Doohyung Cho scite author profile

In this paper, We proposed Separate Gate Technique(SGT) to improve the switching characteristics of Trench power MOSFET. Low gate-to-drain 전하 (Miller 전하 : Qgd) has to be achieved to improve the switching characteristics of Trench power MOSFET. A thin poly-silicon deposition is processed to form side wall which is used as gate and thus, it has thinner gate compared to the gate of conventional Trench MOSFET. The reduction of the overlapped area between the gate and the drain decreases the overlapped charge, and the performance of the proposed device is compared to the conventional Trench MOSFET using Silvaco T-CAD. Ciss(input capacitance : Cgs+Cgd), Coss(output capacitance : Cgd+Cds) and Crss(reverse recovery capacitance : Cgd) are reduced to 14.3%, 23% and 30% respectively. To confirm the reduction effect of capacitance, the characteristics of inverter circuit is comprised. Consequently, the reverse recovery time is reduced by 28%. The proposed device can be fabricated with convetional processes without any electrical property degradation compare to conventional device. 요 약 이 논문에서 Trench Power MOSFET의 스위칭 성능을 향상시키기 위한 Separate Gate Technique(SGT)을 제안 하였다. Trench Power MOSFET의 스위칭 성능을 개선시키기 위해서는 낮은 gate-to-drain 전하 (Miller 전하)가 요구된다. 이를 위하여 제안된 separate gate technique은 얇은(~500A)의 poly-si을 deposition하여 sidewall을 형성

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A study on N2O direct oxidation process with re-oxidation annealing for the improvement of interface properties in 4H-SiC MOS capacitor

Cho

Park

Yoo

et al. 2017

Journal of the Korean Physical Society

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Doohyung Cho

Stability and reliability of LTCC-based 5/12 V dual output DC-DC converter with high efficiency and small size

Multi-layer ceramic based surface mount device packaging for 1200 V and 1700 V SiC SBD power semiconductors

1700 V full-SiC half-bridge power module with low switching loss

Trench Power MOSFET using Separate Gate Technique for Reducing Gate Charge

A study on N2O direct oxidation process with re-oxidation annealing for the improvement of interface properties in 4H-SiC MOS capacitor

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Doohyung Cho

Stability and reliability of LTCC-based 5/12 ​V dual output DC-DC converter with high efficiency and small size

Multi-layer ceramic based surface mount device packaging for 1200 V and 1700 V SiC SBD power semiconductors

1700 V full-SiC half-bridge power module with low switching loss

Trench Power MOSFET using Separate Gate Technique for Reducing Gate Charge

A study on N2O direct oxidation process with re-oxidation annealing for the improvement of interface properties in 4H-SiC MOS capacitor

Contact Info

Product

Resources

About

Stability and reliability of LTCC-based 5/12 V dual output DC-DC converter with high efficiency and small size