/Arduino_MFRC522v2

Primary LanguageC++GNU Lesser General Public License v2.1LGPL-2.1

Arduino_MFRC522v2

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Advanced Arduino driver library for MFRC522 and other RFID RC522 based modules.

Read and write different types of Radio-Frequency IDentification (RFID) cards on your Arduino using a RC522 based reader connected via the Serial Peripheral Interface (SPI) or I2C interface.

Hints for this version

  • Fork of https://github.com/miguelbalboa/rfid/
  • Changed license to GNU LESSER GENERAL PUBLIC LICENSE, Version 2.1.
  • Target group are experienced makers.
  • Code was heavily split up for better maintenance.
  • Hardware interface is fully customisable.
  • Use of software reset. No reset pin.
  • Some parts were removed.

Development

Feature status: open; focus on rfid; no applications;

Code status: open; fixes/typos or documentation updates; no specific code for other boards; avoid examples;

Maintenance status: sporadically;

Before buy

Please notice that there are many sellers (ebay, aliexpress, ...) who sell MFRC522 boards. The quality of these boards are extremely different. Some are soldered with wrong/low quality capacitors or fake/defect MFRC522.

Please consider buying several devices from different suppliers. So the chance of getting a working device is higher.

If you got a bad board and you can tell us how to detect those boards (silk, chip description, ...), please share your knowledge.

What works and not?

  • Works

    • Communication (Crypto1) with MIFARE Classic (1k, 4k, Mini).
    • Communication (Crypto1) with MIFARE Classic compatible PICCs.
    • Firmware self check of MFRC522.
    • Set the UID, write to sector 0, and unbrick Chinese UID changeable MIFARE cards.
    • Manage the SPI chip select pin (aka SS, SDA):
  • Works partially

    • Communication with MIFARE Ultralight.
    • Other PICCs (Ntag216).
    • More than 2 modules, require a multiplexer #191.
  • Doesn't work

    • MIFARE DESFire, MIFARE DESFire EV1/EV2, not supported by software.
    • Communication with 3DES or AES, not supported by software.
    • Peer-to-peer (ISO/IEC 18092), not supported by hardware.
    • Communication with smartphone, not supported by hardware.
    • Card emulation, not supported by hardware.
    • Use of IRQ pin. But there is a proof-of-concept example.
    • With Intel Galileo (Gen2) see #310, not supported by software.
    • Power reduction modes #269, not supported by software.
    • UART instead of SPI #281, not supported by software.
  • Need more?

    • If software: code it and make a pull request.
    • If hardware: buy a more expensive like PN532 (supports NFC and many more, but costs about $15 and not usable with this library).

Compatible IDE

This library works with Arduino IDE 1.6, older versions are not supported and will cause compiler errors. The built-in library manager is supported.

If you use your own compiler, you have to enable c++11-support.

Compatible boards

This library is compatible with boards implementing the Arduino-API. You also have to change pins. See pin layout.

Some user made some patches/suggestions/ports for other boards:

Support/issue

  1. First checkout what works and not and troubleshooting .

  2. It seems to be a hardware issue or you need support to program your project? Please ask in the official Arduino forum, where you would get a much faster answer than on GitHub.

  3. It seems to be a software issue? Open an issue on GitHub.

Code style

Please use fixed integers, see stdint.h. Why? This library is compatible with different boards which use different architectures (16bit and 32bit). Unfixed int variables have different sizes in different environments and may cause unpredictable behaviour.

Pin Layout

The following tables show the typical pin layout used.

Notes:

  • The SDA pin on the MFRC522 might be labeled as SS.
  • RST pin of the microcontroller-board is configurable, typically defined as RST_PIN in sketch/program.
  • SDA pin of the microcontroller-board is configurable, typically defined as SS_PIN in sketch/program.
  • Important: If your microcontroller supports multiple SPI interfaces, the library only uses the default (first) SPI of the Arduino framework.

Arduino

Signal MFRC522 Uno / 101 Mega Nano v3 Leonardo / Micro Pro Micro Yun
RST/Reset RST 9 5 D9 RESET / ICSP-5 RST Pin9
SPI SS SDA 10 53 D10 10 10 Pin10
SPI MOSI MOSI 11 / ICSP-4 51 D11 ICSP-4 16 ICSP4
SPI MISO MISO 12 / ICSP-1 50 D12 ICSP-1 14 ICSP1
SPI SCK SCK 13 / ICSP-3 52 D13 ICSP-3 15 ICSP3

ESP8266

Signal MFRC522 Wemos D1 mini
RST/Reset RST D3
SPI SS SDA D8
SPI MOSI MOSI D7
SPI MISO MISO D6
SPI SCK SCK D5

ESP32

Signal MFRC522 WROOM-32
RST/Reset RST 21
SPI SS SDA 5
SPI MOSI MOSI 23
SPI MISO MISO 19
SPI SCK SCK 18

Teensy

Signal MFRC522 2.0 ++2.0 3.1
RST/Reset RST 7 4 9
SPI SS SDA 0 20 10
SPI MOSI MOSI 2 22 11
SPI MISO MISO 3 23 12
SPI SCK SCK 1 21 13

Hardware

There are three hardware components involved:

  • Microcontroller

    • An Arduino or compatible executing the Sketch using this library.
    • Prices vary from USD 7 for clones, to USD 75 for "starter kits" (which might be a good choice if this is your first exposure to Arduino; check if such kit already includes the Arduino, Reader, and some Tags).
  • Proximity Coupling Device (PCD)

    • The PCD is the actual RFID Reader based on the NXP MFRC522 Contactless Reader Integrated Circuit.
    • Readers can be found on many online stores for around USD 5: search for "rc522".
    • You can also find them on several web stores. They are often included in "starter kits", so check your favourite electronics provider as well.
  • Proximity Integrated Circuit Card (PICC)

    • The PICC is the RFID Card or Tag using the ISO/IEC 14443A interface, for example Mifare or NTAG203.
    • One or two might be included with the Reader or "starter kit" already.

