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DocID028599 Rev 7

23/82

UM1974

Hardware layout and configuration

81

          

Using V

IN

 or E5V as an external power supply

When powered by V

IN

 or E5V, it is still possible to use the ST-LINK for programming or 

debugging only, but it is mandatory to power the board first using V

IN

 or E5V, then to 

connect the USB cable to the PC. In this way the enumeration succeeds, thanks to the 
external power source.

The following power-sequence procedure must be respected: 
1.

Connect jumper JP3 between pin 1 and pin 2 for E5V or between pin 5 and pin 6 for 
V

IN

2.  Check that JP1 is removed
3.  Connect the external power source to V

IN

 or E5V

4.  Power on the external power supply 7 V< V

IN

 < 12 V to V

IN

, or 5 V for E5V

5.  Check that the green LED LD6 is turned ON
6.  Connect the PC to the USB connector CN1

If this order is not respected, the board may be powered by USB (U5V) first, then by V

IN

 or 

E5V as the following risks may be encountered:
1.

If more than 300mA current is needed by the board, the PC may be damaged or the 
current supplied can be limited by the PC. As a consequence the board is not powered 
correctly. 

2.  300mA is requested at enumeration (since JP1 must be OFF) so there is risk that the 

request is rejected and the enumeration does not succeed if the PC cannot provide 
such current. Consequently the board is not power supplied (LED LD6 remains OFF). 

Table 8. Power related jumper 

Jumper

Description

JP3

U5V (ST-LINK V

BUS

) is used as power source when JP3 is set as shown to the right 

(Default setting)

E5V is used as power source when JP3 is set as shown to the right:

V

IN

 is used as power source when JP3 is set as shown to the right:

(989 9,19


(989 9,19


(989 9,19

All manuals and user guides at all-guides.com

Содержание NUCLEO-F207ZG

Страница 1: ...he ST Zio connector which extends the Arduino Uno V3 connectivity and the ST morpho headers provide an easy means of expanding the functionality of the Nucleo open development platform with a wide choice of specialized shields The STM32 Nucleo 144 boards do not require any separate probe as they integrate the ST LINK V2 1 debugger programmer The STM32 Nucleo 144 boards come with the comprehensive ...

Страница 2: ...irmware 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...

Страница 3: ...ix 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 Déclaration de conformité 80 Revision history 81 All manuals and user guides at all guides com ...

Страница 4: ...EO 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 F...

Страница 5: ...cting 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 powe...

Страница 6: ...Expansion connectors ST Zio including Arduino Uno V3 ST morpho 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 package Supported b...

Страница 7: ... on the board 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 The meaning of the NUCLEO TXXXZY codifi...

Страница 8: ...on explanation NUCLEO TXXXZY Description Example NUCLEO F446ZE TXXX STM32 Product line STM32F446 Z STM32 package pin count 144 pins Y STM32 Flash memory size 8 for 64 Kbytes B for 128 Kbytes C for 256 Kbytes E for 512 Kbytes G for 1 Mbyte Z for 192 Kbytes H for 1 5 Mbytes I for 2 Mbytes 512 Kbytes All manuals and user guides at all guides com ...

Страница 9: ...gure 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 sources 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...

Страница 10: ...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 All manuals and us...

Страница 11: ...T 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 06Y 9 PEHGGHG 67 1 9 670 0LFURFRQWUROOHU 5 6 7 6 67 PRUSKR H WHQVLRQ KHDGHU 67 PRUSKR H WHQVLRQ KHDGHU 2 50 86 567 86 5 2 LR RQQHFWRU 67 1 3DUW 0 8 3DUW 0LFUR 86 FRQQ...

Страница 12: ...G JUHHQ 20 8VHU EXWWRQ 3 PHDVXUHPHQW 8VHU V 1 67 LR FRQQHFWRU 1 67 PRUSKR SLQ KHDGHU 5HVHW EXWWRQ 3RZHU JUHHQ 6 9 UHJXODWRU RXWSXW 1 67 PRUSKR SLQ KHDGHU 1 1 2 FRQQHFWRU 1 2 FRQQHFWRU 1 8VHU 86 FRQQHFWRU 5HG 67 1 9 3RZHU RYHU FXUUHQW DODUP 1 WKHUQHW 5 FRQQHFWRU 3 3 5 7 3 3RZHU VRXUFH VHOHFWLRQ 86 RYHU FXUUHQW 86 9 86 67 LR FRQQHFWRU All manuals and user guides at all guides com ...

Страница 13: ...DocID028599 Rev 7 13 82 UM1974 Hardware layout and configuration 81 Figure 5 Bottom layout 06Y 9 6 6 6 6 5 6 59 6 6 6 6 8 7 6 6 2 6 0 2 All manuals and user guides at all guides com ...

Страница 14: ...Hardware layout and configuration UM1974 14 82 DocID028599 Rev 7 6 1 Mechanical drawing Figure 6 Nucleo 144 board mechanical drawing in millimeter 06Y 9 All manuals and user guides at all guides com ...

Страница 15: ...an 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 06Y 9 ...

Страница 16: ...mper state see Table 4 Program debug the STM32 on board Program debug the STM32 in an external application board using a cable connected to SWD connector CN6 6 3 1 Drivers Before connecting the Nucleo 144 board to a Windows 7 Windows 8 or Windows XP PC via USB a driver for ST LINK V2 1 must be installed It can be downloaded from the www st com website In case the STM32 Nucleo 144 board is connecte...

Страница 17: ...rocontroller families it is recommended to keep the ST LINK V2 1 firmware up to date before starting to use the STM32 Nucleo 144 board The latest version of this firmware is available from the www st com website 6 3 3 Using the ST LINK V2 1 to program and debug the on board STM32 To program the on board STM32 place the two jumpers marked in red on the connector CN4 as shown in Figure 9 The CN6 con...

Страница 18: ...plication It is very easy to use the ST LINK V2 1 to program the STM32 on an external application Simply remove the two jumpers from CN4 as shown in Figure 10 and connect the application to the CN6 debug connector according to Table 5 Note SB111 NRST target STM32 RESET must be OFF when CN6 pin 5 is used in an external application 06Y 9 1 MXPSHUV 21 1 6 FRQQHFWRU All manuals and user guides at all ...

