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Introduction
The STM32U5x9J-DKx Discovery kits (order codes
development platforms for the STM32U5x9NJH6Q microcontrollers, featuring an Arm
®
TrustZone
.
Leveraging the innovative ultra-low-power oriented features, 3 Mbytes of embedded SRAM for STM32U5G9NJH6Q or
2.5 Mbytes for STM32U5A9NJH6Q, 4 Mbytes of embedded flash memory, and rich graphics features, the STM32U5x9J-DKx
Discovery kits enable users to easily prototype applications with state-of-the-art energy efficiency, as well as provide stunning
and optimized graphics rendering with the support of specific graphic features associated with each microcontroller.
The full range of hardware features available on the board helps users to enhance their application development by an
evaluation of all the peripherals such as a 2.47‑inch RGB 480 × 480 pixels TFT round LCD module with MIPI DSI
capacitive touch panel, USB Type-C
memory device, Time-of-Flight and gesture detection sensor, temperature sensor, 20‑pin audio MEMS connector (for
STM32U5G9J-DK1), and two 2.54 mm pitch double-row flexible expansion connectors for easy prototyping with daughterboards
for specific applications (USART, LPUART, two SPIs, SAI, three I
The STM32U5x9J-DKx Discovery kits integrate an STLINK-V3E embedded in-circuit debugger and programmer for the STM32
microcontroller with a USB Virtual COM port bridge and comes with the
STM32 comprehensive software HAL library as well as various software examples.
Figure 1.
STM32U5G9J-DK1 top view
Pictures are not contractual.
UM2967 - Rev 4 - January 2024
For further information contact your local STMicroelectronics sales office.
STM32U5A9J-DK
®
HS, Octo‑SPI flash memory device, Hexadeca‑SPI PSRAM memory device, eMMC flash
Discovery kit with STM32U5X9NJ MCUs
and STM32U5G9J-DK1) are complete demonstration and
®
Cortex
2
C, SDMMC, ADCs, timers, and GPIOs).
STM32CubeU5
MCU Package, which provides an
Figure 2.
STM32U5G9J-DK1 bottom view
UM2967
User manual
®
‑M33 core with Arm
®
®
interface and
www.st.com
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Summary of Contents for ST STM32U5X9NJ
-
Page 1: Figure 1. Stm32U5G9J-Dk1 Top View
UM2967 User manual Discovery kit with STM32U5X9NJ MCUs Introduction The STM32U5x9J-DKx Discovery kits (order codes STM32U5A9J-DK and STM32U5G9J-DK1) are complete demonstration and ® ® ‑M33 core with Arm ® development platforms for the STM32U5x9NJH6Q microcontrollers, featuring an Arm Cortex ®... -
Page 2: Features
MIPI10 ™ – Tag‑Connect 10‑pin footprint • Flexible power-supply options: ST-LINK USB V , USB connector, or external sources • On-board STLINK-V3E debugger/programmer with USB re-enumeration capability: mass storage, Virtual COM port, and debug port • Comprehensive free software libraries and examples available with the... -
Page 3: Ordering Information
UM2967 Ordering information Ordering information To order the STM32U5x9J-DKx Discovery kits, refer to Table 1. List of available products. Additional information is available from the datasheet and reference manual of the target STM32. Table 1. List of available products Order code Board reference Target STM32 Differentiating feature... -
Page 4: Development Environment
STM32 flash memory for easy demonstration of the device peripherals in standalone mode. The latest versions of the demonstration source code and associated documentation can be downloaded from www.st.com. UM2967 - Rev 4 page 4/71... -
Page 5: Laser Consideration
