a wire.
Connect all the other wires up so that it is ready to run. Familiarize your self with the
layout as you will need to know where things are when you switch off the lights.
REMEMBER: when switched on, the coil and plate are live with high voltage. You
should avoid touching or coming to close to any of it.
Taking the shots
Turn the lights off and give your self a moment for your eyes to adjust to the darkness. Turn on the power
and tune it to give the best possible image.
You should only have the power on for several seconds at a time. If it is on too long the sample could be
burned or the high voltage could etch marks into the glass. Also if used at high power, the PWM-OCXI and
coil will get hot so they will need to be allowed to cool.
We recommend adding a push switch so that you just hold your finger on it to activate the device while
taking a photo.
You will need a camera with a good lens or high ISO setting so that it can take good pictures in the dark.
Using different settings such as shutter time will allow you to get different quality photos.
Typically you will need to use an exposure time of between 10 and 30 seconds.
You can also try an alternative setup using two or more electrode plates together as shown below. This
allows you to add samples without having to stick them down or attach wires to them. It also allows for a
wider range of effects.
Using Two Electrodes
Here you can see one large plate at the bottom and a medium sized
one on top. You can use any sized plates combined together but
larger plate will need more power.
The sample is placed between the two plates and the ground
connection is made to the second plate. You can try having the
grounded plate on top of the HV plate or visa-versa for different
results.
Kirlian Photos Using Photographic paper or film
This alternative method uses photographic plates or paper which can be expensive and hard to find. It can
also be tricky to do correctly. The advantage though is that you can sometimes get images with various
colours showing. The sample such as a leaf is placed directly onto the photographic plate. When exposed to
high voltage the corona will effect the photosensitive chemicals in the photographic plate in different ways
depending upon the intensity of the discharge.
This diagram shows how the sample to be photographed is
placed on top of the photosensitive paper with an insulated
metal plate below. The lower plate is connected to a high
voltage source of several kV. While the sample is usually
grounded for brighter results.
Obviously all this setup must be kept in the dark as to avoid exposing the photo paper to light. The power is
usually switched on for around 30 seconds to get a good enough image.
If you don't have photographic paper you could use the film from a polaroid camera.
Polaroid cameras will eject a protective layer of card when you first insert a film. You
can use this feature to develop your exposed film.
To make a kirlian photograph using polaroid film you should remove one film from the
cartridge and expose your sample just as described above. After you have exposed the
film, carefully place it back inside the film cartridge in the top position. Load the
cartridge back into the polaroid camera and it will immediately eject the top film. When the film is ejected it
passes between a pair of rollers which spread the developing chemicals over the image so that it is fixed and
now safe to expose to the light.
Myths and Pseudoscience
Many people claim that this sort of photo is showing the "life
force" or "aura" of living things. This is something many
pseudoscientists are using as so they can sell you these sorts of
cameras for thousands of dollars. This page should hopefully
show you how simple they actually are and that it is just simple
corona and ionisation effects that are being observed.
There are also claims of a "Phantom Leaf" experiment where a kirlian photo of a leaf with a piece cut away
showed an image of the full leaf. Proponents of this idea claim that this "proves" that the "Life Force"
lingers on after the original piece of leaf is removed.
The only legitimate reasons for any phantom images would be caused by water or etching on the surface of
the glass plates of the equipment. Any claims of anything else are totally unfounded and such people should
not be taken seriously. If you try moving the cut leaf to a different camera, or use new clean glass plates then
no "phantom" effect is observed.
You can even take kirlian images of things like your finger tips or whole palm. There are people who claim
that you can diagnose illness from the shape of the images produced. This is really outlandish any many
people are taken in by these scammers. There are charts that even relate each finger tip image to a certain
part of the body or emotional states. These claims are just pure fantasy, and are another method used to
make money selling expensive cameras.
Some of these sites often use scientific terminology in all sorts of inaccurate ways and even list quotes of
support from people who are apparently Doctors or experts in something. The fact is that there is no
legitimate reproducible experiment that gives evidence to support any such claims.
Example Kirlian Photos
This kirlian photo shows a £2 coin between two of the
electrode plates. The surrounding dots are caused by tiny
amounts dust and dirt on the glass surface.
This kirlian photo shows a close view of the same coin and
with a higher frequency supply. You can see rings or waves
around the coin.
Another shot of the waves around the coin.
This is a photo taken when no sample is placed between the
plates. All the little dots are probably dust although we had
tried to clean the surface thoroughly.
Some of these tots would move around the electrodes due to
electrostatic effects.
Same image with a longer exposure time on the camera.
This is a photo of the leaf shown in the instructions above.
By adjusting the frequency while watching it, you can see the
glowing corona move around different parts of the leaf.
Another leaf image at high frequency.
Three Neodymium Magnets between the electrode plates.
A single Neodymium Magnet.
A bunch of little magnets. Notice the rings or waves again.
The £2 coin at low frequency under a single electrode.
More Photos
You can see more kirlian photos and high voltage plasmas on the Plasma Page.
Comments and questions for DIY Kirlian Photos
The information provided here can not be guaranteed as accurate or correct. Always
check with an alternate source before following any suggestions made here.
carlos - Wednesday, 16th August 2006 1:43pm - #170
How can I connect together to get more high voltage, 2 plasma balls to create a kirlian photography.Each
plasma ball has 1 cable out which is the high voltage terminal (TC).
By connecting them together will I get double voltage output?
Please can someone help?
Many thanks
RMCybernetics - Wednesday, 16th August 2006 1:58pm - #171
If you connect the outputs of two plasma globes, the combined voltage/current may be unstable. This is
because both transformers are being driven independantly so the driving pulses will probably not be in phase
with eachother.
To get more output voltage you would need to drive the tranformers 180 degrees out of phase from each
other.
To do this you need to drive both your transformers from the same signal source. If you are not sure how to
set this up, let me know and I will upload a diagram showing how it can be done.
luiz renato - Thursday, 17th August 2006 5:11pm - #175
good afternoon to all,
I would like to know if one is possible to capture the image of the aura human being using computer
webcam.
my e-mail: [email protected]
bests regards!!
luiz renato
RMCybernetics - Friday, 18th August 2006 6:23am - #176
No it is not possible. There are no known scientific methods for visualising "auras".
Anyone claiming to sell such devices is giving out false information.
Any subtle electromagnetic fields from biological entities would be massivley overwhelmed by the
techniques that are commonly used for "visualising auras". Even the electrical background noise in a house
would be much more detectable than anything given off from living organisms. This makes it practically
impossible to make visualisations of any subtle energy surounding a human.
Carlos - Thursday, 24th August 2006 7:56pm - #186
My message was about to get more output voltage you said that I would need to drive the tranformers 180
degrees out of phase from each other.Unfortunately I have not got a clue how to do that.You also mention
that you may be able to upload a diagram for me.
Please could you do that and also if there is any other information that you may think may be helpful. It
would be very much apriciated.
Many thanks
Carlos
RMCybernetics - Friday, 25th August 2006 2:09am - #187
Please note: These instructions are intended as a guide, and there is no
guarentee that this will not damage your plasma globes, set on fire or electrocute you. By following these
steps you agree to be held responsible for your the outcome of your activities.
Step One - Phase Matching
This diagram shows the transistor on each plasma globe. It will be attatched to a metal heatsink which
should be left in place. I'm not sure if the transistor will be a TIP142, it depends upon your globes
manufacturer. If the E, C, B pins are not marked on your board, you should look up the datasheet for the
transistor you have on Google. if you cant find this, let me know and I'll have a look.