Страница 19: ...configuration 81 Table 5 Debug connector CN6 SWD Pin CN6 Designation 1 VDD_TARGET VDD from application 2 SWCLK SWD clock 3 GND ground 4 SWDIO SWD data input output 5 NRST RESET of target STM32 6 SWO Reserved All manuals and user guides at all guides com ...

Страница 20: ...er by the host PC through the USB cable or by an external source VIN 7 V 12 V E5V 5 V or 3 3 V power supply pins on CN8 or CN11 In case VIN E5V or 3 3 V is used to power the Nucleo 144 board this power source must comply with the standard EN 60950 1 2006 A11 2009 and must be Safety Extra Low Voltage SELV with limited power capability 06Y 9 1 MXPSHUV 2 1 6 FRQQHFWRU All manuals and user guides at a...

Страница 21: ... which powers the board This power switch features also a current limitation to protect the PC in case of short circuit on board If an overcurrent more than 500mA happens on board the red LED LD5 is lit JP1 is configured according to the maximum current consumption of the board when powered by USB U5V JP1 jumper can be set to ON to inform the host PC that the maximum current consumption does not e...

Страница 22: ...JP3 on pin 5 and pin 6 for VIN Jumper JP1 OFF The 5 V power source is selected by the jumper JP3 as shown in Table 8 Table 7 External power sources Input power name Connector pins Voltage range Max current Limitation VIN CN8 pin 15 CN11 pin 24 7 V to 12 V 800 mA From 7 V to 12 V only and input current capability is linked to input voltage 800 mA input current when VIN 7 V 450 mA input current when...

Страница 23: ... PC to the USB connector CN1 If this order is not respected the board may be powered by USB U5V first then by VIN or E5V as the following risks may be encountered 1 If more than 300mA current is needed by the board the PC may be damaged or the current supplied can be limited by the PC As a consequence the board is not powered correctly 2 300mA is requested at enumeration since JP1 must be OFF so t...

Страница 24: ... to the ST Zio D13 User LD2 a blue user LED is connected to PB7 User LD3 a red user LED is connected to PB14 These user LEDs are on when the I O is HIGH value and are off when the I O is LOW LD4 COM the tricolor LED LD4 green orange red provides information about ST LINK communication status LD4 default color is red LD4 turns to green to indicate that communication is in progress between the PC an...

Страница 25: ... to the external high speed clock HSE MCO from ST LINK Default MCO output of ST LINK is used as input clock This frequency cannot be changed it is fixed at 8MHz and connected to the PF0 PH0 OSC_IN of STM32 microcontroller The configuration must be SB148 OFF SB112 and SB149 ON SB8 and SB9 OFF HSE on board oscillator from X3 crystal not provided for typical frequencies and its capacitors and resisto...

Страница 26: ...SEDRV register due to the 6pF load capacitance of the crystal on the board Oscillator from external PC14 from external oscillator through the pin 25 of CN11 connector The configuration must be SB144 and SB145 ON R37 and R38 removed LSE not used PC14 and PC15 are used as GPIOs instead of low speed clock The configuration must be SB144 and SB145 ON R37 and R38 removed 6 9 USART communication The USA...

Страница 27: ...ded to power Nucleo 144 board by an external power supply when using USB OTG or host function 2 JP4 must be closed when using USB OTG FS The NUCLEO F303ZE board does not support the OTG function but it supports USB 2 0 full speed device mode communication via a USB Micro AB connector CN13 USB disconnection simulation is implemented by PG6 which controls 1 5 K pull up resistor R70 on USB D line Det...

Страница 28: ...n power down mode in this mode Ethernet PHY ref clock turns off to achieve the expected low power mode current This is done by configuring Ethernet PHY LAN8742A Basic Control Register at address 0x00 Bit 11 Power Down to 1 SB13 can also be removed to get the same effect PG7 USB GPIO IN NUCLEO F303ZE JP4 ON SB184 ON SB185 OFF JP4 OFF NUCLEO F303ZE VBUS detection All other Nucleo boards JP4 ON SB184...

Страница 29: ...re used on ST morpho connectors SB5 and SB6 should be OFF OFF PD8 and PD9 on STM32 are disconnected to ST morpho connectors CN11 and CN12 SB5 SB6 ST LINK USART ON PA2 and PA3 on ST LINK STM32F103CBT6 are connected to PD8 and PD9 to enable virtual COM port for mbed support Thus PD8 and PD9 on ST morpho connectors cannot be used OFF PA2 and PA3 on ST LINK STM32F103CBT6 are disconnected to PD8 and PD...

Страница 30: ... SB121 SB122 D11 ON OFF D11 Pin 14 of CN7 is connected to STM32 PA7 SPI_A_MOSI TIM_E_PWM1 OFF ON D11 Pin 14 of CN7 is connected to STM32 PB5 SPI_A_MOSI TIM_D_PWM2 SB144 145 X2 crystal OFF PC14 PC15 are not connected to ST morpho connector CN11 X2 used to generate 32KHz clock ON PC14 PC15 are connected to ST morpho connector CN11 R37 and R38 should be removed SB148 PF0 PH0 SB163 PF1 PH1 Main clock ...

Страница 31: ... I2C on A4 and A5 OFF PB9 and PB8 I2 C are not connected to A4 and A5 pin 9 and 11 on ST Zio connector CN9 ON PB9 and PB8 I2C are connected to A4 and A5 pin 9 and 11 on ST Zio connector CN9 Thus SB147 and SB157 or SB167 and SB171 for NUCLEO F303ZE or SB140 and SB150 for NUCLEO F412ZG and NUCLEO F413ZH must be OFF RMII Signals SB13 PA1 SB164 PC1 SB160 PA2 SB178 PC4 SB181 PC5 SB182 PG13 SB183 PG11 O...

Страница 32: ...TM32 Nucleo 144 board are used to configure several I Os and power supply pins for compatibility of features and pinout with the target STM32 supported The STM32 Nucleo 144 board is delivered with the solder bridges configured according to the target STM32 supported All manuals and user guides at all guides com ...

