2024-06-04 07:27 AM
STM32U0 is the first Cortex-M0+ with a static consumption of only 160 nA in standby mode with RTC (Real-Time Clock) and 16 nA in shutdown. It also achieves 118 points in CoreMark and targets SESIP level 3 and PSA level 1 focusing on firmware code protection, making it one of the most capable MCUs in the ultra-low-power segment. This is possible because the STM32U0 adopts many features we’ve been implementing in other devices while reusing a 90-nm process node that offers exceptional yields.
Consequently, the STM32U0 achieves one of the best static consumption at this price point, granting engineers more freedom to optimize their design for entry-level battery-powered applications in industrial, medical, smart metering, and consumer wellness markets.
STM32 software and hardware tools available:
For more information:
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2024-07-10 06:39 PM
Cool, nicely reduced power consumption, well done.
But what about an MCU which can run with 1.2V?
I am looking for a MCU which has almost all pins (at least SPI/I2C/QSPI) as 1.2V VDDIO.
Reducing the power consumption is not "just" using an ARM Cortex M0/M0+ and lowering the core clock: it is also to consider going down on VDDIO (and run entire system with 1.2V).
When will you have a MCU supporting 1.2V systems?
(many external chips out there for 1.2V volt, just the MCU needs still level shifters... and burning power on the system board at the end - "think about systems" (not just the MCU itself).
2024-07-15 04:28 PM
STM has pretty cool MCUs in portfolio.
I have checked today: STM32H5x with 1.2V GPIOs:
It turns out, on this MCU I have VDDIO2 and some GPIO pins for 1V2 and below, so that I can run:
with 1.2V volt. Cool!
Just QSPI with 1.2V is missing.
Dear STM team:
it would be great if the regular VDDIO could also go down to 1.2V. The MCU core runs away already at 1.1V.
Having the option to use QSPI as well on a 1.2V VDDIO(2) would be great: Map the QSPI ALT functions to the GPIO pins with VDDIO2, instead of SDMMC.
Great MCUs provided by STM.
2024-09-10 05:08 AM
Why not upgrading to Cortex-M23 ? Cortex-M0+ feels a tad outdated, no support for atomics, no hardware divide. It feels like a missed opportunity.
2024-09-15 11:44 AM
This is advertisment, and i think it should not be in the forum. Id rather have better documentation, than new products!
2024-09-18 06:41 AM
Hi @Tobe ,
Yes this post was used to announce the new product.
Now that we have the Developer News section, announcements of new products will be done there.
Regarding the documentation improvements: we are in a continuous process to improve our offer. Starting from June 2024, we published 3 documentation updates articles:
This is said, if you have any documentation related feedback, please explain it in a separate thread. That will help us to be aware of possible limitations.
-Amel
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2024-09-24 05:13 AM
Hello,
Yes this feature (VDDIO2 with IOs going down to 1.08V) is also available on STM32L4 and STM32U5.
Bertrand
2024-10-19 02:16 PM
It’s bad that these microcontrollers do not have a CAN bus.
2024-12-03 06:42 AM
Hi @Amel NASRI,
Thanks for sharing the info here. I'm really interested in low power MCUs. I do have one question: where can I find information about the startup current draw of this part? The datasheet has very good documentation on the supply current requirements in each low-power modes (6.3.5 Supply current characteristics). But on an energy-harvesting system, the startup current might also be limited. On my STM32L0 based designs, I noticed that the startup current was an order of magnitude higher than when running in low-power mode. Is this also the case on the new STM32U0? Is that documented anywhere?
Thanks!
Javier