UM2967 Laser consideration Laser consideration The Time‑of‑Flight and gesture-detection sensor contains a laser emitter and the corresponding drive circuitry. The laser output is designed to remain within Class 1 laser safety limits under all reasonably foreseeable conditions including single faults in compliance with IEC 60825-1:2014 (third edition). The laser output remains within Class 1 limits as long as the STMicroelectronics recommended device settings are used and the operating conditions specified in their datasheets are respected. -
Page 6: Conventions
UM2967 Conventions Conventions Table 3 provides the conventions used for the ON and OFF settings in the present document. Table 3. ON/OFF convention Convention Definition Jumper JPx ON Jumper fitted Jumper JPx OFF Jumper not fitted Jumper JPx [1-2] Jumper fitted between Pin 1 and Pin 2 Solder bridge SBx ON SBx connections closed by 0 Ω... -
Page 7: Quick Start
Quick start This section describes how to start development quickly using the STM32U5x9J-DKx Discovery kits. Before installing and using the product, accept the Evaluation Product License Agreement from the www.st.com/ epla webpage. The STM32U5x9J-DKx Discovery kits are low-cost and easy-to-use development kits to evaluate quickly and start development with an STM32 microcontroller in a TFBGA216 package. -
Page 8: Hardware Layout And Configuration
UM2967 Hardware layout and configuration Hardware layout and configuration Hardware block diagram The STM32U5x9J-DKx Discovery kits are designed with the STM32U5x9NJH6Q microcontrollers, in a TFBGA216 package. The hardware block diagram in Figure 4 illustrates the connection between the microcontroller and the peripherals. Figure 5 Figure 6 help to locate these features on the STM32U5G9J-DK1... -
Page 9: Product Layout
UM2967 Product layout Product layout Figure 5. Main board top layout view 20-pin audio MEMS DSI_V3 LCD board connector (CN1) connector (CN2) User button (B1) Time-of-Flight sensor (U7) Reset button (B2) TCPP01-M12 USBC protection (U11) 5V LED (LD2) User green LED (LD3) 10-pin TAG-connect... -
Page 10: Figure 6. Main Board Bottom Layout View
UM2967 Product layout Figure 6. Main board bottom layout view Boot0 switch Expansion connectors Temperature sensor (CN9 and CN10) (SW1) (U18) IDD_MCU header (JP3) Octo-SPI IDD 3V3 header flash (U22) (JP1) IDD header STM32U5G9 (JP2) Power source header (U25) (JP4) MIPI10 connector (CN11) TNRST header... -
Page 11: Figure 7. Lcd Daughterboard Top Layout View
UM2967 Product layout Figure 7. LCD daughterboard top layout view UM2967 - Rev 4 page 11/71... -
Page 12: Figure 8. Lcd Daughterboard Bottom Layout View
UM2967 Product layout Figure 8. LCD daughterboard bottom layout view UM2967 - Rev 4 page 12/71... -
Page 13: Mechanical Drawings
UM2967 Mechanical drawings Mechanical drawings All measurements are in millimeters. Figure 9. Main board top UM2967 - Rev 4 page 13/71... -
Page 14: Figure 10. Main Board Bottom
UM2967 Mechanical drawings Figure 10. Main board bottom UM2967 - Rev 4 page 14/71... -
Page 15: Figure 11. Lcd Daughterboard Top
UM2967 Mechanical drawings Figure 11. LCD daughterboard top UM2967 - Rev 4 page 15/71... -
Page 16: Figure 12. Lcd Daughterboard Bottom
UM2967 Mechanical drawings Figure 12. LCD daughterboard bottom UM2967 - Rev 4 page 16/71... -
Page 17: Embedded Stlink-V3E
