Stm32 Nucleo 144 Boards-Books Pdf

STM32 Nucleo 144 boards
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Contents UM1974, 1 Features 6, 2 Product marking 7. 3 Ordering information 7, 4 Conventions 9, 5 Quick start 9. 5 1 Getting started 9, 5 2 System requirements 10, 5 3 Development toolchains 10. 6 Hardware layout and configuration 11, 6 1 Mechanical drawing 14. 6 2 Cuttable PCB 15, 6 3 Embedded ST LINK V2 1 16, 6 3 1 Drivers 16.
6 3 2 ST LINK V2 1 firmware upgrade 17, 6 3 3 Using the ST LINK V2 1 to program and debug the on board STM32 17. 6 3 4 Using ST LINK V2 1 to program and debug an external STM32. application 18, 6 4 Power supply and power selection 20. 6 4 1 Power supply input from ST LINK V2 1 USB connector 21. 6 4 2 External power supply inputs 22, 6 4 3 External power supply output 24. 6 5 LEDs 24, 6 6 Push buttons 25, 6 7 JP5 IDD 25, 6 8 OSC clock 25. 6 8 1 OSC clock supply 25, 6 8 2 OSC 32 KHz clock supply 26.
6 9 USART communication 26, 6 10 USB OTG FS or device 27. 2 82 DocID028599 Rev 7, UM1974 Contents, 6 11 Ethernet 28. 6 12 Solder bridges 29, 6 13 Extension connectors 33. 6 14 ST Zio connectors 37, 6 15 ST morpho connector 69. Appendix A Electrical schematics 73, Appendix B Federal Communications Commission FCC.
and Industry Compliance Statements 80, B 1 FCC Compliance Statement 80. B 1 1 Part 15 19 80, B 1 2 Part 15 105 80, B 1 3 Part 15 21 80. B 2 IC Compliance Statement 80, B 2 1 Compliance Statement 80. B 2 2 D claration de conformit 80, Revision history 81. DocID028599 Rev 7 3 82, List of tables UM1974, List of tables.
Table 1 Ordering information 7, Table 2 Codification explanation 8. Table 3 ON OFF conventions 9, Table 4 CN4 states of the jumpers 16. Table 5 Debug connector CN6 SWD 19, Table 6 JP1 configuration table 21. Table 7 External power sources 22, Table 8 Power related jumper 23. Table 9 USART3 pins 26, Table 10 USB pins configuration 27.
Table 11 Ethernet pins 28, Table 12 Solder bridges 29. Table 13 NUCLEO F746ZG NUCLEO F756ZG and NUCLEO F767ZI. pin assignments 38, Table 14 NUCLEO F446ZE and NUCLEO F722ZE pin assignments 43. Table 15 NUCLEO F303ZE pin assignments 47, Table 16 NUCLEO F207ZG pin assignments 51. Table 17 NUCLEO F429ZI and NUCLEO F439ZI pin assignments 55. Table 18 NUCLEO F412ZG pin assignments 59, Table 19 NUCLEO F413ZH pin assignments 62. Table 20 NUCLEO H743ZI pin assignments 66, Table 21 ST morpho connector for NUCLEO F207ZG NUCLEO F412ZG.
NUCLEO F413ZH NUCLEO F429ZI NUCLEO F439ZI NUCLEO F446ZE. NUCLEO F722ZE NUCLEO F746ZG NUCLEO F756ZG, NUCLEO F767ZI and NUCLEO H743ZI 70. Table 22 ST morpho connector for NUCLEO F303ZE 71, Table 23 Document revision history 81. 4 82 DocID028599 Rev 7, UM1974 List of figures, List of figures. Figure 1 Nucleo 144 board top view 1, Figure 2 Nucleo 144 board bottom view 1. Figure 3 Hardware block diagram 11, Figure 4 Top layout 12.
Figure 5 Bottom layout 13, Figure 6 Nucleo 144 board mechanical drawing in millimeter 14. Figure 7 Nucleo 144 board mechanical drawing in mil 15. Figure 8 USB composite device 17, Figure 9 Connecting the STM32 Nucleo 144 board to program the on board STM32 18. Figure 10 Using ST LINK V2 1 to program the STM32 on an external application 20. Figure 11 NUCLEO F207ZG NUCLEO F429ZI NUCLEO F439ZI NUCLEO F746ZG. NUCLEO F756ZG NUCLEO F767ZI and NUCLEO H743ZI 33, Figure 12 NUCLEO F303ZE 34. Figure 13 NUCLEO F412ZG and NUCLEO F413ZH 35, Figure 14 NUCLEO F446ZE and NUCLEO F722ZE 36. Figure 15 Top and power 74, Figure 16 MCU 75, Figure 17 ST LINK V2 1 76.