Here you are disconnecting the base (B) pin of the transistor of plasma globe B (pgB), and connecting it to
base pin of plasma globe A (pgA). This is so that the signal source that is driving 'pgA' is simultaniously
driving 'pgB'.
You also need to make a 'common ground'. This is done by connecting the -ve terminal from each plasma
globes together. The -ve of the power connector is usually the outside terminal.
These two plasma globes are now being driven in phase. This means the output voltage from each is the
same level at the same time. You could now connect the two outputs together to effectivley make a supply
with the same voltage, but twice the current of a single plasma globe.
Step two is an additional modification that can be done to get a higher output voltage.
RMCybernetics - Friday, 25th August 2006 2:31am - #188
Step 2 - Driving 180 out of Phase
Now the transformers are being switched at the same time you can reverse the connection to one transformer
and this will change the phase relationship of the transformer outputs.
Basicaly now when the transistors send a pulse to the transfomers the outputs will be of opposite polarity.
Each indivitual transformer will have the same output voltage relative to ground as before, but now they are
out of phase so you can measure the voltage between the two HV outputs.
For example: If the normal plasma globe (pgA) is currently outputing +10kV, the other (pgB) will be
outputting -10kV, making a total of 20kV of potential difference between the terminals.
The polarity of the outputs will switch between +ve and -ve thousands of times a second, but because they
are both being driven from the same signal source, therfore they should allways be equal and opposite.
barry - Tuesday, 21st November 2006 10:59pm - #484
How big a gap should there be between the 2 plates of glass with your salt water plate?
RMCybernetics - Tuesday, 21st November 2006 11:06pm - #485
The two sheets of glass used to contain the salt water should be seperated by the smallest possible gap.
This can be difficlut in practice as a very thin space will be hard to fill with water without sealing in bubbles.
The one shown one this page has a gap of about 3mm which was simply determined by the thickness of the
plastic used to make the inner frame.
barry - Wednesday, 22nd November 2006 8:44pm - #502
thanks for that info, thats a great help. another question though...do you have to use sea water or can i just
make some salty water using salt and water..if so how much salt and how much water? thanks
RMCybernetics - Thursday, 23rd November 2006 12:01am - #504
You can just use ordinary salt. The more salt you add, the more conductive the solution will be. You could
keep adding salt to hot water until no more will dissolve. Let it settle and cool before using it otherwise it
may remain slightly murky.
barry - Thursday, 23rd November 2006 12:08pm - #509
Excellent service you are providing here. Sorry, but I have yet another question.
The electrical connection to the salt water - Is it just the bare end of the wire that is in contact with the salt
water or do I have to make a bigger contact with copper sheet or something?
barry - Thursday, 23rd November 2006 12:11pm - #510
Following my previous post - In the picture of your conductive salt water plate I see what I suspect is the
water inlet with a plug in it but there are also what looks like 2 wire connections. One on the left and one on
the right. Why 2?
RMCybernetics - Thursday, 23rd November 2006 12:45pm - #511
It's not neccesary to use two electrodes like we did. The device shown was also used to contain a vacuum
which could have high voltage between the terminals.
For the saltwater filled one, you just need to have a wire touching the water somewhere. It may help to use a
long wire, or even loop it around the inside edge so that the electric field spreads more uniformly.
With the one shown, the electrcal connection was made to just one electrode.
barry - Saturday, 25th November 2006 8:38pm - #518
I have made a salt water filled plate and have managed to find an
automotive coil from a car breakers. Can you please give me some help with the circuitry. I have tried the
attached circuit but it does not work. I think that perhaps I am being a bit too simplistic. I have seen various
circuits, some involving capacitors and and some with a lot more complexity. I am keen to keep things as
simple as possible. Any advice would be great.
RMCybernetics - Sunday, 26th November 2006 2:18am - #519
The coil needs to be pulsed to produce a constant supply of HV. If you
just connect a battery to it using a switch (like shown in this diagram) , then you will only see a single spark
when the switch is released.
The Ignition coils output voltage is proportional to the rate of change of input current. This means that when
you release the switch, the current will change from fully on to zero in a very short time, causing a high
voltage on the output.
The other circuits you've seen are used to switch the power to the coil on and off very fast so that there is
constant(ish) output. You can see example circuits on the ignition coil driver page, and the pulse generator
page.
barry - Tuesday, 28th November 2006 5:10pm - #528
I have put together the revised circuit you posted but I am still getting no spark. I am a complete novice so
maybe one of the following points will immediately reveal to you why my circuit does not work.
a)For a ground I have hammered an aluminium pole into the earth just outside the shed I am working in.
b)Instead of a battery I am using a 6 amp battery charger.
c)Instead of a leaf for a subject I have just placed the end of the HT lead very close to a wire connected to
my ground.
d)Instead of a switch I physically touch the chargers positive cable on to the coils terminal to make and
break the circuit.
Please help
RMCybernetics - Wednesday, 29th November 2006 9:00pm - #532
The GND connections should also both connect to the battery -ve terminal.
A 6V charger may not be able to provide enough current. A 12V battery is reccomended.
You are unlikley so see any kirlian type photos when using a switch or a connector. You really need to pulse
it at a higher frequency with a special circuit. The best you can expect with your current setup is a few
sparks and flashes.
barry - Saturday, 2nd December 2006 6:49pm - #544
I am now powering my circuit with a 9V battery and have used a relay connected up to pulse the flow. I am
using the charger to power the relay because I cant work out how to do otherwise. I am getting good
continuous sparks now.I have just connected up a leaf to the ground and started it all up. Nothing! I now
suspect that my solution between the glass plates is not conductive enough. Is there another conductive
liquid that can be used? Also, how good a contact does the leaf need to have with the conductive plate.
Should it be squashed flat against it or what? Thanks in advance.
RMCybernetics - Sunday, 3rd December 2006 5:03pm - #548
I wouldn't expect that the concentration of your saline solution is the problem, but it could be the volume.
With a larger volume of water, more current is necessary because it tends to act like a ground plane
absorbing the energy.
An alternative is to switch the polarity of the setup so that the window is connected to ground and the
sample is connected to the HV source.
This can be more tricky, but the effect is almost the same.
The corona produced is only very faint. It needs to be viewed in total darkness after your eyes have adjusted
to the dark. To take the photos shown here it was neccesery to leave the camera shutter open for several
seconds just to get enough light.
The sample needs to be in direct contact with the glass of the transparent electrode. As much of the sample
as possible should be touching it to get a good image.
abhijith v kurup - Saturday, 7th April 2007 4:55pm - #1086
hi
i hav a few doubts
1) where should the sample be placed? is it like this? sample above the first glass and glueing the frame on it
and filling the salt water between the frame and the second glass piece?
2)should the sample be in contact with salt water
plz reply soon
RMCybernetics - Sunday, 8th April 2007 3:32pm - #1093
The salt water is entirely contained between two sheets of glass. This is then placed over a sample object so
that you can look through thee glass to see the effect.
abhijith v kurup - Sunday, 8th April 2007 6:52pm - #1106
i am sorry to bother you again. i hav some more doubts.
1) can i use a capacitor instead of a coil?
2) how can the image be formed if the sample is not in touch with the salt water?
3) what should be the power of the battery?
4) will increase in the quantity of salt water give better effect?
bye, and thank you for answering my previous questions.
