High-voltage DC distribution is key to increased system efficiency and renewable-energy opportunities
A transition to 400 VDC in power distribution and conversion will help meet greenhouse gas, efficiency, and renewable-energy goals.
The pressure throughout the energy supply chain to deliver electrical power more efficiently is intense and growing. Most dramatically, the European Union's response to the Copenhagen Accord puts forth a '20-20-20' Energy Strategy, with goals of a 20% reduction in energy consumption, a 20% reduction in greenhouse gases, and 20% reliance on power from renewable resources by 2020.
Download this whitepaper to learn more.
Read More
By submitting this form you agree to Vicor Corporation contacting you with marketing-related emails or by telephone. You may unsubscribe at any time. Vicor Corporation web sites and communications are subject to their Privacy Notice.
By requesting this resource you agree to our terms of use. All data is protected by our Privacy Notice. If you have any further questions please email dataprotection@techpublishhub.com
Related Categories: Automotive, Batteries, Communication, Components, Connectors, Industrial, Power, Semiconductors, Transformers
More resources from Vicor Corporation
High Current, Low Voltage Solution For Microprocessor Applications from 48V Input
A novel approach for providing microprocessor power directly from 48V is proposed. This solution enables high voltage, low current to be distribute...
The Sine Amplitude Converter Topology Provides Superior Efficiency and Power Density in Intermediate Bus Architecture Applications
The Sine Amplitude Converter topology is the dynamic, high- performance engine at the heart of Vicor's new VI Brick Bus Converter products.
T...
The PI33XX: Zero-Voltage Switching Applied to Buck Regulation
The Picor PI33XX Cool-Power® ZVS Buck Regulator Series delivers maximum power density and high effi ciency point of load DC-DC regulation. This un...
