How to simplify switch-mode DC-DC converter design
By Michael G. Laflin, Enpirion, Inc.
September 27, 2006
Here are the tradeoffs of DC-DC converter design and what you can do to simplify your design.
The design trade-offs that must be addressed during the design of a DC-DC converter circuit are simplified by integrating the inductor into the power management device. This article focuses on the design issues that are simplified by including an integrated inductor optimized for a range of electrical and layout applications as part of the power management solution. The inductor design is considered particularly troublesome since its design can affect performance relative to efficiency, stability and EMI requirements as well as dictate circuit layout and overall footprint. Finally, integration of the inductor guarantees system performance that yields a more turn-key experience for system developers.
That Troublesome Inductor
DC-DC converter design has often been called an art more than a science. One key reason for this is the troublesome inductor. There are many aspects of the inductor that make it a difficult component with which to design. These include a lack of standards, temperature variability of key performance parameters, unpredictability of the thermal environment, and sensitivity to layout.
September 27, 2006
Here are the tradeoffs of DC-DC converter design and what you can do to simplify your design.
The design trade-offs that must be addressed during the design of a DC-DC converter circuit are simplified by integrating the inductor into the power management device. This article focuses on the design issues that are simplified by including an integrated inductor optimized for a range of electrical and layout applications as part of the power management solution. The inductor design is considered particularly troublesome since its design can affect performance relative to efficiency, stability and EMI requirements as well as dictate circuit layout and overall footprint. Finally, integration of the inductor guarantees system performance that yields a more turn-key experience for system developers.
That Troublesome Inductor
DC-DC converter design has often been called an art more than a science. One key reason for this is the troublesome inductor. There are many aspects of the inductor that make it a difficult component with which to design. These include a lack of standards, temperature variability of key performance parameters, unpredictability of the thermal environment, and sensitivity to layout.
To read the full article, click here
Related Semiconductor IP
- Chiplet Die-to-Die Interconnect IP Solution
- High speed MACsec Engine 100G/200G/400G/800G/1.6T
- Temperature/Voltage sensors
- AMBA Bus Host to eSPI Controller/Target
- AMBA Bus Host to eSPI Controller
Related Articles
- Guide to Choosing the Best DC-to-DC Converter for Your Application
- Understanding Efficiency of Switched Capacitor DC-DC Converters for Battery-Powered Applications
- How to Design SmartNICs Using FPGAs to Increase Server Compute Capacity
- How to manage changing IP in an evolving SoC design
Latest Articles
- ZK-Flex: A Flexible and Scalable Framework for Accelerating Zero-Knowledge Proofs
- ITP-STDP: An Intrinsic-Timing Power-of-Two Learning Engine for On-Chip SNN Training
- OpenEye: A Scalable Open-Source Hardware Accelerator for DNNs
- CHIMERA: A Flexible and Scalable 3.1 TOPS/W AI-MCU with Transformer Accelerator and 563 Gb/s Shared-L2 Memory Subsystem with QoS Guarantees
- CXL-ClusterSim: Modeling CXL-based Disaggregated Memory Cluster for Pooling and Sharing using gem5 and SST