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The NXPNCI-KDS_Example for the PN7120/PN7150 Arduino interface boards available in NXP webpage at the time of publishing this document includes a project compatible with KSDK v2.0 for FRDM-K64F platform. With the latest KSDK v2.1 some changes in the drivers along with the later FreeRTOS v9.0.0 make the build process fail when following the instructions in the application note AN11845 NXP NCI KDS Example due to incompatibilities. Meanwhile until the project in NXP webpage is updated there is a temporary project attached to this document fixed to work with KSDK v2.1. The steps to build this project are the same as explained in the appnote, summarized below: - Download and install KSDK v2.1 for FRDM-K64F using MCUXpresso SDK online builder: Welcome to MCUXpresso | MCUXpresso Config Tools  Create a new workspace in KDS IDE. Import the "NXPNCI-KDS_Example_KSDK2.1" project from the archive file. Update the PROJECT_KSDK_PATH build variable according to the installation path of KSDK v2.1. Build the project. For more details please refer to the application note AN11845. Regards! Jorge Gonzalez
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DISCLAIMER APPLICABLE TO THIS DOCUMENT CONTENTS:   This post contains a guide of how to use LPC55S69 demoboard with other NXP demoboards to demonstrate Access control using NFC, one embedded secure element and an MCU (see picture below). A ready to use package including preparation of a secure element, and of a MIFARE DESFire EV2 card can be used as 3-step authentication example using symmetric AES keys; a session key will be generated inside SE050 which will be exported to LPC55S69 which will handle contactless communication thru CLRC663 plus frontend.   This document is structured as follows: Hardware Requirements: Following hardware is required to run the project: LPC55S69-EVK development board. OM-SE050ARD development board. CLEV6630B board or BLE-NFC-V2 board. 1. Overview of LPC55S69-EVK: The LPCXpresso55S69 development board provides the ideal platform for evaluation of and development with the LPC55S6x MCU based on the Arm® Cortex®-M33 architecture. The board includes a high performance onboard debug probe, audio subsystem and accelerometer, with several options for adding off-the-shelf add-on boards for networking, sensors, displays and other interfaces. The LPCXpresso55S69 is fully supported by the MCUXpresso suite of tools, which provides device drivers, middleware and examples to allow rapid development, plus configuration tools and an optional free IDE. MCUXpresso software is compatible with tools from popular tool vendors such as Arm and IAR, and the LPCXpresso55S69 may also be used with the popular debug probes available from SEGGER and P&E Micro.   2. Overview of OM-SE050ARD demoboard: The OM-SE050ARD is the flexible and easy-to-use development kit for the EdgeLock SE050 Plug & Trust product family. It can be used in various ways for example via the Arduino interface compatible to any board featuring an Arduino compatible header, including many i.MX, LPC and Kinetis boards, or via a direct I 2 C connection. This kit allows evaluation of the SE050 product family features and simplifies the development of secure IoT applications. More information can be found in the respective Application Note AN12395.   2.1 Connections between OM-SE050ARD and LPC55S69 EVK   OM-SE050ARD LPC55S69 (Conn.# - Pin #) Port Function Name SE_SDA (J22-1) P24-6 also P17-3 PIO1_21 FC4_I2C_SDA_ARD SE_SCL (J22-4) P24-5 also P17-1 PIO1_20 FC4_I2C_SCL_ARD +5V_PC (J22-2)     VDD_TARGET GND (J22-3)     GND 2.2 Jumper settings on OM-SE050ARD to connect it to LPC55S69 EVK Connect SE050 to LPC55S Arduino stackable headers and change jumper J14 as: This connects SE_VDD directly to 3V3 and bypasses enable signal. This is required because enable pin on LPC55S coincides with Silex-2401 SPI pins so we cannot use SE_EN signal to drive SE_VDD.   3. Overview of NFC Front end boards working with LPC55S69 EVK board for this example:   3.1 BLE-NFC-V2: It is easier to use the BLE-NFC-V2 board since less changes have to made on the board as compared to the CLEV6630B board. The following figure shows the pin mapping between the two boards. It is advisable to add a pull-up resistor (4k7 to VCC) on CLRC663 plus signal IRQ.   3.2 CLEV6630B board: The CLEV6630B board consists of CLRC663 plus (NFC