Applied Sciences (Aug 2021)

Cu-Doped TiN<sub>x</sub>O<sub>y</sub> Thin Film Resistors DC/RF Performance and Reliability

  • Lev V. Shanidze,
  • Anton S. Tarasov,
  • Mikhail V. Rautskiy,
  • Fyodor V. Zelenov,
  • Stepan O. Konovalov,
  • Ivan V. Nemtsev,
  • Alexander S. Voloshin,
  • Ivan A. Tarasov,
  • Filipp A. Baron,
  • Nikita V. Volkov

DOI
https://doi.org/10.3390/app11167498
Journal volume & issue
Vol. 11, no. 16
p. 7498

Abstract

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We fabricated Cu-doped TiNxOy thin film resistors by using atomic layer deposition, optical lithography, dry etching, Ti/Cu/Ti/Au e-beam evaporation and lift-off processes. The results of the measurements of the resistance temperature dependence, non-linearity, S-parameters at 0.01–26 GHz and details of the breakdown mechanism under high-voltage stress are reported. The devices’ sheet resistance is 220 ± 8 Ω/□ (480 ± 20 µΩ*cm); intrinsic resistance temperature coefficient (TCR) is ~400 ppm/°C in the T-range of 10–300 K; and S-parameters versus frequency are flat up to 2 GHz with maximum variation of 10% at 26 GHz. The resistors can sustain power and current densities up to ~5 kW*cm−2 and ~2 MA*cm−2, above which they switch to high-resistance state with the sheet resistance equal to ~200 kΩ/□ (~0.4 Ω*cm) caused by nitrogen and copper desorption from TiNxOy film. The Cu/Ti/TiNxOy contact is prone to ageing due to gradual titanium oxidation while the TiNxOy resistor body is stable. The resistors have strong potential for applications in high-frequency integrated and hybrid circuits that require small-footprint, medium-range resistors of 0.05–10 kΩ, with small TCR and high-power handling capability.

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