![]() ![]() Both short-range (ISO14443-A) and long-range (ISO15693) standards are supported. The X-NUCLEO-NFC03A1 is compatible with the ST Arduino™ UNO R3 connector pin assignment. STs dynamic NFC / RFID tags feature up to 64-Kbit of EEPROM memory which can be accessed either through an RF contactless interface operating at 13.56 MHz or a low-power I2C interface except for ST25DV-W series (PWM outputs). Step 2: Connect the ST-LINK programmer/debugger. Step 1: Plug the X-NUCLEO-NFC06A1 1 expansion board onto the ARDUINO connectors on the back side of the STM32MP157F-DK2 Discovery board. The CR95HF features an optimized power management scheme, including tag detection mode.Ĭommunication with the Host Controller is ensured through Serial Peripheral Interface (SPI) Slave or Universal Asynchronous Receiver/Transmitter (UART). The X-NUCLEO-NFC06A1 1 is docked onto the ARDUINO connector present on the back side of the STM32MP157F-DK2 board as explained in the steps below. ![]() It also supports the detection, reading and writing of NFC Forum Type 1, 2, 3 and 4 tags. The CR95HF supports ISO/IEC 14443 Type A and B, ISO/IEC 15693 (single or double subcarrier) and ISO/IEC 18092 communication protocols, besides being MIFARE® Classic compatible1. NFC/RFID Development Tools NFC card reader expansion board based on ST25R3916B for STM32 and STM8 Nucleos. The CR95HF embeds an analog front end to provide the 13.56 MHz air interface. Description: NFC/RFID Development Tools NFC card reader expansion board based on ST25R3911B for STM32 and STM8 Nucleos. The CR95HF manages frame coding and decoding in Reader mode for standard applications, such as NFC, proximity and vicinity standards. The X-NUCLEO-NFC03A1 (see Figure 1) is an NFC card reader evaluation board based on CR95HF-VMD5T to enable expansion of the STM32 Nucleo boards. X-NUCLEO-NFC03A1:NFC card reader expansion board based on CR95HF for STM32 Nucleo
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