AlN ceramic pcb substrate is the most widely used in automotive LED headlights. It has 10 times higher thermal conductivity than aluminum PCB and 100 times higher than Al2O3 material,
VT-4B5H Metal Base Laminate has a high Tg of 180˚C, which indicates excellent thermal stability under high temperatures. With a thermal conductivity of 4.2 W/mK, VT-4B5H is highly effective at
VT-4B7 features a robust thermal conductivity of 7.0 W/mK, Facilitates rapid heat transfer away from components, ensuring optimal performance and longevity. with an MOT of 130°C, VT-4B7 can operate reliably
VT-4B3 Metal Base Laminate is designed to meet the demanding requirements of high-performance electronics, offering a balance of thermal management and reliability. With a thermal conductivity of 3.0 W/mK, VT-4B3
The double-sided "thermoelectric separation" copper substrate produced by QFPCB has achieved a leap in thermal conductivity. Utilizing a special raised structure for heat dissipation, the substrate boasts a thermal conductivity
Rogers ROLINX busbars are recognized as the global industry leader in laminated busbar technology.ROLINX busbars are constructed and manufactured laminated busbars that meet the strictest requirements for railway drive converters,
VT-4BC features a high glass transition temperature of 180°C ensures it maintains its structural integrity and electrical properties at elevated temperatures. it features a thermal conductivity of 10 W/mK, which
