WHITEPAPER
Cheap, Efficient
& Reliable - New Power Design from onsemi and Avnet
WHITEPAPER
Cheap, Efficient & Reliable - New Power Design from onsemi and Avnet
Summary
Discover the transformative potential of silicon carbide (SiC) in power systems through this insightful whitepaper.
Uncover with onsemi & Avnet:
- The role SiC plays in optimizing efficiency and reducing costs, particularly in high-power applications like automotive drivetrains and solar power.
- Explore the latest advancements in SiC MOSFET technology, such as onsemi's EliteSiC MOSFETs, and learn how they contribute to enhanced system efficiency and reduced electromagnetic interference.
- Challenge preconceptions about the cost of SiC-based designs by understanding how their superior performance leads to significant reductions in passive component size and thermal management costs.
Dive into this whitepaper to unlock the possibilities of SiC for achieving higher levels of performance at a lower total cost in power system design.
Summary
Discover the transformative potential of silicon carbide (SiC) in power systems through this insightful whitepaper.
Uncover with onsemi & Avnet:
- The role SiC plays in optimizing efficiency and reducing costs, particularly in high-power applications like automotive drivetrains and solar power.
- Explore the latest advancements in SiC MOSFET technology, such as onsemi's EliteSiC MOSFETs, and learn how they contribute to enhanced system efficiency and reduced electromagnetic interference.
- Challenge preconceptions about the cost of SiC-based designs by understanding how their superior performance leads to significant reductions in passive component size and thermal management costs.
Dive into this whitepaper to unlock the possibilities of SiC for achieving higher levels of performance at a lower total cost in power system design.
Semiconductor Losses
One of the greatest factors in determining the efficiency of an inverter or a power stage.
Thermal Management Implications
Ensuring that the temperature rise does not restrict operation or even lead to component failure requires thermal management within the design.
Total Cost of SiC−based Power Systems
SiC devices outperform by reducing component size and thermal management costs. This challenges the notion that SiC designs are more expensive, proving them to be more efficient and cost-effective.
Semiconductor Losses
One of the greatest factors in determining the efficiency of an inverter or a power stage.
Thermal Management Implications
Ensuring that the temperature rise does not restrict operation or even lead to component failure requires thermal management within the design.
Total Cost of SiC−based Power Systems
SiC devices outperform by reducing component size and thermal management costs. This challenges the notion that SiC designs are more expensive, proving them to be more efficient and cost-effective.
Dive into this whitepaper to unlock the possibilities of SiC for achieving higher levels of performance at a lower total cost in power system design.
© 2023 Avnet. All rights reserved.
© 2023 Avnet. All rights reserved.