The STM32U5x9J-DKx products can be powered from the ST-LINK USB connector (CN5), but the host PC might provide only 100 mA to the ST-LINK circuit until the end of the USB enumeration. The 3V3_STLK LDO (U13) supplies 3.3 V to STLINK-V3E with up to 5.5 V recommended input voltage. Then, the STLINK-V3E requires a 500 mA current from the host PC. -
Page 18: Stlink-V3E Deactivation (Reset Mode)
LINK are impossible in this Reset state, where all STLINK-V3E PIOs are in high impedance. Attention: The Reset mode is useful to connect an external probe to MIPI10/STDC14 debug (CN11) or TAG (CN3) connector for the embedded STM32U5x9NJ debug (refer to Section 12.14). -
Page 19: Drivers
374F for STLINK-V3E with bridges functions STLINK-V3E VCP configuration STLINK-V3E supports the Virtual COM port (VCP) by default. Communication between the target MCU and ST-LINK MCU is enabled on USART1 (PA9/PA10). STLINK-V3E I/O interface Here are the interface signals between STM32U5x9NJ MCU and STLINK-V3E: Table 6. -
Page 20: Power Supply
UM2967 Power supply Power supply Power diagram ‑ power system designed for VDD and VDD_MCU at 1.8 V only. Warning: This Discovery kit is a low Attention: Do not remove JP3 when the board is powered up, or do not start the board with JP3 OFF, for this might have ‑... -
Page 21: Figure 17. Power Diagram
VREFP 1V8_f up to 650 up to 50 To peripherals ( Ext. Conn. + DSI_V3 + DSI_V3 SB ON VDD_LCD ST-LINK) 35 mA up to 100 => Up to 150 mA daughterboard connector SB ON => 0 mA 3V3_LCD To peripherals... -
Page 22: Power Source Selection
The USB ST-LINK CN5 connector can power the STM32U5x9J-DKx Discovery kits, but the host PC only provides 100 mA to the ST-LINK circuit until the end of USB enumeration. At the end of the USB enumeration, the STM32U5x9J-DKx Discovery kits require a 500 mA current from the host PC. -
Page 23: Chgr
Figure 19 shows 5 V DC power from CHGR on JP4, with a power source connected to USB ST-LINK (CN5) and without any current protection. Thus, if the Discovery kit is powered by a USB PC port, debug features are available, but with the risk of damaging the PC. -
Page 24: E5V
UM2967 Microcontroller power 9.2.4 Figure 21 shows the selection of 5 V DC power from E5V on JP4, with a power source connected to external 5V_VIN pin 1 (CN9) and GND pin 11 or 13 (CN9). Note that GND pins are also available on other pins of expansion connectors (CN9 and CN10). -
Page 25: Vdd_Mcu
UM2967 Microcontroller power A jumper is fitted on each header, but an ammeter can replace any jumper for easy IDD measurement. Refer to Figure 22 Table Figure 22. Jumpers default configuration (JP1, JP2, and JP3) Some solder bridges or serial resistors are available on boards to measure the current of some microcontroller and peripheral supply rails (refer to schematics for detailed possibilities). -
Page 26: Other Peripheral Power
UM2967 Other peripheral power VSSA/VREF- are connected to general ground VSS in one point of the design, thanks to a solder bridge. Other options are available. VREF+ is the STM32U5x9NJH6Q input reference voltage for ADCs and DACs. It is connected to VDDA (default setting). -
Page 27: Clock Sources
UM2967 Clock sources Clock sources The STM32U5x9J-DKx Discovery kits rely on an HSE oscillator (16 MHz crystal) and an LSE oscillator (32.768 kHz crystal) as clock references. Using the HSE (instead of HSI) is mandatory to manage the DSI interface for the LCD module and the USB high‑speed interface. -
Page 28: Boot Options
UM2967 Boot options Boot options Attention: The white side of the SW1 switch indicates the Boot0 value setting (default position white switch at the right indicates BOOT0 = 0), refer to Figure By default, the boot procedure is managed through the PH3/BOOT0 pin of the MCU (center pin of the BOOT0 SW1 switch). -
