Nucleo U5A5ZJ Q
Overview
The Nucleo U5A5ZJ Q board, featuring an ARM Cortex-M33 based STM32U5A5ZJ MCU, provides an affordable and flexible way for users to try out new concepts and build prototypes by choosing from the various combinations of performance and power consumption features. Here are some highlights of the Nucleo U5A5ZJ Q board:
STM32U5A5ZJ microcontroller in LQFP144 package
Internal SMPS to generate V core logic supply
Two types of extension resources:
Arduino Uno V3 connectivity
ST morpho extension pin headers for full access to all STM32 I/Os
On-board ST-LINK/V3E debugger/programmer
Flexible board power supply:
USB VBUS or external source(3.3V, 5V, 7 - 12V)
ST-Link V3E
Three users LEDs
Two push-buttons: USER and RESET
USB Type-C ™ Sink device FS
Hardware
The STM32U5A5xx devices are an ultra-low-power microcontrollers family (STM32U5 Series) based on the high-performance Arm® Cortex®-M33 32-bit RISC core. They operate at a frequency of up to 160 MHz.
Includes ST state-of-the-art patented technology
Ultra-low-power with FlexPowerControl:
1.71 V to 3.6 V power supply
-40 °C to +85/125 °C temperature range
Low-power background autonomous mode (LPBAM): autonomous peripherals with DMA, functional down to Stop 2 mode
VBAT mode: supply for RTC, 32 x 32-bit backup registers and 2-Kbyte backup SRAM
150 nA Shutdown mode (24 wake-up pins)
195 nA Standby mode (24 wake-up pins)
480 nA Standby mode with RTC
2 µA Stop 3 mode with 40-Kbyte SRAM
8.2 µA Stop 3 mode with 2.5-Mbyte SRAM
4.65 µA Stop 2 mode with 40-Kbyte SRAM
17.5 µA Stop 2 mode with 2.5-Mbyte SRAM
18.5 µA/MHz Run mode at 3.3 V
Core:
Arm® 32-bit Cortex®-M33 CPU with TrustZone®, MPU, DSP, and FPU ART Accelerator
32-Kbyte ICACHE allowing 0-wait-state execution from flash and external memories: frequency up to 160 MHz, 240 DMIPS
16-Kbyte DCACHE1 for external memories
Power management:
Embedded regulator (LDO) and SMPSstep-down converter supporting switch on-the-fly and voltage scaling
Benchmarks:
1.5 DMIPS/MHz (Drystone 2.1)
655 CoreMark® (4.09 CoreMark®/MHz)
369 ULPMark™-CP
89 ULPMark™-PP
47.2 ULPMark™-CM
120000 SecureMark™-TLS
Memories:
4-Mbyte flash memory with ECC, 2 banks readwhile-write, including 512 Kbytes with 100 kcycles
With SRAM3 ECC off: 2514-Kbyte RAM including 66 Kbytes with ECC
With SRAM3 ECC on: 2450-Kbyte RAMincluding 322 Kbytes with ECC
External memory interface supporting SRAM,PSRAM, NOR, NAND, and FRAM memories
2 Octo-SPI memory interfaces
16-bit HSPI memory interface up to 160 MHz
Rich graphic features:
Neo-Chrom GPU (GPU2D) accelerating any angle rotation, scaling, and perspective correct texture mapping
16-Kbyte DCACHE2
Chrom-ART Accelerator (DMA2D) for smoothmotion and transparency effects
Chrom-GRC (GFXMMU) allowing up to 20 % of graphic resources optimization
MIPI® DSI host controller with two DSI lanes running at up to 500 Mbit/s each
LCD-TFT controller (LTDC)
Digital camera interface
General-purpose input/outputs:
Up to 156 fast I/Os with interrupt capability most 5V-tolerant and up to 14 I/Os with independent supply down to 1.08 V
Clock management:
4 to 50 MHz crystal oscillator
32 kHz crystal oscillator for RTC (LSE)
Internal 16 MHz factory-trimmed RC (± 1 %)
Internal low-power 32 kHz RC (± 5 %)
2 internal multispeed 100 kHz to 48 MHz oscillators, including one autotrimmed by LSE (better than ± 0.25 % accuracy)
Internal 48 MHz
5 PLLs for system clock, USB, audio, ADC, DSI
Security and cryptography:
SESIP3 and PSA Level 3 Certified Assurance Target
Arm® TrustZone® and securable I/Os, memories, and peripherals
Flexible life cycle scheme with RDP andpassword-protected debug
Root of trust thanks to unique boot entry and secure hide-protection area (HDP)
Secure firmware installation (SFI) thanks to embedded root secure services (RSS)
Secure data storage with hardware unique key (HUK)
Secure firmware upgrade support with TF-M
2 AES coprocessors including one with DPA resistance
Public key accelerator, DPA resistant
On-the-fly decryption of Octo-SPI external memories
HASH hardware accelerator
True random number generator, NIST SP800-90B compliant
96-bit unique ID
512-byte OTP (one-time programmable)
Active tampers
Up to 17 timers, 2 watchdogs and RTC:
19 timers: 2 16-bit advanced motor-control, 4 32-bit, 3 16-bit general purpose, 2 16-bit basic, 4 low-power 16-bit (available in Stop mode), 2 SysTick timers, and 2 watchdogs
RTC with hardware calendar, alarms, and calibration
Up to 25 communication peripherals:
