建立基于电压控制电流源(voltage-controlled current source,CCS)的工频介质阻挡放电(dielectric barrier discharge,DBD)动态仿真模型和实验装置,对空气中平板电极结构DBD进行仿真与实验研究。可通过分别计算仿真与实验得到的电压电...建立基于电压控制电流源(voltage-controlled current source,CCS)的工频介质阻挡放电(dielectric barrier discharge,DBD)动态仿真模型和实验装置,对空气中平板电极结构DBD进行仿真与实验研究。可通过分别计算仿真与实验得到的电压电流波形和电压电荷Lissajous图形得到DBD的电气参数,二者的定量比较验证了仿真模型的准确性,利用仿真模型和实验装置对不同外加电压幅值、阻挡介质厚度与介电常数条件下DBD功率的变化情况进行研究和定量比较,并从理论上对所得的仿真计算结果与实验测量结果的变化规律进行定性分析。研究结果表明,基于CCS的工频DBD动态仿真模型能够反映放电的真实情况,仿真计算所得到的不同条件下DBD的放电功率与实验测量所得到的值是吻合的,且两者的变化规律均与定性理论分析是一致的。展开更多
Switching expansion reduction(SER) uses a switch valve to substitute the throttle valve to reduce pressure for high pressure pneumatics.The experiments indicate that the simulation model well predicts the actual chara...Switching expansion reduction(SER) uses a switch valve to substitute the throttle valve to reduce pressure for high pressure pneumatics.The experiments indicate that the simulation model well predicts the actual characteristics.The heat transfers and polytropic exponents of the air in expansion tank and supply tanks of SER have been studied on the basis of the experiments and the simulation model.Through the mathematical reasoning in this paper,the polytropic exponent can be calculated by the air mass,heat,and work exchanges of the pneumatic container.For the air in a constant volume tank,when the heat-absorption is large enough to raise air temperature in discharging process,the polytropic exponent is less than 1;when the air is experiencing a discharging and heat-releasing process,the polytropic exponent exceeds the specific heat ratio(the value of 1.4).展开更多
A method for system-level simulation between microbolometer designing and Read-Out Integrated Circuit(ROIC) was studied. Three-dimensional(3D) structure modeling of the microbolometer was built. Thermal capacity, ther...A method for system-level simulation between microbolometer designing and Read-Out Integrated Circuit(ROIC) was studied. Three-dimensional(3D) structure modeling of the microbolometer was built. Thermal capacity, thermal conductivity and resistance of the model were obtained from thermoelectric coupling Finite Element Method(FEM) based on the model. An electrical equipment circuit of microbolometer which contains these three parameters was established. By using Verilog-AMS language, the electrical equipment circuit was described as a reduced-order macro-model. Then, the reduced-order macromodel was compiled in cadence to form IP unit of microbolometer, which could be used and identified in cadence. Systemlevel simulation between microbolometer and ROIC was accomplished. Key performances of the device, including input and output characteristics, were obtained in simulation and verified by experimental results.展开更多
文摘建立基于电压控制电流源(voltage-controlled current source,CCS)的工频介质阻挡放电(dielectric barrier discharge,DBD)动态仿真模型和实验装置,对空气中平板电极结构DBD进行仿真与实验研究。可通过分别计算仿真与实验得到的电压电流波形和电压电荷Lissajous图形得到DBD的电气参数,二者的定量比较验证了仿真模型的准确性,利用仿真模型和实验装置对不同外加电压幅值、阻挡介质厚度与介电常数条件下DBD功率的变化情况进行研究和定量比较,并从理论上对所得的仿真计算结果与实验测量结果的变化规律进行定性分析。研究结果表明,基于CCS的工频DBD动态仿真模型能够反映放电的真实情况,仿真计算所得到的不同条件下DBD的放电功率与实验测量所得到的值是吻合的,且两者的变化规律均与定性理论分析是一致的。
基金supported by the National Natural Science Foundation of China (No.50575202)
文摘Switching expansion reduction(SER) uses a switch valve to substitute the throttle valve to reduce pressure for high pressure pneumatics.The experiments indicate that the simulation model well predicts the actual characteristics.The heat transfers and polytropic exponents of the air in expansion tank and supply tanks of SER have been studied on the basis of the experiments and the simulation model.Through the mathematical reasoning in this paper,the polytropic exponent can be calculated by the air mass,heat,and work exchanges of the pneumatic container.For the air in a constant volume tank,when the heat-absorption is large enough to raise air temperature in discharging process,the polytropic exponent is less than 1;when the air is experiencing a discharging and heat-releasing process,the polytropic exponent exceeds the specific heat ratio(the value of 1.4).
基金supported by the National Natural Science Foundation of China(Grant Nos.61235006 and 61421002)
文摘A method for system-level simulation between microbolometer designing and Read-Out Integrated Circuit(ROIC) was studied. Three-dimensional(3D) structure modeling of the microbolometer was built. Thermal capacity, thermal conductivity and resistance of the model were obtained from thermoelectric coupling Finite Element Method(FEM) based on the model. An electrical equipment circuit of microbolometer which contains these three parameters was established. By using Verilog-AMS language, the electrical equipment circuit was described as a reduced-order macro-model. Then, the reduced-order macromodel was compiled in cadence to form IP unit of microbolometer, which could be used and identified in cadence. Systemlevel simulation between microbolometer and ROIC was accomplished. Key performances of the device, including input and output characteristics, were obtained in simulation and verified by experimental results.