Page 29: Board Functions
UM2967 Board functions Board functions This section explains all the functions, peripherals, and interfaces of the board (refer to Section 1 Features, Section 7 Hardware layout and configuration, Figure 5, and Figure 6 STM32U5x9J-DKx top and bottom layout views. 12.1 2.47”... -
Page 30: Display And Dsi_V3 I/O Interface
UM2967 2.47” round TFT DSI LCD daughterboard and DSI_V3 connector 12.1.3 2.47” display and DSI_V3 I/O interface Table 9. 2.47” display and DSI_V3 I/O interface Configuration BL_CTRL (DSI_BL_CTRL) DSI_RESETn (DSI_RESETn) TOUCH_INT (DSI_TOUCH_INT) DSI_CKN CK_P (DSI.CK_P)–Polarity inversion on CN2 needs SW inversion on MCU. DSI_CKP CK_N (DSI.CK_N)–Polarity inversion on CN2 needs SW inversion on MCU. -
Page 31: Usb Type-C ® (High Speed, Sink Only)
® USB Type-C sink only Even if the Discovery kit is configured by default to behave as a self-powered USB device powered by USB ST- ® LINK connector CN5, the CN4 USB Type-C connector can power the Discovery main board with a 5 V power ®... -
Page 32: Usb 2.0 High-Speed Interface
UM2967 USB Type-C® (High Speed, sink only) ® Five I/Os are used to manage the USB Type-C connection: two configuration channels (CCx) connected on ADC inputs, a VBUS_SENSE on ADC input, a dead battery (UCPD.DBn), and a fault (UCPD.FLT) on GPIOs. •... -
Page 33: Hexadeca-Spi Psram Memory
UM2967 Hexadeca‑SPI PSRAM memory Configuration DBn (UCPD.DBn) ADC1 (UCPD.ADC1) - optionally used PF15 ADC2 (UCPD.ADC2) - optionally used PA12 HS_P (USBC.HS_P) PA11 HS_N (USBC.HS_N) VBUS_SENSE (VBUS_SENSE) PA15 CC1 (UCPD.CC1) - not used PB15 CC2 (UCPD.CC2) - not used 12.3 Hexadeca‑SPI PSRAM memory The 512‑Mbit PSRAM is managed through the Hexadeca‑SPI interface. -
Page 34: Octo-Spi Flash Memory
UM2967 Octo‑SPI flash memory 12.4 Octo‑SPI flash memory The 512‑Mbit NOR flash memory is managed through the Octo‑SPI interface. The NRST reset pin from the microcontroller manages the Octo‑SPI flash memory RESET function. Table 13. Octo‑SPI flash memory I/O interface Configuration NCS (OCTOSPIM_P1.NCS) DQS (OCTOSPIM_P1.DQS) -
Page 35: 20-Pin Audio Mems Connector
UM2967 20-pin audio MEMS connector The audio codec is driven through the I2C4 interface. An SAI 5-wire interface transfers audio PCM data. A dedicated GPIO (Audio_RSTn, PH2, active low) is used to reset the audio codec. Table 15. Audio codec I/O interface Configuration SDA (I2C4.SDA) SCL (I2C4.SCL) -
Page 36: Temperature Sensor
UM2967 Temperature sensor Figure 24. Class 1 laser product label Table 17. ToF sensor I/O interface Configuration SDA (I2C3.SDA) SCL (I2C3.SCL) PE14 TOF_LPN (ToF_LPN) TOF_INTN (ToF_INTN) 12.9 Temperature sensor The temperature sensor is managed with an I C shared with a ToF sensor, and an interrupt line. The interrupt line is mapped on a WKUP GPIO. -
Page 37: User Button Function
UM2967 User button function Some interfaces are not available by default, and others are exclusive to other onboard functions. Refer to Section 13.7 Expansion connectors (CN9 and CN10) for pin assignment details and limitations. Note: ADC4_IN6 and ADC4_IN7 functions of the expansion connector (CN10) are not connected by default because they are exclusive to UCPD.ADC1 and UCPD.ADC2 functions of USBC. -
Page 38: Buttons And Leds Function
