有源电压箝位串联HV IGBT的适用性和优化(二)

介绍了5.2 kV高压绝缘栅双极型晶体管(HV IGBTs)的成功串联应用.穿通型HV IGBT串联应用时要完全控制感应过电压,最大的障碍是拖尾电流的关断问题.可以证明,采用先进的电压箝位技术能够限制因关断拖尾电流而引起的第二个电压尖峰.阳极采用载流子寿命局部分布的IGBT很适合这种应用;拖尾电流间隔时间越短,关断损耗越小.文中集中讨论了穿通型HV IGBT器件串联时的最佳通态等离子体分布,HV IGBT的最新发展趋势似乎与讨论结论相一致.未来先进的HV IGBT技术可完全减轻第一代HV IGBT串联时的困难.     

On the Destabilizing Effect of Liquids in Various Vehicles* (part 1)

The unrestrained free surface of a liquid has an alarming propensity to undergo large excursions for even very small motions of the container. This fact may endanger the stability, as well as the riding and maneuvering quality of the vehicle considerably. It is particularly true for fuel- or cargo tanks of automotive vehicles, railroad tank cars, for fuel tanks of large ships and tankers, for which violent sea conditions at times result in fairly large amplitudes of pitching, heaving and rolling, as well as for airplanes and spacevehicles flying through atmospheric disturbances. The response of liquids contained in cargo- or fuel tanks is therefore of quite some concern, especially in those cases where the sloshing liquid masses occupy a large amount of the total mass of the vehicle.

For this reason the theory of liquid motion with a free surface is presented for containers of various geometries. Forces and moments of the liquid exerted upon the vehicle are presented and a simple mechanical model for the representation of the liquid motion is derived. Methods for the reduction of the destabilizing effect of the liquid motion, such as baffles, cross walls and surface coverings are presented and shall exhibit their effectiveness. In addition the interaction of the liquid motion with the elastic structure of the container, as well as the interaction with a controlling system of the vehicle shall be demonstrated. Stability boundaries, design criteria and dynamic responses to disturbances shall be presented for a particular case.     

有源电压箝位串联HV IGBT的适用性和优化(一)

介绍了5.2 kV高压绝缘栅双极型晶体管(HV IGBTs)的成功串联应用.穿通型HV IGBT串联应用时要完全控制感应过电压,最大的障碍是拖尾电流的关断问题.可以证明,采用先进的电压箝位技术能够限制因关断拖尾电流而引起的第二个电压尖峰.阳极采用载流子寿命局部分布的IGBT很适合这种应用;拖尾电流间隔时间越短,关断损耗越小.文中集中讨论了穿通型HV IGBT器件串联时的最佳通态等离子体分布,HV IGBT的最新发展趋势似乎与讨论结论相一致.未来先进的HV IGBT技术可完全减轻第一代HV IGBT串联时的困难.     

Fuzzy Logic Traction Controllers and their Effect on Longitudinal Vehicle Platoon Systems

This paper presents two fuzzy logic traction controllers and investigates their effect on longitudinal platoon systems. A fuzzy logic approach is appealing for traction control because of the nonlinearity and time-varying uncertainty involved in traction control systems

The fuzzy logic traction controllers we present regulate brake torque to control wheel slip, which is the normalized difference between wheel and vehicle speed. One fuzzy controller estimates the peak slip corresponding to the maximum tire-road adhesion coefficient and regulates wheel slip at the peak slip. The controller is attractive because of its ability to maximize acceleration and deceleration regardless of road condition. However, we find through simulations the controller's performance degrades in the presence of time-varying uncertainties. The other fuzzy logic controller regulates wheel slip at any desired value. Through simulations we find the controller robust against changing road conditions and uncertainties. The target slip is predetermined and not necessarily the peak slip for all road conditions. If the target slip is set low, stable acceleration and deceleration is guaranteed, regardless of road condition

We also study the effect of traction control on longitudinal vehicle platoon systems using simulations. The simulations include acceleration and deceleration maneuvers on an icy road. The results indicate traction control may substantially improve longitudinal platoon performance, especially when icy road conditions exist.     

防伪技术

品牌保护计划和产品供应链项目的成功与否，取决于品牌供应商是否有能力满足不同客户的个性化需求。现在，造假技术已经非常高明了，假冒伪劣产品完全可以达到以假乱真的程度，人们从外包装上很难区分出假冒伪劣产品与正品的差异。采用科学方法设计的防伪包装技术能够确保药品的真实性、质量和安全性。