J. L. Wang scite author profile

In this paper, the degradation behavior of the electrical characteristics was investigated, and trap analysis based on low-frequency noise (LFN) was carried out for the commercial 1.2-kV/30-A silicon carbide (SiC) power MOSFETs under repetitive short-circuit (SC) stress. The experiment results show that the on-state resistance (R dson) and threshold voltage (V th) increase significantly. Meanwhile, the drain-source current (I ds) decreases obviously with the increase of the SC cycles. Furthermore, the gatesource leakage current (I gss) of the SiC power MOSFETs increase greatly and the blocking characteristics deteriorated after 1000 SC cycles. The positive shift was observed on the gate-capacitance versus gatevoltage (C g-V g) curve, which shows that the damage region could be in channel along the SiC/SiO 2 interface after repetitive SC stress. In order to obtain the trap information, trap characterization was performed by using LFN method, and the LFN results show that the trap density increases with the SC cycles. The physical mechanism could be attributed to electrically active traps generated at SiC/SiO 2 interface and oxide layer due to the peak ionization rate, the perpendicular electrical field and high temperature during SC stress. The study may be useful to provide reference for converters design and fault protection of SiC power MOSFETs. INDEX TERMS Repetitive short-circuit (SC), low-frequency noise (LFN), traps, silicon carbide (SiC) power MOSFETs.

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Photoluminescence, Non-Reduction and Thermal Stability Characteristics of Red Phosphors Ca₃La_3(1-x)Eu_3x(BO₃)₅Prepared in Reducing Atmosphere

Dai

Wang

et al. 2014

ECS J. Solid State Sci. Technol.

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A series of Ca3La3(1-x)Eu3x(BO3)5 phosphors were prepared via a solid-state reaction under reducing atmosphere. Rietveld refinements were performed by adopting the powder X-ray diffraction data, which indicates the occupations of Eu3+ on both La3+ and Ca2+ sites with a preferred location on the La3+ site over the Ca2+ site. This kind of phosphors could be excited by UV and blue LED in solid-state lighting technology and the CIE chromaticity coordinates for phosphors CLBO: 0.06Eu3+ (λex = 254 nm) and CLBO: 0.12Eu3+ (λex = 393 nm) are (0.6712, 0.3328) and (0.6685, 0.3287), respectively, which are compliant with the national television system committee (NTSC) standard for red chromaticity. The energy transfer rate between the Eu3+-Eu3+ pairs is weak that proved by the results of the decay process and the efficiency of the Eu3+ 5D0→7F2 emission. The mechanism responsible for the non-reduction of Eu3+ was analyzed, which was determined by two factors: 1) no element of the host matrix can be oxidized and 2), cationic vacancies which can be regarded as the electron donor cannot exist. The temperature dependence study shows thermal quenching behavior is attributed to crossover from the 5D0 excited state of the Eu3+ to the charge transfer state band and these phosphors have good thermal stability.

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J. L. Wang

Anomalous tunable visible to near infrared emission in the Mn²⁺-doped spinel MgGa₂O₄ and room-temperature upconversion in the Mn²⁺ and Yb³⁺-codoped spinel

Room-temperature green to orange color-tunable upconversion luminescence from Yb³⁺/Mn²⁺co-doped CaO

Degradation Behavior and Mechanisms of E-Mode GaN HEMTs With p-GaN Gate Under Reverse Electrostatic Discharge Stress

Trap Analysis Based on Low-Frequency Noise for SiC Power MOSFETs Under Repetitive Short-Circuit Stress

Photoluminescence, Non-Reduction and Thermal Stability Characteristics of Red Phosphors Ca₃La_3(1-x)Eu_3x(BO₃)₅Prepared in Reducing Atmosphere

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J. L. Wang

Anomalous tunable visible to near infrared emission in the Mn2+-doped spinel MgGa2O4 and room-temperature upconversion in the Mn2+ and Yb3+-codoped spinel

Room-temperature green to orange color-tunable upconversion luminescence from Yb3+/Mn2+co-doped CaO

Degradation Behavior and Mechanisms of E-Mode GaN HEMTs With p-GaN Gate Under Reverse Electrostatic Discharge Stress

Trap Analysis Based on Low-Frequency Noise for SiC Power MOSFETs Under Repetitive Short-Circuit Stress

Photoluminescence, Non-Reduction and Thermal Stability Characteristics of Red Phosphors Ca3La3(1-x)Eu3x(BO3)5Prepared in Reducing Atmosphere

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Product

Resources

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Anomalous tunable visible to near infrared emission in the Mn²⁺-doped spinel MgGa₂O₄ and room-temperature upconversion in the Mn²⁺ and Yb³⁺-codoped spinel

Room-temperature green to orange color-tunable upconversion luminescence from Yb³⁺/Mn²⁺co-doped CaO

Photoluminescence, Non-Reduction and Thermal Stability Characteristics of Red Phosphors Ca₃La_3(1-x)Eu_3x(BO₃)₅Prepared in Reducing Atmosphere