frontend) connected by default to an LPC1769 µC via SPI. However, the board is made in such a way that the LPC1769 MCU can be bypassed to connect to an external MCU (in our case the LPC55S69) easily. For doing so: Six resistors from the board need to be removed. These are highlighted in red in the Figure 1: Use the SPI pin connectors available on the left-hand side, on the board edge to connect to external MCU (LPC55S69 in this case) Solder jumper wires onto the following pins of CLEV6630B Board:  GND IRQ CLRC_NRST SSEL MOSI MISO SCK IF0 IF1          The CLEV6630B is shown in Figure 2 after the required changes have been made to it (Removal of resistors and soldering of wires).   Now connect the two boards as follows: Signal function LPC55S69 (conn. # - Pin #) Port CLEV6630B MOSI P17-10 PIO0_20 MOSI MISO P17-12 PIO0_19 MISO SPI SCK P17-14 PIO0_21 SCK SPI CSEL P17-6 PIO1_11 SSEL RESET P18-11 PIO0_15 CLRCL_NRST IRQ P18-3 PIO1_10 IRQ GND P17-7   GND  As final touch to this demonstrator, one LCD display will be added in order to show "access control" check result when approaching a MIFARE DESFire EV2 card to the Reader antenna, without the use of a computer console. Connection between LPC55S69 board and LCD Display:   TFT LPC55S69 (Jumper # - Pin #) Port      SPI_CLK D13 (P17-9) PIO1_2      SPI_MISO D12 (P17-11) PIO1_3      SPI_MOSI D11 (P17-13) PIO0_26      SPI_CS_TFT D10 (P17-15) PIO1_1      GPIO_LCD_BL D9 (P17-17) PIO1_5      GPIO_LCD_DC D7 (P18-1) PIO1_9 5V 5V   GND GND     Click here to order 2.8 inch TFT Display from Waveshare: P/N: 2.8 inch TFT Touch Shield Brand       4. Running "Secure Access to Industrial IOT demo" at LPC55S69:   If this is the first time you’re using LPC55S69-EVK board, follow the getting started guide first à  LPC55S69-EVK | NXP . Make sure to install the SDK package for LPC55S69-EVKboard which is required for the project below to run. Download the ‘demobinaries.zip' package which you will find attached to this post. This zip file contains 2 bin files: ex_prepareCard.bin - upload this binary file to LPC55S69 when you need to prepare a MIFARE DESFire EV2 card with suitable application and AES keys used for demonstrator. Upload bin file to LPC55S69 by using MCUxpresso. Just place a virgin card on top of Reader antenna, and reset MCU board by clicking on "RESET KEY" push button. ex_prepareSe050.bin - upload this binary file to LPC55S69 when you need to prepare a new SE050 with suitable AES keys to be used in this demo. Just  upload binary using MCUxpresso; connect a virgin OM-SE050ARD on LPC55S69 arduino connectors, connect micro USB connector to MCU board, and reset MCU by clicking "RESET KEY". After steps 2.1 and 2.2 have been done to obtain preparation of one Secure element as well as preparation of one MIFARE DESFire EV2 card, then upload the next bin file to LPC55S69 using MCUxpresso: ex_Ev2Auth_se05x.bin Alternatively, you can import the whole project in your MCUxpresso environment. Download the file EmbeddedWorld2019DemoLatest.zip at end of this page. Import this zip file project in MCUxpresso environment Now that the package has been imported to the MCUXpresso IDE (via drag and drop), click on Debug icon from the Quickstart panel to begin a debug session. Once the debug session has started, click on the run icon to run the code: PICTURE TO BE UPDATED MCUXPRESSO PICTURE TO BE UPDATED The project should be running now. The project contains a closed loop that tries to check presence of a card on top of Reader. Here is how the output looks like in LCD Display. Press the button reset, and you will see the text "Secure Access to Industrial IOT demo 2019" PICTURE TO BE UPDATED Then press the button "Wake-up". Afterwards NFC reader will enter in a loop in which he will look for a card to authenticate. If there are no cards, he will soon show the red allert with text "Access denied" Bring any NFC card near the frontend’s antenna (or in presence of no card) LCD display will show a message in RED "ACCESS DENIED". PICTURE TO BE UPDATED Only in case the "prepared DESFire EV2" card is placed on top of reader, in the picture below, we can see message in GREEN "ACCESS GRANTED" PICTURE TO BE UPDATED.     Available Resources: Porting NFC Reader Library to i.MX RT1050. (Detailed Description of porting) https://community.nxp.com/docs/DOC-341843 LPC55S69 https://www.nxp.com/products/processors-and-microcontrollers/arm-based-processors-and-mcus/lpc-cortex-m-mcus/lpc5500-cortex-m33/lpcxpresso55s69-development-board:LPC55S69-EVK BLE-NFC-V2 https://www.nxp.com/products/identification-security/rfid/nfc-hf/nfc-readers/clrc663-iplus-i-and-qn902x-nfc-bluetooth-low-energy-solution-for-consumer-applications:BLE-NFC CLEV6630B Product Information|NXP  SE050: www.nxp.com/SE050
