The frequency dependence of admittance measurements (capacitance–voltage (C–V ) and conductance–voltage (G/ω–V )) of Au/SnO2 /n-Si (MOS) capacitors was investigated by taking into account the effects of t...The frequency dependence of admittance measurements (capacitance–voltage (C–V ) and conductance–voltage (G/ω–V )) of Au/SnO2 /n-Si (MOS) capacitors was investigated by taking into account the effects of the interface states (N ss ) and series resistance (Rs ) at room temperature. Admittance measurements were carried out in frequency and bias voltage ranges of 1 kHz–1 MHz and ( 5V)–(+9V), respectively. The values of N ss and R s were determined by using a conductance method and estimating from the admittance measurements of the MOS capacitors. At low frequencies, the interface states can follow the AC signal and yield excess capacitance and conductance. In addition, the parallel conductance (G p /ω) versus log(f) curves at various voltages include a peak due to the presence of interface states. It is observed that the N ss and their time constant (τ) range from 1.23 ×10 12 eV-1 ·cm-2 to 1.47 ×10 12 eV-1 ·cm-2 and from 7.29 ×10-5 s to 1.81 ×10-5s, respectively.展开更多
The dielectric properties of Au/Si3N4/n-Si (MIS) structures are studied using the admittance measurements (C–V and G/ω–V) each as a function of temperature in a range from 80 K to 400 K for two frequencies (10...The dielectric properties of Au/Si3N4/n-Si (MIS) structures are studied using the admittance measurements (C–V and G/ω–V) each as a function of temperature in a range from 80 K to 400 K for two frequencies (100 kHz and 1 MHz). Experimental results show that both the dielectric constant (ε’) and the dielectric loss (ε") increase with temperature increasing and decrease with frequency increasing. The measurements also show that the ac conductivity (σac) increases with temperature and frequency increasing. The lnσac versus 1000/T plot shows two linear regions with different slopes which correspond to low (120 K–240 K) and high (280 K–400 K) temperature ranges for the two frequencies. It is found that activation energy increases with frequency and temperature increasing.展开更多
Multi-microgrids have many new characteristics, such as bi-directional power flow, flexible operation and variable fault current consisting of the different control strategy of inverter interfaced distributed generati...Multi-microgrids have many new characteristics, such as bi-directional power flow, flexible operation and variable fault current consisting of the different control strategy of inverter interfaced distributed generations (IIDGs), which all present challenges in multi-microgrid protection. In this paper, the current and voltage characteristics of different feeders are analyzed considering faults at different locations of the multi-microgrid. Based on the voltage and current distribution characteristics of the line parameters, a new protection scheme for the internal faults of multi-microgrids is proposed, which takes the change of phase difference and amplitude of measured bus admittances as the criterion. This proposed scheme has high sensitivity and reliability, is based on a simple principle, and can be easily adjusted. Simulation results using PSCAD/EMTDC verify the correctness and effectiveness of the protection scheme.展开更多
文摘The frequency dependence of admittance measurements (capacitance–voltage (C–V ) and conductance–voltage (G/ω–V )) of Au/SnO2 /n-Si (MOS) capacitors was investigated by taking into account the effects of the interface states (N ss ) and series resistance (Rs ) at room temperature. Admittance measurements were carried out in frequency and bias voltage ranges of 1 kHz–1 MHz and ( 5V)–(+9V), respectively. The values of N ss and R s were determined by using a conductance method and estimating from the admittance measurements of the MOS capacitors. At low frequencies, the interface states can follow the AC signal and yield excess capacitance and conductance. In addition, the parallel conductance (G p /ω) versus log(f) curves at various voltages include a peak due to the presence of interface states. It is observed that the N ss and their time constant (τ) range from 1.23 ×10 12 eV-1 ·cm-2 to 1.47 ×10 12 eV-1 ·cm-2 and from 7.29 ×10-5 s to 1.81 ×10-5s, respectively.
基金Projected supported by Gazi University Scientific Research Project(BAP),FEF.05/2012-15
文摘The dielectric properties of Au/Si3N4/n-Si (MIS) structures are studied using the admittance measurements (C–V and G/ω–V) each as a function of temperature in a range from 80 K to 400 K for two frequencies (100 kHz and 1 MHz). Experimental results show that both the dielectric constant (ε’) and the dielectric loss (ε") increase with temperature increasing and decrease with frequency increasing. The measurements also show that the ac conductivity (σac) increases with temperature and frequency increasing. The lnσac versus 1000/T plot shows two linear regions with different slopes which correspond to low (120 K–240 K) and high (280 K–400 K) temperature ranges for the two frequencies. It is found that activation energy increases with frequency and temperature increasing.
文摘Multi-microgrids have many new characteristics, such as bi-directional power flow, flexible operation and variable fault current consisting of the different control strategy of inverter interfaced distributed generations (IIDGs), which all present challenges in multi-microgrid protection. In this paper, the current and voltage characteristics of different feeders are analyzed considering faults at different locations of the multi-microgrid. Based on the voltage and current distribution characteristics of the line parameters, a new protection scheme for the internal faults of multi-microgrids is proposed, which takes the change of phase difference and amplitude of measured bus admittances as the criterion. This proposed scheme has high sensitivity and reliability, is based on a simple principle, and can be easily adjusted. Simulation results using PSCAD/EMTDC verify the correctness and effectiveness of the protection scheme.
