Nice to hear from you Simon. I will try and answer your questions to the best of my knowledge:-



1) Microphone cable here is basically two tiny coax cables, with the outer insulation "glued" to each down one side, making a "flat" cable, the shields do not touch. For cables where the shielded parts are in full contact, that works as a single shield....(Belkin cable?)



2) The original TGSL USB2 Cable connection diagram, has a very obvious loop in it if you look, its not the cable, its the connection method, the effects of which may be a lot worse than just "wet grass" sensitivity, if the truth were known.....(I have added that drawing below for quick reference.) The loop is via the shield and the black connection of the Tx lead, connected at both ends = a loop. Not forgetting what has been done with the coild shields if they touch anywhere where they cross over.......



3) I personally don't like the idea of USB cables because I know that there is a lot of substandard ones with very thin conductors around. Chinese?

4) Also in a USB cable, the Tx and Rx coil wires are not separately shielded from each other, just all wires in together.....So you have a relatively high level Tx signal, traveling perhaps more than a meter right next to the low level Rx wiring where micro-volts are significant......it's just not my way to do that. Now if "TWO" USB cables were used.........



5) I would bet that coils that can only be nulled down to 4mVolts are suffering from pickup over such cables.....theoretically, well nulled means ZERO pickup.....(I will check the validity of this statement sometime in the next couple of weeks..... on my IGSL)



6) The "weight" of the cable does not seem to make any difference on any previous detectors I have made, future IGSL testing is planned.....cables must always be well fastened down....

7) As to why your Belkin cable didn't work, you would need to examine how it was connected in fine detail.....I cannot answer you there. That is the type of cable that really needs to be used to my mind. I believe Ivconic uses it too if I remember correctly on his machines....my mike cables are electrically similar......



That simply depends upon the way the electronics are designed, it would appear that for TGSL, the Tx coil connects to ground on one side anyway.....then it can be done with (probably!!) no problems.

Regards

Andy

PS Some of my comments are based on previous experience/knowledge, but are not based on knowledge with regard to either TGSL or IGSL metal detectors, yet anyway.......I will drop you Guys a line when I find out for sure (or not!!)

2) The original TGSL USB2 Cable connection diagram, has a very obvious loop in it if you look, its not the cable, its the connection method, the effects of which may be a lot worse than just "wet grass" sensitivity, if the truth were known.....(I have added that drawing below for quick reference.) The loop is via the shield and the black connection of the Tx lead, connected at both ends = a loop. Not forgetting what has been done with the coild shields if they touch anywhere where they cross over.......

Good points all, thanks; and worth testing in practice since the TGSL is surprisingly tolerant of many things (such as rail voltage spikes that are synchronized to the oscillator frequency and the size of the null signal).



I'm not sure that qualifies as a ground loop in the classic sense -- just two wires acting like one, like a mini Litz wire. I'm no ground loop expert, but I think the problem is when they are embedded in or span the circuit causing voltage drops or currents here and there.

But your advice sounds like good practice in general; however I always like to do real tests to see "what we can get away with" in the interest of cheap production techniques. And theorize ad nauseum when I'm too dilatory to get out of my chair ...

Cheers,

-SB

Hi Don,

maybe my terminology, although correct according to Wiki here (you need to read well down the page by the way):-

http://en.wikipedia.org/wiki/Ground_...electricity%29

Where you will see:-

A star topology should be used for ground distribution, avoiding loops.

May not be quite clear enough for everyone.

As I mentioned before, look at any loop in any cable as a shorted single turn transformer. You will induce voltages from AC sources into that loop.
The loop being shorted will run a (relatively) high current with a very low voltage.
Unless you break the loop and insert an ammeter, you will never know what currents are flowing in the loop.
Such loops also re- "transmit" low levels of AC further on.