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This post contains a step by step guide of how to use PN7150 with i.MX RT1060. This document is structured as follows: Overview of PN7150 PN7150 is a Plug-and-Play all-in-one NFC solution for easy integration into any OS environment like Linux and Android, reducing Bill of Material (BoM) size and cost. The embedded Arm® Cortex®-M0 microcontroller core is loaded with the integrated firmware, simplifying the implementation as all the NFC real-time constraints, protocols and the device discovery (polling loop) are processed internally. In few NCI commands, the host SW can configure the PN7150 to notify for card or peer detection and start communicating with them. It has the following salient features: Full NFC forum compliancy with small form factor antenna Embedded NFC firmware providing all NFC protocols as pre-integrated feature Direct connection to the main host or microcontroller, by I2C-bus physical and NCI protocol Ultra-low power consumption in polling loop mode Highly efficient integrated power management unit (PMU) allowing direct supply from a Battery Hardware Requirements      1. OM5578/PN7150ARD      2. i.MX RT1060 EVK Evaluation Board + usb micro cable        Using PN7150 with i.MX RT1060 Hardware Connections The hardware connections are simple. Both the EVKB-IMXRT1060 board and OM5578/PN7150ARD board have an Arduino interface. So, mount the PN7150ARD board with male Arduino connector onto the female Arduino connector of the EVKB-IMXRT1060 board.  Running the Demo If this is the first time you’re using EVK-MIMXRT1060 board, follow the getting started guide first: i.MX RT1060 Evaluation Kit | NXP . Make sure to install the SDK package for EVK-MIMXRT1060 board which is required for the project to run.   Download the ‘evkbimxrt1060_PN7150’ package which you will find attached to this post. Drag and drop the downloaded package to the “Project Explorer” tab of your MCUXpresso IDE workspace (If you don’t have MCUXpresso, it can be downloaded for free from here: https://www.nxp.com/support/developer-resources/software-development-tools/mcuxpresso-software-and-tools/mcuxpresso-integrated-development-environment-ide:MCUXpresso-IDE Now that the package has been imported to the MCUXpresso IDE (via drag and drop), click on Debug icon from the Quickstart panel to begin a debug session. Once the debug session has started, click on the run icon to run the code: After step 3, the project should be running now. The project contains basic discovery loop functionality. Here is how the output looks in the console tab on MCUXpresso: Bring any NFC card near the PN7150 board’s antenna and the output console will show the detection and type of the card. For example, in the picture below, we can see that type 4 card was detected: Available Resources AN11990 NXP-NCI MCUXpresso example document. (https://www.nxp.com/docs/en/application-note/AN11990.pdf) The example project explained in this project was ported to i.MX RT1060 using section 5.3 and 6 of the above mentioned document. PN7150 datasheet (https://www.nxp.com/docs/en/data-sheet/PN7150.pdf) PN7150 User Manual (https://www.nxp.com/docs/en/user-guide/UM10936.pdf) PN7150 NFC Controller SBC Kit User Manual  (https://www.nxp.com/docs/en/user-guide/UM10935.pdf)
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Hello NFC Community, This document describes how to write multiple NDEF Text Record by making use of NFC TagWriter app by NXP. First of all, download the TagWriter app from the Play Store: NFC TagWriter by NXP - Apps on Google Play  1) Once downloaded, go to the Write tags section. 2) In this case, a NDEF text record will be written. 3) Write a text message in the TextBox and press the Save & Write Button. 4) Now, press the ADD MORE RECORD Button so that another record can be added to the content to be written in the tag. 5) Select Plain Text again.   6) Same, procedure as in 3. 7) Finally, Tap the card and press the DONE Button. I hope this is of great help! Ivan R.
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