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

Brian M. Foley; John T. Gaskins; Linli Xie; Naser Alijabbari; Patrick E. Hopkins; Robert M. Weikle II; Souheil Nadri

arxiv: 1512.02699 · v1 · pith:6HFD2C6Unew · submitted 2015-12-08 · ❄️ cond-mat.mtrl-sci

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

Souheil Nadri , Linli Xie , Naser Alijabbari , John T. Gaskins , Brian M. Foley , Patrick E. Hopkins , Robert M. Weikle II This is my paper

classification ❄️ cond-mat.mtrl-sci

keywords thermalanalysisbalancedfoundheatmaximumquadruplerquasi-vertical

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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.

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

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