Vicor live webinar – Maximum load: the wrong specification for pulsed power
Vicor live webinar – Maximum load: the wrong specification for pulsed power
Summary:
Learn how power averaging can significantly reduce the cost and size of power systems for pulsed loads.
Date: September 27, 2016
Register for “Maximum Load: the Wrong Specification for Pulsed Power”
Specifying power systems to meet the peak requirement of a pulsed load is expensive, and results in unnecessarily large and heavy power supplies. Attend this webinar to find out how Vicor power components allow developers to use power averaging to significantly reduce the cost and size of power systems for pulsed loads.
Two live events. Sign up today!
- Tuesday, 27 September at 8am Eastern, 1pm UK, 2pm Munich, 5:30pm India
- Tuesday, 27 September at 11am Eastern, 8am Pacific, 4pm UK, 5pm Munich
Dave Berry, Principal Applications Engineer, Vicor, talks about:
- Why conventional power supplies must be sized to meet peak power requirements
- What is power averaging, and the benefits it delivers
- How to implement power averaging techniques
- Power components that support power averaging
Who Should Attend?
Anyone designing power systems for pulsed or intermittent loads will benefit from learning how they can optimize their designs using power averaging techniques.
There is no charge to attend, but you must register in advance. If you are unable to attend, please do sign up anyway, and we will send you details of how to access the recording of the presentation when it is available
Vicor Webinar Series
Learn more about current trends and topics
- On Demand A Process for Designing High Performance AC – DC Power Systems, Presenter: Paul Yeaman, Director, Vicor Applications Engineering
- On Demand Enabling Bi-Directional Energy Flow Using DC Power Transformers Webinar, Presenter: Harry Vig, Vicor Principal Systems Application Engineer
- 3-Nov Thermal Considerations and Thermal Simulation tools
About Vicor Corporation
Vicor Corporation designs, develops, manufactures and markets modular power components and complete power systems based upon a portfolio of patented technologies. Headquartered in Andover, Massachusetts, Vicor sells its products to the power systems market, including enterprise and high performance computing, industrial equipment and automation, telecommunications and network infrastructure, vehicles and transportation, aerospace and defense. www.vicorpower.com
Power Component Design Methodology
Vicor’s Power Component Design Methodology enables power system designers to reap all of the benefits of modular power component design – predictable component and system functionality and reliability, fast design cycles, and easy system configurability, re-configurability and scaling – while achieving system operating efficiency, power density and economy that rival the best alternative solutions. Utilizing Vicor’s Power System Designer, engineers can select from an extensive portfolio of proven Vicor power components to architect, optimize and simulate their complete power system, all the way from their input sources to their points of load. This innovative approach to power system design delivers fast time-to-market and state-of-the-art performance while minimizing the possibility of last minute surprises and delays that so often occur with conventional or custom design methodologies.
Vicor is a trademark of Vicor Corporation.