|
#1
|
|||
|
|||
MY new PIC uC ION Detector
To all U interested in ION Detectors and potential Long Range Detection of Gold
Well, I finally got my PIC version of an ION detector running smoothly. I tested it with my air ion charger and a ozone generator and the ion detector immediately responds up to 10 feet away. My next step is field tests. Attached are pictures of the first version which is mounted in a plastic case that I lined with aluminum foil. And the second more professional version in an aluminum case with a pull out antenna. Also, the inside of the detector. Both versions have the capability to detect electrostatic fields using the meter plugged into the meter port AND to detect ions with a momo headphone plugged into the headphone port. The red button on the right is to reset the baseline at which voltage is detected once the unit warms up in a minute. If anyone wants a kit I'd put the parts together with a programmed PIC for $80. Plus shipping. Thanks to all who have contributed to ion schematics. This one is definitely simpler to build thant the IVCONIC or others as the PIC takes the place of a lot of electronics, timing, etc. Goldfinder |
#2
|
||||
|
||||
Quote:
|
#3
|
||||
|
||||
Quote:
__________________
Geo |
#4
|
||||
|
||||
Vincent Vollono's ion detector
http://www.direct.ca/trinity/iondetector.html
I built it. You must paint with barnish the PCB and use fiberglass type for it. You can build the both type of detector for charges positives and negatives and commutate with a key. Transistorized but very effective. No need the plate to ground for to walk with it. I make this experience: In an empty fuse put grain of bronze. (Remember that this bronze in grain is equal to hundreds million ohms, because is no perfect contact between the grains.) Now, if you touch with an only pole of a 1.5 volts battery, for example, the negative (ion detector is for negative in this schematic), the led glows. But if you touch with the positive of the battery the weak light of led vanished. Always the led is with weak light. If you use NPN transistors, you'll detect positive ions. Here the "coherer" with bronze grains. This don't stop the charge of a simple battery. |
#5
|
||||
|
||||
ions detector
Hi Esteban
Can you tell me wich transistors should i use to made this ion detertor, to get positive ions. I have plans to make a circuit with both detection posibilities ( positive and negative ions) Regards Nelson Quote:
|
#6
|
||||
|
||||
Hi Nelson
Use BC547B (NPN) and BC557B (PNP). The original circuit is for negative ions. If you want catch positive replace the PNPs for NPNs and the NPN for PNP. Invert battery, led and meter. |
#7
|
|||
|
|||
My PIC ION detr
Quote:
The front end (i.e. the analog electronics) is IVCONIC's and it outputs into a PIC micro-controller which I have spent considerable time programming and consider the code proprietary. IVCONIC's will detect both ions and electrostatic fields but there is no way to distinguish them. My PIC does the discrimination. Goldfinder |
#8
|
||||
|
||||
Hi Esteban. Did you made field test? Why you used the fuse with grain of bronze ? To change the R1 or only to touch it for the experiment?
__________________
Geo |
#9
|
||||
|
||||
Hi, for to experiment. How can show polarity of a very low voltage battery as 1.5 V touching with an only lead.
|
#10
|
|||
|
|||
ok
|
#11
|
||||
|
||||
Quote:
Could you please explain the advantages of discrimination between ions and electrostatic fields when it comes to treasure detecting? |
#12
|
||||
|
||||
what extra news about the antenna , any progress ?
and still no comments about : http://www.geotech1.com/forums/showthread.php?t=13805 regards , epitopios 73s |
#13
|
|||
|
|||
ION bursts
Quote:
In an electrostatic detection all that is getting detected is a voltage gradient and you don't know if it is simply an efield or an ion burst or whatever. I found that there were all kinds of different electrostatic fields in nature. For example - Lots of bushes and trees have a big electrostatic charge. So that was when I invented the PIC program to detection of ions. I used a PIC 12F675 it has a few A2D channels ideal for this sort of thing, and of course there are timers you can also use to time the ion bursts. The PIC basically times the pulse created in the circuit and if it within the ion burst time window then it triggers pulses in the ear phones. I don't know how to make this any clearer but if you don't understand I'll try and explain. Goldfinder |
#14
|
||||
|
||||
Quote:
|
#15
|
||||
|
||||
Quote:
Thank you very much. |
#16
|
||||
|
||||
Quote:
Your circuit is very interesting. It represents the first understandable improvement over the simple static detectors I have seen in this forum. I have seen other signal processing circuits intended to detect ionic activity by extracting signals from narrow time intervals. These circuits involved more complicated discrete digital circuitry to filter and process short interval signals, but they were never published here. I suspected you would not have detected any signs of ionisation from long time buried gold with your ion detector, as you confirmed. I am wondering how you determined the ion burst time interval to program your PIC to. From what you posted, I am guessing you may have calibrated it to an air ion generator which produces ozone, or possibly some other source of ions? Second, I am wondering how you originally discovered that ions will create bursts of pulses within a given time interval. Is this something you discovered on your own, or is there a printed source you learned this from? Best wishes, J_P |
Thread Tools | |
Display Modes | |
|
|