Figure 18 USB 77, Figure 19 Ethernet PHY with RJ45 connector 78. Figure 20 Extension connectors 79, DocID028599 Rev 7 5 82. Features UM1974, 1 Features, The STM32 Nucleo 144 boards offer the following features. STM32 microcontroller in LQFP144 package, Ethernet compliant with IEEE 802 3 2002 depending on STM32 support. USB OTG or full speed device depending on STM32 support. 3 user LEDs, 2 push buttons USER and RESET, LSE crystal.
32 768 kHz crystal oscillator, Board connectors, USB with Micro AB. Ethernet RJ45, Expansion connectors, ST Zio including Arduino Uno V3. Flexible power supply options ST LINK USB VBUS or external sources. On board ST LINK V2 1 debugger programmer with SWD connector. ST LINK V2 1 standalone kit capability, USB re enumeration capability virtual COM port mass storage debug port. Comprehensive free software libraries and examples available with the STM32Cube. Supported by wide choice of Integrated Development Environments IDEs including. IAR Keil GCC based IDEs Arm Mbed, ARM Mbed Enabled see http mbed org. 6 82 DocID028599 Rev 7, UM1974 Product marking, 2 Product marking.
Evaluation tools marked as ES or E are not yet qualified and therefore not ready to be. used as reference design or in production Any consequences deriving from such usage will. not be at ST charge In no event ST will be liable for any customer usage of these. engineering sample tools as reference design or in production. E or ES marking examples of location, On the targeted STM32 that is soldered on the board for illustration of STM32 marking. refer to the STM32 datasheet Package information paragraph at the www st com. Next to the evaluation tool ordering part number that is stuck or silk screen printed on. This board features a specific STM32 device version which allows the operation of any. stack or library This STM32 device shows a U marking option at the end of the standard. part number and is not available for sales, 3 Ordering information. To order the Nucleo 144 board corresponding to the targeted STM32 use the order code. given below in Table 1, Table 1 Ordering information. Order code Target STM32, NUCLEO F207ZG STM32F207ZGT6. NUCLEO F303ZE STM32F303ZET6, NUCLEO F412ZG STM32F412ZGT6.
NUCLEO F413ZH STM32F413ZHT6, NUCLEO F429ZI STM32F429ZIT6. NUCLEO F439ZI STM32F439ZIT6, NUCLEO F446ZE STM32F446ZET6. NUCLEO F722ZE STM32F722ZET6, NUCLEO F746ZG STM32F746ZGT6. NUCLEO F756ZG STM32F756ZGT6, NUCLEO F767ZI STM32F767ZIT6. NUCLEO H743ZI STM32H743ZIT6, The meaning of the NUCLEO TXXXZY codification is explained in Table 2 with an example.
DocID028599 Rev 7 7 82, Ordering information UM1974. Table 2 Codification explanation, NUCLEO TXXXZY Description Example NUCLEO F446ZE. TXXX STM32 Product line STM32F446, Z STM32 package pin count 144 pins. STM32 Flash memory size, 8 for 64 Kbytes B for, 128 Kbytes C for 256 Kbytes E 512 Kbytes. for 512 Kbytes G for 1 Mbyte Z, for 192 Kbytes H for.
1 5 Mbytes I for 2 Mbytes, This order code is mentioned on a sticker placed on top side of the board. 8 82 DocID028599 Rev 7, UM1974 Conventions, 4 Conventions. Table 3 provides the conventions used for the ON and OFF settings in the present. Table 3 ON OFF conventions, Convention Definition, Jumper JPx ON Jumper fitted. Jumper JPx OFF Jumper not fitted, Solder bridge SBx ON SBx connections closed by solder or 0 ohm resistor. Solder bridge SBx OFF SBx connections left open, In this document the references for all information that is common to all sale types are.