USER_RED LED LED_RED, PE1 Lit when STLK overcurrent ST-LINK overcurrent LED (OVC) detected Red, green, or orange ST-LINK COM LED Lit according to ST-LINK status ® Lit when USB Type-C Green USBC power LED connected and V is powered from CN4 source 1. -
Page 39: Swd Debug/Program/Trace And Jtag/Usart
UM2967 SWD debug/program/trace and JTAG/USART 12.14 SWD debug/program/trace and JTAG/USART The SWD debug/program/trace interface is accessible through the STLINK-V3E USB connector (CN5) by default, ™ and the debug connector (CN11) or Tag‑Connect 10‑pin footprint (CN3) are other options. By default, access to SWO trace and JTAG is not functional and needs hardware modification. USART1 bootloader is accessible through STLINK-V3E by default. -
Page 40: Swd, Swo, Jtag, And Usart I/O Interface
Put the embedded STLINK-V3E in Reset mode: Move the TRNST jumper (JP5) on the STLK_NRST header (JP6), no data transfer is possible from USB ST-LINK. This allows the use of either CN11 or CN3 without the risk of signal conflict with STLINK-V3E on any interface. -
Page 41: Connectors
UM2967 Connectors Connectors Nine connectors are implemented on the STM32U5x9J-DKx products: • 20-pin audio MEMS connector (CN1) • DSI V3 connector for display module board (CN2) • TAG connector (CN3) ® • USB Type-C connector (CN4) • USB Micro-B (CN5) •... -
Page 42: Debug Connector (Cn11)
UM2967 Debug connector (CN11) ® Table 22 describes the connections of the USB Type-C connector (CN4). ® Table 22. USB Type-C receptacle connector (CN4) Description Signal assignment Description Signal assignment number number RX1_P TX1_P RX1_N TX1_N VBUS VBUSc VBUS VBUSc SBU2 UCPD_CC1_C USBC_CN_HS_N (PA11) -
Page 43: Stdc14 Debug Connector (Option)
Pins 1, 2, 13, and 14 belong to the STDC14 footprint and are not accessible with a MIPI10 compatible probe. 13.2.2 STDC14 debug connector (option) The STDC14 debug connector might be implemented, depending on supported tools, for easy interface with ST tools ecosystem. Figure 29. -
Page 44: Tag Connector (Cn3)
UM2967 TAG connector (CN3) 13.3 TAG connector (CN3) A Tag-connect™ 10-pin footprint is implemented on the top side of STM32U5x9J-DKx (on the border of the PCB). A 10-pin compatible cable can be used to connect to the STM32U5x9J-DKx Discovery kits. Attention: Before using CN3, check specific constraints in Section 12.14 SWD debug/program/trace and... -
Page 45: Dsi_V3 Display Board Connector (Cn2)
UM2967 DSI_V3 display board connector (CN2) 13.4 DSI_V3 display board connector (CN2) The 64-pin DSI V3 connector (CN2) supports DSI_V3 display add-on boards. Pin 61 to 64 (central pads for ground reference) are not accessible when an add-on board is plugged in. The mating connectors used on the MB1829 main board and the MB1835 LCD daughterboard are set to ensure a total height of 8 mm between boards. -
Page 46: Audio Jack (Not Used) (Cn6)
UM2967 Audio jack (not used) (CN6) Function GPIO Signal name Pin number (CN2) Signal name GPIO Function Touch panel I I2C5.SDA data Touch panel I SWIRE DSI_SWIRE I2C5.SCL clock Tearing effect PF11 DSI_TE DSI backlight DSI_BL_CTRL control output DSI and touch DSI_RESETn panel reset output 1V8_LCD... -
Page 47: Stlink-V3E Usb Micro-B Connector (Cn5)
UM2967 STLINK-V3E USB Micro-B connector (CN5) Table 27. Audio jack (CN6) pinout Pin number Description Audio jack mating pinning SPK_L (33 Ω typical, 16 Ω OUT_Left minimum) SPK_R (33 Ω typical, 16 Ω OUT_Right minimum) MIC_IN MIC (1.5 kΩ typical) 13.6 STLINK-V3E USB Micro-B connector (CN5) The USB connector (CN5) is used to interface with STLINK-V3E. -
Page 48: Expansion Connectors (Cn9 And Cn10)