Страница 33: ...following figures show the signals connected by default to the ST Zio connectors CN7 CN8 CN9 CN10 including the support for Arduino Uno V3 Figure 11 NUCLEO F207ZG NUCLEO F429ZI NUCLEO F439ZI NUCLEO F746ZG NUCLEO F756ZG NUCLEO F767ZI and NUCLEO H743ZI 18 2 18 2 18 2 18 2 18 2 18 2 18 2 All manuals and user guides at all guides com ...

Страница 34: ...Hardware layout and configuration UM1974 34 82 DocID028599 Rev 7 Figure 12 NUCLEO F303ZE 18 2 1 1 1 1 0 1 2 3 2 4 4 56 7 All manuals and user guides at all guides com ...

Страница 35: ... W Ϯ W ϭϭ W ϭϮ W ϭϯ E W ϰ W ϰ W ϯ W ϱ W ϳ W ϭϱ W ϭϮ W ϭϯ W ϭϱ W ϲ W Ϯ W ϲ W Ϯ W Ϯ W ϭ E E s ϯϰ ϯϯ ϯϮ E ϯϭ ϯϬ Ϯϵ Ϯϴ E Ϯϱ Ϯϰ Ϯϯ ϮϮ Ϯϭ ϮϬ ϭϵ ϭϴ ϭϳ ϭϲ Ϯϳ Ϯϲ ϴ ϳ ϲ E E s ϭ ϯ ϱ ϳ ϵ ϭϭ ϭϯ ϭϱ Ϯ ϰ ϲ ϴ ϭϬ ϭϮ ϭϰ ϭϲ ϭ ϯ ϱ ϳ ϵ ϭϭ ϭϯ ϭϱ ϭϳ ϭϵ Ϯϭ Ϯϯ Ϯϱ Ϯϳ Ϯϵ Ϯ ϰ ϲ ϴ ϭϬ ϭϮ ϭϰ ϭϲ ϭϴ ϮϬ ϮϮ Ϯϰ Ϯϲ Ϯϴ ϯϬ ϱϬ ϰϵ ϰϴ ϰϳ ϰϲ ϰϱ ϰϰ ϰϯ E ϱϱ ϱϰ ϱϯ ϱϮ ϱϭ ϲϰ ϲϯ ϲϮ ϲϭ ϲϬ ϱϵ ϱϴ ϱϳ ϱϲ ϲϱ ϲϲ ϲϳ E ϲϴ ϲϵ ϳϬ ϳϭ ϳϮ s E E E нϱs нϯsϯ Z d ...

Страница 36: ...E ϱϱ ϱϰ ϱϯ ϱϮ ϱϭ ϲϰ ϲϯ ϲϮ ϲϭ ϲϬ ϱϵ ϱϴ ϱϳ ϱϲ ϯϰ ϯϯ ϯϮ E ϯϭ ϯϬ Ϯϵ Ϯϴ E Ϯϱ Ϯϰ Ϯϯ ϮϮ Ϯϭ ϮϬ ϭϵ ϭϴ ϭϳ ϭϲ Ϯϳ Ϯϲ ϴ ϳ ϲ E E s ϴ ϵ ϭϬ ϭϭ ϭϮ ϭϯ E s ϭϰ ϭϱ Ϭ ϭ Ϯ ϯ ϰ ϱ ϲ ϳ ϯϱ ϯϲ ϯϳ ϯϴ ϯϵ ϰϬ E ϰϭ ϰϮ W ϴ W ϯ W Ϯ W Ϯ W ϭϮ W ϭϭ W ϭϬ W ϵ E W ϯ W ϰ W ϱ W ϲ W ϳ W ϭ W ϵ W ϳ W ϴ W ϯ W ϲ W ϰ W Ϯ W ϱ W Ϭ W Ϭ W Ϭ E W Ϯ W ϭϭ W ϭϮ W ϭϯ E W ϰ W ϰ W ϯ W ϱ W ϳ W ϭϱ W ϭϮ W ϭϯ W ϭϱ W ϲ W Ϯ W ϲ W ϰ W Ϯ W ϭ E E s W ϭϮ W ϭϱ W ϭϰ W ...

Страница 37: ...odifications SB138 and SB143 should be ON SB140 147 150 157 167 171 should be OFF to connect I2C on A4 pin 5 and A5 pin 6 of CN9 Caution 1 The I Os of STM32 microcontroller are 3 3 V compatible instead of 5 V for Arduino Uno V3 Caution 2 SB12 should be removed before implementing Arduino shield with VREF power being provided on CN7 pin 6 Refer to Table 12 Solder bridges for details on SB12 Table 1...

Страница 38: ...er input 2 D43 SDMMC_D0 PC8 SDMMC I2S_A 4 D44 SDMMC_D1 I2S_A_CKIN PC9 6 D45 SDMMC_D2 PC10 8 D46 SDMMC_D3 PC11 10 D47 SDMMC_CK PC12 12 D48 SDMMC_CMD PD2 14 D49 I O PG2 I O 16 D50 I O PG3 CN9 1 A0 ADC PA3 ADC123_IN3 Arduino support 3 A1 ADC PC0 ADC123_IN10 5 A2 ADC PC3 ADC123_IN13 7 A3 ADC PF3 ADC3_IN9 9 A4 ADC PF5 or PB9 1 ADC3_IN15 PF5 or I2C1_SDA PB9 11 A5 ADC PF10 or PB8 1 ADC3_IN8 PF10 or I2C1_...

Страница 39: ...RT_B_CTS PD3 12 GND GND ground 14 D56 SAI_A_MCLK PE2 3 SAI_1_A 16 D57 SAI_A_FS PE4 18 D58 SAI_A_SCK PE5 20 D59 SAI_A_SD PE6 22 D60 SAI_B_SD PE3 SAI_1_B 24 D61 SAI_B_SCK PF8 26 D62 SAI_B_MCLK PF7 28 D63 SAI_B_FS PF9 30 D64 I O PG1 I O Table 13 NUCLEO F746ZG NUCLEO F756ZG and NUCLEO F767ZI pin assignments continued Connector Pin Pin name Signal name STM32 pin Function Remark All manuals and user gui...

