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
Solving the toughest power delivery challenges
Solving the toughest power delivery challenges
To enable the highest performance in hyperscale data centers, we are changing the way GPU and AI processors are powered with our factorized power on package architecture. When board real estate and system weight is a business and engineering obstacle, we redefine the power density limitations of 3-phase AC, HVDC and 48V power distribution solutions, in automotive, industrial and defense markets. Solving the toughest power delivery challenges and enabling a competitive advantage for our customers can only be achieved if we stay on the forefront of power architectures, conversion topologies and packaging technology. Learn more about our modular approach to power.
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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
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
15 technical challenges to consider and conquer when designing a 48V power delivery network
To help better prepare for your 48V migration, consider the following 15 challenges as you embark on your first 48V designs