RMCybernetics - Sunday, 8th April 2007 7:02pm - #1108
1) - A coil/transformer is needed to step up a low voltage source to a high voltage.
2) - The image is formed bacause there is a high voltage between the sample and the salt water. The voltage
needs to be high enough so that the air becomes ionized. The purple glow is called corona discharge.
3) - This would be part of whatever high voltage supply is used.
4) - A small volume of salt water is better
abhijith v kurup - Sunday, 8th April 2007 7:20pm - #1110
one more question my friend!
1) what should be the voltage of the transformer?
RMCybernetics - Sunday, 8th April 2007 7:29pm - #1111
The output voltage should be at least a few kV. 10kV is not uncommon.
The output must be current limited for saftey
A small battery operated transformer such as an ignition coil will be low current by design.
pop - Monday, 9th April 2007 4:26pm - #1119
what kind of transformer should used?
RMCybernetics - Monday, 9th April 2007 5:09pm - #1121
Ideally nothing larger than an Ignition coil or flyback transformer driven from a low voltage source.
Dabuda - Tuesday, 10th July 2007 1:38am - #1426
For the Pulgenerator what can be a good starting frequency to test? I know that this will depend on the Coil
used but can you provide me with some guide.
The duty cicly shall be less than 50%?
RMCybernetics - Tuesday, 10th July 2007 10:03am - #1428
Frequency is in the audio range for most ignition coils, so say from about 50Hz to 20kHz. For kirlian
photograpy it is often best to use the higher frequency end of that range.
Duty cycle is usually 50% or lower to prevent the transformer core from saturating.
dabuda - Wednesday, 15th August 2007 7:47pm - #1596
When building the transparent conductive plate what is a good gap (where the water with salt
goes)bewtween teh two glasses? and electrode (Wire) is in contact with the water? Also for te hexposition
how long shall be to get the foto?
RMCybernetics - Wednesday, 15th August 2007 10:36pm - #1597
The total volume of salt water needs to be quite small. The electrode
used here had a gap of 2-3mm. Yes there must be a wire in contact with the water.
The exposure depend on lots of things like the type of camera/film and the power in the HV power supply.
This image was about 10 seconds with ISO 800 film.
marnae green - Friday, 19th October 2007 12:19am - #1980
how do you make a transparent HV plat using salt water.If it is possiable can you tell me step by step on
how to make it?
RMCybernetics - Saturday, 20th October 2007 12:23am - #1987
Information is above
marnae green - Saturday, 20th October 2007 6:04am - #1992
on the picture below it has something going to GND. what does the stand for.
RMCybernetics - Saturday, 20th October 2007 1:15pm - #1993
GND represents Ground, Earth, or 0V of the power supply.
marnae green - Sunday, 21st October 2007 4:08am - #2002
Ikinda get what it said to do but, I still dont know how to make the plastic part to wher you can fill it with
water.If it is possible can you show me a different pictur on how to make the plastic part pleas and thank
you.
GRIM.657 - Saturday, 3rd November 2007 1:35am - #2114
I'm also curious about the glass... specificaly how thick you recomend it should be? (both the thickness of
the glass, and how far apart the 2 pieces of glass are)
RMCybernetics - Monday, 5th November 2007 1:09am - #2122
marnae green, GRIM.657,
This image shows the assembled piece (left) and an exploded view (right)
to show the individual parts. Silicon sealant or epoxy resin is used to fix
and seal all edges.
Salt water can be poured into one opening using a funnel or syringe. When
the water reaches the air outlet, both tubes can then be sealed.
You must ensure that the inside edge of the electrode is in contact with the
salt water when in use.
It can be quite tricky to seal the frame effectively and without making a mess in he viewing area. We have
some electrodes ready made which are double sealed for durability and come with a large filling syringe.
Click here
marnae green - Saturday, 10th November 2007 8:54pm - #2157
I just wanted to say thanks 4 every thing.
marnae green - Monday, 12th November 2007 12:27am - #2163
the pictur u sent me has something that says electrode/fram what is that and can I use aluminum foil?
RMCybernetics - Monday, 12th November 2007 6:08pm - #2168
The frame I used had the same plastic frame but with part wrapped in foil for the electrode. This worked
quite well, but salt water will corrode Aluminum so the electrodes will have a limited lifespan. You could
use a solid metal or carbon piece, or just empty out the salt water when it is not being used.
marnae green - Monday, 12th November 2007 10:26pm - #2170
does the salt warter have to be salt warter from the ocean or can I make it from regular salt.
RMCybernetics - Tuesday, 13th November 2007 2:28pm - #2175
Any salt will do.
marnae green - Friday, 16th November 2007 1:12am - #2188
does the plant have to be in the HV plate
RMcybernetics - Friday, 16th November 2007 1:15am - #2189
No. You place the window on top of the sample so you are looking through the window to see it.
marnae green - Saturday, 17th November 2007 5:06am - #2193
thank u 4 everything.
marnae green - Sunday, 25th November 2007 11:02pm - #2225
does the leaf have to be hucked to a ground wire. I did the project but i didi not see the leaf glow. is ther a
way u can met me some where so u can help me. if not can u give me any suggestion on what i'am doing
wrong.
RMCybernetics - Monday, 26th November 2007 2:19pm - #2231
Yes, it will help significantly if the sample is grounded. We are based in UK nr Manchester if you wanted a
demo
dave - Tuesday, 27th November 2007 9:56pm - #2241
How would I connect a 12v battery, a car ignition coil and a car ignition module to produce the HV required.
Basing the circuit on a car ignition system, excluding the distributor. Do you have any diagrams for
something like this? So far my search has been unsuccessful, would appreciate any help,
many thanks.
RMCybernetics - Wednesday, 28th November 2007 9:32am - #2246
Check this Ignition Coil Driver Circuit
dave - Wednesday, 28th November 2007 4:14pm - #2254
I have little experience with circuits. Would an ignition module suffice, in place of this circuit? Obviously it
would depend on the module model, but do you know an approximate method of wiring the components I
mentioned earlier (including the module).
thanks again.
RMCybernetics - Wednesday, 28th November 2007 7:03pm - #2255
An ignition module would not work as it still needs a timing signal which is usually generated from some
moving part in the engine or a circuit like linked above.
You could use our Power Pulse Modulator as long as a snubber is also used or the power is kept low. The
snubber design would depend upon the type of ignition coil you have and the frequency you wish to use. If
you know these parameters we can also provide a snubber. If you don't know you could buy one of our
ignition coils and we could create a matching snubber for it.
James - Saturday, 1st December 2007 7:18pm - #2283
Try this simple circuit using only a capacitor (ignition condenser is good), relay and battery:
http://tesladownunder.com/HighVoltage.htm#Sparks%20for%20beginners
The relay coil is wired in series with its normally closed contacts forming a buzzer. The contacts are bridged
with the capacitor and the ignition coil is paralleled with the relay coil. You might want to place a 10 watt
resistor in series with the ignition coil to limit the current if necessary.
marnae green - Wednesday, 5th December 2007 11:10pm - #2293
how do you houck up the hv plate with 2 wires.how much salt warter do i have to put in the plat.
marnae green - Wednesday, 5th December 2007 11:25pm - #2294
can i use a car battery to power up the hv plate.if not wath can i use.
RMCybernetics - Thursday, 6th December 2007 1:37am - #2297
One wire from the High Voltage Supply connects to the electrode(s) in the water. Another wire connects
from the sample to ground/earth.
