微型探头-传感系统高频响应特性模型适应性

为了拓宽微型探头-传感系统的可用频带,满足高频压力信号的测量需求,需对系统的频率响应特性进行研究,并分析现有数学模型对不同结构微型探头-传感系统的适用性及预测精度。对5种典型结构的微型探头-传感系统进行了判定和划分,综述了现有微型探头-传感系统的频响预测模型、假设条件及模型修正方法。为对理论数学模型进行定量评价,计算得到了不同结构微型探头-传感系统的谐振频率、截止频率和工作频带(幅值误差±5%),并与数值仿真和实验结果进行了对比。结果表明:对于引压管较短的谐振腔,利用Panton模型计算其谐振频率,误差可控制在1%以内;对于引压管较长及带有测压孔的结构,B-T模型的预测精度最高。对实验用微型探头-传感系统进行了优化设计,并用于超声速凝结自激振荡现象的研究。结果表明:优化的微型探头-传感系统频响特性可满足高频(约10 kHz)压力波动信号的动态测量需求。

基于行波传感器的输电线路故障定位方法研究

电容式电压互感器高频响应特性差,满足不了对电压行波测量的要求。该文利用测量电容式电压互感器(CVT)的入地电流行波来检测线路电压行波,设计了行波传感器,提出了硬件行波波头检测方法,并应用于基于整个电网的行波故障定位。仿真分析及装置实验测试表明:该方法实现简单、安装方便、鲁棒性强、定位精度高。该技术已申请国家发明专利。

RESEARCH OF BJMOSFET FREQUENCY CHARACTERISTICS

The parasitic capacitance effect and its influence to the performance have been investigated in Bi-polar Junction Metal-Oxide-Semiconductor Field-Effect Transistor (BJMOSFET). The frequency characteristic equivalent circuit and high frequency response model of BJMOSFET have been presented. The frequency characteristic of BJMOSFET is simulated using the multi-transient analytical method and PSPICE9 simulator. The conclusions that BJMOSFET owns less total capacitance, wider frequency band, better transient charac-teristic and better frequency responses are reached by comparing with the traditional MOSFET at the same structure parameters and bias conditions. BJMOSFET, as a novel promising high frequency device, would be desired to find application in future integrated circuit.