Страница 40: ...S_B_MCK PC7 13 D22 I2S_B_SD SPI_B_MOSI PB5 15 D23 I2S_B_CK SPI_B_SCK PB3 17 D24 SPI_B_NSS PA4 19 D25 SPI_B_MISO PB4 2 D15 I2C_A_SCL PB8 I2C1_SCL Arduino support 4 D14 I2C_A_SDA PB9 I2C1_SDA 6 AREF AREF AVDD VREF 8 GND GND ground Table 13 NUCLEO F746ZG NUCLEO F756ZG and NUCLEO F767ZI pin assignments continued Connector Pin Pin name Signal name STM32 pin Function Remark All manuals and user guides a...

Страница 41: ...GND ground 19 D28 QSPI_BK1_IO3 PD13 QSPI_BK1 21 D29 QSPI_BK1_IO1 PD12 23 D30 QSPI_BK1_IO0 PD11 25 D31 QSPI_BK1_IO2 PE2 3 27 GND GND ground 29 D32 TIMER_C_PWM1 PA0 TIM2_CH1 31 D33 TIMER_D_PWM1 PB0 TIM3_CH3 33 D34 TIMER_B_ETR PE0 TIM4_ETR 2 D7 I O PF13 Arduino support 4 D6 TIMER_A_PWM1 PE9 TIM1_CH1 6 D5 TIMER_A_PWM2 PE11 TIM1_CH2 8 D4 I O PF14 10 D3 TIMER_A_PWM3 PE13 TIM1_CH3 12 D2 I O PF15 14 D1 US...

Страница 42: ...nected to both Ethernet PHY as RMII_DV and CN9 pin 15 In this case only one function of the Ethernet or D11 must be used 3 PE2 is connected to both CN9 pin 14 SAI_A_MCLK and CN10 pin 25 QSPI_BK1_IO2 Only one function must be used at one time 4 PB13 is used as I2S_A_CK and connected to CN7 pin 5 by default if JP7 is ON it is also connected to Ethernet PHY as RMII_TXD1 In this case only one function...

Страница 43: ...3 SDMMC_D0 PC8 SDMMC I2S_A SDMMC1 for NUCLEO F7222ZE 4 D44 SDMMC_D1 I2S_A_CKIN PC9 6 D45 SDMMC_D2 PC10 8 D46 SDMMC_D3 PC11 10 D47 SDMMC_CK PC12 12 D48 SDMMC_CMD PD2 14 D49 I O PG2 I O 16 D50 I O PG3 CN9 1 A0 ADC PA3 ADC123_IN3 Arduino support 3 A1 ADC PC0 ADC123_IN10 5 A2 ADC PC3 ADC123_IN13 7 A3 ADC PF3 ADC3_IN9 9 A4 ADC PF5 or PB9 1 ADC3_IN15 PF5 or I2C1_SDA PB9 11 A5 ADC PF10 or PB8 1 ADC3_IN8 ...

Страница 44: ...F7 28 D63 SAI_B_FS PF9 30 D64 I O PG1 I O Right Connectors CN7 1 D16 I2S_A_MCK PC6 I2S_2 3 D17 I2S_A_SD PB15 3 D17 I2S_A_SD PB15 5 D18 I2S_A_CK PB13 I2S_3 SPI3 7 D19 I2S_A_WS PB12 9 D20 I2S_B_WS PA15 11 D21 I2S_B_MCK PC7 13 D22 I2S_B_SD SPI_B_MOSI PB5 15 D23 I2S_B_CK SPI_B_SCK PB3 17 D24 SPI_B_NSS PA4 19 D25 SPI_B_MISO PB4 2 D15 I2C_A_SCL PB8 I2C1_SCL Arduino support 4 D14 I2C_A_SDA PB9 I2C1_SDA 6...

Страница 45: ...26 QSPI_CS PB6 QSPI_BK1 15 D27 QSPI_CLK PB2 QSPI_CLK 17 GND GND ground 19 D28 QSPI_BK1_IO3 PD13 QSPI_BK1 21 D29 QSPI_BK1_IO1 PD12 23 D30 QSPI_BK1_IO0 PD11 25 D31 QSPI_BK1_IO2 PE2 2 27 GND GND ground 29 D32 TIMER_C_PWM1 PA0 TIM2_CH1 31 D33 TIMER_D_PWM1 PB0 TIM3_CH3 33 D34 TIMER_B_ETR PE0 TIM4_ETR 2 D7 I O PF13 Arduino support 4 D6 TIMER_A_PWM1 PE9 TIM1_CH1 6 D5 TIMER_A_PWM2 PE11 TIM1_CH2 8 D4 I O P...

Страница 46: ...A_BKIN1 PE15 TIM1_BKIN1 32 D36 TIMER_C_PWM2 PB10 TIM2_CH3 34 D35 TIMER_C_PWM3 PB11 TIM2_CH4 1 For more details refer to Table 12 Solder bridges 2 PE2 is connected to both CN9 pin 14 SAI_A_MCLK and CN10 pin 25 QSPI_BK1_IO2 Only one function must be used at one time Table 14 NUCLEO F446ZE and NUCLEO F722ZE pin assignments continued Connector Pin Pin name Signal name STM32 pin Function Remark All man...

Страница 47: ...I O PC8 I O 4 D44 I2S_A_CKIN PC9 I2S_A 6 D45 I O PC10 I O 8 D46 I O PC11 10 D47 I O PC12 12 D48 I O PD2 14 D49 I O PG2 16 D50 I O PG3 CN9 1 A0 ADC PA3 ADC1_IN4 Arduino support 3 A1 ADC PC0 ADC12_IN6 5 A2 ADC PC3 ADC12_IN9 7 A3 ADC PD11 ADC34_IN8 9 A4 ADC PD12 or PB9 1 ADC34_IN9 PD12 or I2C1_SDA PB9 11 A5 ADC PD13 or PB8 1 ADC34_IN10 PD13 or I2C1_SCL PB8 13 D72 COMP1_INP PA1 COMP 15 D71 COMP2_INP P...