UM2967 Expansion connectors (CN9 and CN10) 13.7 Expansion connectors (CN9 and CN10) Attention: Refer to Section 12.10 Expansion connectors for detailed electrical and functional constraints and refer to Section 7.3 Mechanical drawings for mechanical constraints. The two expansion connectors are described below: •... -
Page 49: Table 30. Connector Pinout (Bottom View) (Cn10)
UM2967 Expansion connectors (CN9 and CN10) Signal STM32 Signal STM32 name: MCU function name/ description description function marking marking ADC124_IN9 ADC124 PB10 USART3_TX PB10 USART3 ADC12_IN14 ADC12 PB11 USART3_RX PB11 USART3 ADC12_IN5 ADC12 USART3_SCLK USART3 ADC12_IN17 ADC12 1V8 supply (opt) I2C2_SCL I2C2 I2C2_SDA... -
Page 50: 20-Pin Audio Mems Connector (Cn1)
UM2967 20-pin audio MEMS connector (CN1) Signal STM32 Signal STM32 name: MCU function name/ description description function marking marking SAI1_MCLK SAI1 PG14 I2C1_SCL PG14 I2C1 Note: Pins 21 and 22 are free of use. 13.8 20-pin audio MEMS connector (CN1) Note: The 20-pin audio MEMS connector function is a differentiating feature, refer to Section 2 Ordering... -
Page 51: Jumpers And Solder Bridges
T_NRST (PA6) STLINK-V3E T_NRST output reset isolated from NRST of STM32U5x9NJ STLINK-V3E active STLINK-V3E detects a USB ST-LINK plug on CN5. Set STLINK-V3E in Reset mode (all I/Os in high STLINK-V3E Reset state impedance). There is no power from JP4 STLK. -
Page 52: Solder Bridges
UM2967 Solder bridges 14.2 Solder bridges The solder bridge functions and their default status are described in Table Table 33. Solder bridge configuration SB name Function Comment Status Connect VL_AUDIO to VDD VL_AUDIO connection Isolate VL_AUDIO from VDD Connect 1V8_AUDIO to 1V8 1V8_AUDIO connection Isolate 1V8_AUDIO from 1V8 Connect 1V8_AUDIO to VDD... - Page 53 UM2967 Solder bridges SB name Status Function Comment Connect SPI_MOSI to PD4 SPI_MOSI connection on SB19 Let SPI_MOSI floating Connect pin 19 to PD3 (SPI2_MISO) SB20 CN10 pin 19 connection Isolate pin 19 from PD3 (SPI2_MICO) Connect pin 17 to PB12 (SPI2_NSS) SB21 CN10 pin 17 connection Isolate pin 17 from PB12 (SPI2_NSS)
- Page 54 UM2967 Solder bridges SB name Status Function Comment SB39 VCC_eMMC connection Isolate VCC_eMMC from VDD UCPD.ADC2 connection to PB15 (needs SB46) UCPD.ADC2 connection SB40 to PB15 UCPD.ADC2 is not connected to PB15 Connect VCC_eMMC to 3V3 SB41 VCC_eMMC connection Isolate VCC_eMMC from 3V3 Connect PA15 to T.JTDI SB42 PA15 connection to T.JTDI...
- Page 55 UM2967 Solder bridges SB name Status Function Comment 3V3 is connected to AVDD_TOF_SENSOR. 3V3 connection to AVDD SB60 of ToF sensor 3V3 is disconnected from AVDD_TOF_SENSOR. GND is connected to TAG pin 5. GND connection to TAG SB61 connector pin 5 GND is disconnected from TAG pin 5.
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Page 56: Stm32U5X9Njh6Q Gpio And Pin Assignment
OP1/OP2 for OPAMP1/2 VINM pins). Note: In this table, “Exp. conn.” stands for Expansion connectors. Table 34. STM32U5x9NJH6Q GPIO and pin assignment Pin number of Main function STM32U5x9NJ Secondary Signal assignment expansion connector or pin name function (default) test point reference ADC12_IN5 Exp. - Page 57 UM2967 STM32U5x9NJH6Q GPIO and pin assignment Pin number of Main function STM32U5x9NJ Secondary Signal assignment expansion connector or pin name function (default) test point reference PB14 SDMMC2_D0 Exp. conn. SDMMC2 Pin 2 of CN9 PB15 SDMMC2_D1 Exp. conn. SDMMC2 UCPD.CC2 Pin 4 of CN9 OCTOSPIM_P1.IO7...
