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通过对采用0.18μm CMOS工艺制造的两组不同沟道长度和栅氧厚度的LDD器件电应力退化实验发现,短沟薄栅氧LDD nMOSFET(Lg=0.18μm,Tox=3.2nm)在沟道热载流子(CHC)应力下的器件寿命比在漏雪崩热载流子(DAHC)应力下的器件寿命要短,这与通常认为的DAHC应力(最大衬底电流应力)下器件退化最严重的理论不一致.因此,这种热载流子应力导致的器件退化机理不能用幸运电子模型(LEM)的框架理论来解释.认为这种"非幸运电子模型效应"是由于最大碰撞电离区附近具有高能量的沟道热电子,在Si-SiO2界面产生界面陷阱(界面态)的区域,由Si-SiO2界面的栅和漏的重叠区移至沟道与LDD区的交界处以及更趋于沟道界面的运动引起的. 相似文献
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Based on a self-developed A1GaN/GaN HEMT with 2.5 mm gate width technology on a SiC substrate, an X-band GaN combined solid-state power amplifier module is fabricated. The module consists of an AIGaN/GaN HEMT, Wilkinson power couplers, DC-bias circuit and microstrip line. For each amplifier, we use a bipolar DC power source. Special RC networks at the input and output and a resistor between the DC power source and the gate of the transistor at the input are used for cancellation of self-oscillation and crosstalk of low-frequency of each amplifier. At the same time, branches of length 3λ/4 for Wilkinson power couplers are designed for the elimination of self-oscillation of the two amplifiers. Microstrip stub lines are used for input matching and output matching. Under Vds = 27 V, Vgs = -4.0 V, CW operating conditions at 8 GHz, the amplifier module exhibits a line gain of 5.6 dB with power added efficiency of 23.4%, and output power of 41.46 dBm (14 W), and the power gain compression is 3 dB. Between 8 and 8.5 GHz, the variation of output power is less than 1.5 dB. 相似文献
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