1 USB Type-C®/USB power delivery controller
1 USB OTG high-speed with embedded PHY
2 SAIs (serial audio interface)
6 I2C FM+(1 Mbit/s), SMBus/PMBus™
7 USARTs (ISO 7816, LIN, IrDA, modem)
3 SPIs (6x SPIs with OCTOSPI/HSPI)
1 CAN FD controller
2 SDMMC interfaces
1 multifunction digital filter (6 filters) + 1 audio digital filter with sound-activity detection
Parallel synchronous slave interface
Mathematical coprocessor:
CORDIC for trigonometric functions acceleration
FMAC (filter mathematical accelerator)
Rich analog peripherals (independent supply):
2 14-bit ADC 2.5-Msps with hardware oversampling
1 12-bit ADC 2.5-Msps, with hardware oversampling, autonomous in Stop 2 mode
12-bit DAC (2 channels), low-power sample, and hold, autonomous in Stop 2 mode
2 operational amplifiers with built-in PGA
2 ultra-low-power comparators
ECOPACK2 compliant packages
More information about STM32U5A5ZJ can be found here:
Supported Features
The Zephyr nucleo_u5a5zj_q board configuration supports the following hardware features:
Interface |
Controller |
Driver/Component |
---|---|---|
CAN/CANFD |
on-chip |
canbus |
CLOCK |
on-chip |
reset and clock control |
DAC |
on-chip |
DAC Controller |
GPIO |
on-chip |
gpio |
I2C |
on-chip |
i2c |
NVIC |
on-chip |
nested vector interrupt controller |
PINMUX |
on-chip |
pinmux |
SPI |
on-chip |
spi |
UART |
on-chip |
serial port-polling; serial port-interrupt |
WATCHDOG |
on-chip |
independent watchdog |
BKP SRAM |
on-chip |
Backup SRAM |
RNG |
on-chip |
True Random number generator |
RTC |
on-chip |
rtc |
Other hardware features are not yet supported on this Zephyr port.
The default configuration can be found in the defconfig file: boards/st/nucleo_u5a5zj_q/nucleo_u5a5zj_q_defconfig
Connections and IOs
Nucleo U5A5ZJ Q Board has 10 GPIO controllers. These controllers are responsible for pin muxing, input/output, pull-up, etc.
For more details please refer to STM32 Nucleo-144 board User Manual.
Default Zephyr Peripheral Mapping:
CAN/CANFD_TX: PD1
CAN/CANFD_RX: PD0
DAC1_OUT1 : PA4
I2C_1_SCL : PB8
I2C_1_SDA : PB9
I2C_2_SCL : PF1
I2C_2_SDA : PF0
LD1 : PC7
LD2 : PB7
LD3 : PG2
LPUART_1_TX : PG7
LPUART_1_RX : PG8
SPI_1_NSS : PA4
SPI_1_SCK : PA5
SPI_1_MISO : PA6
SPI_1_MOSI : PA7
UART_1_TX : PA9
UART_1_RX : PA10
UART_2_TX : PD5
UART_2_RX : PD6
USER_PB : PC13
System Clock
Nucleo U5A5ZJ Q System Clock could be driven by internal or external oscillator, as well as main PLL clock. By default System clock is driven by PLL clock at 160MHz, driven by 4MHz medium speed internal oscillator.
Serial Port
Nucleo U5A5ZJ Q board has 6 U(S)ARTs. The Zephyr console output is assigned to USART1. Default settings are 115200 8N1.
Backup SRAM
In order to test backup SRAM you may want to disconnect VBAT from VDD. You can
do it by removing SB50
jumper on the back side of the board.
Programming and Debugging
Nucleo U5A5ZJ-Q board includes an ST-LINK/V3 embedded debug tool interface. This probe allows to flash the board using various tools.
Flashing
The board is configured to be flashed using west STM32CubeProgrammer runner, so its installation is required.
Alternatively, OpenOCD, JLink, or pyOCD can also be used to flash the board using
the --runner
(or -r
) option:
$ west flash --runner openocd
$ west flash --runner jlink
$ west flash --runner pyocd
For pyOCD, additional target information needs to be installed. This can be done by executing the following commands.
$ pyocd pack --update
$ pyocd pack --install stm32u5
Flashing an application to Nucleo U5A5ZJ Q
Connect the Nucleo U5A5ZJ Q to your host computer using the USB port. Then build and flash an application. Here is an example for the Hello World application.
Run a serial host program to connect with your Nucleo board:
$ minicom -D /dev/ttyACM0
Then build and flash the application.
# From the root of the zephyr repository
west build -b nucleo_u5a5zj_q samples/hello_world
west flash
You should see the following message on the console:
Hello World! arm
Debugging
Default flasher for this board is openocd. It could be used in the usual way. Here is an example for the Blinky application.
# From the root of the zephyr repository
west build -b nucleo_u5a5zj_q samples/basic/blinky
west debug
Note: Check the build/tfm
directory to ensure that the commands required by these scripts
(readlink
, etc.) are available on your system. Please also check STM32_Programmer_CLI
(which is used for initialization) is available in the PATH.