Your search keyword '"Tang, Zhikai"' showing total 5 results

1. Influence of AlN Passivation on Dynamic ON-Resistance and Electric Field Distribution in High-Voltage AlGaN/GaN-on-Si HEMTs.

Author

Tang, Zhikai, Huang, Sen, Tang, Xi, Li, Baikui, and Chen, Kevin J.

Subjects

*ELECTRIC resistance, *ELECTRIC fields, *ELECTRIC potential, *ELECTROLUMINESCENCE, *MODULATION-doped field-effect transistors

Abstract

We investigate in detail the influence of AlN passivation on dynamic ON-resistance ( \(R_{\mathrm{{\scriptstyle ON}}}\) ) and electric field ( \(E\) -field) distribution in high-voltage AlGaN/GaN high electron mobility transistors (HEMTs) on a Si substrate based on pulsed \(I\) – \(V\) measurements, electroluminescence (EL) microscopy, and 2-D physics-based numerical device simulations. It is found that the dynamic \(R_{\mathrm{{\scriptstyle ON}}}\) increase has been significantly suppressed to below 10% at various temperatures ranging from −50 to 200 °C owing to the effective and robust compensation of deep acceptor-like trap states at the AlN/GaN (passivation/cap) interface by the additional positive polarization charges induced in the epitaxial AlN thin passivation layer grown in a plasma-enhanced atomic layer deposition system. To the best of our knowledge, this is the first time that highly suppressed current collapse in an AlGaN/GaN HEMT on a Si substrate within a wide temperature range is ever reported. By monitoring the dynamic \(R_{\mathrm{{\scriptstyle ON}}}\) for 100 consecutive 133-kHz switching cycles, its variation is observed to be less than 2.5%, indicating excellent stability of the passivation effectiveness. The electric field in an AlN-passivated device is found to be well confined at the drain-side gate edge, as shown in EL measurement and numerical simulation results. This phenomenon directly suggests that the virtual gate effect arising from surface trap charging has been effectively alleviated by the AlN passivation technique. [ABSTRACT FROM AUTHOR]

Published

2014

2. Characterization of VT-instability in enhancement-mode Al2O3-AlGaN/GaN MIS-HEMTs.

Author

Lu, Yunyou, Yang, Shu, Jiang, Qimeng, Tang, Zhikai, Li, Baikui, and Chen, Kevin J.

Subjects

METAL insulator semiconductors, TRANSISTORS, ALUMINUM gallium nitride, ION implantation, DIELECTRICS research

Abstract

The threshold voltage ( VT) instability of metal-insulator-semiconductor high electron mobility transistors (MIS-HEMTs) is investigated. In the enhancement-mode AlGaN/GaN MIS-HEMT fabricated by fluorine plasma implantation technique featuring Al2O3 gate dielectric, a hysteresis of 0.6 V in transfer characteristics is observed by quasi-static I - V (current-voltage) measurement, in which the gate bias is swept at a low rate (0.7 V/s). Pulsed transfer characteristics measurement, however, unveils much larger hysteresis under the same gate voltage swing. The VT-instability is attributed to the traps located at the dielectric/III-nitride interface as well as in the bulk of gate dielectric. It is proposed that pulsed measurement can count for the effect of fast traps (shallow traps) while the quasi-static measurement can only reflect slow traps (deep traps), and is more accurate for VT-instability evaluation. In addition, the existence of bulk traps is implied by a slow time-dependent shift of VT under large gate bias. (© 2013 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim) [ABSTRACT FROM AUTHOR]

Published

2013

3. Thermally Stable Enhancement-Mode GaN Metal-Isolator-Semiconductor High-Electron-Mobility Transistor With Partially Recessed Fluorine-Implanted Barrier.

Author

Liu, Cheng, Yang, Shu, Liu, Shenghou, Tang, Zhikai, Wang, Hanxing, Jiang, Qimeng, and Chen, Kevin J.

