Optimizing DC-DC converter stability: AC and transient analysis in simulations of source impedance effects
Learn how to optimize DC-DC converter stability through AC analysis in the frequency-domain and transient analysis in the time-domain
Classic solutions to IBA (Intermediate Bus Architecture) designed systems, the Vicor portfolio of
High power converters for all standard industry input voltages
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Powering innovation:
Input:
9 – 420V
Output:3.3, 5, 12, 13.8, 15, 24, 28, 36, 48V
Power:
2322 ChiP: Up to 120W
3623 ChiP: Up to 320W
4623 ChiP: Up to 600W
3414 VIA: Up to 320W
3714 VIA: Up to 600W
5614 VIA: Up to 1300W
Up to 96%
Powering innovation:
When high performance mattered, Delta Motorsport chose DCMs to power hybrid electric race cars.
Factorized power solutions
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Powering innovation:
Vicor Factorized Power Architecture is essential to propagating protective coral reefs as well as achieving breakthrough wireless broadband speeds.
The DC-DC converter that established the "brick" standard
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Input:
9 – 425V
Output:2 – 54V
Power:Up to 600W
Legacy DC-DC converters supporting traditional designs
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Input: 10 – 400VDC
Output: 2 – 95VDC
Power:
VI-200: 50 – 200W
VI-J00: 25 – 100W
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
Building a smarter ultra-wide DC-DC converter solution with multiple parts
One-size-fits-all typically simplifies situations. However, this approach does not deliver the best results when selecting an ultra-wide DC-DC power supply
Innovating power delivery networks
Vicor is innovating with power delivery networks. Improving end-system performance requires innovative power technologies
Build small, lighter power systems by eliminating bulk capacitance
Vicor's Factorized Power Architecture™ (FPA) delivers significant reductions in both size and weight