Neeraj, Shobha Sharma, Anubha Goel, Sonam Rewari, S. Deswal, R. Gupta
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引用次数: 0
摘要
本文研究了各种界面阱电荷对基于碳化硅的栅-叠层、双金属、环绕栅、场效应晶体管(4H-SiC-GSDM-SGFET)的影响。它的性能与基于碳化硅(4H-SiC)的双金属、环绕栅 FET(4H-SiC-DM- SGFET)进行了对比。对这两种器件的输出特性进行了检测,包括跨导(gm)、输出电导(gd)、漏极电流(Ids)、栅极电容(Cgg)、截止频率(fT)和阈值电压(Vth)。此外,还使用等值线图对两种器件结构的表面电势和电子浓度进行了检测。为实现所提出的结构,我们使用了高 k 介电层氧化镧(La2O3)和栅极介电层氧化铝(Al2O3)的栅极叠层。此外,我们还研究了阱电荷如何影响噪声系数(NF)和噪声电导(NC)。此外,我们还开发了一种 CMOS 逆变器,并比较了两种器件结构的输出特性。模拟采用了 ATLAS 3-D 器件模拟器。
Impact of Interface Trap Charges on Silicon Carbide (4H-SiC) Based Gate – Stack, Dual Metal, Surrounding Gate, FET (4H-SiC- GSDM-SGFET) for Analog and Noise Performance Analysis for 5G/LTE Applications
This article examines the impact of various interface trap charges on silicon carbide-based gate – stack, dual metal, surrounding gate, FET (4H-SiC-GSDM-SGFET). It has been contrasted for performance with silicon carbide (4H-SiC)-based dual metal, surrounding gate, FET (4H-SiC-DM- SGFET). For both devices, output characteristics including transconductance (gm), output conductance (gd), drain current (Ids), gate capacitance (Cgg), cutoff frequency (fT) and threshold voltage (Vth) have been examined. Surface potential and electron concentration were also inspected using a contour plot for both the device structures. A gate-stack with a high k- dielectric, Lanthanum oxide (La2O3) along with gate dielectric layer Aluminum oxide (Al2O3) was used for proposed structure implementation. Additionally, we investigated how trap charges affect noise figure (NF) and noise conductance (NC). Also, a CMOS inverter has been developed and its output characteristics have been compared for both the device architectures. ATLAS 3-D device simulator has been employed to conduct the simulations.
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