Hello Nir,
It is good that you already read the app note about design antenna.
What you want is to get the correct inductance of the antenna so that with the tuning capacitance of 28.5pF of the device, you get the maximum resonance at 13.56MHz
The app note gives you the formula to calculate the required inductance for your antenna:
ftuning=1/(2*pi*sqr(Lantenna*Ctuning)) => ftuning=13.56E6, Ctuning=28.5E-12
If you make the calculation, you will see that the antenna needs to have an inductance of ~4.8uH
(please note that a resonant frequency doesn't need to be exactly at 13.56MHz. It is usually not bad to tune the antenna slightly above 13.56Mhz (~13.7) to compensate high coupling when reader is close to the tag)
Now, you need to design an antenna with this inductance. For this you can refer to chapter 3 of the app note. In your case, you can make a spiral antenna or an octagonal antenna.
If you take spiral antenna, the formula helps you to find the correct parameters.
For example, in your case, you can make a spiral antenna with external diameter or 33mm and internal diameter of 27mm with 9 turns (which give trace thickness of 0.35mm and spacing of 0.35mm). According to the formula, this will give you a 4.7uH inductance, which is good.
If you need more accurate calculation of your resulting inductance, then you will need some simulation software, but those are usually complex tools with steep learning curve.
Once your PCB is done, it is important to check the resonant frequency of your antenna by using the measurement methods described in the app note.
Best regards.