Страница 48: ...ors CN7 1 D16 I2S_A_MCK PC6 I2S_2 3 D17 I2S_A_SD PB15 5 D18 I2S_A_CK PB13 7 D19 I2S_A_WS PB12 9 D20 I2S_B_WS PA15 I2S_3 SPI3 11 D21 I2S_B_MCK PC7 13 D22 I2S_B_SD SPI_B_MOSI PB5 15 D23 I2S_B_CK SPI_B_SCK PB3 17 D24 SPI_B_NSS PA4 19 D25 SPI_B_MISO PB4 2 D15 I2C_A_SCL PB8 I2C1_SCL Arduino support 4 D14 I2C_A_SDA PB9 I2C1_SDA 6 AREF AREF AVDD VREF 8 GND GND ground 10 D13 SPI_A_SCK PA5 SPI1_SCK 12 D12 ...

Страница 49: ... GND GND ground 19 D28 I O PF10 I O 21 D29 I O PF5 23 D30 I O PF3 25 D31 I O PE2 3 27 GND GND ground 29 D32 TIMER_C_PWM1 PA0 TIM2_CH1 31 D33 TIMER_D_PWM1 PB0 TIM3_CH3 33 D34 TIMER_B_ETR PE0 TIM4_ETR 2 D7 I O PF13 Arduino support 4 D6 TIMER_A_PWM1 PE9 TIM1_CH1 6 D5 TIMER_A_PWM2 PE11 TIM1_CH2 8 D4 I O PF14 10 D3 TIMER_A_PWM3 PE13 TIM1_CH3 12 D2 I O PF15 14 D1 USART_A_TX PC4 USART1 16 D0 USART_A_RX P...

Страница 50: ...ails refer to Table 12 Solder bridges 2 PA7 is used as D11 and connected to CN7 pin 14 by default if JP6 is ON it is also connected to CN9 pin 15 as COMP2_INP In this case only one function of the Comparator input or D11 must be used 3 PE2 is connected to both CN9 pin 14 I O and CN10 pin 25 I O Only one connector pin must be used at one time Table 15 NUCLEO F303ZE pin assignments continued Connect...

Страница 51: ...MC_D0 PC8 SDMMC I2S_A 4 D44 SDMMC_D1 I2S_A_CKIN PC9 6 D45 SDMMC_D2 PC10 8 D46 SDMMC_D3 PC11 10 D47 SDMMC_CK PC12 12 D48 SDMMC_CMD PD2 14 D49 I O PG2 I O 16 D50 I O PG3 CN9 1 A0 ADC PA3 ADC123_IN3 Arduino support 3 A1 ADC PC0 ADC123_IN10 5 A2 ADC PC3 ADC123_IN13 7 A3 ADC PF3 ADC3_IN9 9 A4 ADC PF5 or PB9 1 ADC3_IN15 PF5 or I2C1_SDA PB9 11 A5 ADC PF10 or PB8 1 ADC3_IN8 PF10 or I2C1_SCL PB8 13 D72 NC ...

Страница 52: ...I O PF7 28 D63 I O PF9 30 D64 I O PG1 Right Connectors CN7 1 D16 I2S_A_MCK PC6 I2S_2 3 D17 I2S_A_SD PB15 5 D18 I2S_A_CK PB13 4 7 D19 I2S_A_WS PB12 9 D20 I2S_B_WS PA15 I2S_3 SPI3 11 D21 I2S_B_MCK PC7 13 D22 I2S_B_SD SPI_B_MOSI PB5 15 D23 I2S_B_CK SPI_B_SCK PB3 17 D24 SPI_B_NSS PA4 19 D25 SPI_B_MISO PB4 2 D15 I2C_A_SCL PB8 I2C1_SCL Arduino support 4 D14 I2C_A_SDA PB9 I2C1_SDA 6 AREF AREF AVDD VREF 8...

Страница 53: ..._C_IN PF4 ADC3_IN14 13 D26 I O PB6 I O 15 D27 I O PB2 17 GND GND ground 19 D28 I O PD13 I O 21 D29 I O PD12 23 D30 I O PD11 25 D31 I O PE2 3 27 GND GND ground 29 D32 TIMER_C_PWM1 PA0 TIM2_CH1 31 D33 TIMER_D_PWM1 PB0 TIM3_CH3 33 D34 TIMER_B_ETR PE0 TIM4_ETR 2 D7 I O PF13 Arduino support 4 D6 TIMER_A_PWM1 PE9 TIM1_CH1 6 D5 TIMER_A_PWM2 PE11 TIM1_CH2 8 D4 I O PF14 10 D3 TIMER_A_PWM3 PE13 TIM1_CH3 12 ...

Страница 54: ... by default if JP6 is ON it is also connected to both Ethernet PHY as RMII_DV and CN9 pin 15 In this case only one function of the Ethernet or D11 must be used 3 PE2 is connected to both CN9 pin 14 I O and CN10 pin 25 I O Only one connector pin must be used at one time 4 PB13 is used as I2S_A_CK and connected to CN7 pin 5 by default if JP7 is ON it is also connected to Ethernet PHY as RMII_TXD1 In...

Страница 55: ...GND GND 15 VIN VIN Power input 2 D43 SDMMC_D0 PC8 SDMMC I2S_A 4 D44 SDMMC_D1 I2S_A_CKIN PC9 I O 6 D45 SDMMC_D2 PC10 8 D46 SDMMC_D3 PC11 10 D47 SDMMC_CK PC12 12 D48 SDMMC_CMD PD2 14 D49 I O PG2 16 D50 I O PG3 CN9 1 A0 ADC PA3 ADC123_IN3 Arduino support 3 A1 ADC PC0 ADC123_IN10 5 A2 ADC PC3 ADC123_IN13 7 A3 ADC PF3 ADC3_IN9 9 A4 ADC PF5 or PB9 1 ADC3_IN15 PF5 or I2C1_SDA PB9 11 A5 ADC PF10 or PB8 1 ...

