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引用次数: 12
摘要
GaN HEMT中的色散,包括栅极和漏极滞后,与基于SRH理论的新捕获模型有关。该模型用于解释导通瞬态及其时间常数的偏置电位和终端电位依赖关系。由于时间常数非常长,它们会影响真实直流特性的测量,并导致膝关节脱落。温度作为时间的函数是一个重要的考虑因素。漏极电流和捕获的模型都需要考虑温度和功耗随时间的变化。研究了陷阱电位和终端电位之间的关系。
Characterizing drain current dispersion in GaN HEMTs with a new trap model
Dispersion in a GaN HEMT, including gate and drain lag, is related to a new trapping model based on SRH theory. The model is used to explain the bias- and terminal-potential dependency of the turn-on transients and their time constants. Because the time constants are extremely long they impact the measurement of true dc characteristics and contribute to knee walk-out. Temperature as a function of time is shown to be a vital consideration. The models of both drain current and trapping need to consider temperature and power dissipation versus time. The relationship between trap potentials and terminal potentials is investigated.
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