Agenda

  • STM32Cube ecosystem overview & STM32U5 MCU series overview
  • New features of STM32CubeIDE and STM32CubeMX for the STM32U5 MCU series

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Workshop agenda

Time

Content

8:00 - 9:00

Registration and system check for pre-installed tools

Morning session: Stepper motors with STSPIN820 / POWERSTEP01

9:00 - 10:00

Stepper motor fundaments

Theory: What makes a stepper turn?

Voltage and current mode drive

Limitations,speed/torque,ect

9:00 - 10:00

Stepper motor fundaments

Theory: What makes a stepper turn?

Voltage and current mode drive

Limitations,speed/torque,ect

11:30 - 12:30

Lunch

11:30 - 12:30

Lunch

11:30 - 12:30

Lunch

11:30 - 12:30

Lunch

10:00 - 11:30

STSPIN820 or POWERSTEP01

Using the GUI to evaluate motor operation

Configuring motor control parameters with the GUI

Implementing a drive based on the firmware pack

10:00 - 11:30

STSPIN820 or POWERSTEP01

Using the GUI to evaluate motor operation

Configuring motor control parameters with the GUI

Implementing a drive based on the firmware pack

9:00 - 10:00

Stepper motor fundaments

Theory: What makes a stepper turn?

Voltage and current mode drive

Limitations,speed/torque,ect

11:30 - 12:30

Lunch

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

1:30 - 3:00

Implementing a 6-step 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

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

Product details

STMicroelectronics' High Power Thermal Management Solutions
ST’s Motor Control Competence Center provides the 10kW compressor drive solution, combined with three-phase Vienna PFC, AI predictive maintenance, and KNX integration, delivering robust cooling solutions for various applications. Additionally, ST also offers 7kW (triple FOC and interleaved PFC), 4kW (dual FOC and interleaved PFC), and 2kW RAC solutions, ensuring efficient and reliable cooling to fulfill different customer needs.

STM32G4 masters all these platforms: for the most complex (10kW with Vienna PFC and FOC motor drive), the CPU load hovers at about 60% only, thanks to its math coprocessors and data management architecture advantage. ST Motor Control Competence Center can flexibly meet the diverse power equipment needs of customers by providing a wealth of solutions.

ST's SiC technology focuses on higher power levels, efficiency, and reliability in terms of Rdson, dynamic performance, and Tj.

ST's IGBT technology, and the SLLIMM (Small Low-Loss intelligent molded module) family of compact, high-efficiency, dual in-line intelligent power modules (IPM) with optional extra features for addressing the needs of energy saving, compactness, and reliability as well as lower system costs

ST offers the STGAP series of isolated gate drivers for MOSFET, IGBT, SIC, that provide galvanic isolation between the input section, which connects to the control part of the system, and the power device.

Advanced packaging supply application assembly request like isolation, thermal and reliability. ACEPAK SMIT with Vienna topology and Half bridge topology.

Best silicon, SiC technology paired with advanced packaging, enables HVAC systems excel efficiency, thermal and reliability and accept by many customers.