dfbowers mod alt

Just for the record, the "dfbowers mod" shouldn't need the resistor R37, which may in fact have been his original mod. Either way is OK.

-SB

Well, I concluded my experiment with the DC offset on U104 and U105. I did not have a TL071 on hand but had a TL061.. Not my first choice, but good enough to experiment with. So, I just piggy backed a pot on top of the IC and connected the pot per DC offset diagram in the datasheet.

Results: I have to conclude that my TGSL circuit is pretty optimal to begin with. I first substituted the TL061 with the adjustable offset into the LM308 for the AM channel. In tweeking the offset, I noticed no improvement in audio, but changed where the sensitivity adjustment needed to be... and at the expense of where the circuit would ground balance... if I could balance at all.

Likewise, substituting the TL061 with adjustable offset for the LM308 for the disc channel would alter the sensitivity setting but at the expense of where the TGSL would disc.

So, I don't believe that there is much point in chasing this idea any further. It might benefit a circuit that is not optimal to begin with but mine seems to be working as good as advertised by others.

If we want to split hairs, I can continue playing around with it but in actual use outside the benefits would be negligable if any benefit at all.

Oh well.. I just had to know!

Don

i haven't looked to hard at the cct but it might be the change in offset rather than the magnitude that is causing an issue.
in which case a few 10's of mVolts either way isn't going to make a difference.

Vladimir,

Did you add the filter to pin 3 and 5 or just pin 5 of U106?

Don

Good experiment. I wouldn't mind seeing a photo of your piggyback if easy. Can you tell us what the baseline output offset voltages were and how you changed them?

At first I was totally perplexed by your seeing a shift in where DISC and ground balancing occurs. But I guess anything that affects the trigger point of the beep would give an apparent shift in those settings. But I hope there wasn't much shift, unless the TGSL was very suboptimal to begin with.

As a practical summary to this, there are a couple of measurements I would take to make sure the sensitivity circuit is tuned up. First, I'd want to establish that the two LM393 comparators have the same threshold. If not, then we probaby want to compensate by having different output offsets for U104, U105 (LM308 ). But, if the thresholds are the same, I'd want to hand-pick some LM308 chips to get the output offsets really close to the same value. The newer TL0.. chips may be better in that regard.

Once those two measurements are correct, I would put in the "dfbowers mod" to the sensitivity control so it has more range to operate.

For now, on my PCB, I have put in the dfbowers mod and hand-picked the LM308 chips to have an output offset within 1 to 2 mV of each other, absolute value of about +4, +5 mV. It's too difficult to test the LM393 thresholds at the moment, so I'll hope they are quite similar, being on the same chip.

For next trip to low-noise area, I'll take along some trimming capacitors for the RX coil, and keep the sun off my circuit! Wish I had a nice dank basement.

-SB

Only the pin 5.

RX trimming capacitor test & discrimination

I did a quick test to see what kind of capacitance at C6 (parallel with RX coil) is acceptable.

By increasing C6, the gain of the received signal can be increased, but it also shifts the target signal phase, and thus can affect the discrimination, and indirectly, the ground balance.

I used:

coil from dfbowers TGSL - RX inductance 6.9 mH, TX inductance 6.3 mH.

My PCB; oscillator freq 13.81 kHz.

For discrimination, I tested with US nickel and aluminum pop-top from soda can.

My C6 soldered into circuit is 14.4 nF.

I used .9 nF, 2.0 nF, 3.5 nF, 4.0 nF trimming capacitors for test in a socket soldered in parallel with C6. This gave range of 14.4 to 18.4 nF for C6. I could verify the capacitors were making contact by seeing the null signal change amplitude.

Results:

The nickel could be discriminated with all trimming capacitors.

The aluminum pop-top could be discriminated up to 3.5 nF trim cap. With 4.0 nF cap, the pop top made a clear beep.

But note: with 4.0 nF cap, the RX null signal was quite high, meaning lots of gain. So question is whether the phase shift caused detection of pop-top at max DISC, or simply additional gain caused detection.

Because of noise in my workbench, I could not assess the depth variation of different C6 values on 1 Euro. You would think that larger values should give more depth. I will have to test outside to see.

Observation: in order to discriminate the pop-top, the disc setting seemed to cause significant loss of depth for 1 Euro. I will need to test outside for exact amount.

I found that no DISC setting would discriminate a US quarter or a 1 Euro, regardless of C6 value. A US "copper/zinc" penny was slightly discriminated at max DISC setting at lower values of C6.

