Power modules accelerate the path from 800V to 48V SELV in automotive
Vicor BCM6135 solves historic power design problems for active suspension. Bidirectional and fast-transient DC-DC converters are essential to new design
Article
Scalable, low weight DC-DC solution with high capacitive loads
We recently had a customer that had a variety of unique power system challenges that needed to be overcome. One of these challenges required configuring one of our many DC-DC DCM modules to provide a specific input and output voltage range. System requirements were:
- The power design had to be lightweight, and have a small footprint due to limited space
- The application utilized a large bulk capacitor and had to operate from a constant current source
- Due to the requirement to avoid interference with associated equipment, the DC-DC converters needed to maintain a constant switching frequency
- The customer wanted to leverage this solution with several other platforms and applications with the same input voltage but different load voltages
Using our Power Component Design Methodology we developed a solution using a mix of standard power components, plus specifically configured DCM DC-DC converter modules. Two DCM4623 converters were selected from our component library and configured to operate from a unique 210V nominal input voltage but with different output voltages.
Eight of the first DCMs were configured in parallel to create a high power 3.2kW, isolated and regulated 22V output. This array fed the large bulk capacitor of 200mF. The second DCM was configured to create a 53V output, which was then fed into a pair of Bus Converter Modules (BCMs) to create an efficient, regulated 300W, 3.3V output.
The inherent benefits of the power components used in the design meant that the system had high power density, allowing it to be very small size and lightweight. As with all systems using the Power Component Design Methodology, the system was straightforward to implement, and the short-lead time, cost-effective configured DCM capability offered by Vicor avoided the delays and NRE typically associated with application-specific converters.
Additionally, the DCMs’ constant switching frequency simplified the filtering required to avoid interference affecting associated sensitive equipment.
By using the Power Component Design Methodology, the customer was able to create a highly flexible, efficient solution that met their performance and time to market objectives.
Related content
Product overview: DCM DC-DC converter modules
Product overview: BCM bus converter modules
コンテンツ
設計エンジニア向けコンテンツ
Disaggregating power in data centers
The Vicor BCM6135 solves historic power design problem for active suspension. Bidirectional and fast-transient DC-DC converter essential to new design
BEV advancements are driving sales, but vehicle safety and reliability will ensure long-term viability
Vicor BCMs and DCMs enable easy paralleling that reduces size in the DC-DC converter, and their high efficiency and density increase performance
It’s a mad, mad, mad, mad 48V world
The use of 48V is gaining ground in sectors where higher efficiency, power density, and compactness are priorities