Abstract
We demonstrate that the highly resistive Si substrate in GaN-on-Si RF HEMTs does not act as an insulator, but instead behaves as a conductive ground plane for static operation and can cause significant back-gate-induced current collapse. Substrate ramp characterization of the buffer shows good agreement with device simulations and indicates that the current collapse is caused by charge-redistribution within the GaN layer. Potential solutions, which alter charge storage and leakage in the epitaxy to counter this effect, are then presented.
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Chandrasekar, H., Uren, M. J., Eblabla, A., Hirshy, H., Casbon, M. A., Tasker, P. J., … Kuball, M. (2018). Buffer-Induced Current Collapse in GaN HEMTs on Highly Resistive Si Substrates. IEEE Electron Device Letters, 39(10), 1556–1559. https://doi.org/10.1109/LED.2018.2864562
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