At 10:00 AM CET, the session will start with STMicroelectronics:

10:00 - 10:40 AM CET

- Overview of the power features of GaN that make it ideal to work at very high frequencies with low losses

- GaN in some power converters topologies (ACF, LLC, totem-pole PFC), with a focus on LLC resonant converters

At 10:40 AM CET, Würth Elektronik will explain:

10:40 - 11:20 AM CET

- How to select the correct transformer in power conversion application

- Transformers for LLC resonant converters with GaN

11:20 - 11:30 AM CET: Question & Answers

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

Speakers

About the STM32 Nucleo-64 development board

The STM32 Nucleo-64 development board 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 provided by the STM32 microcontroller. For compatible boards, the external SMPS significantly reduces power consumption in Run mode.

The ARDUINO® Uno V3 connectivity support and ST morpho headers allow easy expansion of the functionality of the STM32 Nucleo open development platform with a wide choice of specialized shields.

The STM32 Nucleo-64 board does not require a separate probe, as it integrates the ST-LINK debugger/programmer. It comes with STM32 comprehensive free software libraries and examples available with the STM32Cube MCU package.