A car battery will not work. You need at least 1000 times more voltage.
marnae green - Thursday, 6th December 2007 1:38am - #2298
what type of camra can i use.
RMCybernetics - Thursday, 6th December 2007 1:40am - #2299
Any camera which has a feature for adjusting the exposure time to several seconds.
marnae green - Thursday, 6th December 2007 1:52am - #2300
where can i get a battery for cheep that has 1000 voltage
RMCybernetics - Thursday, 6th December 2007 1:54am - #2301
You can't. You need some sort of device to generate a high voltage. This is mentioned at the top of the
article.
marnae green - Thursday, 6th December 2007 2:27am - #2303
do you have a number or email address that i can reach you from
marnae green - Thursday, 6th December 2007 2:51am - #2304
where can i get 1000 voltage supply for cheep like 10 or 20 max dallors from
marnae green - Thursday, 6th December 2007 3:01am - #2306
how do you hook up a hv plate that has two wires in it.
RMCybernetics - Thursday, 6th December 2007 6:39pm - #2312
You can email us using the form on this page.
It needs to be at least 10,000 volts. I don't know where you could get one so cheap.
You don't need 2 wires inside the plate. If you have more than one, just join them together.
marnae green - Friday, 7th December 2007 3:31am - #2314
thank you 4 your time and help
marnae green - Friday, 14th December 2007 2:50am - #2344
can I use a reglar poloriad 600 exposure camra
RMCybernetics - Friday, 14th December 2007 11:43am - #2345
Yes, if you remove the film as described in 'Method A'
marnae green - Monday, 7th January 2008 3:55am - #2412
Hi, how are you doing I appricaite the info you gave me, but it is still confusing. On the diagram it shows a
battery for a power supply, but in one of the message you sent, it says you cant use a battery. So what type
of inexpensive power supply can I use,and also the other parts I need to make it work in details from start to
finish please and thank you.
RMCybernetics - Monday, 7th January 2008 12:01pm - #2413
I assume you refer to the diagram 'barry' posted. This shows a battery connected to an ignition coil using a
switch. This will not work. My reply states that the power to an ignition coil needs to be pulsed rapidly using
a specialized circuit.
The cheapest ignition coils will be found in a local scrap yard for just a few quid (bucks). The best way do
drive the coil is with an adjustable frequency circuit, but the cheapest way is to wire up a relay to self
oscillate. A self oscillating relay will pruduce some HV, but I can't say how well it will work for a kirlian
photo.
Paul - Sunday, 13th January 2008 1:08am - #2436
Mains - Dimmer - Capacitor (few uFs, say 4.7) - coil - Mains...
Paul - Sunday, 13th January 2008 1:11am - #2437
But careful... Huge current... Do not touch... You could maybe experiment with much lower capacities... 1
nF, or something...
james winters - Saturday, 26th January 2008 5:20pm - #2505
Did I miss it. Can this photography at all be done with a midlevel digital camera? I mean, with software, I
suppose? (Thinking of oraganic foods photos.)
What I have is a Sony DSC-H9
RMCybernetics - Monday, 28th January 2008 11:48am - #2508
Yes. The requirements for good results are as follows:
Adjustable shutter speed
High ISO
Wide Apature (Important)
Self timer or remote (to avoid vibration)
Zoom or Macro lense
I think your camera has these features so it should do ok. Please upload a pic you are successful. The most
recent of my plasma photos were taken with a Pentax K10D with a 2.8f apature lense.
You can see an example setup here
Roberta Docherty - Monday, 14th April 2008 3:41am - #2713
I wanted to buy a Kirlian Camera but I found out that the film is not going to be made anymore because of
the digital cameras. I am technically challenged. Does this work with digital??
RMCybernetics - Monday, 14th April 2008 11:55am - #2717
Yes. The most recent photos on the plasma page are all digital.
Alex - Monday, 25th August 2008 3:35pm - #3031
Hey there guys,
First, in terms of the quality of material and explaination on here, I have to commend you - and also on your
incredible patience/persistence in answering some people's questions. Even if some of those people ought
not to be anywhere near DIY HV supplies.
and Secondly I would like to add to the long list of questions with a few slightly simpler ones.
I am using my third homemade HV supply, which is a slightly modified old colour TV, with a non rectified
flyback transformer, which will spark to ground about 35mm, and sounds (i have no way of
measuring/controlling) like it is well into the middle of the 50hz-20khz range - and i would estimate that it is
in the 10-15kV 1-5 milliamp range.
1. From what i understand of Kirlian photography/electrography my HV source should be suitable, but with
a grounded object on the dielectric surface of the plate and 5 minute dark adjusted eyes - i cannot visually
observe the corona effect/streamers, any idea what might be wrong?
2. In a book i was reading they mentioned simple corona images might be produced with thermal
transfer/fax paper, but in my setup this doesn't seem to work (aside from directly turning/charring when
touched with a uninsulated spark) have you tried this method, if so any pointers?
Tomorrow I will try some contact electrography/gramy with Black and white photo paper and this HV unit
and hopefully see some results, as unfortunately with my lower Voltage (2kV), lower frequency units i got
next to nothing when i developed my paper.
Await your advice and response - and may try to build a transparent electrode from acrylic this week.
Thanks
Alex
RMCybernetics - Tuesday, 26th August 2008 1:38am - #3035
Do you have a transparent conductor over the object?
Fax paper will work but its tricky and the images aren't great. The corona you are trying to see is actually a
partial plasma which is very hot. If this is plasma concentrates in one spot, it will just burn the paper. You
need to make sure there is an even contact all over the sample otherwise it wont work.
Don't use acrylic, it will be melted on it surface making it unclear. Even glass sheets can be melted when
doing this. I don't mean melted like it will bend or anything, just permanent marks on the surface.
Alex - Tuesday, 26th August 2008 6:43am - #3036
Yeah, fax paper was just giving me varying degrees of burnt mark.. abandoned that now.
No, I was not using a transparent electrode, at the moment I'm just trying to get some contact plate electrode
images. I got two done today, with a coin placed directly onto B and W photo paper but the images were
faint and lacked clarity, both after a 1min and 2 minute exposure. I will try some longer exposures
tomorrow, and perhaps use a thinner piece of dielectric plastic.
Still not seeing the corona visually though, perhaps my circuit isn't operating at optimum criteria for corona
formation - though the sparks are visually impressive when HV supply and ground are seperated by an air
gap, and it is definately pulsed. so I'm not sure what I can do to improve it.
Once i begin to achieve reasonable images with the plate method, then i will build myself a transparent
electrode (noted, I will use glass not acryllic, thanks for the tip)though currently i would certainly not get
any image which resembled yours after a mere 10seconds of exposure i think.
RMCybernetics - Tuesday, 26th August 2008 12:34pm - #3037
Ok, I'm assuming you are using 'method A' shown above. If you are getting good sparks like you describe
then i am sure your HV PSU is fine. The positioning of your HV plate might be causing problems. It will be
a high potential compared to everything, that includes your desk or table. A large flat conductor being
pulsed with high voltage will leak current to almost anything unless it is very dry or well insulated. I'd
recommend standing the HV plate on some glass or ceramic spacers. You could even heat them for a couple
of mins in an oven to make sure they are totally dry on the surface. These ceramic standoffs are ideal for it.
Also make sure your HV cables are not touching the table too.
Alex - Tuesday, 26th August 2008 1:56pm - #3039
Yes,have been using Method A pretty much.