Страница 56: ...SCK PE5 20 D59 SAI_A_SD PE6 22 D60 SAI_B_SD PE3 SAI_1_B 24 D61 SAI_B_SCK PF8 26 D62 SAI_B_MCLK PF7 28 D63 SAI_B_FS PF9 30 D64 I O PG1 I O Right Connectors CN7 1 D16 I2S_A_MCK PC6 I2S_2 3 D17 I2S_A_SD PB15 5 D18 I2S_A_CK PB13 4 7 D19 I2S_A_WS PB12 9 D20 I2S_B_WS PA15 I2S_3 SPI3 11 D21 I2S_B_MCK PC7 13 D22 I2S_B_SD SPI_B_MOSI PB5 15 D23 I2S_B_CK SPI_B_SCK PB3 17 D24 SPI_B_NSS PA4 Table 17 NUCLEO F42...

Страница 57: ...IM4_CH4 20 D8 I O PF12 CN10 1 AVDD AVDD Analog VDD 3 AGND AGND Analog ground 5 GND GND ground 7 A6 ADC_A_IN PB1 ADC12_IN9 9 A7 ADC_B_IN PC2 ADC123_IN12 11 A8 ADC_C_IN PF4 ADC3_IN14 13 D26 I O PB6 I O 15 D27 I O PB2 17 GND GND ground 19 D28 I O PD13 I O 21 D29 I O PD12 23 D30 I O PD11 25 D31 I O PE2 3 27 GND GND ground 29 D32 TIMER_C_PWM1 PA0 TIM2_CH1 31 D33 TIMER_D_PWM1 PB0 TIM3_CH3 33 D34 TIMER_B...

Страница 58: ... For more details refer to Table 12 Solder bridges 2 PA7 is used as D11 and connected to CN7 pin 14 by default If JP6 is ON it is also connected to both Ethernet PHY as RMII_DV and CN9 pin 15 In this case only one function of the Ethernet or D11 must be used 3 PE2 is connected to both CN9 pin 14 SAI_A_MCLK and CN10 pin 25 I O Only one function must be used at one time 4 PB13 is used as I2S_A_CK an...

Страница 59: ...ut 2 D43 SDMMC_D0 PC8 SDMMC I2S_A 4 D44 SDMMC_D1 I2S_A_CKIN PC9 6 D45 SDMMC_D2 PC10 8 D46 SDMMC_D3 PC11 10 D47 SDMMC_CK PC12 12 D48 SDMMC_CMD PD2 14 D49 I O PG2 I O 16 D50 I O PG3 CN9 1 A0 ADC PA3 ADC1_IN3 Arduino compatible 3 A1 ADC PC0 ADC1_IN10 5 A2 ADC PC3 ADC1_IN13 7 A3 ADC PC1 ADC1_IN11 9 A4 ADC PC4 or PB9 1 ADC1_IN14 PC4 or I2C1_SDA PB9 11 A5 ADC PC5 or PB8 1 ADC1_IN15 PC5 or I2C1_SCL PB8 1...

Страница 60: ... D64 I O PG1 I O Right Connectors CN7 1 D16 I2S_A_MCK PC6 I2S_2 3 D17 I2S_A_SD PB15 5 D18 I2S_A_CK PB13 7 D19 I2S_A_WS PB12 9 D20 I2S_B_WS PA15 I2S_3 SPI3 11 D21 I2S_B_MCK PC7 13 D22 I2S_B_SD SPI_B_MOSI PB5 15 D23 I2S_B_CK SPI_B_SCK PB3 17 D24 SPI_B_NSS PA4 19 D25 SPI_B_MISO PB4 2 D15 I2C_A_SCL PB8 I2C1_SCL Arduino compatible 4 D14 I2C_A_SDA PB9 I2C1_SDA 6 AREF AREF AVDD VREF 8 GND GND ground 10 D...

Страница 61: ... ground 19 D28 QSPI_BK1_IO3 PD13 QSPI_BK1 21 D29 QSPI_BK1_IO1 PD12 23 D30 QSPI_BK1_IO0 PD11 25 D31 QSPI_BK1_IO2 PE2 2 27 GND GND ground 29 D32 TIMER_C_PWM1 PA0 TIM2_CH1 31 D33 TIMER_D_PWM1 PB0 TIM3_CH3 33 D34 TIMER_B_ETR PE0 TIM4_ETR 2 D7 I O PF13 Arduino compatible 4 D6 TIMER_A_PWM1 PE9 TIM1_CH1 6 D5 TIMER_A_PWM2 PE11 TIM1_CH2 8 D4 I O PF14 10 D3 TIMER_A_PWM3 PE13 TIM1_CH3 12 D2 I O PF15 14 D1 US...

Страница 62: ...nnector Pin Pin name Signal name STM32 pin Function Remark Table 19 NUCLEO F413ZH pin assignments Connector Pin Pin name Signal name STM32 pin Function Remark Left connectors CN8 1 NC NC Arduino compatible 3 IOREF IOREF 3 3 V Ref 5 RESET RESET NRST RESET 7 3 3 V 3 3 V 3 3 V input output 9 5 V 5 V 5 V output 11 GND GND ground 13 GND GND ground 15 VIN VIN Power input 2 D43 SDMMC_D0 PC8 SDMMC I2S_A 4...

Страница 63: ...D6 6 D53 USART_B_TX PD5 8 D54 USART_B_RTS PD4 10 D55 USART_B_CTS PD3 12 GND GND ground 14 D56 SAI_A_MCLK PE2 2 SAI_1_A 16 D57 SAI_A_SD PE4 3 18 D58 SAI_A_SCK PE5 20 D59 SAI_A_FS PE6 3 22 D60 SAI_B_SD PE3 SAI_1_B 24 D61 SAI_B_SCK PF8 26 D62 SAI_B_MCLK PF7 28 D63 SAI_B_FS PF9 30 D64 I O PG1 I O Right Connectors CN7 1 D16 I2S_A_MCK PC6 I2S_2 3 D17 I2S_A_SD PB15 5 D18 I2S_A_CK PB13 7 D19 I2S_A_WS PB12...

Страница 64: ...d 5 GND GND ground 7 A6 ADC_A_IN PB1 ADC1_IN9 9 A7 ADC_B_IN PC2 ADC1_IN12 11 A8 ADC_C_IN PA2 ADC1_IN2 13 D26 QSPI_CS PB6 QSPI_BK1 15 D27 QSPI_CLK PB2 QSPI_CLK 17 GND GND ground 19 D28 QSPI_BK1_IO3 PD13 QSPI_BK1 21 D29 QSPI_BK1_IO1 PD12 23 D30 QSPI_BK1_IO0 PD11 25 D31 QSPI_BK1_IO2 PE2 2 27 GND GND ground 29 D32 TIMER_C_PWM1 PA0 TIM2_CH1 31 D33 TIMER_D_PWM1 PB0 TIM3_CH3 33 D34 TIMER_B_ETR PE0 TIM4_E...

