#2526
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Not yet, but I understand that part of the problem is that on + 12V there is a very large signal at 20Mhz. With the 8Mhz lrl there were not all these problems.
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#2527
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Is it really useful?
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#2528
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#2529
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Who knows in what range the inductance of 3 turns is?
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#2530
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I think less than 1 micro Henry.
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#2531
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Your document mentions that the tr5 emitter output should reach 5v, but the use of double-sided large-area copper-clad PCBs cannot reach 5v, only about 2v, but it does not affect the sensitivity of electromagnetic field reception. So I think that the output voltage of tr5 has nothing to do with it.
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#2532
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Quote:
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#2533
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It is difficult to detect metals. I wonder if anyone in the world has ever succeeded?
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#2534
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Quote:
https://www.youtube.com/watch?v=yR3tzT2Jd-g |
#2535
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I am very responsible to tell you that after hundreds of experiments by many of us, including single-panel and double-panel, we have replaced various capacitors and transistors, and finally came to the conclusion that it may ring in the wild, but it is not right. Metal responds, it only responds to electromagnetic fields, such as dialing mobile phones, electric sparks, but underground metal cannot have such a strong magnetic field, and underground metal has no electric field. No matter how large the electric field, it will be displayed underground, including powerful lightning. As long as it enters the ground, it will disappear. A small number of people say that metal has been detected. This is an irresponsible statement, even to hype their products. So far, no LRL is really useful, so you Don’t worry about suspecting that you haven’t done it well, because it is useless in the first place, so you can never do it well.
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#2536
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Quote:
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#2537
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Quote:
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#2538
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The fact that there is a resonant circuit (L1 / C10) implies that in some way the frequency is important and in my opinion there are 2 possibilities, one is that the phenomenon emits in a wide range of frequencies and therefore also in the FM range (about 80 - 110 Mhz), the other possibility is that the phenomenon interferes with the signal emitted by transmitters in this range but in this case the lrl would have to detect this signal source in a directive way, which does not happen.
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#2539
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For so many years, I haven’t seen you make a decent pcb. A decent machine. I haven’t seen you make a video. You don’t even know the value of the inductance. What tuning are you talking about?
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#2540
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In Italy there is a proverb "appearances are deceiving".
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#2541
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Let me tell you the truth, this circuit is made of double-sided copper clad laminate, and the output is only a little bit. When made of single-sided copper clad laminate, the output is more than two volts. It does not matter how much the output is. As long as it can be compared in the end, there is no adjustment for l1 and c10. Meaning, within the range of 100pf, or even greater, its sensitivity has not changed much. It can react to the sky or some ground, but this is only a problem of geographic magnetic field and has nothing to do with metal. Don’t say you succeeded. In fact, no one has ever seen you, nor can you know that you succeeded or failed. You always like to hear others say that you succeeded, and you hate others to say no. This is your psychological problem. You found water at a depth of 60 meters in your country. The basic knowledge tells you that as long as it is not a mountain, there is basically water in the ground 60 meters deep. You attribute this function to the oc
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#2542
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All forum members will take note of your opinion, as far as I'm concerned I have nothing more to say to you.
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#2543
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Hello Franco
You write: We cannot use an oscilloscope for measurements in the sensor stage and for the adjustment need only one voltmeter is required to connect to the output of the filter R16, C18 without the use of the oscillator. If we have 2-4volts DC output, this means that the sensor stage is working properly without oscillations. But .... we can have oscillation, because a voltmeter can not show it and let us have an output in the range 2-4v DC My question. Can we use the oscilloscope to properly adjust the trimmer on the TR3 emitter or is it practically setting in the field? Please explain more Thank you
__________________
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#2544
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Quote:
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#2545
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Thanks for your quick reply.
After checking I saw that. With the trimmer calibration min-max in the emitter TR3 the output to the filter is not 0V DC (without oscillator), but output is 50mv-150mv. So i think we cannot have 0V DC because the diodes produce this increase signal Ofcourse (without oscillator, coil and antenna) if we touch the input, the output is >8V DC. This is correct? I repeat again i use only sensor stage without oscillator coil and antenna
__________________
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#2546
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Quote:
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#2547
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Hi Franko
If we have an oscillation in sensor stage output (8MHZ disconnect , coil and antenna are connect) at any value C13,C14 >50pf can we remove one capacitor C13 or C14 or all of them?
__________________
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#2548
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Yes, or you can increase R10 / R12 (1.5K or 2.2K)
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#2549
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I think I don't explain it correctly.
I keep as your last update the same values for R10 = 1K trimmer, R2 = 220R and "play" with capacitors values for 0V DC output. I saw with capacitors <50pf or without capacitors the output is stability and OV DC It is enough .. or it is necessary to use capacitors?
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#2550
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Quote:
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