I've been thinking on it and I was wondering just what you have postulated - So ill try isolate my
worksurface with some ceramic kiln spacers and maybe a glass sheet...
ahh and just been looking at the weather reports and I think the humidity isnt helping much either, So i'll try
running a dehumidifier and room heater in my sealed room for a couple hours before I next run the device.
Cheers Again
aspera - Friday, 24th October 2008 7:12pm - #3221
I obtained this schematic for a portable kirlian device from "The
Kirlian Aura: Galaxies if Life," a book published in the 70's. I had a friend compile the components into a
parts list:
2 - 2n554 transistors
1 - 6v battery
1 - 22v battery
1 - transformer (6v to 120v) 6.3vac at 1/3 or � and amp
4 - 1n4004 diodes
1 - unijunction transistor (2n2646)
1 - 250k potentiometer
1 -.25uF 600v capacitor
1 - .5uF 600v capacitor
1 - 1uF 600v capacitor
1 - 2 uF capacitor
2 - 39ohm resistors
2 - 270ohm resistors
1 - 100ohm resistor
1 - 27ohm resistor
1 - 56k resistor
1 - 250k resistor
1 - 2n4101 is a Triac aka SCR
There's parts of the schematic that are unclear to us in the inverter. Can you decipher it?
Thanks!
-Michael
Bara - Monday, 27th October 2008 4:51am - #3224
Salt plate Connection to Kirlian Camera (not the Polaroid type)
How can an electrotechnical layperson connect the salt plate to an existing Kirlian camera, which has a
grounding wire and 110V connection. For example, I would like to see foot energy through the glass plate.
RMCybernetics - Monday, 27th October 2008 5:30am - #3225
aspera,
I'm not sure, the diagram is too small. Email us a larger version.
Bara,
Please describe the configuration of your existing setup.
Mario Ramirez - Monday, 9th February 2009 6:42am - #3549
So overall what is the range of voltage and current being passed from transformer to the discharge plate? I
see as low as 12kV and 30mA, from a safety point of view it's really the amps that are the concern right?
What's the highest voltage (and highest current) that are useful and safe? Can I aim for 50-100kV if I keep it
under a certain current?
RMCybernetics - Tuesday, 10th February 2009 12:40pm - #3551
30mA seems quite high. maybe 1mA is more likley allthough the actual current drawn will depend on the
size of your sample and plates.
100kV is not really needed, about 20kV is fine. If you really want such voltages just keep the current below
1mA
Mario Ramirez - Thursday, 26th February 2009 7:09am - #3598
Great, thanks for the help! Another question -- any idea on surface area relative to voltage requirements?
"So many volts at so much current for so many square inches of copper clad board"? I'd like to try
something in the way of interchangeable discharge plates but don't know what to expect at 3"x3" vs
8.5"x11"...thanks again!
RMCybernetics - Saturday, 28th February 2009 2:56pm - #3601
I don't know. I have not taken such measurents. It will be the current that will increase in porportion to the
plate size, the voltage can remain constant.
Colin Cade - Tuesday, 26th May 2009 10:12pm - #3834
hi, I have some 3mm glass 110x150mm is there any reason why i cannot make plates that are rectangular
rather than square? I am making two to use together as suggested above, should i use two batteries and two
coils (if neccessary would go for old ignition coils, would they have to be the same model). and how should
i wire them, I intend to purchase one of your PWM-OC10A PPM if this would drive the coils ok. you
mentioned that the plate would be live and not to touch, but state that you could take pics of your fingertips.
if all the metallic parts are insulated, would it be safer? many thanks in advance. I have read much of the
faqs, but have been unable to get a clear picture.
RMCybernetics - Wednesday, 27th May 2009 4:37pm - #3839
Any shape is fine. You can use two coils for more power and brighter images, or just use one coil and have
one plate connected to ground.
The PWM-OC10A will power ignition coils only intermittently due to it getting hot. With the large old style
ones this will happen even more quickly. I would recommend using the PWM-OC30A if you want to drive
larger coils as this can tolerate 4 times more average current.
It is possible to take images of fingertips but there is a high risk of an electric shock. If you do it, it is at your
own risk. I will give you some guidelines but I can't guarantee it is safe.
If you were to directly contact the HV output whilst your body is grounded, the shock would feel intense and
would startle you. Your reflexes would cause you to jump or move suddenly. You may inadvertently fall or
break the glass. This is what causes the risk of injury rather than the electricity its self, although there is no
guarantee of that.
Do not touch anything else when your finger is touching or close to the live plate.
Stand on an insulating surface like a thick plastic sheet.
Make sure the finger is in the middle of the plate and no part of you is close (within 3cm) of any wires or the
edges of the plate.
You will need a camera with a timer to take the photos so that you don't touch it when you are touching the
plate.
Colin Cade - Thursday, 28th May 2009 12:52am - #3845
thank you for the advice, will alter my plans accordingly.
Colin Cade - Thursday, 28th May 2009 6:16pm - #3846
I have decided to use your High Voltage Spark Coil and a OC10A PPM. I noticed that you recommend
fitting a push switch to turn the unit on while taking a picture, can this be anywhere in the circuit or is there
an optimal place for it. Would a bell push type switch do? usually rated at 24V 2A. cheers
RMCybernetics - Friday, 29th May 2009 7:26pm - #3847
If you put the switch on the ouptut side, it will allow the fan to keep running and cool the PWM-OC10A
when the coil is off.
2A may be a bit to small. You could find that the contacts will stick and you wont be able to switch off. You
should use something that is rated for more current than you are excpecting to pass through it. I would use
5A. Also the switch should be a locking type so you dont have to hold your finger on the button.
Colin Cade - Friday, 29th May 2009 11:29pm - #3848
thanks, will do that, PPM and coil arrived today, excellent service.
The coil doesnt seem to have + or - marked on the input terminals, how can I tell which is which. I couldnt
find a data sheet on your site.
Mario Ramirez - Saturday, 30th May 2009 6:27pm - #3851
Would you have any recommendations on what type of battery would work best with the high voltage coil
you offer on your site (HV-SC20K)? Would a 12v 7A battery just last longer than a 12v 5A battery or is
there a chance of damaging the coil? Many thanks for all the help! -Mario
Colin Cade - Tuesday, 2nd June 2009 4:57pm - #3853
have made electrode as picture, with wire running round inside edge as
suggested earlier. 3mm glass, 2mm acrylic spacer/frame, brass strip with 1mm copper wire, before I attach
HV lead, fill and vent points, just want to check if its ok.
RMCybernetics - Wednesday, 3rd June 2009 5:41pm - #3856
Colin Cade,
The terminal furthest from the output is the GND terminal. Looks fine to me.
Mario Ramirez,
Batteries don't have an A rating it is Ah (Amp hours) which is quite different. You can use either of those
you suggest, one would just last longer.
Colin Cade - Monday, 8th June 2009 12:24am - #3865
My attempt at building a Kirlian imaging device, using advice from
RMC.
This had to be robust, portable and light enough so my niece could take it to uni as part of her masters
degree in forms of hidden energy.
Although I used to do lots of electronic wirework in the 60�s (I was building electronic organs when the
first IC�s were introduced) I don�t really have much understanding of how it works, so I stick to just
building the easy bits and buying the rest. All mounted on 9mm ply, the doorknobs are actually extraction
enabling devices to lift it out of the case.
