NFC reading distance has a dead spot

Question

HiI have a new PCB design using the ST25R3918 chip.The application is quite simple: An NFC tag (sticker) identifies a consumable in a machine.The PCB/NFC reads the tag to check simple data.The distance from the NFC coil to the tag is fixed in the machine, 15mm +/- 5mm.In free air, I have a reading distance of appr. 50 mm, very stable. Great! My problem is in the machine:The NFC tag is mounted on the outside of a bag-in-box system.The bag is coated with aluminium. Not good, I know...6 mm cardboard makes a distance to the aluminium bag, so that we have a max reading distance of app 30mm.This is actually OK.BUT: There is a "dead spot" somewhere in the middle of the reading distance.The spot is like 1-2 mm wide. Very little difference can make it work as a charm, or just fail.See below.I don't see this dead gap when the tag is not on the bag, so the problem is close related to the aluminium bag under the tag. Why does this dead spot happen?My theory is that the PCB/GND and the aluminium bag forms a capacitor. When the distance is "correct", the center frequency of this "filter" eats all the 13,56MHz energy, and reading is impossible. Is there a way to "tune" the RF in the ST25R3918, to be able to change the tuning if the reading fails, and in that way "move" the dead spot to another distance?Thanks for any ideas!

Ulysses HERNIOSUS · Accepted Answer

Hi Kaare,I think we would be able to use Pulseview. If you could attach traces here, would be interesting for us. Please also include the IRQ because it helps a lot for navigating the traces.In the trace I can see that ST25R3918 does detect collisions during anti-collision where I presume there shouldn't be any. Things to look/try:Look at RFI voltage level, verify it to be in the correct area.Switch to I/Q demodulator: Inside your analog config table for A106 RX change: ST25R3916_REG_RX_CONF2, 0xFF, 0x2D​ toST25R3916_REG_RX_CONF2, 0xFF, 0xED​This may provide some more noise resistance.Change collision level setting:ST25R3916_REG_CORR_CONF1, 0xFF, 0x51​from 28% to 53%ST25R3916_REG_CORR_CONF1, 0xFF, 0x53​Don't use separate collision setting (corr_s6): Remove "Poll NFC-A Anticolision setting" from analog config. BR, Ulysses

Travis Palmer · Answer

Hello KKjel.1,

This is a quite interesting phenomena.

First I would like to mention that there are special tags to work in a metallic environment. Also placing a ferrit sheet at the inside of your box could improve the situation.

From your sketch, i see that there should be still some distance between aluminium bag and tag.

If you want to debug it, i would suppose to add a spy coil close to the tag and close to the reader.

In this case, a two loop wire wound antenna connected to the high impedance probe of the scope should be enough.

You should then clearly see, what is the difference between z=0, z=deadzone, z=max (30mm?) and can compare with the free air behavior.

you should specially look at:

Magnetic field amplitude at the reader and tag spy coil (also compare what is the amplitude when communication stops in free air => minimum field strength the tag requires for operation)
Back scatter coming from the tag, who is stopping to communicate in z=dz and z=max (this would hint if your system has a problem with reader sensitivity or power limitation)
Wave shapes coming from the reader (if there are strange shapes while communicating the tag may wrongly decode the reader signal, re-tuning of the antenna might help here).

In your question you have been talking about "Very little difference can make it work as a charm, or just fail.".

Are you referring here to x-y placement or the z distance? In your drawing, reader and tag antenna are the same size. Typically the reader antenna is bigger (e.g. 1.5x) than the tag antenna. This ensures that the tag antenna integrates only the magnetic field inside the antenna.

Looking at the opposite scenario - the tag antenna is bigger than the reader antenna - the tag would integrate the inner and outer magnetic field from the reader. In this case the outer magnetic field would cancel parts of the inner magnetic field. Metal (or aluminium) environment could weaken the magnetic field. The remaining field (=induced voltage) could be below the tags activation threshold. (bullet #1 from the list above).

The ST25R3916(B) features AAT. It could be used to re-tune the antenna in case the antenna amplitude will change and no tag could be found. It does so by using voltage controlled capacitors (~15-20 cent per piece).

We did AN5322 (https://www.st.com/en/nfc/ST25R3916.html#documentation) to show the principle of this feature.

For me, this would only be a solution, if you find out, that the issue is caused be de-tuning of the antenna and it cannot be solved by static re-tuning.

It would be nice if you keep us (the community and myself) informed and let us know the outcome of your debugging and how you solved the problem.

I might not be able to replay to further questions until mid of may, but one of my colleagues will take care :)

BR Travis

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