Hi Paul,

Package arrived today with your permission I want to make a few changes and I have some questions the changes first,
.1. I want to remove the DC power socket and replace with a LTW that I use reason found on the other device the DC plugs were very noisy .
.2. Remove the 3.5 mono socket and replace with a 3.5 stereo one wired as a mono as that is how the Bluetooth TX that goes to my hearing aids is configured.
.3. After initial testing I want to remove the encoder and fit it into an enclosure which will also house the screen and fit on the handle I have the screen and the enclosure is almost complete.
Now for the questions .
.1.I intend running the Magpie V3 using my existing 2S Li-Ion 7200mAh is that OK?
.2. I notice that the encoder is wired differently to the pictures you posted earlier two wires on this encoder are transposed to the ones in the pictures the plugs on the boards are all the same as each other so which is correct.
.3. I intend to run the screen and encoder Via a shielded 9 core cable via an 8 pin plug and socket on your box and hard wired to the screen box does this sound feasible?
.4. I notice that their is no On/Off switch should I add one between power socket + positive (my LTWW socket) and the + wire to the board unless of course you have something already enabled to turn the power On/Off?
That should do for now.

Regards, Ian.

The switches are bidirectional so it doesn't matter whether the input is on S or D.

Hi Carl
Yes I agree with you in principle but as I said the DG411 all the test circuits are applying the input to the source pins so best practice dictates that you should follow the test criteria.

Not if you know it doesn't matter. I hook them up according to what makes the layout easiest.

from pdf

Hi Moodz,
Thinking about adding another opamp ex the buffer to provide an edge triggered pulse as auto sat mechanism to position the damping point which the MCU can read on the fly.
In your experience with this circuit do you find that for minealised soil the timing of the delay for sampling the ZPD can vary, for example with high mineralisation does the timing need to be adjusted further out for example.?
So instead of 1.6us it could be required that the sampling point needs to be adjusted to 1.9us...?
Cheers,
Dean

Moodz,
Looking at this project and the build seems really good. New to programming. Use this project to learn more. Looking at the schematic and pictures posted, all the caps used for decoupling are 1uf? My limited experience they are usually 0.1uf. The pictures are so that
I can't read the yellow caps on the pcb. I don't see any 1uf caps on your pcb electrolytic or film. What are the caps polyester? The reddish looking ones look like metallized polypropylene. Also, where did you purchase the 10 Mhz 10pf ocscillator? I have found
10 Mhz load capacitance 18pf or higher. BOM would be nice. Thanks.

RickS

Moodz,
Found monolithic multilayered 1uf caps. Sorry for the previous question.

Moodzs is the schematic still current or has any improvements been made ?

Hi Ian ... glad you got the unit. You dont need my permission its yours to do what you want.

That unit was made to be (almost ) as light as possible with no power on/off or LCD etc. I dont have any power on/off circuitry ... using the old school air-gap technique.

Please also note the default timings are really for "beach mode" ... maximum sensitvity and no mineralisation.

There is a previous post about the encoder wiring ... it works either way.

moodz.

Hi Rick ... I used 1 uF for maybe improved noise reduction ... 0.1uF will work also.

moodz

Hi David,

The most up to date schematic is post #23 https://www.geotech1.com/forums/foru...820#post409820

moodz

The idea sprung from a voltaqe controlled resistive damper using mosfets ( see patents by Nelson ) when I realised that constant current sink utilising the I/V curves of a suitable mosfet was more effective with a simple feedback loop driven by the damping "error".
This was patented ...A DAMPING CIRCUIT FOR A COIL - AU2013101058.

Looking at the loop distortion you are trying to avoid by adding a buffer .. analysis will show that the frequency response of the loop is not above 1 Mhz but the primary distortion components start at around 10 Mhz upwards ( high speed switching edges ) and will not make it around the loop thus not impacting the operation of the loop.
The only time I would consider a buffer would be where I might be using a high speed ADC to implement the loop ( but then I would not be using the sampling switches .... so .... hmmmm ).

So the only criteria for including a buffer would be a demonstrable improvement in performance of the overall signal chain.

The green trace is seems to be clipping at about -8 volts ... this means the damping error sample is not correct in timing.

moodz
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Fine Paul but on my encoder the centre green wire and link to the P/B and the red wire are transposed and OK I will fit a switch I have some genuine new SD power switches in my spares box then we will have to talk about timings.

Regards, Ian.

Thanks Moodz,
Regarding the clipping, have set the timing at 1.6us with 100ns sample.
To avoid the clipping in your experience should I set the timing to be closer to the return pulse ie shorter or further away say 1.8us...?