You can also read at that Wiki link the following:-

Ground loop issues with television coaxial cable can also affect any connected audio devices such as a receiver. Even if all of the audio and video equipment in, for example, a home theater system is plugged into the same power outlet, and thus all share the same ground, the coaxial cable entering the TV is sometimes grounded to a different point than that of the house's electrical ground by the cable company. The potential of this ground is likely to differ slightly from the potential of the house's ground, so a ground loop occurs, causing undesirable mains hum in the system's speakers.

You don't have to do anything new if you don't want to, but ground loops and similar may effect stability and sensitivity of MDs, who are as easily as sensitive as any radio or audio system.

Generally, in an audio system, unless the designer / builder took steps to prevent it, going from one unit to another with grounded stereo Cinch cables/connectors may cause problems due to having two ground paths, which is why in many pieces of equipment one ground is not connected at the socket......or special electronics are used (opto for example) to obviate the ground loop effects.

You should at least know about them, that was my aim. You still don't have to agree though!! Have a great day.

regards

Andy

Hi Don,

maybe my terminology, although correct according to Wiki here (you need to read well down the page by the way):-

http://en.wikipedia.org/wiki/Ground_...electricity%29

Where you will see:-

A star topology should be used for ground distribution, avoiding loops.

May not be quite clear enough for everyone.

As I mentioned before, look at any loop in any cable as a shorted single turn transformer. You will induce voltages from AC sources into that loop.
The loop being shorted will run a (relatively) high current with a very low voltage.
Unless you break the loop and insert an ammeter, you will never know what currents are flowing in the loop.
Such loops also re- "transmit" low levels of AC further on.

You can also read at that Wiki link the following:-

Ground loop issues with television coaxial cable can also affect any connected audio devices such as a receiver. Even if all of the audio and video equipment in, for example, a home theater system is plugged into the same power outlet, and thus all share the same ground, the coaxial cable entering the TV is sometimes grounded to a different point than that of the house's electrical ground by the cable company. The potential of this ground is likely to differ slightly from the potential of the house's ground, so a ground loop occurs, causing undesirable mains hum in the system's speakers.

You don't have to do anything new if you don't want to, but ground loops and similar may effect stability and sensitivity of MDs, who are as easily as sensitive as any radio or audio system.

Generally, in an audio system, unless the designer / builder took steps to prevent it, going from one unit to another with grounded stereo Cinch cables/connectors may cause problems due to having two ground paths, which is why in many pieces of equipment one ground is not connected at the socket......or special electronics are used (opto for example) to obviate the ground loop effects.

You should at least know about them, that was my aim. You still don't have to agree though!! Have a great day.

regards

Andy

I agree totally in principle. I'm guessing we don't have to worry about ground loops in the cable itself though and it would be nice to not over-engineer the cable if we don't have to.

I'd argue it this way:

There is a matter of degree difference between the skinny ground loop in the cable and the kind of wide ground loops that thread through circuits and between components. The cable loop has awfully little area to pick up any stray EMI with -- and even if it did, it totally pales in comparison to the honking EMI wad that the RX coil picks up!

Could the other TX (red) lead induce an eddy current in this shield-to-black lead loop? I'd argue that it has the wrong orientation because the lead lies parallel to both sides of the loop, so any EMF would cancel. Likewise, any current that did manage to arise in the ground loop would have cancelling directions relative to any of the RX leads that lie parallel to it, so it wouldn't transmit to the RX leads.

Even if it did couple to an RX lead, I wouldn't worry about it coupling any significant TX power because the hot TX lead probably does that many orders of magnitude more -- at least in a USB cable.

And even then, any such cross-talk of the TX signal often is handled in the motion detection circuit.

But that's just intuition, and so often wrong in my case, so tests are always the way to go.

And would I eliminate that ground loop if easy to do so? Yes. It is a good habit, may be more important in a different MD design.

Ground loops are a good subject to chew on because I think they are not trivial or simple to understand and sometimes have a critical effect, sometimes not.

Regards,

-SB

Anything worth doing is worth overdoing...

HELLO, my TGSL is sensitive to wet grass, in fact when I prospects in a field where the grass is wet the detector emits false signals. What art can I do for this problem? thank you