Parts list:
4ah SLA battery
RMC high voltage coil
RMC PWM-OC10A
Two LED rocker switches for positive and negative isolation from battery to PWM rated 12V 10A, although
only the LED on positive lights up, any ideas here?
Top Gun coil isolating switch with red cover rated 24V 16A . Bit OTT, but I thought it looked cool
DIY insulator stacks made from slate mosaic tiles drilled and screwed to board with MUPVC angle to locate
and hold the plates.
2 DIY discharge plates, visible area 90x120mm, 3mm glass, 3mm acrylic spacer. Brass and copper electrode
as picture. Each plate contains approx 35ml of salt water.
Salt water solution: I used Wiki answers and came up with 100ml of water could contain 38gm of salt. Tried
this and left it overnight, come morning it had a 5mm salt sediment and was totally opaque. I decided to add
water at 10ml a time, stir and leave it, during the day I added a further 60ml water, it seemed to be clearing,
left overnight to settle. Finished with 1ml of sediment and the water was almost clear. This worked out at
24gm salt per 100ml water.
I did do other things during the day, I am not that dedicated.
Test run next.
Colin Cade - Monday, 8th June 2009 12:26am - #3866
First test run
All connected up, switched PWM feed, it worked fine, LED�s lit up as promised.
put HV plate on first in error, and ground plate on top. Darkened room, got used to dark then flicked top gun
switch. Oops! Forgot to check for leaks in my home made plates, got arcing outside of the plates on the
leaking water, neon and led�s flashing all over. No discernible picture of course
Fixed leaks, and swapped plates over, actually got a display not unlike the pictures above with the coins and
lots of glowing dots. I think they might have been impurities in the water, or maybe flux from my soldering
that I forgot to clean off properly. I forgot that I should only use the power for a few seconds at a time, the
neon DS1 and LED2 were flashing wildly. Switched off to let it cool down.
Now after properly sealing the plates, I can get results with VR2 about half way or more, and VR1 all the
way clockwise.. with two coins between the plates a corona appears easily visible to the naked eye.
Now LED2 is on permanently, although it still flashes when running the coil, DS1 glows steadily and only
flashes intermittently.
There was a staccato sound when the coil was arcing, now there is just a buzz, raising to a whine as I
increase frequency.
I also noticed a glow around the coil body, so switched off and left the PWM to cool down and poured
myself a drink!
Should I change the C1 with the other one supplied? Is it higher or lower capacity? I cannot make out the
value. And am not sure how to proceed. And I have no idea if I have actually fried something. But its been
fun.
Questions:
do you think the plates are a bit too big for the OC10A.
Should I use the larger PWM-OC30A
Would it fit in the same place as the other
Price please (its not on your online shop)
Does using two plates draw more power than a plate and a wire only connected to the sample
thanks for all your help
RMCybernetics - Monday, 8th June 2009 11:28am - #3869
Your setup looks great. I'll answer your questions in the order you presented them.
I'm not sure how your rocker switches are wired, maybe you need to reverse the polarity of the one that is
not lighting up.
The other capacitor is of lower capaitance which would give you higher frequency. Try it out.
The plate is not too big. The plate is 'seen' as a lossy capacitive load on the ignition coil. These combined as
a load to the PWM are a resonant circuit which will draw different amounts of power at different
frequencies. Usually the more power, the brighter the image, but there is a limit to the useful duty or pulse
width setting when driving the coils.
If the duty is to high, the output would be less, but the power consumption would be high. This is because
the metal core in the coil can only take a limited amount of magnetic energy in each pulse.
The larger PWM-OC30A could directly replace the PWM-OC10A and would not overheat, but the coil
would do when used at high power for extended periods.
The price is there, just click the selection at the bottom of the description for the OC10A.
Using two plates does draw more power as it has a larger capacitance and more losses.
I notice that your PWM and plate are in close proximity. The has a large oscillating electric field which will
be picked up by nearby objects, this may cause noisy output on your PWM. Also if you touch the controls
while it is running, your body could transfer some of that noise to the low voltage circuit. The best thing is
to put the PWM in a metal box so that the control pots are screwed to it. With the metal box connected to
GND, it acts as a Faraday cage to keep interference out.
Colin Cade - Monday, 8th June 2009 5:00pm - #3870
hi, thanks for the comments. I did notice the change in output when I touched the controls. So that i still get
cooling from the fan, ok to make the cage with mesh or punched metal? steel or ali ok?
what would be the cause of the glowing coil, it was the right hand part of the grey part in the centre as seen
in my pics.
Is silicone sealant conductive? with my multimeter I get a nothing reading, so why are the edges of the
plates dangerous?
last questions, promise.
nomenclature: I want to put labels on the setup. now I have seen, electrode plate, discharge plate, PPM,
PWM, Ignition coil driver and so on,,, what are the correct terms to use please.
I will do a circuit diagram for the rocker switches and post it later on, many thanks,
Colin Cade - Monday, 8th June 2009 9:41pm - #3872
pic of faraday cage made from ali grille from redundant convector,
connectd to pots and earthed to ground
RMCybernetics - Monday, 8th June 2009 9:56pm - #3873
Looks good. The sealent is not conductive. The risk comes from the possibility of there being microscopic
flaws in the seal which the HV might suddenly punch through.
All those terms are ok. I would probably use the following;
PWM Driver, Electrode Plate, HV Coil
Colin Cade - Monday, 8th June 2009 10:38pm - #3874
diagram of rocker switch connections, this is the way the supplier told
me, he says it should work. the LED on both switches does work when connected to positive. have tried
swapping + and A to no effect. excuse crudity of diagram.
had you any thoughts about the glowing collar on the HV coil?
thanks again for all your help
Colin Cade - Tuesday, 9th June 2009 1:52am - #3875
hi Richard
suddenly it dont work, got all ready to take to my niece, thought I would have one more look,,, fan spins,
LED1 and 2 light up, but when i hit the top gun switch, LED2 dims, the fan slows down,, and thats it, no
buzz, crackle or pop..
no HV. all connections are sound (although I am a bit wary of poking my fingers in there)
heatsink gets hot, coil gets warm, DS1 does not light. what have I fried?
is there any hope?
RMCybernetics - Tuesday, 9th June 2009 9:40am - #3876
I think that your switches might just made for switching the positive line. Do you have a part number?
It sounds like you got a voltage spike on your power supply which could blow either of the IC's. Have a look
at the datasheet under "Driving inductive loads" for more details. Most likely is would be the LM393, but
could also be the TLC555. You can just unplug these from the unit and replace them. They should be
available from most electronic components suppliers.
Colin Cade - Tuesday, 9th June 2009 10:57am - #3877
hello again.
having done some multimeter checks, here are results, 12.1V on the PWM output with no load, dips to 3.2V
when load is switched. With multimeter connected in series it shows no current is being drawn. I earthed out
the coil to try to get a spark, nothing. Connected the coil directly to the battery and tried again, still no spark.
I was mistaken regarding the coild getting warm. seems like the coil has had it? could tis be part of the
glowing problem, or could my earlier attempts have damaged it. do you think its worth getting a coil from a
local car spares and rep[laing it. is there any specific output or range on car coils?
sorry to be such a pain.
Colin Cade - Tuesday, 9th June 2009 12:50pm - #3878
sorry, I am a total idiot and was testing the coil incorrectly. it seems to be ok.
I will get some spare IC's and swap them over, and will be more careful in future.