Страница 65: ...MER_C_PWM2 PB10 TIM2_CH3 34 D35 TIMER_C_PWM3 PB11 TIM2_CH4 1 For more details refer to Table 12 Solder bridges 2 PE2 is connected to both CN9 pin14 SAI_A_MCLK and CN10 pin25 QSPI_BK1_IO2 Only one connector pin can be used at one time 3 Limitation SAI_A_SD PE4 is swapped with SAI_A_FS PE6 These two pins on CN10 of NUCLEO F413ZH are not compatible with other STM32 Nucleo 144 boards Table 19 NUCLEO F...

Страница 66: ...C1_D0 PC8 SDMMC I2S_A 4 D44 SDMMC1_D1 I2S_A_CKIN PC9 6 D45 SDMMC1_D2 PC10 8 D46 SDMMC1_D3 PC11 10 D47 SDMMC1_CK PC12 12 D48 SDMMC1_CMD PD2 14 D49 I O PG2 I O 16 D50 I O PG3 CN9 1 A0 ADC PA3 ADC12_IN15 Arduino compatible 3 A1 ADC PC0 ADC123_IN10 5 A2 ADC PC3 ADC123_IN13 7 A3 ADC PF3 ADC3_IN5 9 A4 ADC PF5 or PB9 1 ADC3_IN4 PF5 or I2C1_SDA PB9 11 A5 ADC PF10 or PB8 1 ADC3_IN6 PF10 or I2C1_SCL PB8 13 ...

Страница 67: ...SCK PF8 26 D62 SAI_B_MCLK PF7 28 D63 SAI_B_FS PF9 30 D64 I O PG1 I O Right Connectors CN7 1 D16 I2S_A_MCK PC6 I2S_2 3 D17 I2S_A_SD PB15 5 D18 I2S_A_CK PB13 4 7 D19 I2S_A_WS PB12 9 D20 I2S_B_WS PA15 I2S_3 SPI3 11 D21 I2S_B_MCK PC7 13 D22 I2S_B_SD SPI_B_MOSI PB5 15 D23 I2S_B_CK SPI_B_SCK PB3 17 D24 SPI_B_NSS PA4 19 D25 SPI_B_MISO PB4 2 D15 I2C_A_SCL PB8 I2C1_SCL Arduino compatible 4 D14 I2C_A_SDA PB...

Страница 68: ... D27 QSPI_CLK PB2 QSPI_CLK 17 GND GND Ground 19 D28 QSPI_BK1_IO3 PD13 QSPI_BK1 21 D29 QSPI_BK1_IO1 PD12 23 D30 QSPI_BK1_IO0 PD11 25 D31 QSPI_BK1_IO2 PE2 3 27 GND GND Ground 29 D32 TIMER_C_PWM1 PA0 TIM2_CH1 31 D33 TIMER_D_PWM1 PB0 TIM3_CH3 33 D34 TIMER_B_ETR PE0 TIM4_ETR 2 D7 I O PF13 Arduino compatible 4 D6 TIMER_A_PWM1 PE9 TIM1_CH1 6 D5 TIMER_A_PWM2 PE11 TIM1_CH2 8 D4 I O PF14 10 D3 TIMER_A_PWM3 ...

Страница 69: ...3N PE12 TIM1_CH3N 28 D38 I O PE14 I O 30 D37 TIMER_A_BKIN1 PE15 TIM1_BKIN1 32 D36 TIMER_C_PWM2 PB10 TIM2_CH3 34 D35 TIMER_C_PWM3 PB11 TIM2_CH4 1 For more details refer to Table 12 Solder bridges 2 PA7 is used as D11 and connected to CN7 pin14 by default if JP6 is ON it is also connected to both Ethernet PHY as RMII_DV and CN9 pin15 In this case only one function of Ethernet or D11 could be used 3 ...

Страница 70: ... PA11 15 PA14 3 16 3 3 V 15 PA7 16 PB12 17 PA15 18 5 V 17 PB6 18 PB11 19 GND 20 GND 19 PC7 20 GND 21 PB7 22 GND 21 PA9 22 PB2 23 PC13 24 VIN 23 PA8 24 PB1 25 PC14 26 25 PB10 26 PB15 27 PC15 28 PA0 27 PB4 28 PB14 29 PH0 30 PA1 29 PB5 30 PB13 31 PH1 32 PA4 31 PB3 32 AGND 33 VBAT 34 PB0 33 PA10 34 PC4 35 PC2 36 PC1 35 PA2 36 PF5 37 PC3 38 PC0 37 PA3 38 PF4 39 PD4 40 PD3 39 GND 40 PE8 41 PD5 42 PG2 41...

Страница 71: ... PC12 4 PD2 3 PB8 4 PC6 5 VDD 6 E5V 5 PB9 6 PC5 7 BOOT0 1 8 GND 7 AVDD 8 U5V 2 9 PF6 10 9 GND 10 PD8 11 PF7 12 IOREF 11 PA5 12 PA12 13 PA13 3 14 RESET 13 PA6 14 PA11 15 PA14 3 16 3 3 V 15 PA7 16 PB12 17 PA15 18 5 V 17 PB6 18 PB11 19 GND 20 GND 19 PC7 20 GND 21 PB7 22 GND 21 PA9 22 PB2 23 PC13 24 VIN 23 PA8 24 PB1 25 PC14 26 25 PB10 26 PB15 27 PC15 28 PA0 27 PB4 28 PB14 29 PF0 30 PA1 29 PB5 30 PB13...

Страница 72: ...D10 66 PG8 67 PH2 68 PG13 67 PG7 68 PG5 69 PD9 70 PG11 69 PG4 70 PG6 1 Default state of BOOT0 is 0 It can be set to 1 when a jumper is plugged on the pins 5 7 of CN11 2 U5V is the 5 V power coming from the ST LINK V2 1 USB connector that rises before and it rises before the 5 V rising on the board 3 PA13 and PA14 are shared with the SWD signals connected to ST LINK V2 1 If ST LINK part is not cut ...

