ST25R3911B - antenna parameters measured X matching components

Question

Hi.We have a custom board which includes NFC and it is based on ST25R95 transceiver and it has a double layer (top and bottom layer) antenna/coil of 10.5mm x 26mm, 5 turns at each side and 0.3mm width for traces, 1/2oz copper thickness. The reading distance for NFC tags was not sufficient for our project so we decided to switch the transceiver to a ST25R3911B and keep using the same antenna. Use the same antenna because we don't have more space to increase its size, and now the objective is to reach a higher distance reading for NFC tags.We sent a bare board without components assembled to a university and they measured the antenna parameters of it with a ZNL 6 network analyzer, these parameters are required to calculate the matching componentes on "ST25R Antenna Matching Tool". v3.1.0.0 was used.**********************************************************NFC ANTENNA/COIL PARAMETER MEASUREMENTS FOR PCB-SL2-G-BLENETWORK ANALYZER: Rohde Schwarz ZNL 6**********************************************************Rsdc = 856 mR (@ 1MHz)Lant = 1730 nH (@ 1MHz)fres = 55.68 MHzRP@fres = 25.1 KR**********************************************************CALCULATIONS ACCORDING TO ST AN4974 PAGES 17 AND 18**********************************************************Cant = 1 / ( (2*pi*55680000)^2 * (1730*10^-9) ) = 4.72 pFK = sqrt(55.68/13.56) = 2.02637RP@fwork = 2.02637 * 25.1 KR = 50.86 KRRPdc = ((2*pi*13560000*(1730*10^-9))^2) / (856*10^-3) = 25.38 KRRPant = (50.86*25.38)/(50.86+25.38) = 16.93 KR (16930 ohms)Qmax = (16930) / (2*pi*13560000*(1730*10^-9)) = 114.86**********************************************************I have 3 options for matching circuit inductors values, all them from Murata series LQW18CNR- 270nH x 160mR (max)- 330nH x 250mR (max)- 390nH x 280mR (max)The best combination I have seen is with 330nH inductor: As can be seen, my calculation of "Qmax" = 114.86 does match the "Q" value of 115 shown in the picture above.A more complete report of the tests with the network analyzer are to be received on next week, do you want to check it?I have 2 doubts.[DOUBT 1] Do I need to change the parameters shown below or keep default values? Remembering that the aim is to reach a higher reading distance for the the tags. I have few knowledge about RF design so I would like to know if it is recommended to keep the default values for these fields, or to change them. [DOUBT 2] As can be seen in the first picture, there are 4 capacitors which their values can be changed by the user, I mean the 10pF capacitors (yellow fields) and the 150pF capacitors (red fields), they are related to the pair of RF input pins RFI1 and RFI2. 10pF and 150pF are the default values shown by the tool, but I have seen on development board X-NUCLEO-NFC05A1 that this board uses the same 10pF capacitors, but uses a pair of 82pF instead of a pair of 150pF. Which value is best/recommended to use as a starting point? 82pF or 150pF?  OBS: As our board is very space restricted, we will not use AAT, automatic antenna tunning, there is no enough space.OBS: I know few about RF design, I need to know what is best/recommeded as a starting point for my next custom board.OBS: We want to reach a reading distance of 5 to 7cm in open field.Regards,Jeferson.     LATE EDIT:I was able to move C22 closer to the transceiver

Travis Palmer · Accepted Answer

Hello Jeferson,1.) Yes, the ST25R391x can measure the voltage on the antenna via a direct command. Please find details about the direct commands in chapter 1.2.13 of the datasheet DS11793 - Rev 6 and details about the measure amplitude command on page 32/116.2.) Yes, the RFI amplitude can also be measured vs. GND using a scope. It is strongly recommended to use a GND spring, otherwise the NFC field will couple in and produce a wrong measurement. Typically you then see different voltage for RFI1 and RFI2. Therefore using the D3 command.3.) I would recommend to use 10:150pF, especially if you have planned to increase the Q-Factor. 10:150 will cause the voltage on the RFI to be smaller. A too small voltage may cause a lack of sensitivity. You will still be able to read tags in close distance. A voltage above 3V on the other side could damage the device.The RFI pin is biased by the receiver at 1.5V. If the AC signal is below 3Vpp then the voltage will not become negative.4.) In you configuration it should be ok to have 50V rated capacitors. I recommend to check the voltages once you receive the board. Looking for example at C47 and C48, the voltage at the antenna can reach up to 100V until the rating of the caps is exceeded.br Travis

Travis Palmer · Answer

Hello JPehl,I try to answer all questions related to your very detailed post. Please let me know, if i have overseen one.The 330nH selection looks good for me. Anyhow you should not see too much difference when targeting the same matching impedance for all inductors.The GUI calculates several parameters. For displaying them a rounding is done. For me your calculated antenna q of 114.86 fits quite well to displayed Q of 115.The target matching impedance is influencing the current consumption of the reader. You can try to higher or lower it, depending on your first trails. (if you have enough read range, you can choose a higher matching impedance to have less power consumption).Your target q-factor should bee chosen according to your application / tag you want to read. If you only want to read ISO15693 tags you can increase the Q-factor to ~45. If you want to read type A and B tags with 106kbps, you can increase the q-factor to ~35. If you also want to read HBR (bit rates up to 848kbps) then you should stick to a q of 17. Critical capacitors for the ST25R3911B are C35 and C34 (VSP_RF decoupling caps). They should be as close as possible to VSP_RF (=positive supply) and VSN_RF (= negative supply). Please let me know, if your read range expectations are fulfilled.br Travis

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