The future of standardized defense platforms using MOSA, SOSA and VPX open architectures
The future of standardized defense platforms using MOSA, SOSA and VPX open architectures
An easy solution for generating complete power systems
Start your next design
Just enter a few specs to design your next power system
Just enter a few specs to design your next power system
Designing your power system in a single location — up to 75% faster than traditional methods — is as easy as entering your input and output power as well as your basic system requirements. The Power System Designer is one of the Vicor web-based tools that makes it easy for you to build flexible, efficient and cost-effective power systems that get you to market faster.
Advantages of using the Power System Designer
Advantages of using the Power System Designer
Easy to use by both novice and expert engineers
Meet project schedules quicker and easier
Achieve power system performance without trial and error
Mitigate risk of power spec changes
A single tool to design a power system in under two minutes
Instant performance analysis for each recommended solution
Access an infinite number of products and technical specs
Evaluate power chains both electrically and mechanically
Prioritize solutions by efficiency, component count, cost, footprint and recommended best fit
Save, export and share a final BOM or power system easily
Start your next design
Power System Designer
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Output
Min output:
Minimum output:
Nom output:
Nominal output:
Max output:
Maximum output:
Resources
Resources for the design engineer
Delivering higher power density and low noise for New Space applications
Patented power design techniques and architectures needed to deliver optimal power and low noise for space communications applications
Spaceships high current transponder powers on-orbit AI-driven communication
Smaller satellites with sophisticated computational capabilities is in demand. Learn how low-noise, AI-enabled power is driving creative new applications
Current multipliers: The obvious choice for powering AI processors and other demanding applications
AI processors need to handle low-voltage, high-current demand, which can cause power system bottlenecks. Learn how current multiplication can change that