Keys to develop high voltage industrial power supplies

Join the free online seminar series co-hosted by ST and Würth Elektronik to learn how to design a very high voltage power supply for industrial markets.
 

► Session 1 - Tuesday 24th November, 2020
► Session 2 - Thursday 26th November, 2020
► Session 3 - Tuesday 1st December, 2020

 

Register now

Several industrial applications require an input voltage that exceeds the standard 230 VAC. Typical use cases include systems connected to 3-phase mains voltage, where the control electronics are supplied by a phase-to-phase voltage, as well as industrial motors, online UPS or solar inverters where the auxiliary power supply is connected to a very high voltage DC voltage bus.

The performance and robustness of auxiliary power supplies can sometimes be impaired by the high input voltage required to run the application. In this online seminar series, we show you how to ensure that auxiliary power supplies are robust and power-efficient enough to deal with high input voltages.

Who should attend?

Designers who want to develop their own auxiliary power supply for industrial systems requiring up to 440VAC or 600VDC.

Benefits you will take away

  • Learn how to select the best semiconductor and passive components to design a robust very high voltage power supply.
  • Identify what contributes to power losses in your supply, in order to optimize its efficiency.
  • Practical examples with real measurements carried out on a very high voltage auxiliary power supply.


Registration information

To participate in this free online event, simply register on my.st.com.

Register now

Online seminar dates and agenda

This online seminar will be held in English language.

Session 1
Tuesday 24th November, 2020

Time: 14:00 - 15:30 CET

ST: Where & how to design very high voltage auxiliary power supplies

- MOSFETs & rectifier requirements
- Tips and tricks on high-voltage start-up
- 10W & 100W examples

Würth Elektronik: Basic principles of a transformer

- Operating principle & usage
- Ideal relationship between primary and secondary windings
- Dot convention and winding direction
- Relationship between inductance (mutual and leakage), airgap and energy storage
- Transformer vs coupled inductor
- Insulation

Session 2
Thursday 26th November, 2020 

Time: 14:00 - 15:30 CET

ST: Design optimization

- How very high-voltage impacts over-current protections & switching losses
- How to improve efficiency: synchronous rectification vs. rectifiers at the secondary side

Würth Elektronik: Power transformer selection

- Key parameters of transformers that influence design
- Tranformer selection process: how to find the right solution for each auxiliary power supply project

Session 3
Tuesday 1st December, 2020

Time: 14:00 - 15:30 CET

ST: 10W & 100W boards - video with measurements 

Würth Elektronik: How to optimize feedback with optocoupler

- Basic principles of optocoupler
- Key parameters
- Optocoupler from an efficiency point of view


 

Speakers

Ester Spitale, Technical Marketing Manager at ST

Ester holds an MSc degree in Electronic Engineering (2004) and a Ph.D. in Electrical Engineering from the University of Catania (2009). She joined STMicroelectronics in 2005. After 6 years specializing in the design of analog controllers for SMPS, she has now been working in technical marketing for the EMEA region for more than 8 years, covering analog and power, with a focus on power conversion ICs.
   
Jiri Smutka, Senior Application Engineer at ST

Jiri was awarded a Master's degree from the Faculty of Electrical Engineering of the Czech Technical University in 1996 and now has 20 years’ experience in SMPS design. He has been working for STMicroelectronics Application Center in Prague for 16 years. Besides providing technical support to European customers in SMPS design, Jiri participates in the development of reference designs with ST products and works with marketing teams and Product Groups to create new products.
   
Mohamed AlAlami, Senior Field Applications Engineer at Würth Elektronik

Mohamed comes from a power supply design and development background. He worked in the Aerospace Industry for 10 years designing power supplies on various civilian and military projects. In addition, he was responsible for EMC testing, filter design and compliance. In the past 5 years before joining Wurth Electronics, he taught a variety of subjects at University towards a BTEC degree in electronics engineering. He joined Wurth in April 2015 as a Field Applications Engineer responsible for the South of England, Wales and Ireland.


 

Würth Elektronik eiSos, manufacturer of electronic and electromechanical components, is
an ST Authorized Partner. Know more

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