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Steady-State Thermal Analysis of an Integrated 160 GHz Balanced Quadrupler Based on Quasi-Vertical Schottky Diodes

This work reports on a steady-state thermal analysis of a 160 GHz balanced quadrupler, based on a quasi-vertical varactor Schottky diode process, for high power applications. The chip is analyzed by solving the heat equation via the 3D finite element method. Time-Domain Thermoreflectance (TDTR) was used to measure the thermal conductivity of the different materials used in the model. A maximum anode temperature of 64.9 C was found from the simulation. The addition of an extra beam lead connected to the block, for heat sinking, was found to reduce this maximum temperature to 41.0 C.

preprint2015arXivOpen access
Souheil NadriLinli XieNaser AlijabbariJohn T. GaskinsBrian M. FoleyPatrick E. HopkinsRobert M. Weikle II
cond-mat.mtrl-sci
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Open access7 authors1 topic
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Souheil NadriLinli XieNaser AlijabbariJohn T. GaskinsBrian M. FoleyPatrick E. HopkinsRobert M. Weikle II

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