Higher Voltage Ni/CdTe Schottky Diodes With Low Leakage Current

High-voltage 4H-SiC Junction Barrier Schottky diodes with a reverse breakdown voltage of over 4.5 kV and a turn-on voltage below 1 V have been fabricated. They achieved a forward current of 5 A at a forward voltage drop of 1.8 V and 20 A at 4.2 V. A low reverse leakage current of 0.3 μA at 1.2 kV and 37 μA at 3.3 kV was measured. The chip size was 7.3 mm x 7.3 mm, the active area 0.25 cm2 and the diode was able to handle a repetitive pulse current density of over 300 A/cm2 without degradation. Floating field rings in combination with a field-stop ring were used as edge termination to reach 73 % of the theoretical breakdown voltage. The epitaxial layer was 32 μm thick, with a nitrogen doping concentration of 1 x 1015 cm-3. The JBS diodes have been manufactured in a 100 mm SiC prototyping line, using well established processing technology, to achieve cost-efficient devices.

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Effects of Epitaxial Layer Growth Parameters on the Defect Density and on the Electrical Characteristics of Schottky Diodes

Materials Science Forum ◽

10.4028/www.scientific.net/msf.483-485.429 ◽

2005 ◽

Vol 483-485 ◽

pp. 429-432 ◽

Cited By ~ 1

Author(s):

Francesco La Via ◽

Fabrizio Roccaforte ◽

Salvatore di Franco ◽

Alfonso Ruggiero ◽

L. Neri ◽

...

Keyword(s):

Growth Rate ◽

Leakage Current ◽

Epitaxial Layer ◽

Defect Density ◽

Growth Parameters ◽

Schottky Diodes ◽

Layer Growth ◽

Epitaxial Layers ◽

Low Leakage ◽

Low Leakage Current

The effects of the Si/H2 ratio on the growth of the epitaxial layer and on the epitaxial defects was studied in detail. A large increase of the growth rate has been observed with the increase of the silicon flux in the CVD reactor. Close to a Si/H2 ratio of 0.05 % silicon nucleation in the gas phase occurs producing a great amount of silicon particles that precipitate on the wafers. The epitaxial layers grown with a Si/H2 ratio of 0.03% show a low defect density and a low leakage current of the Schottky diodes realized on these wafers. For these diodes the DLTS spectra show thepresence of several peaks at 0.14, 0.75, 1.36 and 1.43 eV. For epitaxial layers grown with higher values of the Si/H2 ratio and then with an higher growth rate, the leakage current of the Schottky diodes increases considerably.

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High nonlinearity and low leakage current SnO2 varistor ceramics by co-doping with yttrium and tantalum

Materials Letters ◽

10.1016/j.matlet.2020.129120 ◽

2021 ◽

Vol 285 ◽

pp. 129120

Author(s):

Wenxin Liang ◽

Hongfeng Zhao ◽

Xiaoji Meng ◽

Shaohua Fan ◽

Qingyun Xie

Keyword(s):

Leakage Current ◽

Co Doping ◽

High Nonlinearity ◽

Low Leakage ◽

Low Leakage Current

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Development of high k/III-V (InGaAs, InAs, InSb) structures for future low power, high speed device applications

MRS Proceedings ◽

10.1557/opl.2013.585 ◽

2013 ◽

Vol 1538 ◽

pp. 291-302

Author(s):

Edward Yi Chang ◽

Hai-Dang Trinh ◽

Yueh-Chin Lin ◽

Hiroshi Iwai ◽

Yen-Ku Lin

Keyword(s):

Low Power ◽

Leakage Current ◽

High Speed ◽

High Performance ◽

Gate Oxide ◽

Chemical Cleaning ◽

Low Leakage ◽

Low Leakage Current ◽

High K ◽

Cleaning Methods

ABSTRACTIII-V compounds such as InGaAs, InAs, InSb have great potential for future low power high speed devices (such as MOSFETs, QWFETs, TFETs and NWFETs) application due to their high carrier mobility and drift velocity. The development of good quality high k gate oxide as well as high k/III-V interfaces is prerequisite to realize high performance working devices. Besides, the downscaling of the gate oxide into sub-nanometer while maintaining appropriate low gate leakage current is also needed. The lack of high quality III-V native oxides has obstructed the development of implementing III-V based devices on Si template. In this presentation, we will discuss our efforts to improve high k/III-V interfaces as well as high k oxide quality by using chemical cleaning methods including chemical solutions, precursors and high temperature gas treatments. The electrical properties of high k/InSb, InGaAs, InSb structures and their dependence on the thermal processes are also discussed. Finally, we will present the downscaling of the gate oxide into sub-nanometer scale while maintaining low leakage current and a good high k/III-V interface quality.

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Barium Zirconate Nickelate as the Gate Dielectric for Low-Leakage Current Organic Transistors

IEEE Transactions on Electron Devices ◽

10.1109/ted.2017.2786225 ◽

2018 ◽

Vol 65 (2) ◽

pp. 680-686 ◽

Cited By ~ 1

Author(s):

Cheng-Jung Lee ◽

Ke-Jing Lee ◽

Yu-Chi Chang ◽

Li-Wen Wang ◽

Der-Wei Chou ◽

...

Keyword(s):

Leakage Current ◽

Gate Dielectric ◽

Organic Transistors ◽

Barium Zirconate ◽

Low Leakage ◽

Low Leakage Current

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High k PVP titanium dioxide composite dielectric with low leakage current for thin film transistor

Organic Electronics ◽

10.1016/j.orgel.2021.106413 ◽

2021 ◽

pp. 106413

Author(s):

Yuexin Yang ◽

Zhuohui Xu ◽

Tian Qiu ◽

Honglong Ning ◽

Jinyao Zhong ◽

...

Keyword(s):

Thin Film ◽

Titanium Dioxide ◽

Leakage Current ◽

Thin Film Transistor ◽

Low Leakage ◽

Low Leakage Current ◽

High K

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Large-size (1.7 × 1.7 mm2) β-Ga2O3 field-plated trench MOS-type Schottky barrier diodes with 1.2 kV breakdown voltage and 109 high on/off current ratio

Applied Physics Express ◽

10.35848/1882-0786/ac4080 ◽

2021 ◽

Vol 15 (1) ◽

pp. 016501

Author(s):

Fumio Otsuka ◽

Hironobu Miyamoto ◽

Akio Takatsuka ◽

Shinji Kunori ◽

Kohei Sasaki ◽

...

Keyword(s):

Schottky Barrier ◽

Leakage Current ◽

Schottky Barrier Diodes ◽

Wafer Level ◽

Current Ratio ◽

Field Plate ◽

Low Leakage ◽

Large Size ◽

Forward Current ◽

Low Leakage Current

Abstract We fabricated high forward and low leakage current trench MOS-type Schottky barrier diodes (MOSSBDs) in combination with a field plate on a 12 μm thick epitaxial layer grown by halide vapor phase epitaxy on β-Ga2O3 (001) substrate. The MOSSBDs, measuring 1.7 × 1.7 mm2, exhibited a forward current of 2 A (70 A cm−2) at 2 V forward voltage and a leakage current of 5.7 × 10–10 A at −1.2 kV reverse voltage (on/off current ratio of > 109) with an ideality factor of 1.05 and wafer-level specific on-resistance of 17.1 mΩ · cm2.

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