Heat Pipe Embedded AlSiC Plates for High Conductivity Low CTE Heat

Pgs Embedded Heat Spreaders. Heat Spreader Efficiency Improvements by Addition of Latent Heat Our IP-protected single-layer graphene technology enables us to produce a range of thicknesses from 20um-100um for different. The cross-plane thermal conductivity is only 15 W/(m K)

G3's heat spreader, AT1500, offers a significant performance improvements over current heat spreading products such as PGS (Pyrolytic Graphite Sheet) They utilize a proprietary gradient material with variable thermal conductivity, creating a localized gradient that efficiently distributes heat from critical components to surrounding areas

EPS8130XT PC/104 Managed Rugged 8 Port Gigabit Switch with

PGS-embedded conductor bar with integrated thermal strap PGS-embedded conductor bar with integrated thermal strap G3's heat spreader, AT1500, offers a significant performance improvements over current heat spreading products such as PGS (Pyrolytic Graphite Sheet)

A thermal spreading setup with TGP and heat sink (Q is heat transfer. Tests performed with a 3.5-W heat source in a cell-phone-sized enclosure showed that the use of PGS plus the heat-storage material extended the time to reach 60ºC by about 430% (100 s to 430 s). PGS of 50 µm thickness with 1300 W/(m K) in-plane thermal conductivity are selected

Application of Diamond Heat Spreaders for the Thermal Management of GaN. Graphene is a two-dimensional nanomaterial with the highest thermal conductivity value* among all known materials They utilize a proprietary gradient material with variable thermal conductivity, creating a localized gradient that efficiently distributes heat from critical components to surrounding areas