Colin Cade - Tuesday, 9th June 2009 7:08pm - #3880
When taking pictures of fingertips does the hv plate have to be grounded at all? I've got the spare ICs and
will let you know how it goes.
RMCybernetics - Wednesday, 10th June 2009 2:08pm - #3887
No, your body is the ground in that case. Take care!
Colin Cade - Wednesday, 10th June 2009 3:51pm - #3889
will do,, anyway, replaced both ic's just in case. tried with two plates,
got some result but not that impressive, tried again with one plate and sample wired and attached with tape.
started carefully not wanting to blow the ic's again
Colin Cade - Wednesday, 10th June 2009 3:53pm - #3890
then got mpre adventurous
this is a slice of carrot, the dark part is where the tape was across it, i am working on a support that does not
use tape
Colin Cade - Wednesday, 10th June 2009 3:55pm - #3891
the PWM was performing flawlessly, and as I had bought a couple
spares ic's decided to pump up the power
the obligatory pound coin, a bit blurry as it was getting late
Colin Cade - Wednesday, 10th June 2009 3:58pm - #3892
and then my niece Lorraine suggested jewelry, so I put my silver Ankh
pendant on the plate and ramped it right up... the Ankh is the symbol of life and immortality.. definitely
some life there.. very happy now, will see you on the Tesla Coil project next. thank you
RMCybernetics - Wednesday, 10th June 2009 4:18pm - #3893
Nice work, they look great!
Colin Cade - Thursday, 11th June 2009 9:30pm - #3898
tried the fingertip test, no problem, got an image straight away. But so
that my niece is happier about using it, have modified a plate as pic. Using 16mm square mUPVC electrical
trunking
Colin Cade - Saturday, 13th June 2009 5:22pm - #3901
hi again,,, I fitted some control knobs with pointers, and an ali mount
with dials on the device (grounded). While operating the device last night I was getting a tingling off the
controls, or maybe off the grounded mount or Faraday cage? Is this normal, I was trying to take pics of my
fingertips, and the tingle was severe enough for me to pull my hand away from the controls. I was nowhere
near the HV part of the device.
Could it have just been a high frequency buzz? I havent tried the lower value cap yet, as that would produce
an even higher fequency, would the tingling be more severe
one other query, could the salt water be permanently sealed in? or would it degrade (or whatever) in time
RMCybernetics - Tuesday, 16th June 2009 10:23am - #3912
It might be that the feedback from your coil is bringing the ground to a higher voltage. If you connect your
ground to a larger ground source such as mains ground, or a metal tap or radiator, this should absorb that
excess.
The salt water will react with the metal electrodes. If you use copper, or brass, or have solder exposed to it,
they will slowly contaminate the water. The copper might make the water go green after some time.
Colin Cade - Tuesday, 16th June 2009 10:33pm - #3914
good point about the water, will amke up a batch and bottle it.
for the ground issue, I used a car jump lead and clamped one end on a radiator pipe, as i went to touch the
other to the cage, a spark arced across which supports your theory about unbalanced ground. unfortunately it
blew the 555 IC. Was this because I connected the leads while the circuits were live, and it wouldnt have
happened if the power had been off?
I subsequently discovered while replacing the IC that the previous meltdown in post 3875 had fried the
LM393.
RMCybernetics - Wednesday, 17th June 2009 12:51am - #3915
Yes, any adjustments to the circuit should be made with the power off.
jango - Wednesday, 17th June 2009 8:05pm - #3917
hello Thank you to provide me the connection a PWM and one VH-SC20K .salutations
Lorraine Humm - Wednesday, 17th June 2009 9:55pm - #3919
Going to conduct our palm test this evening - thanks RMC and Colin for all your efforts, questions, answers
etc. We will be posting images of the tests for sure!!
jango - Sunday, 21st June 2009 4:46pm - #3922
to excuse me if this message is a doubled bloom. I am impatient� In your new page, to speak to you about l'
apparatus: HV SPARK COIL. How to connect a HV SC 20K on a PWM?? .GRAND THANK YOU.
RMCybernetics - Monday, 22nd June 2009 9:16pm - #3926
See the diagram on the plasma gun page. Connect as Spark coil 1.
Colin Cade - Sunday, 28th June 2009 10:56pm - #3939
hi, back again with update, connecting the device to mains ground
worked well, thanks. Palm and fingertip images, with the battery losing power it was ok, but a fully charged
battery was a bit fierce causing us to pull away quickly. We dont advise it.
also been experimenting with different materials, this is a lump of iron pyrites (fools gold) attached to a
fridge magnet, although its non conductive, it does make a good image
Colin Cade - Sunday, 28th June 2009 10:59pm - #3940
this is a starfish made from common kitchen cooking foil, it does make
a very energetic image. If you can host a quicktime video, i have a short movie shot with my still camera.
Colin Cade - Sunday, 28th June 2009 11:03pm - #3941
and this is the logo of my niece Lorraines website, made from copper
wire letters, cooking foil flower and thin brass strip for the petals. fiddly to make, but well worth the effort. I
have to add my thanks to Lorraines for the help and support you have given us.
RMCybernetics - Sunday, 28th June 2009 11:39pm - #3942
Nice work. For videos, upload to youtube and put the URL or the video in your message.
Lorraine - Thursday, 24th September 2009 10:57pm - #4051
Following the work undertaken by Colin Cade building a Kirlian device (with your much-appreciated input
& products), I'm tempted to go further into the experiments I did with it and wonder if you can advise on
if/how the device can be re-built to a safe standard for taking fingertip corona field images.
Additionally, is it feasible to go 'up a level' with power etc too, to create stronger images, and what would
this entail cost-wise and resource-wise please?
Thanks in advance and when my university fees are paid I'll be sure to make a contribution :-)
RMCybernetics - Friday, 25th September 2009 7:05pm - #4053
For photographing fingertips you have to come into contact with a high voltge device. Doing this with a
home made device can't really be considered safe. That's my disclaimer, now I can try to give you some tips
on how to reduce the dangers :)
There are two main dangers. The first and obvious one is electrocution. Using battery operated devices and
ignition coils greatly limits the power output and therfore reduces the chances of a lethal shock even if
something went wrong. Careful construction and making sure all HV parts are well insulated helps too.
Having a larger plate reduces the change of you touching a HV wire or a spark jumping to you as your
finger would be further away.
Making sure you are insulated from the earth helps to reduce the chance of curent flowing through your
body.
Higher frequncies will give less sensation on the fingertips.
The second danger comes from the mere suprize of getting a shock and is much more likely to harm you
than the shock itself. Just be aware of your setup and your surroundings.
To go up in power you could use a larger transformer or just connect several in parallel. You would also
need a more powerful driver than the OC10A though. The PWM-OC30A would work well.
Other ways to get a brighter view would involve the use of low pressure gasses like Neon and Argon
contained in a glass space between the subject and the HV electrode. The gasses would glow brightly as they
would moe easily become ionized than the open air.
Denise - Wednesday, 7th October 2009 8:27pm - #4065
Hi, I am a master's student working on my thesis that involves Kirlian
photography. Thanks for all the info it's been really helpful.
For the last weeks I've been working and building my device and today I started testing it but it's not
working. I can't figure out which capacitors I need to use if my input is a 12V ac-dc wall adapter or 7 9v
batteries in series. Apparently by measuring the voltage with a potentiometer my voltage is fine until I plug
the ignition coil, this last one is draining all the juice and it's not letting my capacitors fill up. Can you please
help me with this issue?
