
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
Thermal calculations required when selecting heat sinking are relatively straightforward but can be time-consuming, particularly if you want to investigate the impact of changes to certain parameters. To help speed up the process of determining what heat sink is required for your design, the Vicor tool suite includes a calculator that lets you quickly and easily evaluate thermal issues for heat sink selection.
The tool can make four separate calculations:
Originally designed for use with Vicor modules, the tool can also be applied to thermal calculations for our other products. For more in-depth calculations, there is an option to download an Excel spreadsheet.
Ensuring adequate heat sinking is critical for reliable power system operation. Try the thermal calculation for heat sink selection, and see how it could speed up your development process.
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
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
用于电动汽车供电网络(PDN)的高压母线转换器 48V 电源模块
48V 架构可减少损耗,有助于实现更小、更轻的电源系统。Vicor DC-DC 转换器超越分立式设计,优化电源系统
纯电动汽车的技术进步正推动销量增长,但车辆安全性和可靠性才是长期生存的关键
Vicor BCM 和 DCM 可轻松实现并联,从而减少 DC-DC 转换器的尺寸,其高效率和高密度可提升性能