STM32 Nucleo 144 board and STM32 Nucleo 144 boards. 5 Quick start, The STM32 Nucleo 144 board is a low cost and easy to use development kit used to. evaluate and start a development quickly with an STM32 microcontroller in LQFP144. Before installing and using the product accept the Evaluation Product License Agreement. from the www st com epla webpage For more information on the STM32 Nucleo 144 and. for demonstration software visit the www st com stm32nucleo webpage. 5 1 Getting started, Follow the sequence below to configure the Nucleo 144 board and launch the. demonstration application for components location refer to Figure 4 Top layout. 1 Check jumper position on the board, JP1 OFF PWR EXT selected see Section 6 4 1 Power supply input from ST. LINK V2 1 USB connector for more details, JP3 on U5V Power source selected for more details see Table 7 External power. JP5 ON IDD selected for more details see Section 6 7 JP5 IDD. CN4 ON selected for more details see Table 4 CN4 states of the jumpers. 2 For the correct identification of the device interfaces from the host PC and before. connecting the board install the Nucleo USB driver available on the. www st com stm32nucleo website, 3 To power the board connect the STM32 Nucleo 144 board to a PC with a USB cable.
Type A to Micro B through the USB connector CN1 on the ST LINK As a result the. green LED LD6 PWR and LD4 COM light up and the red LED LD3 blinks. DocID028599 Rev 7 9 82, Quick start UM1974, 4 Press button B1 left button. 5 Observe the blinking frequency of the three LEDs LD1 to LD3 changes by clicking on. the button B1, 6 The software demonstration and the several software examples that allow the user to. use the Nucleo features are available at the www st com stm32nucleo webpage. 7 Develop an application using the available examples. 5 2 System requirements, Windows OS 7 8 and 10 Linux or MacOS. USB Type A to Micro B cable, 5 3 Development toolchains. Arm Keil MDK ARM a, IAR EWARM a, GCC based IDEs free SW4STM32 from AC6.
Arm Mbed Enabled, a On Windows only, 10 82 DocID028599 Rev 7. UM1974 Hardware layout and configuration, 6 Hardware layout and configuration. The STM32 Nucleo 144 board is designed around the STM32 microcontrollers in a 144 pin. LQFP package, Figure 3 shows the connections between the STM32 and its peripherals ST LINK V2 1. push buttons LEDs USB Ethernet ST Zio connectors and ST morpho headers. Figure 4 and Figure 5 show the location of these features on the STM32 Nucleo 144 board. The mechanical dimensions of the board are showed in Figure 6 and Figure 7. Figure 3 Hardware block diagram, 67 1 3DUW 0LFUR, 67 PRUSKR H WHQVLRQ KHDGHU. 67 PRUSKR H WHQVLRQ KHDGHU, 0LFURFRQWUROOHU, LR RQQHFWRU.
LR RQQHFWRU, DocID028599 Rev 7 11 82, Hardware layout and configuration UM1974. Figure 4 Top layout, 67 1 1XFOHR 3 5 7 67 1 0LFUR, VHOHFWRU 86 FRQQHFWRU. 6 FRQQHFWRU, 5HG 67 1 9, 3RZHU RYHU FXUUHQW DODUP, 3 3RZHU JUHHQ. PHDVXUHPHQW 3, 3RZHU VRXUFH VHOHFWLRQ, 9 UHJXODWRU RXWSXW. 2 FRQQHFWRU, 2 FRQQHFWRU, 0LFURFRQWUROOHU 1, 67 PRUSKR SLQ KHDGHU.
SLQ KHDGHU 1, 67 LR FRQQHFWRU, 67 LR FRQQHFWRU, 5HVHW EXWWRQ. 8VHU EXWWRQ, 12 82 DocID028599 Rev 7, UM1974 Hardware layout and configuration. Figure 5 Bottom layout, 6 6 6 6 6 6 6 6, 6 6 2 5 6 59 8 7. DocID028599 Rev 7 13 82, Hardware layout and configuration UM1974. 6 1 Mechanical drawing, Figure 6 Nucleo 144 board mechanical drawing in millimeter.
14 82 DocID028599 Rev 7, UM1974 Hardware layout and configuration. Figure 7 Nucleo 144 board mechanical drawing in mil. 6 2 Cuttable PCB, The STM32 Nucleo 144 board is divided into two parts ST LINK and target STM32 The. ST LINK part of the PCB can be cut out to reduce the board size In this case the remaining. target STM32 part can only be powered by VIN E5V and 3 3 V on ST morpho connector. CN11 or VIN and 3 3 V on ST Zio connector CN8 It is still possible to use the ST LINK part. to program the STM32 using wires between CN6 and SWD available signals on the ST. morpho connector SWCLK CN11 pin 15 SWDIO CN11 pin 13 and NRST CN11 pin 14. April 2017 DocID028599 Rev 6 1 81 1 UM1974 User manual STM32 Nucleo 144 boards Introduction The STM32 Nucleo 144 boards NUCLEO F207ZG NUCLEO F303ZE NUCLEO F412ZG

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