Protocols

  • The microcontroller and the reader use SPI for communication.

    • The protocol is described in the NXP MFRC522 datasheet.
    • See the Pin Layout section for details on connecting the pins.
  • The reader and the tags communicate using a 13.56 MHz electromagnetic field.

    • The protocol is defined in ISO/IEC 14443-3:2011 Part 3 Type A.
      • Details are found in chapter 6 "Type A – Initialization and anticollision".
      • See https://wg8.de/wg8n1496_17n3613_Ballot_FCD14443-3.pdf for a free version of the final draft (which might be outdated in some areas).
      • The reader does not support ISO/IEC 14443-3 Type B.

Security

  • The UID of a card can not be used as a unique identification for security related projects. Some Chinese cards allow to change the UID which means you can easily clone a card. For projects like access control, door opener or payment systems you must implement an additional security mechanism like a password or normal key.

  • This library only supports crypto1-encrypted communication. Crypto1 has been known as broken for a few years, so it does NOT offer ANY security, it is virtually unencrypted communication. Do not use it for any security related applications!

  • This library does not offer 3DES or AES authentication used by cards like the Mifare DESFire, it may be possible to be implemented because the datasheet says there is support. We hope for pull requests :).

Troubleshooting

  • I don't get input from reader or WARNING: Communication failure, is the MFRC522 properly connected?

    • Check your physical connection, see Pin Layout.
    • Check your pin settings/variables in the code, see Pin Layout.
    • Check your pin header soldering. Maybe you have cold solder joints.
    • Check voltage. Most breakouts work with 3.3V.
    • SPI only works with 3.3V, most breakouts seem 5V tolerant, but try a level shifter.
    • SPI does not like long connections. Try shorter connections.
    • SPI does not like prototyping boards. Try soldered connections.
    • According to reports #101, #126 and #131, there may be a problem with the soldering on the MFRC522 breakout. You could fix this on your own.
  • Firmware Version: 0x12 = (unknown) or other random values.

    • The exact reason of this behaviour is unknown.
    • Some boards need more time after PCD_Init() to be ready. As workaround add a delay(4) directly after PCD_Init() to give the PCD more time.
    • If this sometimes appears, a bad connection or power source is the reason.
    • If the firmware version is reported permanent, it is very likely that the hardware is a fake or has a defect. Contact your supplier.
  • Sometimes I get timeouts or sometimes tag/card does not work.

    • Try the other side of the antenna.
    • Try to decrease the distance between the MFRC522 and your tag.
    • Increase the antenna gain per firmware: MFRC522.PCD_SetAntennaGain(MFRC522.RxGain_max);.
    • Use better power supply.
    • Hardware may be corrupted, most products are from China and sometimes the quality is really poor. Contact your seller.
  • My tag/card doesn't work.

    • Distance between antenna and token too large (>1cm).
    • You got the wrong type PICC. Is it really 13.56 MHz? Is it really a Mifare Type A?
    • NFC tokens are not supported. Some may work.
    • Animal RFID tags are not supported. They use a different frequency (125 kHz).
    • Hardware may be corrupted, most products are from China and sometimes the quality is really poor. Contact your seller.
    • Newer versions of Mifare cards like DESFire/Ultralight maybe not work according to missing authentication, see security or different protocol.
    • Some boards bought from Chinese manufactures do not use the best components and this can affect the detection of different types of tag/card. In some of these boards, the L1 and L2 inductors do not have a high enough current so the signal generated is not enough to get Ultralight C and NTAG203 tags to work, replacing those with same inductance (2.2uH) but higher operating current inductors should make things work smoothly. Also, in some of those boards the harmonic and matching circuit needs to be tuned, for this replace C4 and C5 with 33pf capacitors and you are all set. (Source: Mikro Elektronika)
  • My mobile phone doesn't recognize the MFRC522 or my MFRC522 can't read data from other MFRC522.

    • Card simulation is not supported.
    • Communication with mobile phones is not supported.
    • Peer to peer communication is not supported.
  • I can only read the card UID.

    • Maybe the AccessBits have been accidentally set and now an unknown password is set. This can not be reverted.
    • Probably the card is encrypted. Especially official cards like public transport, university or library cards. There is no way to get access with this library.
  • I need more features.

    • If software: code it and make a pull request.
    • If hardware: buy a more expensive chip like the PN532 (supports NFC and many more, but costs about $15).

License

GNU LESSER GENERAL PUBLIC LICENSE, Version 2.1.

It is not allowed to change the license.

Dependency

  • Arduino.h

    • From: Arduino IDE / target specific
    • License: (target: Arduino) GNU Lesser General Public License 2.1
  • SPI.h

    • From: Arduino IDE / target specific
    • License: (target: Arduino) GNU Lesser General Public License 2.1
  • stdint.h

    • From: Arduino IDE / Compiler and target specific
    • License: different

History

The MFRC522 library was first created in Jan 2012 by Miguel Balboa (from http://circuitito.com) based on code by Dr. Leong (from http://B2CQSHOP.com) for "Arduino RFID module Kit 13.56 Mhz with Tags SPI W and R By COOQRobot".

It was translated into English and rewritten/refactored in the fall of 2013 by Søren Thing Andersen (from http://access.thing.dk).

It has been extended with functionality to alter sector 0 on Chinese UID changeable MIFARE card in Oct 2014 by Tom Clement (from http://tomclement.nl).

Maintained by miguelbalboa until 2016. Maintained by Rotzbua from 2016 until 2022.