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Interested? Register now! (keep 1 of 2)

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Agenda

09:00 - 09:30

STM32U0 series introduction (30mins)

09:30 - 10:00

First hands-on section (20mins)

- Ready to use ULP mode examples

Break (10mins)

10:00 - 10:10

Hands-on demo (5-10mins)

10:10 - 11:40

Second hands-on section - practical ULP application example of BUS system (90mins)

- Step-by-step guide on using HAL/LL/BSP libraries to manage BUS system
- Utilizing DMA, LPTIM, Comparator, and Glass LCD in low-power conditions
- Verify consumption using STM32CubeMonitor-PWR

11:40 - 12:00

Q&A (20mins)

 

Dates of workshop:

Date

Language

Registration status


June 20, 2024

English

Registration closed

June 27, 2024

Italian

Registration closed

July 2, 2024

German

Registration closed

September 12, 2024

French

September 26, 2024

English


Afternoon session: BLDC motors with STSPIN32F0

12:30 - 1:30

BLDC theory and fundamentals

# pole pairs

What makes FOC work (donkey and carrot example)

Sensoriess vs. Sensored feedback control

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

Afternoon session: BLDC motors with STSPIN32F0

12:30 - 1:30

BLDC theory and fundamentals

# pole pairs

What makes FOC work (donkey and carrot example)

Sensoriess vs. Sensored feedback control

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

Afternoon session: BLDC motors with STSPIN32F0

12:30 - 1:30

BLDC theory and fundamentals

# pole pairs

What makes FOC work (donkey and carrot example)

Sensoriess vs. Sensored feedback control

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

Afternoon session: BLDC motors with STSPIN32F0

12:30 - 1:30

BLDC theory and fundamentals

# pole pairs

What makes FOC work (donkey and carrot example)

Sensoriess vs. Sensored feedback control

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

Afternoon session: BLDC motors with STSPIN32F0

12:30 - 1:30

BLDC theory and fundamentals

# pole pairs

What makes FOC work (donkey and carrot example)

Sensoriess vs. Sensored feedback control

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

Afternoon session: BLDC motors with STSPIN32F0

12:30 - 1:30

BLDC theory and fundamentals

# pole pairs

What makes FOC work (donkey and carrot example)

Sensoriess vs. Sensored feedback control

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

Afternoon session: BLDC motors with STSPIN32F0

12:30 - 1:30

BLDC theory and fundamentals

# pole pairs

What makes FOC work (donkey and carrot example)

Sensoriess vs. Sensored feedback control

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive

3:00 - 4:30

Implementing a FOC drive


Product information:

The STM32U0 is the latest generation of entry level ultra-low power MCUs. By incorporating best-in-class static consumption and multiple ultra-low-power modes, the STM32U0 series offers significant energy savings and a longer usage life.

The series is based on the Arm Cortex®-M0+ core running up to 56 MHz and targets SESIP Level 3, PSA-Certified Level 1, and NIST certifications.


Speakers