Attached you can see the schematic I am following.My ignition coil is from an automobile store and it starts
up with 12V.
For the transparent electrode I built a low res by making a sandwich between two transparent Plexiglas
sheets and a wire mesh connected to the HV wire.
Thanks for your time I really appreciate it.
Cheers,
Denise
RMCybernetics - Sunday, 11th October 2009 10:58am - #4070
The diagram you have shown will not work at all. You need to use a high frequency square pulses to drive
the coil.
Our PWM Circuits will do exactly this.
You should also use real glass. Plexiglas (plastic) will be melted by the process which might only let you use
your electrode once. We also have some glass electrodes for sale.
Denise - Wednesday, 14th October 2009 5:18pm - #4081
Thanks for your response,
I got a small spark from the circuit does this mean it worked?? I don't know if it's strong enough though,
cause all I did was placed the ground wire near the electrode plate to see it jump from the cable to the
conductive mesh in between the plexi glass. I already ordered a tin oxide glass so that I don't have to use the
plexi and wire mesh, but my questions are: instead of buying the power pulse modulator can I use a 555 or
556 chip to create an Astable circuit? I need to build it by myself cause it's for my thesis, and another
question please, what kind of capacitors are you using?, I've been using 2x 3300uF in series but maybe that's
the reason why the spark is not strong.
ps: now it's not being powered by 9V batteries, I am using a 12V wall converter as the input source.
Thanks for your time and help :)
Denise
Denise - Wednesday, 14th October 2009 5:30pm - #4082
Sorry I forgot to add:
I've been toggling manually the switch on and off very fast to get a "constant" pulse.
Thanks,
Denise
RMCybernetics - Sunday, 18th October 2009 5:07pm - #4088
What you are doing will not work at all for a couple of reasons.
1. You cant possibly manually switch it fast enough with your hands.
2. Your PSU wont be able to supply enough current. You need something rated for at least 3A.
There's everything you need to know on this website. Either the comments above, or see the ignition coil
driver page
Violaxanthin - Thursday, 26th November 2009 1:35pm - #4122
Thank you for this very informative page and clear instruction
1-How does is function with non flat objects such as a piece of stone or spherical objects?
2- Is it possible to get a photograph of the electromagnetic field of a crystal? to follow the changes caused by
heat, external magnetic field, chemicals, etc?
Thank you in advance for a response
RMCybernetics - Friday, 4th December 2009 5:12pm - #4128
It wont work so well with 3D objects. The electric field from the plate diminishes rapidly as the distance
increases. The way to do 3D kirlian photography would be to have the object within some low pressure gas
so that the glow can be produced more easily. Alternatively you can use very high at very high frequency
like from a Tesla Coil
Vasi - Friday, 11th December 2009 9:47am - #4137
Dear RMC,
I bought from you a pencil ignition coil PBTP-GF 20 (Sagem) and a PWM-OC10A for Kirlian Photos.
Question: Coil terminal (B+) is between Ls and Lp?
I don�t know if my assumption is correct. I want an electric scheme for ignition coil PBTP-GF 20, if is
possible
Colin Cade - Sunday, 13th December 2009 10:36pm - #4139
Hi Richard, after some thought, Lorraine and I have decided to go ahead with modifications to our original
Kirlian device as per Lorraine�s query post no. 4051 and your suggestions in post no. 4053
We intend to use the original set-up in my post no. 3865 with the following mods.
Replace the PWM OC10A with a PWM OC30A.
Remove the 6 x 4 HV plate and utilise the space by installing additional HV-SC20K coils wired in parallel
not sure what several would mean in this case, but four seems to be a good number. What do you think?
Perhaps you could also point me towards a wiring diagram so I do not make a complete fist of it.
Build a new HV plate at least A4 size, I should be able to make it better this time with previous experience
and mishaps how to do it, and with your comments from original project.
With the addition of your inspired suggestion of a low pressure gas filled plate.
Now the questions:
Would the OC30A power the coils successfully.
Is the A4 plate likely to need more power.
What do you think of switching supplies to each coil separately to vary the power output, or should the
PWM do this better anyway
Would the existing SLA battery (4AH) and switchgear (rated 12V 10A and 24V 16A) handle the extra
power, if not, what are your suggestions
Does the OC30A use the same IC�s (555 and 393) in case we fry some, as I have bought a strip of each as
spares!
Now for the gas plate:
Should it be an additional stand-alone item or built as an integral part of the HV plate
i.e. a three layer glass construction with two chambers.
Argon and/or Neon
I know the salt filled plate would need to be emptied occasionally, but would the gas plate be permanently
charged.
Will Google Argon and/or Neon suppliers, but would appreciate your input here.
And if my attempt to make a totally safe plate fails, although the addition of an additional barrier between
subject and HV should be a bonus, could you quote us for manufacture of said plate?
Regarding operating times, I have managed to run the original device for over a minute with no problems
many thanks
RMCybernetics - Tuesday, 15th December 2009 10:02pm - #4142
Vasi,
Your diagram is correct.
Colin Cade,
For wiring the coils in parallel, just wire each every identical connector together.
Driving four coils at once may work, but I would prefer to test it before I commit to that. The DC current
would be too high for them, but when pulsing, the current may be ok. I've none of those coils left, but will
have more next week. I'm not sure if they will be identical as they will be from a different supplier. If you
send me an email about it, I will be reminded to test it out for you when I have them. I think you will at least
need to use a fuse so that it would be protected if the current gets too high.
Bigger plates will need more power, especially if the area that will be glowing is larger.
Switching the coils separately wont really work if the pulses are not timed together. If one is outputting but
another is not, power will be drained away by the inactive coil. The PWM units can be connected as a
master/slave so they pulse together.
A 4Ah SLA may be a bit pushed. I would recommend using a larger one. I would also recommend placing a
large capacitor in parallel with the input to the PWM. The 10A switch is just about OK.
Yes it uses the same two IC's.
The gas plate could be integrated or as a separate thing. If they are separate you would have more
configuration options, but you would have two layers of glass when using both a liquid and gas plate.
The gas plate could be permanently sealed as the gasses are inert and it would need no electrodes. Try
searching for a local BOC distributor, they have scientific and technical gasses.
If you are going for something as large as A4, the low pressure may cause it to implode with ordinary glass.
It may be necessary to use toughened or extra thick glass. I can make one for you but there will be a
minimum order for the gasses (20l) from my local supplier. If you wanted me to ship the remainder it would
need to be by surface mail as most couriers wont ship pressurised canisters by air.
RMCybernetics - Monday, 1st February 2010 3:13pm - #4224
A few people have asked for a diagram showing the
connections between the PWM-OC units, a spark coil, and the battery. So here it is.
Power cables should be thick enough for at least 3A.
If you use a wire to connect the HV output of the coil to the plate, keep it short and do not allow it to touch
anything else.
Here is also a useful application note about transient protection.
bei ji hong - Sunday, 7th March 2010 3:09pm - #4296
With Mobile Touchscreen Instead Plasma Photography Plate Effects ok
Igor Kokarev - Thursday, 25th March 2010 7:11pm - #4316
I just received this equipment for Kirlian photography. The results are great as expected!
However be careful! Corona (Kirlian) effect radiates ultraviolet light which is dangerous for a naked eye
especially in a dark room! I captured about 10 photos for my digital camera, for each one I spent 5-10
seconds and my eyes got tired strongly. So I will use sun-glasses or watch DSLR camera display.