Страница 73: ...des the design schematics for the STM32 Nucleo 144 board features MB1137 Nucleo 144 board Top and Power see Figure 15 MCU see Figure 16 ST LINK V2 1 see Figure 17 USB see Figure 18 Ethernet PHY with RJ45 connector see Figure 19 Extension connectors see Figure 20 All manuals and user guides at all guides com ...

Страница 74: ... PB0 from A 01 to B 01 9 D11 on CN7 can be set to PB5 from A 01 to B 01 C23 1uF_X5R_0603 E5V Power Switch to supply 5V from STLINK USB C16 4 7uF IN 1 IN 2 ON 3 GND 4 SET 5 OUT 6 OUT 7 FAULT 8 U4 ST890CDR R27 10K R28 2K7 C11 100nF 1 2 LD5 Red R21 1K SB1 Open U5V SB3 Closed PA 0 15 PB 0 15 PC 0 15 NRST BOOT0 PD 0 15 PE 0 15 PF 0 15 PG 0 15 PH 0 2 COMP2_INP U_Connectors Connectors SchDoc TMS TCK MCO ...

Страница 75: ...IO_2 131 VSS_10 120 VSS_9 VSSIO_1 94 VSS_6 51 VSS_7 61 VSS_8 83 VSS_11 VSSIO_2 130 VCAP2 PH2 VDDUSB 106 PDR_ON VSS_3 NC 143 PH0 PF0 OSC_IN 23 PH1 PF1 OSC_OUT 24 NRST 25 BOOT0 138 VDDA 33 VDD_4 39 VDD_1 72 VDD_2 108 VDD_3 VDD_SA 144 VBAT 6 VSSA VREF 31 VSS_2 107 VSS_4 BYPASS_REG 38 VCAP1 VSS_1 71 U8C MCU_LQFP144 VDD VDD VDD AGND VDD L496ZG F303ZE VSS VDD L496ZG F303ZE VSS F207ZG NC C28 100nF C25 10...

Страница 76: ... 3V3_ST_LINK JP1 3V3_ST_LINK PWR_EXT 3V3_ST_LINK D5 BAT60JFILM D3 BAT60JFILM C14 1uF_X5R_0603 C15 10nF_X7R_0603 C9 1uF_X5R_0603 5 1 2 GND 3 4 BYPASS INH Vin Vout U3 LD3985M33R C10 100nF C8 100nF 3V3_ST_LINK R12 10K R16 36K U5V R15 100 3V3_ST_LINK CN3 Wired on Solder Side CN2 E5V 3V3_ST_LINK JP2 R18 N A VBAT 1 PA7 17 PC13 2 PA12 33 PC14 3 PB0 18 PC15 4 JTMS SWDIO 34 OSCIN 5 PB1 19 OSCOUT 6 VSS_2 35...

Страница 77: ...3 U12 STMPS2151STR VBUS 1 DM 2 DP 3 ID 4 GND 5 Shield 6 USB_Micro AB receptacle Shield 7 Shield 8 Shield 9 EXP 10 CN13 475900001 R64 330 1 2 LD8 Green R69 22K R72 10K R71 47K R68 47K 3 1 2 T2 9013 USB_VBUS PA10 PA9 PA12 PA11 PG6 PG7 i Diff Pair 90ohm i Diff Pair 90ohm 3V3_PER 3V3_PER Remove only for F303ZE USB_Disconnect R70 1K5 PG6 Solder only for F303ZE VBUS_DET PG7 R62 430K R63 620K 1 3 2 4 5 6...

Страница 78: ...r 100ohm i Diff Pair 100ohm i Diff Pair 100ohm TD_N TD_P RD_N RD_P R49 12K1 C46 10uF PG11 PG13 PB13 PC4 PC5 PA7 PC1 PA2 PA1 R43 10K R44 10K R39 10K R41 10K R66 10K C47 100nF C44 100nF C40 100nF C49 100nF C50 100nF C41 1uF_X5R_0603 C42 470pF R67 270 R65 270 I O1 1 GND 2 I O2 3 I O3 4 Vbus 5 I O4 6 U10 USBLC6 4SC6 C48 100nF C45 30pF C43 30pF R57 75 R53 50 R52 50 R51 50 R50 50 C51 TC1206KKX7RDBB102 R...

Страница 79: ...PC5 PD11 PD12 PD13 PE9 PE11 PE13 PB0 PB2 SB137 SB137 Close only for L496ZG PB6 SB136 SB136 Close only for L496ZG COMP2_INP PB13 PB8 PB9 1 3 5 7 9 11 13 15 2 4 6 8 10 12 14 16 CN8 Header 8X2_Female 1 3 5 7 9 11 13 15 17 19 2 4 6 8 10 12 14 16 18 20 CN7 Header 10X2_Female PA2 SB158 SB159 SB159 Close only for F412ZG F413ZH 2 4 6 8 10 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 1 3 5 7 9 ...

Страница 80: ...ul interference to radio communications However there is no guarantee that interference will not occur in a particular installation If this equipment does cause harmful interference to radio or television reception which can be determined by turning the equipment off and on the user is encouraged to try to correct the interference s by one or more of the following measures Reorient or relocate the...

Страница 81: ...6 11 Ethernet Section 6 12 Solder bridges Section 6 13 Extension connectors Section 6 14 ST Zio connectors Section 6 15 ST morpho connector to add NUCLEO F413ZH 19 Jan 2017 5 Updated Introduction Section 3 Ordering information Section 6 11 Ethernet Section 6 12 Solder bridges Section 6 13 Extension connectors Section 6 14 ST Zio connectors Section 6 15 ST morpho connector to add NUCLEO F722ZE 14 A...

Страница 82: ...sible for the choice selection and use of ST products and ST assumes no liability for application assistance or the design of Purchasers products No license express or implied to any intellectual property right is granted by ST herein Resale of ST products with provisions different from the information set forth herein shall void any warranty granted by ST for such product ST and the ST logo are t...

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