Low-Loss MIM Capacitor on Thick SiO2 Dielectric for GaN-on-Si Substrates with Standard and Elevated Top Electrode Configurations

2023 53rd European Microwave Conference (EuMC)(2023)

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摘要
In this paper, Monolithic Microwave Integrated Circuits (MMICs)-compatible $\mathrm{Si}_{3} \mathrm{~N}_{4}$-based metal-insulator-metal (MIM)-capacitors with elevated-electrode realised on thick SiO 2 has been demonstrated for the first time for GaN-on-Si technology. Comparative analysis of DC and RF characteristics has also been presented with a standard MIM structure and a benchmark sample on SiC substrate. The outcomes show achievement of low-current/RF leakage and high breakdown voltage $\left(\mathrm{V}_{B V}\right)$ capabilities of the proposed capacitor. Further, analysis of RF loss in GaN-on-HR Si substrates was conducted using electromagnetic simulations and small-signal equivalent circuit models that were derived for accurate design of mm-wave integrated circuits. The developed standard and air bridged capacitors showed a $\mathrm{V}_{B V}$ exceeding 167 V and 189 V respectively. The current-density leakage (J) observed is below 1μA /$\mathrm{cm}^{2}$ up to 30 V at 125°C. This 13% increase in $\mathrm{V}_{B V}$ is achieved with tradeoff of low capacitance density of 68.9% attributed to the additional resistance added by the interconnects. In addition, the proposed air-bridged capacitors achieved low RF leakages of 0.4 dB up to 67 GHz which is 50% lower than the standard MIM capacitor.
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关键词
MIM capacitors,GaN-on-Si,MMIC applications,mm-Wave,CPW,substrate loss
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