Subjects

ELECTRIC properties of gallium nitride, SEMICONDUCTORS, ELECTRON mobility, FLUORINE compounds, DIELECTRICS

Abstract

Al2O3/AlGaN/GaN enhancement-mode metal-isolator-semiconductor high-electron-mobility transistor (MIS-HEMT) featuring a partially recessed (Al) GaN barrier was realized by a fluorine plasma implantation/etch technique. By properly adjusting the RF power driving the fluorine plasma, the fluorine plasma is able to produce two desirable results: 1) a well-controlled slow dry etching for gate recess and 2) implanting fluorine ions into the AlGaN barrier. The fluorine ions become negatively charged in the barrier layer and induce a positive shift in the threshold voltage. The proposed MIS-HEMT exhibits a threshold voltage ( V\mathrm {\mathbf {TH}}) of +0.6 V at a drain current of 10~\mu \textA /mm, a maximum drive current of 730 mA/mm, an ON-resistance of 7.07~\Omega \,\cdot \, mm, and an OFF-state breakdown voltage of 703 V at an OFF-state drain leakage current of 1~\mu \text{A} /mm. From room temperature to 200 °C, the device exhibits a small negative shift of V_{\mathrm {\mathbf {TH}}}$ ( $\sim 0.5$ V) that is attributed to the high-quality dielectric/F-implanted-(Al) GaN interface and the partially recessed barrier. [ABSTRACT FROM AUTHOR]

Published

2015

4. 600-V Normally Off SiNx/AlGaN/GaN MIS-HEMT With Large Gate Swing and Low Current Collapse.

Author

Tang, Zhikai, Jiang, Qimeng, Lu, Yunyou, Huang, Sen, Yang, Shu, Tang, Xi, and Chen, Kevin J.

Subjects

SILICON nitride, ALUMINUM gallium nitride, LOGIC circuits, ELECTRIC currents, METAL-insulator-semiconductor devices, MODULATION-doped field-effect transistors

Abstract

In this letter, 600-V normally-OFF SiNx/AlGaN/GaN metal–insulator–semiconductor high-electron-mobility transistor (MIS-HEMT) is reported. Normally-OFF operation and low OFF-state gate leakage are obtained by using fluorine plasma ion implantation in conjunction with the adoption of a 17-nm SiNx thin film grown by plasma-enhanced chemical vapor deposition as the gate insulator. The normally-OFF MIS-HEMT exhibits a threshold voltage of +3.6~V, a drive current of 430 mA/mm at a gate bias of 14 V, a specific ON-resistance of 2.1 m\Omega\cdotcm^2 and an OFF-state breakdown voltage of 604 V at a drain leakage current of 1 \muA/mm with VGS=0~\rm V, and the substrate grounded. Effective current collapse suppression is obtained by AlN/SiNx passivation as proved by high-speed pulsed I\--V and low-speed high-voltage switching measurement results. [ABSTRACT FROM AUTHOR]

Published

2013

5. High-Voltage (600-V) Low-Leakage Low-Current-Collapse AlGaN/GaN HEMTs With AlN/ \SiNx Passivation.

Author

Tang, Zhikai, Huang, Sen, Jiang, Qimeng, Liu, Shenghou, Liu, Cheng, and Chen, Kevin J.

Subjects

STRAY currents, MODULATION-doped field-effect transistors, INTEGRATED circuit passivation, ALUMINUM gallium nitride, GALLIUM nitride, HIGH voltages

Abstract

An effective passivation technique that yields low off-state leakage and low current collapse simultaneously in high-voltage (600-V) AlGaN/GaN high-electron-mobility transistors (HEMTs) is reported in this letter. The passivation structure consists of an AlN/\SiNx stack with 4-nm AlN deposited by plasma-enhanced atomic layer deposition and 50-nm \SiNx deposited by PECVD. The AlN/ \SiNx-passivated HEMTs with a gate–drain distance of 15 \mu\m exhibit a high maximum drain current of 900 mA/mm, a low off-state current of 0.7 \mu\A/mm at VDS = \600\ \V, and a steep subthreshold slope of 63 mV/dec. Compared with the static on-resistance of 1.3 \m\Omega \cdot \cm^2, the dynamic on-resistance after high off-state drain bias stress at 650 V only increases to 2.1 \m\Omega \cdot \cm^2. A high breakdown voltage of 632 V is achieved at a drain leakage current of 1 \mu\A/mm . [ABSTRACT FROM PUBLISHER]

Published

2013