-SB

I had done a similar experiment some time ago but instead of a trimmer cap, I put several taps on my RX coil and added turns . I was curious to see if I could eliminate noise by bringing the two coils closer to resonance. My results seemed similar to what you have noted above. The phases shifted too far off and I couldn't really notice any difference in detection depth..

But, in theory the closer we get to resonance, the more noise becomes rejected and the signal we are looking for is enhanced (If we have a high Q coil). But I guess as so many others have noted.. tough to do with this design.

Don

TGSL Coil poll

I have built probably 6 or 7 coils for the TGSL now..
I wanted to take a poll and see how may out there measure the inductances of their coils and how many just go by the "TGSL coil making pdf" by Ivconic. Or how many calculate inductance by other methods.

Simon had noted that the coils that I had sent him were around 6.3 and 6.9 respectively for Tx and Rx. I don't have a way to directly measure L so I have been using other methods to get close. But.. Every set of coils that I have made have been within 5 turns of each other. Even using a model for 6.0 and 6.5 mH, the difference is still 5 turns. I have two different forms.. slightly different number of turns. but still a difference of 5 turn. (105 and 110 for Tx and Rx respectively).

Now I made another set to see if I could get the Tx freq closer to 14.5kHz. So, I made a Tx coil to run at 14.5kHz. Then substitued my new Rx coil onto the oscillator circuit to shoot for 13.9kHz, (6.5mH + .020 uF = 13.9KHz) .. that should show me a difference of .5mH between Tx and Rx coils. 6.0mH for the Tx coil and 6.5mH for the Rx coil. Guess what.. Still a difference of 5 turns!! 101 turns and 106 turns.

Now with Ivconics specs, he suggests a difference of 9 turns. (98 and 107 turns). I suppose lots of variables.. different winding methods, wire sizes, bindings, etc. But if I did that, I would probably not be able to tune mine correctly. What have your experiences been?

Thanks

Don

Time to break out... Qiaozhi's coil calculator!

I ran some cases. I'm equating a 22 cm diameter round coil with a 28 cm D shape coil. Used .25 mm wire.

I used Q's calculator to estimate inductance at different turns.

90 turns: 5.35
95 turns: 5.93 delta .58 mH
100 turns: 6.54 delta .61 mH
105 turns: 7.18 delta .64 mH
110 turns: 7.84 delta .66 mH

So adding 5 turns gives similar change in inductance in that range. If you believe calculator.

-SB

beach

Went to beach today and took 2 MDs: dfbowers TGSL and my Tesoro Compadre with 5.75 inch coil.

Literally got my 2 cents worth . But I was with people so not focused.

One interesting test. I put a Euro on top of sand and stuck a 30 cm stick in sand. Sand was in dry area, but if dig down somewhat moist.

By eye, it seemed TGSL had range of about 15 cm to 20 cm. Compadre surprisingly was almost the same, probably a little less than TGSL.

I tried to do air test of TGSL but sorry didn't bring headphone extension cord so hard to hear audio. But maybe air test got 24 to 28 cm.

It seemed beach had somewhat more noise than in mountains. When turning sensitivity full, more chatter than in Mountains - just an impression.

I am wondering if conductivity of sand causes smaller difference between Euro and sand than with less conductive ground or air, thus smaller signal blip.

Why Compadre did quite well not sure. Maybe need to study TGSL over sand/ground some more.

-SB

Just make certain you are using the latest version (2.0), which I think you must be, as I get the same results.

Holy cow.. It finally happened! With the coil described above, coil #7 allows my null phase to occur close to where a ferrite slug ground balances. 31cm for a 1e.

Now.. if I can only make another one just like it.

Sounds excellent!

Have to take the bait... going by the ferrite model as Qiaozhi explained, I assume you mean that your null phase zero crossing centers under the sync pulse nicely near the middle of the GB pot range. The ferrite model says that the slug should only make a very small additional pot adjustment no matter where you put the zero crossing, as long as you center the sync pulse over it. If otherwise, the slug is not acting like ideal ferrite. So are you saying with other coils, the zero crossing was not near the middle of the GB pot range?

Back to your coil -- usually there are two stable null points, one on each side of the minimum. Which one did you pick?

Also, would you measure the DC voltage on capacitor C15 (JFet source of DISC channel) while turning the DISC pot through its full range? Does it change sign, or stay positive or negative the whole time? Where does it peak in magnitude?

What do you think is the secret to coil 7? Did you use exact same shielding (I forget exactly what that is)?

-SB

I guess the key to coil 7 is getting the frequency up around 14.5 kHz. I have always assumed that the higher the frequency, the more spread out the different metal target phases are across the DISC pot range.

That's a test I'd like to see one of these days.

-SB