- Page 58 UM2967 STM32U5x9NJH6Q GPIO and pin assignment Pin number of Main function STM32U5x9NJ Secondary Signal assignment expansion connector or pin name function (default) test point reference SAI1 for audio codec and SAI1.FS_A SAI1_FS Pin 7 of CN10 Exp. conn. SAI1 for audio codec and SAI1.SCK_A...
- Page 59 UM2967 STM32U5x9NJH6Q GPIO and pin assignment Pin number of Main function STM32U5x9NJ Secondary Signal assignment expansion connector or pin name function (default) test point reference SPI3_SCK Exp. conn. SPI3 Pin 10 of CN10 PG10 SPI3_MISO Exp. conn. SPI3 Pin 12 of CN10...
- Page 60 UM2967 STM32U5x9NJH6Q GPIO and pin assignment Pin number of Main function STM32U5x9NJ Secondary Signal assignment expansion connector or pin name function (default) test point reference PI14 HEXASPI1.IO13 Hexadeca‑SPI PI15 HEXASPI1.IO14 Hexadeca‑SPI HEXASPI1.IO15 Hexadeca‑SPI PJ1 (free) PJ2 (free) TP18 PJ3 (free)
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Page 61: Stm32U5X9J-Dkx Product Information
B01. The second line shows the board serial number used for traceability. Parts marked as “ES” or “E” are not yet qualified and therefore not approved for use in production. ST is not responsible for any consequences resulting from such use. In no event will ST be liable for the customer using any of these engineering samples in production. -
Page 62: Stm32U5X9J-Dkx Product History
UM2967 STM32U5x9J-DKx product history 16.2 STM32U5x9J-DKx product history Table 35. Product history Order Product Product details Product change description Product limitations code identification MCU: • STM32U5A9NJH6Q silicon revision "C" MCU errata sheet: The STM32U5A9NJH6Q silicon revision "C" does not support the •... -
Page 63: Board Revision History
UM2967 Board revision history 16.3 Board revision history Table 36. Board revision history Board reference Board variant and revision Board change description Board limitations Initial revision with U5A9NJQ-B01 STM32U5A9NJH6Q microcontroller MB1829 (Main board) Initial revision with U5G9NJQ-B02 STM32U5G9NJH6Q microcontroller The C2 and C3 silkscreen are inverted by the PCB manufacturer MB1835 VDD1V8-B01... -
Page 64: Federal Communications Commission (Fcc) And Ised Canada Compliance
UM2967 Federal Communications Commission (FCC) and ISED Canada Compliance Statements Federal Communications Commission (FCC) and ISED Canada Compliance Statements 17.1 FCC Compliance Statement Part 15.19 This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. -
Page 65: Revision History
UM2967 Revision history Table 37. Document revision history Date Revision Changes 14-Feb-2023 Initial release. 13-Mar-2023 Cleaned official version with updated Figure 4 to Figure 10 and new Figure 25. 12-Jun-2023 New Figure 7, Figure 8, and DK32U5A9J$AT2 product identification in Table 35. Integrated the STM32U5G9J-DK1 Discovery kit in product references throughout the document. -
Page 66: Table Of Contents
UM2967 Contents Contents Features................2 Ordering information . - Page 67 UM2967 Contents Board functions ..............29 12.1 2.47”...
- Page 68 UM2967 Contents Jumpers and solder bridges ............51 14.1 Jumpers .
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Page 69: List Of Tables
UM2967 List of tables List of tables Table 1. List of available products............. . . 3 Table 2. -
Page 70: List Of Figures
UM2967 List of figures List of figures Figure 1. STM32U5G9J-DK1 top view............1 Figure 2. - Page 71 ST’s terms and conditions of sale in place at the time of order acknowledgment. Purchasers are solely responsible for the choice, selection, and use of ST products and ST assumes no liability for application assistance or the design of purchasers’...
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